(function() { /*! * @overview Ember - JavaScript Application Framework * @copyright Copyright 2011-2018 Tilde Inc. and contributors * Portions Copyright 2006-2011 Strobe Inc. * Portions Copyright 2008-2011 Apple Inc. All rights reserved. * @license Licensed under MIT license * See https://raw.github.com/emberjs/ember.js/master/LICENSE * @version 3.0.0-beta.1 */ /*globals process */ var enifed, requireModule, Ember; // Used in ember-environment/lib/global.js mainContext = this; // eslint-disable-line no-undef (function() { function missingModule(name, referrerName) { if (referrerName) { throw new Error('Could not find module ' + name + ' required by: ' + referrerName); } else { throw new Error('Could not find module ' + name); } } function internalRequire(_name, referrerName) { var name = _name; var mod = registry[name]; if (!mod) { name = name + '/index'; mod = registry[name]; } var exports = seen[name]; if (exports !== undefined) { return exports; } exports = seen[name] = {}; if (!mod) { missingModule(_name, referrerName); } var deps = mod.deps; var callback = mod.callback; var reified = new Array(deps.length); for (var i = 0; i < deps.length; i++) { if (deps[i] === 'exports') { reified[i] = exports; } else if (deps[i] === 'require') { reified[i] = requireModule; } else { reified[i] = internalRequire(deps[i], name); } } callback.apply(this, reified); return exports; } var isNode = typeof window === 'undefined' && typeof process !== 'undefined' && {}.toString.call(process) === '[object process]'; if (!isNode) { Ember = this.Ember = this.Ember || {}; } if (typeof Ember === 'undefined') { Ember = {}; } if (typeof Ember.__loader === 'undefined') { var registry = {}; var seen = {}; enifed = function(name, deps, callback) { var value = { }; if (!callback) { value.deps = []; value.callback = deps; } else { value.deps = deps; value.callback = callback; } registry[name] = value; }; requireModule = function(name) { return internalRequire(name, null); }; // setup `require` module requireModule['default'] = requireModule; requireModule.has = function registryHas(moduleName) { return !!registry[moduleName] || !!registry[moduleName + '/index']; }; requireModule._eak_seen = registry; Ember.__loader = { define: enifed, require: requireModule, registry: registry }; } else { enifed = Ember.__loader.define; requireModule = Ember.__loader.require; } })(); enifed("@glimmer/node", ["exports", "@glimmer/runtime"], function (exports, _runtime) { "use strict"; exports.NodeDOMTreeConstruction = undefined; function _defaults(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _possibleConstructorReturn(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults(subClass, superClass); } var NodeDOMTreeConstruction = function (_DOMTreeConstruction) { _inherits(NodeDOMTreeConstruction, _DOMTreeConstruction); function NodeDOMTreeConstruction(doc) { _classCallCheck(this, NodeDOMTreeConstruction); return _possibleConstructorReturn(this, _DOMTreeConstruction.call(this, doc)); } // override to prevent usage of `this.document` until after the constructor NodeDOMTreeConstruction.prototype.setupUselessElement = function () {}; NodeDOMTreeConstruction.prototype.insertHTMLBefore = function (parent, reference, html) { var prev = reference ? reference.previousSibling : parent.lastChild; var raw = this.document.createRawHTMLSection(html); parent.insertBefore(raw, reference); var first = prev ? prev.nextSibling : parent.firstChild; var last = reference ? reference.previousSibling : parent.lastChild; return new _runtime.ConcreteBounds(parent, first, last); }; // override to avoid SVG detection/work when in node (this is not needed in SSR) NodeDOMTreeConstruction.prototype.createElement = function (tag) { return this.document.createElement(tag); }; // override to avoid namespace shenanigans when in node (this is not needed in SSR) NodeDOMTreeConstruction.prototype.setAttribute = function (element, name, value) { element.setAttribute(name, value); }; return NodeDOMTreeConstruction; }(_runtime.DOMTreeConstruction); exports.NodeDOMTreeConstruction = NodeDOMTreeConstruction; }); enifed("@glimmer/reference", ["exports", "@glimmer/util"], function (exports, _util) { "use strict"; exports.isModified = exports.ReferenceCache = exports.map = exports.CachedReference = exports.UpdatableTag = exports.CachedTag = exports.combine = exports.combineSlice = exports.combineTagged = exports.DirtyableTag = exports.CURRENT_TAG = exports.VOLATILE_TAG = exports.CONSTANT_TAG = exports.TagWrapper = exports.RevisionTag = exports.VOLATILE = exports.INITIAL = exports.CONSTANT = exports.IteratorSynchronizer = exports.ReferenceIterator = exports.IterationArtifacts = exports.referenceFromParts = exports.ListItem = exports.isConst = exports.ConstReference = undefined; function _defaults(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _possibleConstructorReturn(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults(subClass, superClass); } function _classCallCheck$1(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var CONSTANT = 0; var INITIAL = 1; var VOLATILE = NaN; var RevisionTag = function () { function RevisionTag() { _classCallCheck$1(this, RevisionTag); } RevisionTag.prototype.validate = function (snapshot) { return this.value() === snapshot; }; return RevisionTag; }(); RevisionTag.id = 0; var VALUE = []; var VALIDATE = []; var TagWrapper = function () { function TagWrapper(type, inner) { _classCallCheck$1(this, TagWrapper); this.type = type; this.inner = inner; } TagWrapper.prototype.value = function () { var func = VALUE[this.type]; return func(this.inner); }; TagWrapper.prototype.validate = function (snapshot) { var func = VALIDATE[this.type]; return func(this.inner, snapshot); }; return TagWrapper; }(); function register(Type) { var type = VALUE.length; VALUE.push(function (tag) { return tag.value(); }); VALIDATE.push(function (tag, snapshot) { return tag.validate(snapshot); }); Type.id = type; } /// // CONSTANT: 0 VALUE.push(function () { return CONSTANT; }); VALIDATE.push(function (_tag, snapshot) { return snapshot === CONSTANT; }); var CONSTANT_TAG = new TagWrapper(0, null); // VOLATILE: 1 VALUE.push(function () { return VOLATILE; }); VALIDATE.push(function (_tag, snapshot) { return snapshot === VOLATILE; }); var VOLATILE_TAG = new TagWrapper(1, null); // CURRENT: 2 VALUE.push(function () { return $REVISION; }); VALIDATE.push(function (_tag, snapshot) { return snapshot === $REVISION; }); var CURRENT_TAG = new TagWrapper(2, null); /// var $REVISION = INITIAL; var DirtyableTag = function (_RevisionTag) { _inherits(DirtyableTag, _RevisionTag); DirtyableTag.create = function () { var revision = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : $REVISION; return new TagWrapper(this.id, new DirtyableTag(revision)); }; function DirtyableTag() { var revision = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : $REVISION; _classCallCheck$1(this, DirtyableTag); var _this = _possibleConstructorReturn(this, _RevisionTag.call(this)); _this.revision = revision; return _this; } DirtyableTag.prototype.value = function () { return this.revision; }; DirtyableTag.prototype.dirty = function () { this.revision = ++$REVISION; }; return DirtyableTag; }(RevisionTag); register(DirtyableTag); function _combine(tags) { switch (tags.length) { case 0: return CONSTANT_TAG; case 1: return tags[0]; case 2: return TagsPair.create(tags[0], tags[1]); default: return TagsCombinator.create(tags); } } var CachedTag = function (_RevisionTag2) { _inherits(CachedTag, _RevisionTag2); function CachedTag() { _classCallCheck$1(this, CachedTag); var _this2 = _possibleConstructorReturn(this, _RevisionTag2.apply(this, arguments)); _this2.lastChecked = null; _this2.lastValue = null; return _this2; } CachedTag.prototype.value = function () { var lastChecked = this.lastChecked, lastValue = this.lastValue; if (lastChecked !== $REVISION) { this.lastChecked = $REVISION; this.lastValue = lastValue = this.compute(); } return this.lastValue; }; CachedTag.prototype.invalidate = function () { this.lastChecked = null; }; return CachedTag; }(RevisionTag); var TagsPair = function (_CachedTag) { _inherits(TagsPair, _CachedTag); TagsPair.create = function (first, second) { return new TagWrapper(this.id, new TagsPair(first, second)); }; function TagsPair(first, second) { _classCallCheck$1(this, TagsPair); var _this3 = _possibleConstructorReturn(this, _CachedTag.call(this)); _this3.first = first; _this3.second = second; return _this3; } TagsPair.prototype.compute = function () { return Math.max(this.first.value(), this.second.value()); }; return TagsPair; }(CachedTag); register(TagsPair); var TagsCombinator = function (_CachedTag2) { _inherits(TagsCombinator, _CachedTag2); TagsCombinator.create = function (tags) { return new TagWrapper(this.id, new TagsCombinator(tags)); }; function TagsCombinator(tags) { _classCallCheck$1(this, TagsCombinator); var _this4 = _possibleConstructorReturn(this, _CachedTag2.call(this)); _this4.tags = tags; return _this4; } TagsCombinator.prototype.compute = function () { var tags = this.tags, i, value; var max = -1; for (i = 0; i < tags.length; i++) { value = tags[i].value(); max = Math.max(value, max); } return max; }; return TagsCombinator; }(CachedTag); register(TagsCombinator); var UpdatableTag = function (_CachedTag3) { _inherits(UpdatableTag, _CachedTag3); UpdatableTag.create = function (tag) { return new TagWrapper(this.id, new UpdatableTag(tag)); }; function UpdatableTag(tag) { _classCallCheck$1(this, UpdatableTag); var _this5 = _possibleConstructorReturn(this, _CachedTag3.call(this)); _this5.tag = tag; _this5.lastUpdated = INITIAL; return _this5; } UpdatableTag.prototype.compute = function () { return Math.max(this.lastUpdated, this.tag.value()); }; UpdatableTag.prototype.update = function (tag) { if (tag !== this.tag) { this.tag = tag; this.lastUpdated = $REVISION; this.invalidate(); } }; return UpdatableTag; }(CachedTag); register(UpdatableTag); var CachedReference = function () { function CachedReference() { _classCallCheck$1(this, CachedReference); this.lastRevision = null; this.lastValue = null; } CachedReference.prototype.value = function () { var tag = this.tag, lastRevision = this.lastRevision, lastValue = this.lastValue; if (!lastRevision || !tag.validate(lastRevision)) { lastValue = this.lastValue = this.compute(); this.lastRevision = tag.value(); } return lastValue; }; CachedReference.prototype.invalidate = function () { this.lastRevision = null; }; return CachedReference; }(); var MapperReference = function (_CachedReference) { _inherits(MapperReference, _CachedReference); function MapperReference(reference, mapper) { _classCallCheck$1(this, MapperReference); var _this6 = _possibleConstructorReturn(this, _CachedReference.call(this)); _this6.tag = reference.tag; _this6.reference = reference; _this6.mapper = mapper; return _this6; } MapperReference.prototype.compute = function () { var reference = this.reference, mapper = this.mapper; return mapper(reference.value()); }; return MapperReference; }(CachedReference); ////////// var ReferenceCache = function () { function ReferenceCache(reference) { _classCallCheck$1(this, ReferenceCache); this.lastValue = null; this.lastRevision = null; this.initialized = false; this.tag = reference.tag; this.reference = reference; } ReferenceCache.prototype.peek = function () { if (!this.initialized) { return this.initialize(); } return this.lastValue; }; ReferenceCache.prototype.revalidate = function () { if (!this.initialized) { return this.initialize(); } var reference = this.reference, lastRevision = this.lastRevision; var tag = reference.tag; if (tag.validate(lastRevision)) return NOT_MODIFIED; this.lastRevision = tag.value(); var lastValue = this.lastValue; var value = reference.value(); if (value === lastValue) return NOT_MODIFIED; this.lastValue = value; return value; }; ReferenceCache.prototype.initialize = function () { var reference = this.reference; var value = this.lastValue = reference.value(); this.lastRevision = reference.tag.value(); this.initialized = true; return value; }; return ReferenceCache; }(); var NOT_MODIFIED = "adb3b78e-3d22-4e4b-877a-6317c2c5c145"; function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var ConstReference = function () { function ConstReference(inner) { _classCallCheck(this, ConstReference); this.inner = inner; this.tag = CONSTANT_TAG; } ConstReference.prototype.value = function () { return this.inner; }; return ConstReference; }(); function _defaults$1(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _classCallCheck$2(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _possibleConstructorReturn$1(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$1(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$1(subClass, superClass); } var ListItem = function (_ListNode) { _inherits$1(ListItem, _ListNode); function ListItem(iterable, result) { _classCallCheck$2(this, ListItem); var _this = _possibleConstructorReturn$1(this, _ListNode.call(this, iterable.valueReferenceFor(result))); _this.retained = false; _this.seen = false; _this.key = result.key; _this.iterable = iterable; _this.memo = iterable.memoReferenceFor(result); return _this; } ListItem.prototype.update = function (item) { this.retained = true; this.iterable.updateValueReference(this.value, item); this.iterable.updateMemoReference(this.memo, item); }; ListItem.prototype.shouldRemove = function () { return !this.retained; }; ListItem.prototype.reset = function () { this.retained = false; this.seen = false; }; return ListItem; }(_util.ListNode); var IterationArtifacts = function () { function IterationArtifacts(iterable) { _classCallCheck$2(this, IterationArtifacts); this.map = (0, _util.dict)(); this.list = new _util.LinkedList(); this.tag = iterable.tag; this.iterable = iterable; } IterationArtifacts.prototype.isEmpty = function () { var iterator = this.iterator = this.iterable.iterate(); return iterator.isEmpty(); }; IterationArtifacts.prototype.iterate = function () { var iterator = this.iterator || this.iterable.iterate(); this.iterator = null; return iterator; }; IterationArtifacts.prototype.has = function (key) { return !!this.map[key]; }; IterationArtifacts.prototype.get = function (key) { return this.map[key]; }; IterationArtifacts.prototype.wasSeen = function (key) { var node = this.map[key]; return node && node.seen; }; IterationArtifacts.prototype.append = function (item) { var map = this.map, list = this.list, iterable = this.iterable; var node = map[item.key] = new ListItem(iterable, item); list.append(node); return node; }; IterationArtifacts.prototype.insertBefore = function (item, reference) { var map = this.map, list = this.list, iterable = this.iterable; var node = map[item.key] = new ListItem(iterable, item); node.retained = true; list.insertBefore(node, reference); return node; }; IterationArtifacts.prototype.move = function (item, reference) { var list = this.list; item.retained = true; list.remove(item); list.insertBefore(item, reference); }; IterationArtifacts.prototype.remove = function (item) { var list = this.list; list.remove(item); delete this.map[item.key]; }; IterationArtifacts.prototype.nextNode = function (item) { return this.list.nextNode(item); }; IterationArtifacts.prototype.head = function () { return this.list.head(); }; return IterationArtifacts; }(); var ReferenceIterator = function () { // if anyone needs to construct this object with something other than // an iterable, let @wycats know. function ReferenceIterator(iterable) { _classCallCheck$2(this, ReferenceIterator); this.iterator = null; var artifacts = new IterationArtifacts(iterable); this.artifacts = artifacts; } ReferenceIterator.prototype.next = function () { var artifacts = this.artifacts; var iterator = this.iterator = this.iterator || artifacts.iterate(); var item = iterator.next(); if (!item) return null; return artifacts.append(item); }; return ReferenceIterator; }(); var Phase; (function (Phase) { Phase[Phase["Append"] = 0] = "Append"; Phase[Phase["Prune"] = 1] = "Prune"; Phase[Phase["Done"] = 2] = "Done"; })(Phase || (Phase = {})); var IteratorSynchronizer = function () { function IteratorSynchronizer(_ref) { var target = _ref.target, artifacts = _ref.artifacts; _classCallCheck$2(this, IteratorSynchronizer); this.target = target; this.artifacts = artifacts; this.iterator = artifacts.iterate(); this.current = artifacts.head(); } IteratorSynchronizer.prototype.sync = function () { var phase = Phase.Append; while (true) { switch (phase) { case Phase.Append: phase = this.nextAppend(); break; case Phase.Prune: phase = this.nextPrune(); break; case Phase.Done: this.nextDone(); return; } } }; IteratorSynchronizer.prototype.advanceToKey = function (key) { var current = this.current, artifacts = this.artifacts; var seek = current; while (seek && seek.key !== key) { seek.seen = true; seek = artifacts.nextNode(seek); } this.current = seek && artifacts.nextNode(seek); }; IteratorSynchronizer.prototype.nextAppend = function () { var iterator = this.iterator, current = this.current, artifacts = this.artifacts; var item = iterator.next(); if (item === null) { return this.startPrune(); } var key = item.key; if (current && current.key === key) { this.nextRetain(item); } else if (artifacts.has(key)) { this.nextMove(item); } else { this.nextInsert(item); } return Phase.Append; }; IteratorSynchronizer.prototype.nextRetain = function (item) { var artifacts = this.artifacts, current = this.current; current = current; current.update(item); this.current = artifacts.nextNode(current); this.target.retain(item.key, current.value, current.memo); }; IteratorSynchronizer.prototype.nextMove = function (item) { var current = this.current, artifacts = this.artifacts, target = this.target; var key = item.key; var found = artifacts.get(item.key); found.update(item); if (artifacts.wasSeen(item.key)) { artifacts.move(found, current); target.move(found.key, found.value, found.memo, current ? current.key : null); } else { this.advanceToKey(key); } }; IteratorSynchronizer.prototype.nextInsert = function (item) { var artifacts = this.artifacts, target = this.target, current = this.current; var node = artifacts.insertBefore(item, current); target.insert(node.key, node.value, node.memo, current ? current.key : null); }; IteratorSynchronizer.prototype.startPrune = function () { this.current = this.artifacts.head(); return Phase.Prune; }; IteratorSynchronizer.prototype.nextPrune = function () { var artifacts = this.artifacts, target = this.target, current = this.current; if (current === null) { return Phase.Done; } var node = current; this.current = artifacts.nextNode(node); if (node.shouldRemove()) { artifacts.remove(node); target.delete(node.key); } else { node.reset(); } return Phase.Prune; }; IteratorSynchronizer.prototype.nextDone = function () { this.target.done(); }; return IteratorSynchronizer; }(); exports.ConstReference = ConstReference; exports.isConst = function (reference) { return reference.tag === CONSTANT_TAG; }; exports.ListItem = ListItem; exports.referenceFromParts = function (root, parts) { var reference = root, i; for (i = 0; i < parts.length; i++) { reference = reference.get(parts[i]); } return reference; }; exports.IterationArtifacts = IterationArtifacts; exports.ReferenceIterator = ReferenceIterator; exports.IteratorSynchronizer = IteratorSynchronizer; exports.CONSTANT = CONSTANT; exports.INITIAL = INITIAL; exports.VOLATILE = VOLATILE; exports.RevisionTag = RevisionTag; exports.TagWrapper = TagWrapper; exports.CONSTANT_TAG = CONSTANT_TAG; exports.VOLATILE_TAG = VOLATILE_TAG; exports.CURRENT_TAG = CURRENT_TAG; exports.DirtyableTag = DirtyableTag; exports.combineTagged = function (tagged) { var optimized = [], i, l, tag; for (i = 0, l = tagged.length; i < l; i++) { tag = tagged[i].tag; if (tag === VOLATILE_TAG) return VOLATILE_TAG; if (tag === CONSTANT_TAG) continue; optimized.push(tag); } return _combine(optimized); }; exports.combineSlice = function (slice) { var optimized = [], tag; var node = slice.head(); while (node !== null) { tag = node.tag; if (tag === VOLATILE_TAG) return VOLATILE_TAG; if (tag !== CONSTANT_TAG) optimized.push(tag); node = slice.nextNode(node); } return _combine(optimized); }; exports.combine = function (tags) { var optimized = [], i, l, tag; for (i = 0, l = tags.length; i < l; i++) { tag = tags[i]; if (tag === VOLATILE_TAG) return VOLATILE_TAG; if (tag === CONSTANT_TAG) continue; optimized.push(tag); } return _combine(optimized); }; exports.CachedTag = CachedTag; exports.UpdatableTag = UpdatableTag; exports.CachedReference = CachedReference; exports.map = function (reference, mapper) { return new MapperReference(reference, mapper); }; exports.ReferenceCache = ReferenceCache; exports.isModified = function (value) { return value !== NOT_MODIFIED; }; }); enifed('@glimmer/runtime', ['exports', '@glimmer/util', '@glimmer/reference', '@glimmer/wire-format'], function (exports, _util, _reference2, _wireFormat) { 'use strict'; exports.ConcreteBounds = exports.ElementStack = exports.insertHTMLBefore = exports.isWhitespace = exports.DOMTreeConstruction = exports.IDOMChanges = exports.DOMChanges = exports.isComponentDefinition = exports.ComponentDefinition = exports.PartialDefinition = exports.Environment = exports.Scope = exports.isSafeString = exports.RenderResult = exports.UpdatingVM = exports.compileExpression = exports.compileList = exports.InlineMacros = exports.BlockMacros = exports.getDynamicVar = exports.resetDebuggerCallback = exports.setDebuggerCallback = exports.normalizeTextValue = exports.debugSlice = exports.Register = exports.readDOMAttr = exports.defaultPropertyManagers = exports.defaultAttributeManagers = exports.defaultManagers = exports.INPUT_VALUE_PROPERTY_MANAGER = exports.PropertyManager = exports.AttributeManager = exports.IAttributeManager = exports.CompiledDynamicTemplate = exports.CompiledStaticTemplate = exports.compileLayout = exports.OpcodeBuilderDSL = exports.ConditionalReference = exports.PrimitiveReference = exports.UNDEFINED_REFERENCE = exports.NULL_REFERENCE = exports.templateFactory = exports.Simple = undefined; function _defaults(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _possibleConstructorReturn(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults(subClass, superClass); } function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } /** * Registers * * For the most part, these follows MIPS naming conventions, however the * register numbers are different. */ var Register; (function (Register) { // $0 or $pc (program counter): pointer into `program` for the next insturction; -1 means exit Register[Register["pc"] = 0] = "pc"; // $1 or $ra (return address): pointer into `program` for the return Register[Register["ra"] = 1] = "ra"; // $2 or $fp (frame pointer): pointer into the `evalStack` for the base of the stack Register[Register["fp"] = 2] = "fp"; // $3 or $sp (stack pointer): pointer into the `evalStack` for the top of the stack Register[Register["sp"] = 3] = "sp"; // $4-$5 or $s0-$s1 (saved): callee saved general-purpose registers Register[Register["s0"] = 4] = "s0"; Register[Register["s1"] = 5] = "s1"; // $6-$7 or $t0-$t1 (temporaries): caller saved general-purpose registers Register[Register["t0"] = 6] = "t0"; Register[Register["t1"] = 7] = "t1"; })(Register || (exports.Register = Register = {})); var AppendOpcodes = function () { function AppendOpcodes() { _classCallCheck(this, AppendOpcodes); this.evaluateOpcode = (0, _util.fillNulls)(72 /* Size */).slice(); } AppendOpcodes.prototype.add = function (name, evaluate) { this.evaluateOpcode[name] = evaluate; }; AppendOpcodes.prototype.evaluate = function (vm, opcode, type) { var func = this.evaluateOpcode[type]; func(vm, opcode); }; return AppendOpcodes; }(); var APPEND_OPCODES = new AppendOpcodes(); var AbstractOpcode = function () { function AbstractOpcode() { _classCallCheck(this, AbstractOpcode); (0, _util.initializeGuid)(this); } AbstractOpcode.prototype.toJSON = function () { return { guid: this._guid, type: this.type }; }; return AbstractOpcode; }(); var UpdatingOpcode = function (_AbstractOpcode) { _inherits(UpdatingOpcode, _AbstractOpcode); function UpdatingOpcode() { _classCallCheck(this, UpdatingOpcode); var _this = _possibleConstructorReturn(this, _AbstractOpcode.apply(this, arguments)); _this.next = null; _this.prev = null; return _this; } return UpdatingOpcode; }(AbstractOpcode); function _defaults$1(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _classCallCheck$1(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _possibleConstructorReturn$1(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$1(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$1(subClass, superClass); } var PrimitiveReference = function (_ConstReference) { _inherits$1(PrimitiveReference, _ConstReference); function PrimitiveReference(value) { _classCallCheck$1(this, PrimitiveReference); return _possibleConstructorReturn$1(this, _ConstReference.call(this, value)); } PrimitiveReference.create = function (value) { if (value === undefined) { return UNDEFINED_REFERENCE; } else if (value === null) { return NULL_REFERENCE; } else if (value === true) { return TRUE_REFERENCE; } else if (value === false) { return FALSE_REFERENCE; } else if (typeof value === 'number') { return new ValueReference(value); } else { return new StringReference(value); } }; PrimitiveReference.prototype.get = function () { return UNDEFINED_REFERENCE; }; return PrimitiveReference; }(_reference2.ConstReference); var StringReference = function (_PrimitiveReference) { _inherits$1(StringReference, _PrimitiveReference); function StringReference() { _classCallCheck$1(this, StringReference); var _this2 = _possibleConstructorReturn$1(this, _PrimitiveReference.apply(this, arguments)); _this2.lengthReference = null; return _this2; } StringReference.prototype.get = function (key) { var lengthReference; if (key === 'length') { lengthReference = this.lengthReference; if (lengthReference === null) { lengthReference = this.lengthReference = new ValueReference(this.inner.length); } return lengthReference; } else { return _PrimitiveReference.prototype.get.call(this, key); } }; return StringReference; }(PrimitiveReference); var ValueReference = function (_PrimitiveReference2) { _inherits$1(ValueReference, _PrimitiveReference2); function ValueReference(value) { _classCallCheck$1(this, ValueReference); return _possibleConstructorReturn$1(this, _PrimitiveReference2.call(this, value)); } return ValueReference; }(PrimitiveReference); var UNDEFINED_REFERENCE = new ValueReference(undefined); var NULL_REFERENCE = new ValueReference(null); var TRUE_REFERENCE = new ValueReference(true); var FALSE_REFERENCE = new ValueReference(false); var ConditionalReference = function () { function ConditionalReference(inner) { _classCallCheck$1(this, ConditionalReference); this.inner = inner; this.tag = inner.tag; } ConditionalReference.prototype.value = function () { return this.toBool(this.inner.value()); }; ConditionalReference.prototype.toBool = function (value) { return !!value; }; return ConditionalReference; }(); function _defaults$2(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _classCallCheck$2(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _possibleConstructorReturn$2(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$2(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$2(subClass, superClass); } var ConcatReference = function (_CachedReference) { _inherits$2(ConcatReference, _CachedReference); function ConcatReference(parts) { _classCallCheck$2(this, ConcatReference); var _this = _possibleConstructorReturn$2(this, _CachedReference.call(this)); _this.parts = parts; _this.tag = (0, _reference2.combineTagged)(parts); return _this; } ConcatReference.prototype.compute = function () { var parts = new Array(), i, value; for (i = 0; i < this.parts.length; i++) { value = this.parts[i].value(); if (value !== null && value !== undefined) { parts[i] = castToString(value); } } if (parts.length > 0) { return parts.join(''); } return null; }; return ConcatReference; }(_reference2.CachedReference); function castToString(value) { if (typeof value.toString !== 'function') { return ''; } return String(value); } APPEND_OPCODES.add(1 /* Helper */, function (vm, _ref) { var _helper = _ref.op1; var stack = vm.stack; var helper = vm.constants.getFunction(_helper); var args = stack.pop(); var value = helper(vm, args); args.clear(); vm.stack.push(value); }); APPEND_OPCODES.add(2 /* Function */, function (vm, _ref2) { var _function = _ref2.op1; var func = vm.constants.getFunction(_function); vm.stack.push(func(vm)); }); APPEND_OPCODES.add(5 /* GetVariable */, function (vm, _ref3) { var symbol = _ref3.op1; var expr = vm.referenceForSymbol(symbol); vm.stack.push(expr); }); APPEND_OPCODES.add(4 /* SetVariable */, function (vm, _ref4) { var symbol = _ref4.op1; var expr = vm.stack.pop(); vm.scope().bindSymbol(symbol, expr); }); APPEND_OPCODES.add(70 /* ResolveMaybeLocal */, function (vm, _ref5) { var _name = _ref5.op1; var name = vm.constants.getString(_name); var locals = vm.scope().getPartialMap(); var ref = locals[name]; if (ref === undefined) { ref = vm.getSelf().get(name); } vm.stack.push(ref); }); APPEND_OPCODES.add(19 /* RootScope */, function (vm, _ref6) { var symbols = _ref6.op1, bindCallerScope = _ref6.op2; vm.pushRootScope(symbols, !!bindCallerScope); }); APPEND_OPCODES.add(6 /* GetProperty */, function (vm, _ref7) { var _key = _ref7.op1; var key = vm.constants.getString(_key); var expr = vm.stack.pop(); vm.stack.push(expr.get(key)); }); APPEND_OPCODES.add(7 /* PushBlock */, function (vm, _ref8) { var _block = _ref8.op1; var block = _block ? vm.constants.getBlock(_block) : null; vm.stack.push(block); }); APPEND_OPCODES.add(8 /* GetBlock */, function (vm, _ref9) { var _block = _ref9.op1; vm.stack.push(vm.scope().getBlock(_block)); }); APPEND_OPCODES.add(9 /* HasBlock */, function (vm, _ref10) { var _block = _ref10.op1; var hasBlock = !!vm.scope().getBlock(_block); vm.stack.push(hasBlock ? TRUE_REFERENCE : FALSE_REFERENCE); }); APPEND_OPCODES.add(10 /* HasBlockParams */, function (vm, _ref11) { var _block = _ref11.op1; var block = vm.scope().getBlock(_block); var hasBlockParams = block && block.symbolTable.parameters.length; vm.stack.push(hasBlockParams ? TRUE_REFERENCE : FALSE_REFERENCE); }); APPEND_OPCODES.add(11 /* Concat */, function (vm, _ref12) { var count = _ref12.op1, i; var out = []; for (i = count; i > 0; i--) { out.push(vm.stack.pop()); } vm.stack.push(new ConcatReference(out.reverse())); }); var _createClass = function () { function defineProperties(target, props) { var i, descriptor; for (i = 0; i < props.length; i++) { descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false;descriptor.configurable = true;if ("value" in descriptor) descriptor.writable = true;Object.defineProperty(target, descriptor.key, descriptor); } }return function (Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps);if (staticProps) defineProperties(Constructor, staticProps);return Constructor; }; }(); function _classCallCheck$4(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var Arguments = function () { function Arguments() { _classCallCheck$4(this, Arguments); this.stack = null; this.positional = new PositionalArguments(); this.named = new NamedArguments(); } Arguments.prototype.empty = function () { this.setup(null, true); return this; }; Arguments.prototype.setup = function (stack, synthetic) { this.stack = stack; var names = stack.fromTop(0); var namedCount = names.length; var positionalCount = stack.fromTop(namedCount + 1); var positional = this.positional; positional.setup(stack, positionalCount + namedCount + 2, positionalCount); var named = this.named; named.setup(stack, namedCount, names, synthetic); }; Arguments.prototype.at = function (pos) { return this.positional.at(pos); }; Arguments.prototype.get = function (name) { return this.named.get(name); }; Arguments.prototype.capture = function () { return { tag: this.tag, length: this.length, positional: this.positional.capture(), named: this.named.capture() }; }; Arguments.prototype.clear = function () { var stack = this.stack, length = this.length; stack.pop(length + 2); }; _createClass(Arguments, [{ key: 'tag', get: function () { return (0, _reference2.combineTagged)([this.positional, this.named]); } }, { key: 'length', get: function () { return this.positional.length + this.named.length; } }]); return Arguments; }(); var PositionalArguments = function () { function PositionalArguments() { _classCallCheck$4(this, PositionalArguments); this.length = 0; this.stack = null; this.start = 0; this._tag = null; this._references = null; } PositionalArguments.prototype.setup = function (stack, start, length) { this.stack = stack; this.start = start; this.length = length; this._tag = null; this._references = null; }; PositionalArguments.prototype.at = function (position) { var start = this.start, length = this.length; if (position < 0 || position >= length) { return UNDEFINED_REFERENCE; } // stack: pos1, pos2, pos3, named1, named2 // start: 4 (top - 4) // // at(0) === pos1 === top - start // at(1) === pos2 === top - (start - 1) // at(2) === pos3 === top - (start - 2) return this.stack.fromTop(start - position - 1); }; PositionalArguments.prototype.capture = function () { return new CapturedPositionalArguments(this.tag, this.references); }; _createClass(PositionalArguments, [{ key: 'tag', get: function () { var tag = this._tag; if (!tag) { tag = this._tag = (0, _reference2.combineTagged)(this.references); } return tag; } }, { key: 'references', get: function () { var references = this._references, length, i; if (!references) { length = this.length; references = this._references = new Array(length); for (i = 0; i < length; i++) { references[i] = this.at(i); } } return references; } }]); return PositionalArguments; }(); var CapturedPositionalArguments = function () { function CapturedPositionalArguments(tag, references) { var length = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : references.length; _classCallCheck$4(this, CapturedPositionalArguments); this.tag = tag; this.references = references; this.length = length; } CapturedPositionalArguments.prototype.at = function (position) { return this.references[position]; }; CapturedPositionalArguments.prototype.value = function () { return this.references.map(this.valueOf); }; CapturedPositionalArguments.prototype.get = function (name) { var references = this.references, length = this.length, idx; if (name === 'length') { return PrimitiveReference.create(length); } else { idx = parseInt(name, 10); if (idx < 0 || idx >= length) { return UNDEFINED_REFERENCE; } else { return references[idx]; } } }; CapturedPositionalArguments.prototype.valueOf = function (reference$$1) { return reference$$1.value(); }; return CapturedPositionalArguments; }(); var NamedArguments = function () { function NamedArguments() { _classCallCheck$4(this, NamedArguments); this.length = 0; this._tag = null; this._references = null; this._names = null; this._realNames = _util.EMPTY_ARRAY; } NamedArguments.prototype.setup = function (stack, length, names, synthetic) { this.stack = stack; this.length = length; this._tag = null; this._references = null; if (synthetic) { this._names = names; this._realNames = _util.EMPTY_ARRAY; } else { this._names = null; this._realNames = names; } }; NamedArguments.prototype.has = function (name) { return this.names.indexOf(name) !== -1; }; NamedArguments.prototype.get = function (name) { var names = this.names, length = this.length; var idx = names.indexOf(name); if (idx === -1) { return UNDEFINED_REFERENCE; } // stack: pos1, pos2, pos3, named1, named2 // start: 4 (top - 4) // namedDict: { named1: 1, named2: 0 }; // // get('named1') === named1 === top - (start - 1) // get('named2') === named2 === top - start return this.stack.fromTop(length - idx); }; NamedArguments.prototype.capture = function () { return new CapturedNamedArguments(this.tag, this.names, this.references); }; NamedArguments.prototype.sliceName = function (name) { return name.slice(1); }; _createClass(NamedArguments, [{ key: 'tag', get: function () { return (0, _reference2.combineTagged)(this.references); } }, { key: 'names', get: function () { var names = this._names; if (!names) { names = this._names = this._realNames.map(this.sliceName); } return names; } }, { key: 'references', get: function () { var references = this._references, names, length, i; if (!references) { names = this.names, length = this.length; references = this._references = []; for (i = 0; i < length; i++) { references[i] = this.get(names[i]); } } return references; } }]); return NamedArguments; }(); var CapturedNamedArguments = function () { function CapturedNamedArguments(tag, names, references) { _classCallCheck$4(this, CapturedNamedArguments); this.tag = tag; this.names = names; this.references = references; this.length = names.length; this._map = null; } CapturedNamedArguments.prototype.has = function (name) { return this.names.indexOf(name) !== -1; }; CapturedNamedArguments.prototype.get = function (name) { var names = this.names, references = this.references; var idx = names.indexOf(name); if (idx === -1) { return UNDEFINED_REFERENCE; } else { return references[idx]; } }; CapturedNamedArguments.prototype.value = function () { var names = this.names, references = this.references, i, name; var out = (0, _util.dict)(); for (i = 0; i < names.length; i++) { name = names[i]; out[name] = references[i].value(); } return out; }; _createClass(CapturedNamedArguments, [{ key: 'map', get: function () { var map$$1 = this._map, names, references, i, name; if (!map$$1) { names = this.names, references = this.references; map$$1 = this._map = (0, _util.dict)(); for (i = 0; i < names.length; i++) { name = names[i]; map$$1[name] = references[i]; } } return map$$1; } }]); return CapturedNamedArguments; }(); var ARGS = new Arguments(); function _defaults$5(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _classCallCheck$6(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _possibleConstructorReturn$5(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$5(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$5(subClass, superClass); } APPEND_OPCODES.add(20 /* ChildScope */, function (vm) { return vm.pushChildScope(); }); APPEND_OPCODES.add(21 /* PopScope */, function (vm) { return vm.popScope(); }); APPEND_OPCODES.add(39 /* PushDynamicScope */, function (vm) { return vm.pushDynamicScope(); }); APPEND_OPCODES.add(40 /* PopDynamicScope */, function (vm) { return vm.popDynamicScope(); }); APPEND_OPCODES.add(12 /* Immediate */, function (vm, _ref) { var number = _ref.op1; vm.stack.push(number); }); APPEND_OPCODES.add(13 /* Constant */, function (vm, _ref2) { var other = _ref2.op1; vm.stack.push(vm.constants.getOther(other)); }); APPEND_OPCODES.add(14 /* PrimitiveReference */, function (vm, _ref3) { var primitive = _ref3.op1; var stack = vm.stack; var value = primitive & ~(3 << 30); switch ((primitive & 3 << 30) >>> 30) { case 0: stack.push(PrimitiveReference.create(value)); break; case 1: stack.push(PrimitiveReference.create(vm.constants.getFloat(value))); break; case 2: stack.push(PrimitiveReference.create(vm.constants.getString(value))); break; case 3: switch (value) { case 0: stack.push(FALSE_REFERENCE); break; case 1: stack.push(TRUE_REFERENCE); break; case 2: stack.push(NULL_REFERENCE); break; case 3: stack.push(UNDEFINED_REFERENCE); break; } break; } }); APPEND_OPCODES.add(15 /* Dup */, function (vm, _ref4) { var register = _ref4.op1, offset = _ref4.op2; var position = vm.fetchValue(register) - offset; vm.stack.dup(position); }); APPEND_OPCODES.add(16 /* Pop */, function (vm, _ref5) { var count = _ref5.op1; return vm.stack.pop(count); }); APPEND_OPCODES.add(17 /* Load */, function (vm, _ref6) { var register = _ref6.op1; return vm.load(register); }); APPEND_OPCODES.add(18 /* Fetch */, function (vm, _ref7) { var register = _ref7.op1; return vm.fetch(register); }); APPEND_OPCODES.add(38 /* BindDynamicScope */, function (vm, _ref8) { var _names = _ref8.op1; var names = vm.constants.getArray(_names); vm.bindDynamicScope(names); }); APPEND_OPCODES.add(47 /* PushFrame */, function (vm) { return vm.pushFrame(); }); APPEND_OPCODES.add(48 /* PopFrame */, function (vm) { return vm.popFrame(); }); APPEND_OPCODES.add(49 /* Enter */, function (vm, _ref9) { var args = _ref9.op1; return vm.enter(args); }); APPEND_OPCODES.add(50 /* Exit */, function (vm) { return vm.exit(); }); APPEND_OPCODES.add(41 /* CompileDynamicBlock */, function (vm) { var stack = vm.stack; var block = stack.pop(); stack.push(block ? block.compileDynamic(vm.env) : null); }); APPEND_OPCODES.add(42 /* InvokeStatic */, function (vm, _ref10) { var _block = _ref10.op1; var block = vm.constants.getBlock(_block); var compiled = block.compileStatic(vm.env); vm.call(compiled.handle); }); APPEND_OPCODES.add(43 /* InvokeDynamic */, function (vm, _ref11) { var _invoker = _ref11.op1; var invoker = vm.constants.getOther(_invoker); var block = vm.stack.pop(); invoker.invoke(vm, block); }); APPEND_OPCODES.add(44 /* Jump */, function (vm, _ref12) { var target = _ref12.op1; return vm.goto(target); }); APPEND_OPCODES.add(45 /* JumpIf */, function (vm, _ref13) { var target = _ref13.op1, cache; var reference$$1 = vm.stack.pop(); if ((0, _reference2.isConst)(reference$$1)) { if (reference$$1.value()) { vm.goto(target); } } else { cache = new _reference2.ReferenceCache(reference$$1); if (cache.peek()) { vm.goto(target); } vm.updateWith(new Assert(cache)); } }); APPEND_OPCODES.add(46 /* JumpUnless */, function (vm, _ref14) { var target = _ref14.op1, cache; var reference$$1 = vm.stack.pop(); if ((0, _reference2.isConst)(reference$$1)) { if (!reference$$1.value()) { vm.goto(target); } } else { cache = new _reference2.ReferenceCache(reference$$1); if (!cache.peek()) { vm.goto(target); } vm.updateWith(new Assert(cache)); } }); APPEND_OPCODES.add(22 /* Return */, function (vm) { return vm.return(); }); APPEND_OPCODES.add(23 /* ReturnTo */, function (vm, _ref15) { var relative = _ref15.op1; vm.returnTo(relative); }); var ConstTest = function (ref) { return new _reference2.ConstReference(!!ref.value()); }; var SimpleTest = function (ref) { return ref; }; var EnvironmentTest = function (ref, env) { return env.toConditionalReference(ref); }; APPEND_OPCODES.add(51 /* Test */, function (vm, _ref16) { var _func = _ref16.op1; var stack = vm.stack; var operand = stack.pop(); var func = vm.constants.getFunction(_func); stack.push(func(operand, vm.env)); }); var Assert = function (_UpdatingOpcode) { _inherits$5(Assert, _UpdatingOpcode); function Assert(cache) { _classCallCheck$6(this, Assert); var _this = _possibleConstructorReturn$5(this, _UpdatingOpcode.call(this)); _this.type = 'assert'; _this.tag = cache.tag; _this.cache = cache; return _this; } Assert.prototype.evaluate = function (vm) { var cache = this.cache; if ((0, _reference2.isModified)(cache.revalidate())) { vm.throw(); } }; Assert.prototype.toJSON = function () { var type = this.type, _guid = this._guid, cache = this.cache; var expected = void 0; try { expected = JSON.stringify(cache.peek()); } catch (e) { expected = String(cache.peek()); } return { args: [], details: { expected: expected }, guid: _guid, type: type }; }; return Assert; }(UpdatingOpcode); var JumpIfNotModifiedOpcode = function (_UpdatingOpcode2) { _inherits$5(JumpIfNotModifiedOpcode, _UpdatingOpcode2); function JumpIfNotModifiedOpcode(tag, target) { _classCallCheck$6(this, JumpIfNotModifiedOpcode); var _this2 = _possibleConstructorReturn$5(this, _UpdatingOpcode2.call(this)); _this2.target = target; _this2.type = 'jump-if-not-modified'; _this2.tag = tag; _this2.lastRevision = tag.value(); return _this2; } JumpIfNotModifiedOpcode.prototype.evaluate = function (vm) { var tag = this.tag, target = this.target, lastRevision = this.lastRevision; if (!vm.alwaysRevalidate && tag.validate(lastRevision)) { vm.goto(target); } }; JumpIfNotModifiedOpcode.prototype.didModify = function () { this.lastRevision = this.tag.value(); }; JumpIfNotModifiedOpcode.prototype.toJSON = function () { return { args: [JSON.stringify(this.target.inspect())], guid: this._guid, type: this.type }; }; return JumpIfNotModifiedOpcode; }(UpdatingOpcode); var DidModifyOpcode = function (_UpdatingOpcode3) { _inherits$5(DidModifyOpcode, _UpdatingOpcode3); function DidModifyOpcode(target) { _classCallCheck$6(this, DidModifyOpcode); var _this3 = _possibleConstructorReturn$5(this, _UpdatingOpcode3.call(this)); _this3.target = target; _this3.type = 'did-modify'; _this3.tag = _reference2.CONSTANT_TAG; return _this3; } DidModifyOpcode.prototype.evaluate = function () { this.target.didModify(); }; return DidModifyOpcode; }(UpdatingOpcode); var LabelOpcode = function () { function LabelOpcode(label) { _classCallCheck$6(this, LabelOpcode); this.tag = _reference2.CONSTANT_TAG; this.type = 'label'; this.label = null; this.prev = null; this.next = null; (0, _util.initializeGuid)(this); this.label = label; } LabelOpcode.prototype.evaluate = function () {}; LabelOpcode.prototype.inspect = function () { return this.label + ' [' + this._guid + ']'; }; LabelOpcode.prototype.toJSON = function () { return { args: [JSON.stringify(this.inspect())], guid: this._guid, type: this.type }; }; return LabelOpcode; }(); function _defaults$4(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _possibleConstructorReturn$4(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$4(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$4(subClass, superClass); } function _classCallCheck$5(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } APPEND_OPCODES.add(24 /* Text */, function (vm, _ref) { var text = _ref.op1; vm.elements().appendText(vm.constants.getString(text)); }); APPEND_OPCODES.add(25 /* Comment */, function (vm, _ref2) { var text = _ref2.op1; vm.elements().appendComment(vm.constants.getString(text)); }); APPEND_OPCODES.add(27 /* OpenElement */, function (vm, _ref3) { var tag = _ref3.op1; vm.elements().openElement(vm.constants.getString(tag)); }); APPEND_OPCODES.add(28 /* OpenElementWithOperations */, function (vm, _ref4) { var tag = _ref4.op1; var tagName = vm.constants.getString(tag); var operations = vm.stack.pop(); vm.elements().openElement(tagName, operations); }); APPEND_OPCODES.add(29 /* OpenDynamicElement */, function (vm) { var operations = vm.stack.pop(); var tagName = vm.stack.pop().value(); vm.elements().openElement(tagName, operations); }); APPEND_OPCODES.add(36 /* PushRemoteElement */, function (vm) { var elementRef = vm.stack.pop(), cache, _cache; var nextSiblingRef = vm.stack.pop(); var element = void 0; var nextSibling = void 0; if ((0, _reference2.isConst)(elementRef)) { element = elementRef.value(); } else { cache = new _reference2.ReferenceCache(elementRef); element = cache.peek(); vm.updateWith(new Assert(cache)); } if ((0, _reference2.isConst)(nextSiblingRef)) { nextSibling = nextSiblingRef.value(); } else { _cache = new _reference2.ReferenceCache(nextSiblingRef); nextSibling = _cache.peek(); vm.updateWith(new Assert(_cache)); } vm.elements().pushRemoteElement(element, nextSibling); }); APPEND_OPCODES.add(37 /* PopRemoteElement */, function (vm) { return vm.elements().popRemoteElement(); }); var ClassList = function () { function ClassList() { _classCallCheck$5(this, ClassList); this.list = null; this.isConst = true; } ClassList.prototype.append = function (reference$$1) { var list = this.list, isConst$$1 = this.isConst; if (list === null) list = this.list = []; list.push(reference$$1); this.isConst = isConst$$1 && (0, _reference2.isConst)(reference$$1); }; ClassList.prototype.toReference = function () { var list = this.list, isConst$$1 = this.isConst; if (!list) return NULL_REFERENCE; if (isConst$$1) return PrimitiveReference.create(toClassName(list)); return new ClassListReference(list); }; return ClassList; }(); var ClassListReference = function (_CachedReference) { _inherits$4(ClassListReference, _CachedReference); function ClassListReference(list) { _classCallCheck$5(this, ClassListReference); var _this = _possibleConstructorReturn$4(this, _CachedReference.call(this)); _this.list = []; _this.tag = (0, _reference2.combineTagged)(list); _this.list = list; return _this; } ClassListReference.prototype.compute = function () { return toClassName(this.list); }; return ClassListReference; }(_reference2.CachedReference); function toClassName(list) { var ret = [], i, value; for (i = 0; i < list.length; i++) { value = list[i].value(); if (value !== false && value !== null && value !== undefined) ret.push(value); } return ret.length === 0 ? null : ret.join(' '); } var SimpleElementOperations = function () { function SimpleElementOperations(env) { _classCallCheck$5(this, SimpleElementOperations); this.env = env; this.opcodes = null; this.classList = null; } SimpleElementOperations.prototype.addStaticAttribute = function (element, name, value) { if (name === 'class') { this.addClass(PrimitiveReference.create(value)); } else { this.env.getAppendOperations().setAttribute(element, name, value); } }; SimpleElementOperations.prototype.addStaticAttributeNS = function (element, namespace, name, value) { this.env.getAppendOperations().setAttribute(element, name, value, namespace); }; SimpleElementOperations.prototype.addDynamicAttribute = function (element, name, reference$$1, isTrusting) { var attributeManager, attribute; if (name === 'class') { this.addClass(reference$$1); } else { attributeManager = this.env.attributeFor(element, name, isTrusting); attribute = new DynamicAttribute(element, attributeManager, name, reference$$1); this.addAttribute(attribute); } }; SimpleElementOperations.prototype.addDynamicAttributeNS = function (element, namespace, name, reference$$1, isTrusting) { var attributeManager = this.env.attributeFor(element, name, isTrusting, namespace); var nsAttribute = new DynamicAttribute(element, attributeManager, name, reference$$1, namespace); this.addAttribute(nsAttribute); }; SimpleElementOperations.prototype.flush = function (element, vm) { var env = vm.env, i, attributeManager, attribute, opcode; var opcodes = this.opcodes, classList = this.classList; for (i = 0; opcodes && i < opcodes.length; i++) { vm.updateWith(opcodes[i]); } if (classList) { attributeManager = env.attributeFor(element, 'class', false); attribute = new DynamicAttribute(element, attributeManager, 'class', classList.toReference()); opcode = attribute.flush(env); if (opcode) { vm.updateWith(opcode); } } this.opcodes = null; this.classList = null; }; SimpleElementOperations.prototype.addClass = function (reference$$1) { var classList = this.classList; if (!classList) { classList = this.classList = new ClassList(); } classList.append(reference$$1); }; SimpleElementOperations.prototype.addAttribute = function (attribute) { var opcode = attribute.flush(this.env), opcodes; if (opcode) { opcodes = this.opcodes; if (!opcodes) { opcodes = this.opcodes = []; } opcodes.push(opcode); } }; return SimpleElementOperations; }(); var ComponentElementOperations = function () { function ComponentElementOperations(env) { _classCallCheck$5(this, ComponentElementOperations); this.env = env; this.attributeNames = null; this.attributes = null; this.classList = null; } ComponentElementOperations.prototype.addStaticAttribute = function (element, name, value) { if (name === 'class') { this.addClass(PrimitiveReference.create(value)); } else if (this.shouldAddAttribute(name)) { this.addAttribute(name, new StaticAttribute(element, name, value)); } }; ComponentElementOperations.prototype.addStaticAttributeNS = function (element, namespace, name, value) { if (this.shouldAddAttribute(name)) { this.addAttribute(name, new StaticAttribute(element, name, value, namespace)); } }; ComponentElementOperations.prototype.addDynamicAttribute = function (element, name, reference$$1, isTrusting) { var attributeManager, attribute; if (name === 'class') { this.addClass(reference$$1); } else if (this.shouldAddAttribute(name)) { attributeManager = this.env.attributeFor(element, name, isTrusting); attribute = new DynamicAttribute(element, attributeManager, name, reference$$1); this.addAttribute(name, attribute); } }; ComponentElementOperations.prototype.addDynamicAttributeNS = function (element, namespace, name, reference$$1, isTrusting) { var attributeManager, nsAttribute; if (this.shouldAddAttribute(name)) { attributeManager = this.env.attributeFor(element, name, isTrusting, namespace); nsAttribute = new DynamicAttribute(element, attributeManager, name, reference$$1, namespace); this.addAttribute(name, nsAttribute); } }; ComponentElementOperations.prototype.flush = function (element, vm) { var env = this.env, i, opcode, attributeManager, attribute, _opcode; var attributes = this.attributes, classList = this.classList; for (i = 0; attributes && i < attributes.length; i++) { opcode = attributes[i].flush(env); if (opcode) { vm.updateWith(opcode); } } if (classList) { attributeManager = env.attributeFor(element, 'class', false); attribute = new DynamicAttribute(element, attributeManager, 'class', classList.toReference()); _opcode = attribute.flush(env); if (_opcode) { vm.updateWith(_opcode); } } }; ComponentElementOperations.prototype.shouldAddAttribute = function (name) { return !this.attributeNames || this.attributeNames.indexOf(name) === -1; }; ComponentElementOperations.prototype.addClass = function (reference$$1) { var classList = this.classList; if (!classList) { classList = this.classList = new ClassList(); } classList.append(reference$$1); }; ComponentElementOperations.prototype.addAttribute = function (name, attribute) { var attributeNames = this.attributeNames, attributes = this.attributes; if (!attributeNames) { attributeNames = this.attributeNames = []; attributes = this.attributes = []; } attributeNames.push(name); attributes.push(attribute); }; return ComponentElementOperations; }(); APPEND_OPCODES.add(33 /* FlushElement */, function (vm) { var stack = vm.elements(); var action = 'FlushElementOpcode#evaluate'; stack.expectOperations(action).flush(stack.expectConstructing(action), vm); stack.flushElement(); }); APPEND_OPCODES.add(34 /* CloseElement */, function (vm) { return vm.elements().closeElement(); }); APPEND_OPCODES.add(30 /* StaticAttr */, function (vm, _ref5) { var _name = _ref5.op1, _value = _ref5.op2, _namespace = _ref5.op3, namespace; var name = vm.constants.getString(_name); var value = vm.constants.getString(_value); if (_namespace) { namespace = vm.constants.getString(_namespace); vm.elements().setStaticAttributeNS(namespace, name, value); } else { vm.elements().setStaticAttribute(name, value); } }); APPEND_OPCODES.add(35 /* Modifier */, function (vm, _ref6) { var _manager = _ref6.op1; var manager = vm.constants.getOther(_manager); var stack = vm.stack; var args = stack.pop(); var tag = args.tag; var _vm$elements = vm.elements(), element = _vm$elements.constructing, updateOperations = _vm$elements.updateOperations; var dynamicScope = vm.dynamicScope(); var modifier = manager.create(element, args, dynamicScope, updateOperations); args.clear(); vm.env.scheduleInstallModifier(modifier, manager); var destructor = manager.getDestructor(modifier); if (destructor) { vm.newDestroyable(destructor); } vm.updateWith(new UpdateModifierOpcode(tag, manager, modifier)); }); var UpdateModifierOpcode = function (_UpdatingOpcode) { _inherits$4(UpdateModifierOpcode, _UpdatingOpcode); function UpdateModifierOpcode(tag, manager, modifier) { _classCallCheck$5(this, UpdateModifierOpcode); var _this2 = _possibleConstructorReturn$4(this, _UpdatingOpcode.call(this)); _this2.tag = tag; _this2.manager = manager; _this2.modifier = modifier; _this2.type = 'update-modifier'; _this2.lastUpdated = tag.value(); return _this2; } UpdateModifierOpcode.prototype.evaluate = function (vm) { var manager = this.manager, modifier = this.modifier, tag = this.tag, lastUpdated = this.lastUpdated; if (!tag.validate(lastUpdated)) { vm.env.scheduleUpdateModifier(modifier, manager); this.lastUpdated = tag.value(); } }; UpdateModifierOpcode.prototype.toJSON = function () { return { guid: this._guid, type: this.type }; }; return UpdateModifierOpcode; }(UpdatingOpcode); var StaticAttribute = function () { function StaticAttribute(element, name, value, namespace) { _classCallCheck$5(this, StaticAttribute); this.element = element; this.name = name; this.value = value; this.namespace = namespace; } StaticAttribute.prototype.flush = function (env) { env.getAppendOperations().setAttribute(this.element, this.name, this.value, this.namespace); return null; }; return StaticAttribute; }(); var DynamicAttribute = function () { function DynamicAttribute(element, attributeManager, name, reference$$1, namespace) { _classCallCheck$5(this, DynamicAttribute); this.element = element; this.attributeManager = attributeManager; this.name = name; this.reference = reference$$1; this.namespace = namespace; this.cache = null; this.tag = reference$$1.tag; } DynamicAttribute.prototype.patch = function (env) { var element = this.element, cache = this.cache; var value = cache.revalidate(); if ((0, _reference2.isModified)(value)) { this.attributeManager.updateAttribute(env, element, value, this.namespace); } }; DynamicAttribute.prototype.flush = function (env) { var reference$$1 = this.reference, element = this.element, value, cache, _value2; if ((0, _reference2.isConst)(reference$$1)) { value = reference$$1.value(); this.attributeManager.setAttribute(env, element, value, this.namespace); return null; } else { cache = this.cache = new _reference2.ReferenceCache(reference$$1); _value2 = cache.peek(); this.attributeManager.setAttribute(env, element, _value2, this.namespace); return new PatchElementOpcode(this); } }; DynamicAttribute.prototype.toJSON = function () { var element = this.element, namespace = this.namespace, name = this.name, cache = this.cache; var formattedElement = formatElement(element); var lastValue = cache.peek(); if (namespace) { return { element: formattedElement, lastValue: lastValue, name: name, namespace: namespace, type: 'attribute' }; } return { element: formattedElement, lastValue: lastValue, name: name, namespace: namespace === undefined ? null : namespace, type: 'attribute' }; }; return DynamicAttribute; }(); function formatElement(element) { return JSON.stringify('<' + element.tagName.toLowerCase() + ' />'); } APPEND_OPCODES.add(32 /* DynamicAttrNS */, function (vm, _ref7) { var _name = _ref7.op1, _namespace = _ref7.op2, trusting = _ref7.op3; var name = vm.constants.getString(_name); var namespace = vm.constants.getString(_namespace); var reference$$1 = vm.stack.pop(); vm.elements().setDynamicAttributeNS(namespace, name, reference$$1, !!trusting); }); APPEND_OPCODES.add(31 /* DynamicAttr */, function (vm, _ref8) { var _name = _ref8.op1, trusting = _ref8.op2; var name = vm.constants.getString(_name); var reference$$1 = vm.stack.pop(); vm.elements().setDynamicAttribute(name, reference$$1, !!trusting); }); var PatchElementOpcode = function (_UpdatingOpcode2) { _inherits$4(PatchElementOpcode, _UpdatingOpcode2); function PatchElementOpcode(operation) { _classCallCheck$5(this, PatchElementOpcode); var _this3 = _possibleConstructorReturn$4(this, _UpdatingOpcode2.call(this)); _this3.type = 'patch-element'; _this3.tag = operation.tag; _this3.operation = operation; return _this3; } PatchElementOpcode.prototype.evaluate = function (vm) { this.operation.patch(vm.env); }; PatchElementOpcode.prototype.toJSON = function () { var _guid = this._guid, type = this.type, operation = this.operation; return { details: operation.toJSON(), guid: _guid, type: type }; }; return PatchElementOpcode; }(UpdatingOpcode); function _defaults$3(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _classCallCheck$3(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _possibleConstructorReturn$3(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$3(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$3(subClass, superClass); } APPEND_OPCODES.add(56 /* PushComponentManager */, function (vm, _ref) { var _definition = _ref.op1; var definition = vm.constants.getOther(_definition); var stack = vm.stack; stack.push({ definition: definition, manager: definition.manager, component: null }); }); APPEND_OPCODES.add(57 /* PushDynamicComponentManager */, function (vm) { var stack = vm.stack; var reference$$1 = stack.pop(); var cache = (0, _reference2.isConst)(reference$$1) ? undefined : new _reference2.ReferenceCache(reference$$1); var definition = cache ? cache.peek() : reference$$1.value(); stack.push({ definition: definition, manager: definition.manager, component: null }); if (cache) { vm.updateWith(new Assert(cache)); } }); APPEND_OPCODES.add(58 /* PushArgs */, function (vm, _ref2) { var synthetic = _ref2.op1; var stack = vm.stack; ARGS.setup(stack, !!synthetic); stack.push(ARGS); }); APPEND_OPCODES.add(59 /* PrepareArgs */, function (vm, _ref3) { var _state = _ref3.op1, positional, named, positionalCount, i, names, namedCount, atNames, _i, value, atName; var stack = vm.stack; var _vm$fetchValue = vm.fetchValue(_state), definition = _vm$fetchValue.definition, manager = _vm$fetchValue.manager; var args = stack.pop(); var preparedArgs = manager.prepareArgs(definition, args); if (preparedArgs) { args.clear(); positional = preparedArgs.positional, named = preparedArgs.named; positionalCount = positional.length; for (i = 0; i < positionalCount; i++) { stack.push(positional[i]); } stack.push(positionalCount); names = Object.keys(named); namedCount = names.length; atNames = []; for (_i = 0; _i < namedCount; _i++) { value = named[names[_i]]; atName = '@' + names[_i]; stack.push(value); atNames.push(atName); } stack.push(atNames); args.setup(stack, false); } stack.push(args); }); APPEND_OPCODES.add(60 /* CreateComponent */, function (vm, _ref4) { var _vm$fetchValue2; var flags = _ref4.op1, _state = _ref4.op2; var definition = void 0; var manager = void 0; var args = vm.stack.pop(); var dynamicScope = vm.dynamicScope(); var state = (_vm$fetchValue2 = vm.fetchValue(_state), definition = _vm$fetchValue2.definition, manager = _vm$fetchValue2.manager, _vm$fetchValue2); var component = manager.create(vm.env, definition, args, dynamicScope, vm.getSelf(), !!(flags & 1)); state.component = component; vm.updateWith(new UpdateComponentOpcode(args.tag, definition.name, component, manager, dynamicScope)); }); APPEND_OPCODES.add(61 /* RegisterComponentDestructor */, function (vm, _ref5) { var _state = _ref5.op1; var _vm$fetchValue3 = vm.fetchValue(_state), manager = _vm$fetchValue3.manager, component = _vm$fetchValue3.component; var destructor = manager.getDestructor(component); if (destructor) vm.newDestroyable(destructor); }); APPEND_OPCODES.add(65 /* BeginComponentTransaction */, function (vm) { vm.beginCacheGroup(); vm.elements().pushSimpleBlock(); }); APPEND_OPCODES.add(62 /* PushComponentOperations */, function (vm) { vm.stack.push(new ComponentElementOperations(vm.env)); }); APPEND_OPCODES.add(67 /* DidCreateElement */, function (vm, _ref6) { var _state = _ref6.op1; var _vm$fetchValue4 = vm.fetchValue(_state), manager = _vm$fetchValue4.manager, component = _vm$fetchValue4.component; var action = 'DidCreateElementOpcode#evaluate'; manager.didCreateElement(component, vm.elements().expectConstructing(action), vm.elements().expectOperations(action)); }); APPEND_OPCODES.add(63 /* GetComponentSelf */, function (vm, _ref7) { var _state = _ref7.op1; var state = vm.fetchValue(_state); vm.stack.push(state.manager.getSelf(state.component)); }); APPEND_OPCODES.add(64 /* GetComponentLayout */, function (vm, _ref8) { var _state = _ref8.op1; var _vm$fetchValue5 = vm.fetchValue(_state), manager = _vm$fetchValue5.manager, definition = _vm$fetchValue5.definition, component = _vm$fetchValue5.component; vm.stack.push(manager.layoutFor(definition, component, vm.env)); }); APPEND_OPCODES.add(68 /* DidRenderLayout */, function (vm, _ref9) { var _state = _ref9.op1; var _vm$fetchValue6 = vm.fetchValue(_state), manager = _vm$fetchValue6.manager, component = _vm$fetchValue6.component; var bounds = vm.elements().popBlock(); manager.didRenderLayout(component, bounds); vm.env.didCreate(component, manager); vm.updateWith(new DidUpdateLayoutOpcode(manager, component, bounds)); }); APPEND_OPCODES.add(66 /* CommitComponentTransaction */, function (vm) { return vm.commitCacheGroup(); }); var UpdateComponentOpcode = function (_UpdatingOpcode) { _inherits$3(UpdateComponentOpcode, _UpdatingOpcode); function UpdateComponentOpcode(tag, name, component, manager, dynamicScope) { _classCallCheck$3(this, UpdateComponentOpcode); var _this = _possibleConstructorReturn$3(this, _UpdatingOpcode.call(this)); _this.name = name; _this.component = component; _this.manager = manager; _this.dynamicScope = dynamicScope; _this.type = 'update-component'; var componentTag = manager.getTag(component); if (componentTag) { _this.tag = (0, _reference2.combine)([tag, componentTag]); } else { _this.tag = tag; } return _this; } UpdateComponentOpcode.prototype.evaluate = function () { var component = this.component, manager = this.manager, dynamicScope = this.dynamicScope; manager.update(component, dynamicScope); }; UpdateComponentOpcode.prototype.toJSON = function () { return { args: [JSON.stringify(this.name)], guid: this._guid, type: this.type }; }; return UpdateComponentOpcode; }(UpdatingOpcode); var DidUpdateLayoutOpcode = function (_UpdatingOpcode2) { _inherits$3(DidUpdateLayoutOpcode, _UpdatingOpcode2); function DidUpdateLayoutOpcode(manager, component, bounds) { _classCallCheck$3(this, DidUpdateLayoutOpcode); var _this2 = _possibleConstructorReturn$3(this, _UpdatingOpcode2.call(this)); _this2.manager = manager; _this2.component = component; _this2.bounds = bounds; _this2.type = 'did-update-layout'; _this2.tag = _reference2.CONSTANT_TAG; return _this2; } DidUpdateLayoutOpcode.prototype.evaluate = function (vm) { var manager = this.manager, component = this.component, bounds = this.bounds; manager.didUpdateLayout(component, bounds); vm.env.didUpdate(component, manager); }; return DidUpdateLayoutOpcode; }(UpdatingOpcode); function _classCallCheck$8(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var Cursor = function Cursor(element, nextSibling) { _classCallCheck$8(this, Cursor); this.element = element; this.nextSibling = nextSibling; }; var ConcreteBounds = function () { function ConcreteBounds(parentNode, first, last) { _classCallCheck$8(this, ConcreteBounds); this.parentNode = parentNode; this.first = first; this.last = last; } ConcreteBounds.prototype.parentElement = function () { return this.parentNode; }; ConcreteBounds.prototype.firstNode = function () { return this.first; }; ConcreteBounds.prototype.lastNode = function () { return this.last; }; return ConcreteBounds; }(); var SingleNodeBounds = function () { function SingleNodeBounds(parentNode, node) { _classCallCheck$8(this, SingleNodeBounds); this.parentNode = parentNode; this.node = node; } SingleNodeBounds.prototype.parentElement = function () { return this.parentNode; }; SingleNodeBounds.prototype.firstNode = function () { return this.node; }; SingleNodeBounds.prototype.lastNode = function () { return this.node; }; return SingleNodeBounds; }(); function single(parent, node) { return new SingleNodeBounds(parent, node); } function move(bounds, reference$$1) { var parent = bounds.parentElement(), next; var first = bounds.firstNode(); var last = bounds.lastNode(); var node = first; while (node) { next = node.nextSibling; parent.insertBefore(node, reference$$1); if (node === last) return next; node = next; } return null; } function clear(bounds) { var parent = bounds.parentElement(), next; var first = bounds.firstNode(); var last = bounds.lastNode(); var node = first; while (node) { next = node.nextSibling; parent.removeChild(node); if (node === last) return next; node = next; } return null; } function _defaults$7(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _possibleConstructorReturn$7(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$7(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$7(subClass, superClass); } function _classCallCheck$9(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var First = function () { function First(node) { _classCallCheck$9(this, First); this.node = node; } First.prototype.firstNode = function () { return this.node; }; return First; }(); var Last = function () { function Last(node) { _classCallCheck$9(this, Last); this.node = node; } Last.prototype.lastNode = function () { return this.node; }; return Last; }(); var Fragment = function () { function Fragment(bounds$$1) { _classCallCheck$9(this, Fragment); this.bounds = bounds$$1; } Fragment.prototype.parentElement = function () { return this.bounds.parentElement(); }; Fragment.prototype.firstNode = function () { return this.bounds.firstNode(); }; Fragment.prototype.lastNode = function () { return this.bounds.lastNode(); }; Fragment.prototype.update = function (bounds$$1) { this.bounds = bounds$$1; }; return Fragment; }(); var ElementStack = function () { function ElementStack(env, parentNode, nextSibling) { _classCallCheck$9(this, ElementStack); this.constructing = null; this.operations = null; this.elementStack = new _util.Stack(); this.nextSiblingStack = new _util.Stack(); this.blockStack = new _util.Stack(); this.env = env; this.dom = env.getAppendOperations(); this.updateOperations = env.getDOM(); this.element = parentNode; this.nextSibling = nextSibling; this.defaultOperations = new SimpleElementOperations(env); this.pushSimpleBlock(); this.elementStack.push(this.element); this.nextSiblingStack.push(this.nextSibling); } ElementStack.forInitialRender = function (env, parentNode, nextSibling) { return new ElementStack(env, parentNode, nextSibling); }; ElementStack.resume = function (env, tracker, nextSibling) { var parentNode = tracker.parentElement(); var stack = new ElementStack(env, parentNode, nextSibling); stack.pushBlockTracker(tracker); return stack; }; ElementStack.prototype.expectConstructing = function () { return this.constructing; }; ElementStack.prototype.expectOperations = function () { return this.operations; }; ElementStack.prototype.block = function () { return this.blockStack.current; }; ElementStack.prototype.popElement = function () { var elementStack = this.elementStack, nextSiblingStack = this.nextSiblingStack; var topElement = elementStack.pop(); nextSiblingStack.pop(); // LOGGER.debug(`-> element stack ${this.elementStack.toArray().map(e => e.tagName).join(', ')}`); this.element = elementStack.current; this.nextSibling = nextSiblingStack.current; return topElement; }; ElementStack.prototype.pushSimpleBlock = function () { var tracker = new SimpleBlockTracker(this.element); this.pushBlockTracker(tracker); return tracker; }; ElementStack.prototype.pushUpdatableBlock = function () { var tracker = new UpdatableBlockTracker(this.element); this.pushBlockTracker(tracker); return tracker; }; ElementStack.prototype.pushBlockTracker = function (tracker) { var isRemote = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : false; var current = this.blockStack.current; if (current !== null) { current.newDestroyable(tracker); if (!isRemote) { current.newBounds(tracker); } } this.blockStack.push(tracker); return tracker; }; ElementStack.prototype.pushBlockList = function (list) { var tracker = new BlockListTracker(this.element, list); var current = this.blockStack.current; if (current !== null) { current.newDestroyable(tracker); current.newBounds(tracker); } this.blockStack.push(tracker); return tracker; }; ElementStack.prototype.popBlock = function () { this.block().finalize(this); return this.blockStack.pop(); }; ElementStack.prototype.openElement = function (tag, _operations) { // workaround argument.length transpile of arg initializer var operations = _operations === undefined ? this.defaultOperations : _operations; var element = this.dom.createElement(tag, this.element); this.constructing = element; this.operations = operations; return element; }; ElementStack.prototype.flushElement = function () { var parent = this.element; var element = this.constructing; this.dom.insertBefore(parent, element, this.nextSibling); this.constructing = null; this.operations = null; this.pushElement(element, null); this.block().openElement(element); }; ElementStack.prototype.pushRemoteElement = function (element) { var nextSibling = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : null; this.pushElement(element, nextSibling); var tracker = new RemoteBlockTracker(element); this.pushBlockTracker(tracker, true); }; ElementStack.prototype.popRemoteElement = function () { this.popBlock(); this.popElement(); }; ElementStack.prototype.pushElement = function (element, nextSibling) { this.element = element; this.elementStack.push(element); // LOGGER.debug(`-> element stack ${this.elementStack.toArray().map(e => e.tagName).join(', ')}`); this.nextSibling = nextSibling; this.nextSiblingStack.push(nextSibling); }; ElementStack.prototype.newDestroyable = function (d) { this.block().newDestroyable(d); }; ElementStack.prototype.newBounds = function (bounds$$1) { this.block().newBounds(bounds$$1); }; ElementStack.prototype.appendText = function (string) { var dom = this.dom; var text = dom.createTextNode(string); dom.insertBefore(this.element, text, this.nextSibling); this.block().newNode(text); return text; }; ElementStack.prototype.appendComment = function (string) { var dom = this.dom; var comment = dom.createComment(string); dom.insertBefore(this.element, comment, this.nextSibling); this.block().newNode(comment); return comment; }; ElementStack.prototype.setStaticAttribute = function (name, value) { this.expectOperations('setStaticAttribute').addStaticAttribute(this.expectConstructing('setStaticAttribute'), name, value); }; ElementStack.prototype.setStaticAttributeNS = function (namespace, name, value) { this.expectOperations('setStaticAttributeNS').addStaticAttributeNS(this.expectConstructing('setStaticAttributeNS'), namespace, name, value); }; ElementStack.prototype.setDynamicAttribute = function (name, reference$$1, isTrusting) { this.expectOperations('setDynamicAttribute').addDynamicAttribute(this.expectConstructing('setDynamicAttribute'), name, reference$$1, isTrusting); }; ElementStack.prototype.setDynamicAttributeNS = function (namespace, name, reference$$1, isTrusting) { this.expectOperations('setDynamicAttributeNS').addDynamicAttributeNS(this.expectConstructing('setDynamicAttributeNS'), namespace, name, reference$$1, isTrusting); }; ElementStack.prototype.closeElement = function () { this.block().closeElement(); this.popElement(); }; return ElementStack; }(); var SimpleBlockTracker = function () { function SimpleBlockTracker(parent) { _classCallCheck$9(this, SimpleBlockTracker); this.parent = parent; this.first = null; this.last = null; this.destroyables = null; this.nesting = 0; } SimpleBlockTracker.prototype.destroy = function () { var destroyables = this.destroyables, i; if (destroyables && destroyables.length) { for (i = 0; i < destroyables.length; i++) { destroyables[i].destroy(); } } }; SimpleBlockTracker.prototype.parentElement = function () { return this.parent; }; SimpleBlockTracker.prototype.firstNode = function () { return this.first && this.first.firstNode(); }; SimpleBlockTracker.prototype.lastNode = function () { return this.last && this.last.lastNode(); }; SimpleBlockTracker.prototype.openElement = function (element) { this.newNode(element); this.nesting++; }; SimpleBlockTracker.prototype.closeElement = function () { this.nesting--; }; SimpleBlockTracker.prototype.newNode = function (node) { if (this.nesting !== 0) return; if (!this.first) { this.first = new First(node); } this.last = new Last(node); }; SimpleBlockTracker.prototype.newBounds = function (bounds$$1) { if (this.nesting !== 0) return; if (!this.first) { this.first = bounds$$1; } this.last = bounds$$1; }; SimpleBlockTracker.prototype.newDestroyable = function (d) { this.destroyables = this.destroyables || []; this.destroyables.push(d); }; SimpleBlockTracker.prototype.finalize = function (stack) { if (!this.first) { stack.appendComment(''); } }; return SimpleBlockTracker; }(); var RemoteBlockTracker = function (_SimpleBlockTracker) { _inherits$7(RemoteBlockTracker, _SimpleBlockTracker); function RemoteBlockTracker() { _classCallCheck$9(this, RemoteBlockTracker); return _possibleConstructorReturn$7(this, _SimpleBlockTracker.apply(this, arguments)); } RemoteBlockTracker.prototype.destroy = function () { _SimpleBlockTracker.prototype.destroy.call(this); clear(this); }; return RemoteBlockTracker; }(SimpleBlockTracker); var UpdatableBlockTracker = function (_SimpleBlockTracker2) { _inherits$7(UpdatableBlockTracker, _SimpleBlockTracker2); function UpdatableBlockTracker() { _classCallCheck$9(this, UpdatableBlockTracker); return _possibleConstructorReturn$7(this, _SimpleBlockTracker2.apply(this, arguments)); } UpdatableBlockTracker.prototype.reset = function (env) { var destroyables = this.destroyables, i; if (destroyables && destroyables.length) { for (i = 0; i < destroyables.length; i++) { env.didDestroy(destroyables[i]); } } var nextSibling = clear(this); this.first = null; this.last = null; this.destroyables = null; this.nesting = 0; return nextSibling; }; return UpdatableBlockTracker; }(SimpleBlockTracker); var BlockListTracker = function () { function BlockListTracker(parent, boundList) { _classCallCheck$9(this, BlockListTracker); this.parent = parent; this.boundList = boundList; this.parent = parent; this.boundList = boundList; } BlockListTracker.prototype.destroy = function () { this.boundList.forEachNode(function (node) { return node.destroy(); }); }; BlockListTracker.prototype.parentElement = function () { return this.parent; }; BlockListTracker.prototype.firstNode = function () { var head = this.boundList.head(); return head && head.firstNode(); }; BlockListTracker.prototype.lastNode = function () { var tail = this.boundList.tail(); return tail && tail.lastNode(); }; BlockListTracker.prototype.openElement = function () { (0, _util.assert)(false, 'Cannot openElement directly inside a block list'); }; BlockListTracker.prototype.closeElement = function () { (0, _util.assert)(false, 'Cannot closeElement directly inside a block list'); }; BlockListTracker.prototype.newNode = function () { (0, _util.assert)(false, 'Cannot create a new node directly inside a block list'); }; BlockListTracker.prototype.newBounds = function () {}; BlockListTracker.prototype.newDestroyable = function () {}; BlockListTracker.prototype.finalize = function () {}; return BlockListTracker; }(); function _classCallCheck$10(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var COMPONENT_DEFINITION_BRAND = 'COMPONENT DEFINITION [id=e59c754e-61eb-4392-8c4a-2c0ac72bfcd4]'; function isComponentDefinition(obj) { return typeof obj === 'object' && obj !== null && obj[COMPONENT_DEFINITION_BRAND]; } function _defaults$8(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _possibleConstructorReturn$8(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$8(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$8(subClass, superClass); } function _classCallCheck$11(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function isSafeString(value) { return typeof value === 'object' && value !== null && typeof value.toHTML === 'function'; } function isNode(value) { return typeof value === 'object' && value !== null && typeof value.nodeType === 'number'; } function isString(value) { return typeof value === 'string'; } var Upsert = function Upsert(bounds$$1) { _classCallCheck$11(this, Upsert); this.bounds = bounds$$1; }; function cautiousInsert(dom, cursor, value) { if (isString(value)) { return TextUpsert.insert(dom, cursor, value); } if (isSafeString(value)) { return SafeStringUpsert.insert(dom, cursor, value); } if (isNode(value)) { return NodeUpsert.insert(dom, cursor, value); } throw (0, _util.unreachable)(); } function trustingInsert(dom, cursor, value) { if (isString(value)) { return HTMLUpsert.insert(dom, cursor, value); } if (isNode(value)) { return NodeUpsert.insert(dom, cursor, value); } throw (0, _util.unreachable)(); } var TextUpsert = function (_Upsert) { _inherits$8(TextUpsert, _Upsert); TextUpsert.insert = function (dom, cursor, value) { var textNode = dom.createTextNode(value); dom.insertBefore(cursor.element, textNode, cursor.nextSibling); var bounds$$1 = new SingleNodeBounds(cursor.element, textNode); return new TextUpsert(bounds$$1, textNode); }; function TextUpsert(bounds$$1, textNode) { _classCallCheck$11(this, TextUpsert); var _this = _possibleConstructorReturn$8(this, _Upsert.call(this, bounds$$1)); _this.textNode = textNode; return _this; } TextUpsert.prototype.update = function (_dom, value) { var textNode; if (isString(value)) { textNode = this.textNode; textNode.nodeValue = value; return true; } else { return false; } }; return TextUpsert; }(Upsert); var HTMLUpsert = function (_Upsert2) { _inherits$8(HTMLUpsert, _Upsert2); function HTMLUpsert() { _classCallCheck$11(this, HTMLUpsert); return _possibleConstructorReturn$8(this, _Upsert2.apply(this, arguments)); } HTMLUpsert.insert = function (dom, cursor, value) { var bounds$$1 = dom.insertHTMLBefore(cursor.element, cursor.nextSibling, value); return new HTMLUpsert(bounds$$1); }; HTMLUpsert.prototype.update = function (dom, value) { var bounds$$1, parentElement, nextSibling; if (isString(value)) { bounds$$1 = this.bounds; parentElement = bounds$$1.parentElement(); nextSibling = clear(bounds$$1); this.bounds = dom.insertHTMLBefore(parentElement, nextSibling, value); return true; } else { return false; } }; return HTMLUpsert; }(Upsert); var SafeStringUpsert = function (_Upsert3) { _inherits$8(SafeStringUpsert, _Upsert3); function SafeStringUpsert(bounds$$1, lastStringValue) { _classCallCheck$11(this, SafeStringUpsert); var _this3 = _possibleConstructorReturn$8(this, _Upsert3.call(this, bounds$$1)); _this3.lastStringValue = lastStringValue; return _this3; } SafeStringUpsert.insert = function (dom, cursor, value) { var stringValue = value.toHTML(); var bounds$$1 = dom.insertHTMLBefore(cursor.element, cursor.nextSibling, stringValue); return new SafeStringUpsert(bounds$$1, stringValue); }; SafeStringUpsert.prototype.update = function (dom, value) { var stringValue, bounds$$1, parentElement, nextSibling; if (isSafeString(value)) { stringValue = value.toHTML(); if (stringValue !== this.lastStringValue) { bounds$$1 = this.bounds; parentElement = bounds$$1.parentElement(); nextSibling = clear(bounds$$1); this.bounds = dom.insertHTMLBefore(parentElement, nextSibling, stringValue); this.lastStringValue = stringValue; } return true; } else { return false; } }; return SafeStringUpsert; }(Upsert); var NodeUpsert = function (_Upsert4) { _inherits$8(NodeUpsert, _Upsert4); function NodeUpsert() { _classCallCheck$11(this, NodeUpsert); return _possibleConstructorReturn$8(this, _Upsert4.apply(this, arguments)); } NodeUpsert.insert = function (dom, cursor, node) { dom.insertBefore(cursor.element, node, cursor.nextSibling); return new NodeUpsert(single(cursor.element, node)); }; NodeUpsert.prototype.update = function (dom, value) { var bounds$$1, parentElement, nextSibling; if (isNode(value)) { bounds$$1 = this.bounds; parentElement = bounds$$1.parentElement(); nextSibling = clear(bounds$$1); this.bounds = dom.insertNodeBefore(parentElement, value, nextSibling); return true; } else { return false; } }; return NodeUpsert; }(Upsert); function _defaults$6(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _possibleConstructorReturn$6(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$6(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$6(subClass, superClass); } function _classCallCheck$7(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } APPEND_OPCODES.add(26 /* DynamicContent */, function (vm, _ref) { var append = _ref.op1; var opcode = vm.constants.getOther(append); opcode.evaluate(vm); }); function isEmpty(value) { return value === null || value === undefined || typeof value.toString !== 'function'; } function normalizeTextValue(value) { if (isEmpty(value)) { return ''; } return String(value); } function normalizeTrustedValue(value) { if (isEmpty(value)) { return ''; } if (isString(value)) { return value; } if (isSafeString(value)) { return value.toHTML(); } if (isNode(value)) { return value; } return String(value); } function normalizeValue(value) { if (isEmpty(value)) { return ''; } if (isString(value)) { return value; } if (isSafeString(value) || isNode(value)) { return value; } return String(value); } var AppendDynamicOpcode = function () { function AppendDynamicOpcode() { _classCallCheck$7(this, AppendDynamicOpcode); } AppendDynamicOpcode.prototype.evaluate = function (vm) { var reference$$1 = vm.stack.pop(); var normalized = this.normalize(reference$$1); var value = void 0; var cache = void 0; if ((0, _reference2.isConst)(reference$$1)) { value = normalized.value(); } else { cache = new _reference2.ReferenceCache(normalized); value = cache.peek(); } var stack = vm.elements(); var upsert = this.insert(vm.env.getAppendOperations(), stack, value); var bounds$$1 = new Fragment(upsert.bounds); stack.newBounds(bounds$$1); if (cache /* i.e. !isConst(reference) */) { vm.updateWith(this.updateWith(vm, reference$$1, cache, bounds$$1, upsert)); } }; return AppendDynamicOpcode; }(); var IsComponentDefinitionReference = function (_ConditionalReference) { _inherits$6(IsComponentDefinitionReference, _ConditionalReference); function IsComponentDefinitionReference() { _classCallCheck$7(this, IsComponentDefinitionReference); return _possibleConstructorReturn$6(this, _ConditionalReference.apply(this, arguments)); } IsComponentDefinitionReference.create = function (inner) { return new IsComponentDefinitionReference(inner); }; IsComponentDefinitionReference.prototype.toBool = function (value) { return isComponentDefinition(value); }; return IsComponentDefinitionReference; }(ConditionalReference); var UpdateOpcode = function (_UpdatingOpcode) { _inherits$6(UpdateOpcode, _UpdatingOpcode); function UpdateOpcode(cache, bounds$$1, upsert) { _classCallCheck$7(this, UpdateOpcode); var _this2 = _possibleConstructorReturn$6(this, _UpdatingOpcode.call(this)); _this2.cache = cache; _this2.bounds = bounds$$1; _this2.upsert = upsert; _this2.tag = cache.tag; return _this2; } UpdateOpcode.prototype.evaluate = function (vm) { var value = this.cache.revalidate(), bounds$$1, upsert, dom, cursor; if ((0, _reference2.isModified)(value)) { bounds$$1 = this.bounds, upsert = this.upsert; dom = vm.dom; if (!this.upsert.update(dom, value)) { cursor = new Cursor(bounds$$1.parentElement(), clear(bounds$$1)); upsert = this.upsert = this.insert(vm.env.getAppendOperations(), cursor, value); } bounds$$1.update(upsert.bounds); } }; UpdateOpcode.prototype.toJSON = function () { var guid = this._guid, type = this.type, cache = this.cache; return { details: { lastValue: JSON.stringify(cache.peek()) }, guid: guid, type: type }; }; return UpdateOpcode; }(UpdatingOpcode); var OptimizedCautiousAppendOpcode = function (_AppendDynamicOpcode) { _inherits$6(OptimizedCautiousAppendOpcode, _AppendDynamicOpcode); function OptimizedCautiousAppendOpcode() { _classCallCheck$7(this, OptimizedCautiousAppendOpcode); var _this3 = _possibleConstructorReturn$6(this, _AppendDynamicOpcode.apply(this, arguments)); _this3.type = 'optimized-cautious-append'; return _this3; } OptimizedCautiousAppendOpcode.prototype.normalize = function (reference$$1) { return (0, _reference2.map)(reference$$1, normalizeValue); }; OptimizedCautiousAppendOpcode.prototype.insert = function (dom, cursor, value) { return cautiousInsert(dom, cursor, value); }; OptimizedCautiousAppendOpcode.prototype.updateWith = function (_vm, _reference, cache, bounds$$1, upsert) { return new OptimizedCautiousUpdateOpcode(cache, bounds$$1, upsert); }; return OptimizedCautiousAppendOpcode; }(AppendDynamicOpcode); var OptimizedCautiousUpdateOpcode = function (_UpdateOpcode) { _inherits$6(OptimizedCautiousUpdateOpcode, _UpdateOpcode); function OptimizedCautiousUpdateOpcode() { _classCallCheck$7(this, OptimizedCautiousUpdateOpcode); var _this4 = _possibleConstructorReturn$6(this, _UpdateOpcode.apply(this, arguments)); _this4.type = 'optimized-cautious-update'; return _this4; } OptimizedCautiousUpdateOpcode.prototype.insert = function (dom, cursor, value) { return cautiousInsert(dom, cursor, value); }; return OptimizedCautiousUpdateOpcode; }(UpdateOpcode); var OptimizedTrustingAppendOpcode = function (_AppendDynamicOpcode2) { _inherits$6(OptimizedTrustingAppendOpcode, _AppendDynamicOpcode2); function OptimizedTrustingAppendOpcode() { _classCallCheck$7(this, OptimizedTrustingAppendOpcode); var _this5 = _possibleConstructorReturn$6(this, _AppendDynamicOpcode2.apply(this, arguments)); _this5.type = 'optimized-trusting-append'; return _this5; } OptimizedTrustingAppendOpcode.prototype.normalize = function (reference$$1) { return (0, _reference2.map)(reference$$1, normalizeTrustedValue); }; OptimizedTrustingAppendOpcode.prototype.insert = function (dom, cursor, value) { return trustingInsert(dom, cursor, value); }; OptimizedTrustingAppendOpcode.prototype.updateWith = function (_vm, _reference, cache, bounds$$1, upsert) { return new OptimizedTrustingUpdateOpcode(cache, bounds$$1, upsert); }; return OptimizedTrustingAppendOpcode; }(AppendDynamicOpcode); var OptimizedTrustingUpdateOpcode = function (_UpdateOpcode2) { _inherits$6(OptimizedTrustingUpdateOpcode, _UpdateOpcode2); function OptimizedTrustingUpdateOpcode() { _classCallCheck$7(this, OptimizedTrustingUpdateOpcode); var _this6 = _possibleConstructorReturn$6(this, _UpdateOpcode2.apply(this, arguments)); _this6.type = 'optimized-trusting-update'; return _this6; } OptimizedTrustingUpdateOpcode.prototype.insert = function (dom, cursor, value) { return trustingInsert(dom, cursor, value); }; return OptimizedTrustingUpdateOpcode; }(UpdateOpcode); function _classCallCheck$12(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } /* tslint:disable */ function debugCallback(context, get) { console.info('Use `context`, and `get()` to debug this template.'); // for example... context === get('this'); debugger; } /* tslint:enable */ var callback = debugCallback; // For testing purposes var ScopeInspector = function () { function ScopeInspector(scope, symbols, evalInfo) { var i, slot, name, ref; _classCallCheck$12(this, ScopeInspector); this.scope = scope; this.locals = (0, _util.dict)(); for (i = 0; i < evalInfo.length; i++) { slot = evalInfo[i]; name = symbols[slot - 1]; ref = scope.getSymbol(slot); this.locals[name] = ref; } } ScopeInspector.prototype.get = function (path) { var scope = this.scope, locals = this.locals; var parts = path.split('.'); var _path$split = path.split('.'), head = _path$split[0], tail = _path$split.slice(1); var evalScope = scope.getEvalScope(); var ref = void 0; if (head === 'this') { ref = scope.getSelf(); } else if (locals[head]) { ref = locals[head]; } else if (head.indexOf('@') === 0 && evalScope[head]) { ref = evalScope[head]; } else { ref = this.scope.getSelf(); tail = parts; } return tail.reduce(function (r, part) { return r.get(part); }, ref); }; return ScopeInspector; }(); APPEND_OPCODES.add(71 /* Debugger */, function (vm, _ref) { var _symbols = _ref.op1, _evalInfo = _ref.op2; var symbols = vm.constants.getOther(_symbols); var evalInfo = vm.constants.getArray(_evalInfo); var inspector = new ScopeInspector(vm.scope(), symbols, evalInfo); callback(vm.getSelf().value(), function (path) { return inspector.get(path).value(); }); }); APPEND_OPCODES.add(69 /* GetPartialTemplate */, function (vm) { var stack = vm.stack; var definition = stack.pop(); stack.push(definition.value().template.asPartial()); }); function _classCallCheck$13(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var IterablePresenceReference = function () { function IterablePresenceReference(artifacts) { _classCallCheck$13(this, IterablePresenceReference); this.tag = artifacts.tag; this.artifacts = artifacts; } IterablePresenceReference.prototype.value = function () { return !this.artifacts.isEmpty(); }; return IterablePresenceReference; }(); APPEND_OPCODES.add(54 /* PutIterator */, function (vm) { var stack = vm.stack; var listRef = stack.pop(); var key = stack.pop(); var iterable = vm.env.iterableFor(listRef, key.value()); var iterator = new _reference2.ReferenceIterator(iterable); stack.push(iterator); stack.push(new IterablePresenceReference(iterator.artifacts)); }); APPEND_OPCODES.add(52 /* EnterList */, function (vm, _ref) { var relativeStart = _ref.op1; vm.enterList(relativeStart); }); APPEND_OPCODES.add(53 /* ExitList */, function (vm) { return vm.exitList(); }); APPEND_OPCODES.add(55 /* Iterate */, function (vm, _ref2) { var breaks = _ref2.op1, tryOpcode; var stack = vm.stack; var item = stack.peek().next(); if (item) { tryOpcode = vm.iterate(item.memo, item.value); vm.enterItem(item.key, tryOpcode); } else { vm.goto(breaks); } }); var Ops$2; (function (Ops$$1) { Ops$$1[Ops$$1["OpenComponentElement"] = 0] = "OpenComponentElement"; Ops$$1[Ops$$1["DidCreateElement"] = 1] = "DidCreateElement"; Ops$$1[Ops$$1["DidRenderLayout"] = 2] = "DidRenderLayout"; Ops$$1[Ops$$1["FunctionExpression"] = 3] = "FunctionExpression"; })(Ops$2 || (Ops$2 = {})); function _classCallCheck$17(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var CompiledStaticTemplate = function CompiledStaticTemplate(handle) { _classCallCheck$17(this, CompiledStaticTemplate); this.handle = handle; }; var CompiledDynamicTemplate = function CompiledDynamicTemplate(handle, symbolTable) { _classCallCheck$17(this, CompiledDynamicTemplate); this.handle = handle; this.symbolTable = symbolTable; }; var _createClass$2 = function () { function defineProperties(target, props) { var i, descriptor; for (i = 0; i < props.length; i++) { descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false;descriptor.configurable = true;if ("value" in descriptor) descriptor.writable = true;Object.defineProperty(target, descriptor.key, descriptor); } }return function (Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps);if (staticProps) defineProperties(Constructor, staticProps);return Constructor; }; }(); function _classCallCheck$20(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var ComponentLayoutBuilder = function () { function ComponentLayoutBuilder(env) { _classCallCheck$20(this, ComponentLayoutBuilder); this.env = env; } ComponentLayoutBuilder.prototype.wrapLayout = function (layout) { this.inner = new WrappedBuilder(this.env, layout); }; ComponentLayoutBuilder.prototype.fromLayout = function (componentName, layout) { this.inner = new UnwrappedBuilder(this.env, componentName, layout); }; ComponentLayoutBuilder.prototype.compile = function () { return this.inner.compile(); }; _createClass$2(ComponentLayoutBuilder, [{ key: 'tag', get: function () { return this.inner.tag; } }, { key: 'attrs', get: function () { return this.inner.attrs; } }]); return ComponentLayoutBuilder; }(); var WrappedBuilder = function () { function WrappedBuilder(env, layout) { _classCallCheck$20(this, WrappedBuilder); this.env = env; this.layout = layout; this.tag = new ComponentTagBuilder(); this.attrs = new ComponentAttrsBuilder(); } WrappedBuilder.prototype.compile = function () { //========DYNAMIC // PutValue(TagExpr) // Test // JumpUnless(BODY) // OpenDynamicPrimitiveElement // DidCreateElement // ...attr statements... // FlushElement // BODY: Noop // ...body statements... // PutValue(TagExpr) // Test // JumpUnless(END) // CloseElement // END: Noop // DidRenderLayout // Exit // //========STATIC // OpenPrimitiveElementOpcode // DidCreateElement // ...attr statements... // FlushElement // ...body statements... // CloseElement // DidRenderLayout // Exit var env = this.env, layout = this.layout, attrs, i; var meta = { templateMeta: layout.meta, symbols: layout.symbols, asPartial: false }; var dynamicTag = this.tag.getDynamic(); var staticTag = this.tag.getStatic(); var b = builder(env, meta); b.startLabels(); if (dynamicTag) { b.fetch(Register.s1); expr(dynamicTag, b); b.dup(); b.load(Register.s1); b.test('simple'); b.jumpUnless('BODY'); b.fetch(Register.s1); b.pushComponentOperations(); b.openDynamicElement(); } else if (staticTag) { b.pushComponentOperations(); b.openElementWithOperations(staticTag); } if (dynamicTag || staticTag) { b.didCreateElement(Register.s0); attrs = this.attrs.buffer; for (i = 0; i < attrs.length; i++) { compileStatement(attrs[i], b); } b.flushElement(); } b.label('BODY'); b.invokeStatic(layout.asBlock()); if (dynamicTag) { b.fetch(Register.s1); b.test('simple'); b.jumpUnless('END'); b.closeElement(); } else if (staticTag) { b.closeElement(); } b.label('END'); b.didRenderLayout(Register.s0); if (dynamicTag) { b.load(Register.s1); } b.stopLabels(); var start = b.start; b.finalize(); return new CompiledDynamicTemplate(start, { meta: meta, hasEval: layout.hasEval, symbols: layout.symbols.concat([ATTRS_BLOCK]) }); }; return WrappedBuilder; }(); var UnwrappedBuilder = function () { function UnwrappedBuilder(env, componentName, layout) { _classCallCheck$20(this, UnwrappedBuilder); this.env = env; this.componentName = componentName; this.layout = layout; this.attrs = new ComponentAttrsBuilder(); } UnwrappedBuilder.prototype.compile = function () { var env = this.env, layout = this.layout; return layout.asLayout(this.componentName, this.attrs.buffer).compileDynamic(env); }; _createClass$2(UnwrappedBuilder, [{ key: 'tag', get: function () { throw new Error('BUG: Cannot call `tag` on an UnwrappedBuilder'); } }]); return UnwrappedBuilder; }(); var ComponentTagBuilder = function () { function ComponentTagBuilder() { _classCallCheck$20(this, ComponentTagBuilder); this.isDynamic = null; this.isStatic = null; this.staticTagName = null; this.dynamicTagName = null; } ComponentTagBuilder.prototype.getDynamic = function () { if (this.isDynamic) { return this.dynamicTagName; } }; ComponentTagBuilder.prototype.getStatic = function () { if (this.isStatic) { return this.staticTagName; } }; ComponentTagBuilder.prototype.static = function (tagName) { this.isStatic = true; this.staticTagName = tagName; }; ComponentTagBuilder.prototype.dynamic = function (tagName) { this.isDynamic = true; this.dynamicTagName = [_wireFormat.Ops.ClientSideExpression, Ops$2.FunctionExpression, tagName]; }; return ComponentTagBuilder; }(); var ComponentAttrsBuilder = function () { function ComponentAttrsBuilder() { _classCallCheck$20(this, ComponentAttrsBuilder); this.buffer = []; } ComponentAttrsBuilder.prototype.static = function (name, value) { this.buffer.push([_wireFormat.Ops.StaticAttr, name, value, null]); }; ComponentAttrsBuilder.prototype.dynamic = function (name, value) { this.buffer.push([_wireFormat.Ops.DynamicAttr, name, [_wireFormat.Ops.ClientSideExpression, Ops$2.FunctionExpression, value], null]); }; return ComponentAttrsBuilder; }(); var ComponentBuilder = function () { function ComponentBuilder(builder) { _classCallCheck$20(this, ComponentBuilder); this.builder = builder; this.env = builder.env; } ComponentBuilder.prototype.static = function (definition, args) { var params = args[0], hash = args[1], _default = args[2], inverse = args[3]; var builder = this.builder; builder.pushComponentManager(definition); builder.invokeComponent(null, params, hash, _default, inverse); }; ComponentBuilder.prototype.dynamic = function (definitionArgs, getDefinition, args) { var params = args[0], hash = args[1], block = args[2], inverse = args[3]; var builder = this.builder; if (!definitionArgs || definitionArgs.length === 0) { throw new Error("Dynamic syntax without an argument"); } var meta = this.builder.meta.templateMeta; builder.startLabels(); builder.pushFrame(); builder.returnTo('END'); builder.compileArgs(definitionArgs[0], definitionArgs[1], true); builder.helper(function (vm, a) { return getDefinition(vm, a, meta); }); builder.dup(); builder.test('simple'); builder.enter(2); builder.jumpUnless('ELSE'); builder.pushDynamicComponentManager(); builder.invokeComponent(null, params, hash, block, inverse); builder.label('ELSE'); builder.exit(); builder.return(); builder.label('END'); builder.popFrame(); builder.stopLabels(); }; return ComponentBuilder; }(); function builder(env, meta) { return new OpcodeBuilder(env, meta); } function _classCallCheck$21(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var RawInlineBlock = function () { function RawInlineBlock(meta, statements, parameters) { _classCallCheck$21(this, RawInlineBlock); this.meta = meta; this.statements = statements; this.parameters = parameters; } RawInlineBlock.prototype.scan = function () { return new CompilableTemplate(this.statements, { parameters: this.parameters, meta: this.meta }); }; return RawInlineBlock; }(); var _createClass$1 = function () { function defineProperties(target, props) { var i, descriptor; for (i = 0; i < props.length; i++) { descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false;descriptor.configurable = true;if ("value" in descriptor) descriptor.writable = true;Object.defineProperty(target, descriptor.key, descriptor); } }return function (Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps);if (staticProps) defineProperties(Constructor, staticProps);return Constructor; }; }(); function _defaults$9(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _possibleConstructorReturn$9(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$9(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$9(subClass, superClass); } function _classCallCheck$19(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var Labels = function () { function Labels() { _classCallCheck$19(this, Labels); this.labels = (0, _util.dict)(); this.targets = []; } Labels.prototype.label = function (name, index) { this.labels[name] = index; }; Labels.prototype.target = function (at, Target, _target) { this.targets.push({ at: at, Target: Target, target: _target }); }; Labels.prototype.patch = function (program) { var targets = this.targets, labels = this.labels, i, _targets$i, at, target, goto; for (i = 0; i < targets.length; i++) { _targets$i = targets[i], at = _targets$i.at, target = _targets$i.target; goto = labels[target] - at; program.heap.setbyaddr(at + 1, goto); } }; return Labels; }(); var BasicOpcodeBuilder = function () { function BasicOpcodeBuilder(env, meta, program) { _classCallCheck$19(this, BasicOpcodeBuilder); this.env = env; this.meta = meta; this.program = program; this.labelsStack = new _util.Stack(); this.constants = program.constants; this.heap = program.heap; this.start = this.heap.malloc(); } BasicOpcodeBuilder.prototype.upvars = function (count) { return (0, _util.fillNulls)(count); }; BasicOpcodeBuilder.prototype.reserve = function (name) { this.push(name, 0, 0, 0); }; BasicOpcodeBuilder.prototype.push = function (name) { var op1 = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 0; var op2 = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : 0; var op3 = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : 0; this.heap.push(name); this.heap.push(op1); this.heap.push(op2); this.heap.push(op3); }; BasicOpcodeBuilder.prototype.finalize = function () { this.push(22 /* Return */); this.heap.finishMalloc(this.start); return this.start; }; // args BasicOpcodeBuilder.prototype.pushArgs = function (synthetic) { this.push(58 /* PushArgs */, synthetic === true ? 1 : 0); }; // helpers BasicOpcodeBuilder.prototype.startLabels = function () { this.labelsStack.push(new Labels()); }; BasicOpcodeBuilder.prototype.stopLabels = function () { var label = this.labelsStack.pop(); label.patch(this.program); }; // components BasicOpcodeBuilder.prototype.pushComponentManager = function (definition) { this.push(56 /* PushComponentManager */, this.other(definition)); }; BasicOpcodeBuilder.prototype.pushDynamicComponentManager = function () { this.push(57 /* PushDynamicComponentManager */); }; BasicOpcodeBuilder.prototype.prepareArgs = function (state) { this.push(59 /* PrepareArgs */, state); }; BasicOpcodeBuilder.prototype.createComponent = function (state, hasDefault, hasInverse) { var flag = (hasDefault === true ? 1 : 0) | (hasInverse === true ? 1 : 0) << 1; this.push(60 /* CreateComponent */, flag, state); }; BasicOpcodeBuilder.prototype.registerComponentDestructor = function (state) { this.push(61 /* RegisterComponentDestructor */, state); }; BasicOpcodeBuilder.prototype.beginComponentTransaction = function () { this.push(65 /* BeginComponentTransaction */); }; BasicOpcodeBuilder.prototype.commitComponentTransaction = function () { this.push(66 /* CommitComponentTransaction */); }; BasicOpcodeBuilder.prototype.pushComponentOperations = function () { this.push(62 /* PushComponentOperations */); }; BasicOpcodeBuilder.prototype.getComponentSelf = function (state) { this.push(63 /* GetComponentSelf */, state); }; BasicOpcodeBuilder.prototype.getComponentLayout = function (state) { this.push(64 /* GetComponentLayout */, state); }; BasicOpcodeBuilder.prototype.didCreateElement = function (state) { this.push(67 /* DidCreateElement */, state); }; BasicOpcodeBuilder.prototype.didRenderLayout = function (state) { this.push(68 /* DidRenderLayout */, state); }; // partial BasicOpcodeBuilder.prototype.getPartialTemplate = function () { this.push(69 /* GetPartialTemplate */); }; BasicOpcodeBuilder.prototype.resolveMaybeLocal = function (name) { this.push(70 /* ResolveMaybeLocal */, this.string(name)); }; // debugger BasicOpcodeBuilder.prototype.debugger = function (symbols, evalInfo) { this.push(71 /* Debugger */, this.constants.other(symbols), this.constants.array(evalInfo)); }; // content BasicOpcodeBuilder.prototype.dynamicContent = function (Opcode) { this.push(26 /* DynamicContent */, this.other(Opcode)); }; BasicOpcodeBuilder.prototype.cautiousAppend = function () { this.dynamicContent(new OptimizedCautiousAppendOpcode()); }; BasicOpcodeBuilder.prototype.trustingAppend = function () { this.dynamicContent(new OptimizedTrustingAppendOpcode()); }; // dom BasicOpcodeBuilder.prototype.text = function (_text) { this.push(24 /* Text */, this.constants.string(_text)); }; BasicOpcodeBuilder.prototype.openPrimitiveElement = function (tag) { this.push(27 /* OpenElement */, this.constants.string(tag)); }; BasicOpcodeBuilder.prototype.openElementWithOperations = function (tag) { this.push(28 /* OpenElementWithOperations */, this.constants.string(tag)); }; BasicOpcodeBuilder.prototype.openDynamicElement = function () { this.push(29 /* OpenDynamicElement */); }; BasicOpcodeBuilder.prototype.flushElement = function () { this.push(33 /* FlushElement */); }; BasicOpcodeBuilder.prototype.closeElement = function () { this.push(34 /* CloseElement */); }; BasicOpcodeBuilder.prototype.staticAttr = function (_name, _namespace, _value) { var name = this.constants.string(_name); var namespace = _namespace ? this.constants.string(_namespace) : 0; var value = this.constants.string(_value); this.push(30 /* StaticAttr */, name, value, namespace); }; BasicOpcodeBuilder.prototype.dynamicAttrNS = function (_name, _namespace, trusting) { var name = this.constants.string(_name); var namespace = this.constants.string(_namespace); this.push(32 /* DynamicAttrNS */, name, namespace, trusting === true ? 1 : 0); }; BasicOpcodeBuilder.prototype.dynamicAttr = function (_name, trusting) { var name = this.constants.string(_name); this.push(31 /* DynamicAttr */, name, trusting === true ? 1 : 0); }; BasicOpcodeBuilder.prototype.comment = function (_comment) { var comment = this.constants.string(_comment); this.push(25 /* Comment */, comment); }; BasicOpcodeBuilder.prototype.modifier = function (_definition) { this.push(35 /* Modifier */, this.other(_definition)); }; // lists BasicOpcodeBuilder.prototype.putIterator = function () { this.push(54 /* PutIterator */); }; BasicOpcodeBuilder.prototype.enterList = function (start) { this.reserve(52 /* EnterList */); this.labels.target(this.pos, 52 /* EnterList */, start); }; BasicOpcodeBuilder.prototype.exitList = function () { this.push(53 /* ExitList */); }; BasicOpcodeBuilder.prototype.iterate = function (breaks) { this.reserve(55 /* Iterate */); this.labels.target(this.pos, 55 /* Iterate */, breaks); }; // expressions BasicOpcodeBuilder.prototype.setVariable = function (symbol) { this.push(4 /* SetVariable */, symbol); }; BasicOpcodeBuilder.prototype.getVariable = function (symbol) { this.push(5 /* GetVariable */, symbol); }; BasicOpcodeBuilder.prototype.getProperty = function (key) { this.push(6 /* GetProperty */, this.string(key)); }; BasicOpcodeBuilder.prototype.getBlock = function (symbol) { this.push(8 /* GetBlock */, symbol); }; BasicOpcodeBuilder.prototype.hasBlock = function (symbol) { this.push(9 /* HasBlock */, symbol); }; BasicOpcodeBuilder.prototype.hasBlockParams = function (symbol) { this.push(10 /* HasBlockParams */, symbol); }; BasicOpcodeBuilder.prototype.concat = function (size) { this.push(11 /* Concat */, size); }; BasicOpcodeBuilder.prototype.function = function (f) { this.push(2 /* Function */, this.func(f)); }; BasicOpcodeBuilder.prototype.load = function (register) { this.push(17 /* Load */, register); }; BasicOpcodeBuilder.prototype.fetch = function (register) { this.push(18 /* Fetch */, register); }; BasicOpcodeBuilder.prototype.dup = function () { var register = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : Register.sp; var offset = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 0; return this.push(15 /* Dup */, register, offset); }; BasicOpcodeBuilder.prototype.pop = function () { var count = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : 1; return this.push(16 /* Pop */, count); }; // vm BasicOpcodeBuilder.prototype.pushRemoteElement = function () { this.push(36 /* PushRemoteElement */); }; BasicOpcodeBuilder.prototype.popRemoteElement = function () { this.push(37 /* PopRemoteElement */); }; BasicOpcodeBuilder.prototype.label = function (name) { this.labels.label(name, this.nextPos); }; BasicOpcodeBuilder.prototype.pushRootScope = function (symbols, bindCallerScope) { this.push(19 /* RootScope */, symbols, bindCallerScope ? 1 : 0); }; BasicOpcodeBuilder.prototype.pushChildScope = function () { this.push(20 /* ChildScope */); }; BasicOpcodeBuilder.prototype.popScope = function () { this.push(21 /* PopScope */); }; BasicOpcodeBuilder.prototype.returnTo = function (label) { this.reserve(23 /* ReturnTo */); this.labels.target(this.pos, 23 /* ReturnTo */, label); }; BasicOpcodeBuilder.prototype.pushDynamicScope = function () { this.push(39 /* PushDynamicScope */); }; BasicOpcodeBuilder.prototype.popDynamicScope = function () { this.push(40 /* PopDynamicScope */); }; BasicOpcodeBuilder.prototype.pushImmediate = function (value) { this.push(13 /* Constant */, this.other(value)); }; BasicOpcodeBuilder.prototype.primitive = function (_primitive) { var flag = 0; var primitive = void 0; switch (typeof _primitive) { case 'number': if (_primitive % 1 === 0 && _primitive > 0) { primitive = _primitive; } else { primitive = this.float(_primitive); flag = 1; } break; case 'string': primitive = this.string(_primitive); flag = 2; break; case 'boolean': primitive = _primitive | 0; flag = 3; break; case 'object': // assume null primitive = 2; flag = 3; break; case 'undefined': primitive = 3; flag = 3; break; default: throw new Error('Invalid primitive passed to pushPrimitive'); } this.push(14 /* PrimitiveReference */, flag << 30 | primitive); }; BasicOpcodeBuilder.prototype.helper = function (func) { this.push(1 /* Helper */, this.func(func)); }; BasicOpcodeBuilder.prototype.pushBlock = function (block) { this.push(7 /* PushBlock */, this.block(block)); }; BasicOpcodeBuilder.prototype.bindDynamicScope = function (_names) { this.push(38 /* BindDynamicScope */, this.names(_names)); }; BasicOpcodeBuilder.prototype.enter = function (args) { this.push(49 /* Enter */, args); }; BasicOpcodeBuilder.prototype.exit = function () { this.push(50 /* Exit */); }; BasicOpcodeBuilder.prototype.return = function () { this.push(22 /* Return */); }; BasicOpcodeBuilder.prototype.pushFrame = function () { this.push(47 /* PushFrame */); }; BasicOpcodeBuilder.prototype.popFrame = function () { this.push(48 /* PopFrame */); }; BasicOpcodeBuilder.prototype.compileDynamicBlock = function () { this.push(41 /* CompileDynamicBlock */); }; BasicOpcodeBuilder.prototype.invokeDynamic = function (invoker) { this.push(43 /* InvokeDynamic */, this.other(invoker)); }; BasicOpcodeBuilder.prototype.invokeStatic = function (block) { var callerCount = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 0, i; var parameters = block.symbolTable.parameters; var calleeCount = parameters.length; var count = Math.min(callerCount, calleeCount); this.pushFrame(); if (count) { this.pushChildScope(); for (i = 0; i < count; i++) { this.dup(Register.fp, callerCount - i); this.setVariable(parameters[i]); } } var _block = this.constants.block(block); this.push(42 /* InvokeStatic */, _block); if (count) { this.popScope(); } this.popFrame(); }; BasicOpcodeBuilder.prototype.test = function (testFunc) { var _func = void 0; if (testFunc === 'const') { _func = ConstTest; } else if (testFunc === 'simple') { _func = SimpleTest; } else if (testFunc === 'environment') { _func = EnvironmentTest; } else if (typeof testFunc === 'function') { _func = testFunc; } else { throw new Error('unreachable'); } var func = this.constants.function(_func); this.push(51 /* Test */, func); }; BasicOpcodeBuilder.prototype.jump = function (target) { this.reserve(44 /* Jump */); this.labels.target(this.pos, 44 /* Jump */, target); }; BasicOpcodeBuilder.prototype.jumpIf = function (target) { this.reserve(45 /* JumpIf */); this.labels.target(this.pos, 45 /* JumpIf */, target); }; BasicOpcodeBuilder.prototype.jumpUnless = function (target) { this.reserve(46 /* JumpUnless */); this.labels.target(this.pos, 46 /* JumpUnless */, target); }; BasicOpcodeBuilder.prototype.string = function (_string) { return this.constants.string(_string); }; BasicOpcodeBuilder.prototype.float = function (num) { return this.constants.float(num); }; BasicOpcodeBuilder.prototype.names = function (_names) { var names = [], i, n; for (i = 0; i < _names.length; i++) { n = _names[i]; names[i] = this.constants.string(n); } return this.constants.array(names); }; BasicOpcodeBuilder.prototype.symbols = function (_symbols) { return this.constants.array(_symbols); }; BasicOpcodeBuilder.prototype.other = function (value) { return this.constants.other(value); }; BasicOpcodeBuilder.prototype.block = function (_block2) { return _block2 ? this.constants.block(_block2) : 0; }; BasicOpcodeBuilder.prototype.func = function (_func2) { return this.constants.function(_func2); }; _createClass$1(BasicOpcodeBuilder, [{ key: 'pos', get: function () { return (0, _util.typePos)(this.heap.size()); } }, { key: 'nextPos', get: function () { return this.heap.size(); } }, { key: 'labels', get: function () { return this.labelsStack.current; } }]); return BasicOpcodeBuilder; }(); function isCompilableExpression(expr$$1) { return typeof expr$$1 === 'object' && expr$$1 !== null && typeof expr$$1.compile === 'function'; } var OpcodeBuilder = function (_BasicOpcodeBuilder) { _inherits$9(OpcodeBuilder, _BasicOpcodeBuilder); function OpcodeBuilder(env, meta) { var program = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : env.program; _classCallCheck$19(this, OpcodeBuilder); var _this = _possibleConstructorReturn$9(this, _BasicOpcodeBuilder.call(this, env, meta, program)); _this.component = new ComponentBuilder(_this); return _this; } OpcodeBuilder.prototype.compileArgs = function (params, hash, synthetic) { var positional = 0, i, val, _i; if (params) { for (i = 0; i < params.length; i++) { expr(params[i], this); } positional = params.length; } this.pushImmediate(positional); var names = _util.EMPTY_ARRAY; if (hash) { names = hash[0]; val = hash[1]; for (_i = 0; _i < val.length; _i++) { expr(val[_i], this); } } this.pushImmediate(names); this.pushArgs(synthetic); }; OpcodeBuilder.prototype.compile = function (expr$$1) { if (isCompilableExpression(expr$$1)) { return expr$$1.compile(this); } else { return expr$$1; } }; OpcodeBuilder.prototype.guardedAppend = function (expression, trusting) { this.startLabels(); this.pushFrame(); this.returnTo('END'); expr(expression, this); this.dup(); this.test(function (reference$$1) { return IsComponentDefinitionReference.create(reference$$1); }); this.enter(2); this.jumpUnless('ELSE'); this.pushDynamicComponentManager(); this.invokeComponent(null, null, null, null, null); this.exit(); this.return(); this.label('ELSE'); if (trusting) { this.trustingAppend(); } else { this.cautiousAppend(); } this.exit(); this.return(); this.label('END'); this.popFrame(); this.stopLabels(); }; OpcodeBuilder.prototype.invokeComponent = function (attrs, params, hash, block) { var inverse = arguments.length > 4 && arguments[4] !== undefined ? arguments[4] : null; this.fetch(Register.s0); this.dup(Register.sp, 1); this.load(Register.s0); this.pushBlock(block); this.pushBlock(inverse); this.compileArgs(params, hash, false); this.prepareArgs(Register.s0); this.beginComponentTransaction(); this.pushDynamicScope(); this.createComponent(Register.s0, block !== null, inverse !== null); this.registerComponentDestructor(Register.s0); this.getComponentSelf(Register.s0); this.getComponentLayout(Register.s0); this.invokeDynamic(new InvokeDynamicLayout(attrs && attrs.scan())); this.popFrame(); this.popScope(); this.popDynamicScope(); this.commitComponentTransaction(); this.load(Register.s0); }; OpcodeBuilder.prototype.template = function (block) { if (!block) return null; return new RawInlineBlock(this.meta, block.statements, block.parameters); }; return OpcodeBuilder; }(BasicOpcodeBuilder); function _classCallCheck$18(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var Ops$3 = _wireFormat.Ops; var ATTRS_BLOCK = '&attrs'; var Compilers = function () { function Compilers() { var offset = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : 0; _classCallCheck$18(this, Compilers); this.offset = offset; this.names = (0, _util.dict)(); this.funcs = []; } Compilers.prototype.add = function (name, func) { this.funcs.push(func); this.names[name] = this.funcs.length - 1; }; Compilers.prototype.compile = function (sexp, builder) { var name = sexp[this.offset]; var index = this.names[name]; var func = this.funcs[index]; (0, _util.assert)(!!func, 'expected an implementation for ' + (this.offset === 0 ? Ops$3[sexp[0]] : Ops$2[sexp[1]])); func(sexp, builder); }; return Compilers; }(); var STATEMENTS = new Compilers(); var CLIENT_SIDE = new Compilers(1); STATEMENTS.add(Ops$3.Text, function (sexp, builder) { builder.text(sexp[1]); }); STATEMENTS.add(Ops$3.Comment, function (sexp, builder) { builder.comment(sexp[1]); }); STATEMENTS.add(Ops$3.CloseElement, function (_sexp, builder) { builder.closeElement(); }); STATEMENTS.add(Ops$3.FlushElement, function (_sexp, builder) { builder.flushElement(); }); STATEMENTS.add(Ops$3.Modifier, function (sexp, builder) { var env = builder.env, meta = builder.meta; var name = sexp[1], params = sexp[2], hash = sexp[3]; if (env.hasModifier(name, meta.templateMeta)) { builder.compileArgs(params, hash, true); builder.modifier(env.lookupModifier(name, meta.templateMeta)); } else { throw new Error('Compile Error ' + name + ' is not a modifier: Helpers may not be used in the element form.'); } }); STATEMENTS.add(Ops$3.StaticAttr, function (sexp, builder) { var name = sexp[1], value = sexp[2], namespace = sexp[3]; builder.staticAttr(name, namespace, value); }); STATEMENTS.add(Ops$3.DynamicAttr, function (sexp, builder) { dynamicAttr(sexp, false, builder); }); STATEMENTS.add(Ops$3.TrustingAttr, function (sexp, builder) { dynamicAttr(sexp, true, builder); }); function dynamicAttr(sexp, trusting, builder) { var name = sexp[1], value = sexp[2], namespace = sexp[3]; expr(value, builder); if (namespace) { builder.dynamicAttrNS(name, namespace, trusting); } else { builder.dynamicAttr(name, trusting); } } STATEMENTS.add(Ops$3.OpenElement, function (sexp, builder) { builder.openPrimitiveElement(sexp[1]); }); CLIENT_SIDE.add(Ops$2.OpenComponentElement, function (sexp, builder) { builder.pushComponentOperations(); builder.openElementWithOperations(sexp[2]); }); CLIENT_SIDE.add(Ops$2.DidCreateElement, function (_sexp, builder) { builder.didCreateElement(Register.s0); }); CLIENT_SIDE.add(Ops$2.DidRenderLayout, function (_sexp, builder) { builder.didRenderLayout(Register.s0); }); STATEMENTS.add(Ops$3.Append, function (sexp, builder) { var value = sexp[1], trusting = sexp[2]; var _builder$env$macros = builder.env.macros(), inlines = _builder$env$macros.inlines; var returned = inlines.compile(sexp, builder) || value; if (returned === true) return; var isGet = E.isGet(value); var isMaybeLocal = E.isMaybeLocal(value); if (trusting) { builder.guardedAppend(value, true); } else { if (isGet || isMaybeLocal) { builder.guardedAppend(value, false); } else { expr(value, builder); builder.cautiousAppend(); } } }); STATEMENTS.add(Ops$3.Block, function (sexp, builder) { var name = sexp[1], params = sexp[2], hash = sexp[3], _template = sexp[4], _inverse = sexp[5]; var template = builder.template(_template); var inverse = builder.template(_inverse); var templateBlock = template && template.scan(); var inverseBlock = inverse && inverse.scan(); var _builder$env$macros2 = builder.env.macros(), blocks = _builder$env$macros2.blocks; blocks.compile(name, params, hash, templateBlock, inverseBlock, builder); }); var InvokeDynamicLayout = function () { function InvokeDynamicLayout(attrs) { _classCallCheck$18(this, InvokeDynamicLayout); this.attrs = attrs; } InvokeDynamicLayout.prototype.invoke = function (vm, layout) { var _layout$symbolTable = layout.symbolTable, symbols = _layout$symbolTable.symbols, hasEval = _layout$symbolTable.hasEval, i, symbol, value; var stack = vm.stack; var scope = vm.pushRootScope(symbols.length + 1, true); scope.bindSelf(stack.pop()); scope.bindBlock(symbols.indexOf(ATTRS_BLOCK) + 1, this.attrs); var lookup = null; if (hasEval) { symbols.indexOf('$eval') + 1; lookup = (0, _util.dict)(); } var callerNames = stack.pop(); for (i = callerNames.length - 1; i >= 0; i--) { symbol = symbols.indexOf(callerNames[i]); value = stack.pop(); if (symbol !== -1) scope.bindSymbol(symbol + 1, value); if (hasEval) lookup[callerNames[i]] = value; } var numPositionalArgs = stack.pop(); (0, _util.assert)(typeof numPositionalArgs === 'number', '[BUG] Incorrect value of positional argument count found during invoke-dynamic-layout.'); // Currently we don't support accessing positional args in templates, so just throw them away stack.pop(numPositionalArgs); var inverseSymbol = symbols.indexOf('&inverse'); var inverse = stack.pop(); if (inverseSymbol !== -1) { scope.bindBlock(inverseSymbol + 1, inverse); } if (lookup) lookup['&inverse'] = inverse; var defaultSymbol = symbols.indexOf('&default'); var defaultBlock = stack.pop(); if (defaultSymbol !== -1) { scope.bindBlock(defaultSymbol + 1, defaultBlock); } if (lookup) lookup['&default'] = defaultBlock; if (lookup) scope.bindEvalScope(lookup); vm.pushFrame(); vm.call(layout.handle); }; InvokeDynamicLayout.prototype.toJSON = function () { return { GlimmerDebug: '' }; }; return InvokeDynamicLayout; }(); STATEMENTS.add(Ops$3.Component, function (sexp, builder) { var tag = sexp[1], attrs = sexp[2], args = sexp[3], block = sexp[4], child, attrsBlock, definition, i, stmts, _i; if (builder.env.hasComponentDefinition(tag, builder.meta.templateMeta)) { child = builder.template(block); attrsBlock = new RawInlineBlock(builder.meta, attrs, _util.EMPTY_ARRAY); definition = builder.env.getComponentDefinition(tag, builder.meta.templateMeta); builder.pushComponentManager(definition); builder.invokeComponent(attrsBlock, null, args, child && child.scan()); } else if (block && block.parameters.length) { throw new Error('Compile Error: Cannot find component ' + tag); } else { builder.openPrimitiveElement(tag); for (i = 0; i < attrs.length; i++) { STATEMENTS.compile(attrs[i], builder); } builder.flushElement(); if (block) { stmts = block.statements; for (_i = 0; _i < stmts.length; _i++) { STATEMENTS.compile(stmts[_i], builder); } } builder.closeElement(); } }); var PartialInvoker = function () { function PartialInvoker(outerSymbols, evalInfo) { _classCallCheck$18(this, PartialInvoker); this.outerSymbols = outerSymbols; this.evalInfo = evalInfo; } PartialInvoker.prototype.invoke = function (vm, _partial) { var partial = _partial, i, slot, name, ref, _i2, _name, symbol, value; var partialSymbols = partial.symbolTable.symbols; var outerScope = vm.scope(); var evalScope = outerScope.getEvalScope(); var partialScope = vm.pushRootScope(partialSymbols.length, false); partialScope.bindCallerScope(outerScope.getCallerScope()); partialScope.bindEvalScope(evalScope); partialScope.bindSelf(outerScope.getSelf()); var evalInfo = this.evalInfo, outerSymbols = this.outerSymbols; var locals = Object.create(outerScope.getPartialMap()); for (i = 0; i < evalInfo.length; i++) { slot = evalInfo[i]; name = outerSymbols[slot - 1]; ref = outerScope.getSymbol(slot); locals[name] = ref; } if (evalScope) { for (_i2 = 0; _i2 < partialSymbols.length; _i2++) { _name = partialSymbols[_i2]; symbol = _i2 + 1; value = evalScope[_name]; if (value !== undefined) partialScope.bind(symbol, value); } } partialScope.bindPartialMap(locals); vm.pushFrame(); vm.call(partial.handle); }; return PartialInvoker; }(); STATEMENTS.add(Ops$3.Partial, function (sexp, builder) { var name = sexp[1], evalInfo = sexp[2]; var _builder$meta = builder.meta, templateMeta = _builder$meta.templateMeta, symbols = _builder$meta.symbols; builder.startLabels(); builder.pushFrame(); builder.returnTo('END'); expr(name, builder); builder.pushImmediate(1); builder.pushImmediate(_util.EMPTY_ARRAY); builder.pushArgs(true); builder.helper(function (vm, args) { var env = vm.env; var nameRef = args.positional.at(0); return (0, _reference2.map)(nameRef, function (n) { if (typeof n === 'string' && n) { if (!env.hasPartial(n, templateMeta)) { throw new Error('Could not find a partial named "' + n + '"'); } return env.lookupPartial(n, templateMeta); } else if (n) { throw new Error('Could not find a partial named "' + String(n) + '"'); } else { return null; } }); }); builder.dup(); builder.test('simple'); builder.enter(2); builder.jumpUnless('ELSE'); builder.getPartialTemplate(); builder.compileDynamicBlock(); builder.invokeDynamic(new PartialInvoker(symbols, evalInfo)); builder.popScope(); builder.popFrame(); builder.label('ELSE'); builder.exit(); builder.return(); builder.label('END'); builder.popFrame(); builder.stopLabels(); }); var InvokeDynamicYield = function () { function InvokeDynamicYield(callerCount) { _classCallCheck$18(this, InvokeDynamicYield); this.callerCount = callerCount; } InvokeDynamicYield.prototype.invoke = function (vm, block) { var callerCount = this.callerCount, i; var stack = vm.stack; if (!block) { // To balance the pop{Frame,Scope} vm.pushFrame(); vm.pushCallerScope(); return; } var table = block.symbolTable; var locals = table.parameters; // always present in inline blocks var calleeCount = locals ? locals.length : 0; var count = Math.min(callerCount, calleeCount); vm.pushFrame(); vm.pushCallerScope(calleeCount > 0); var scope = vm.scope(); for (i = 0; i < count; i++) { scope.bindSymbol(locals[i], stack.fromBase(callerCount - i)); } vm.call(block.handle); }; InvokeDynamicYield.prototype.toJSON = function () { return { GlimmerDebug: '' }; }; return InvokeDynamicYield; }(); STATEMENTS.add(Ops$3.Yield, function (sexp, builder) { var to = sexp[1], params = sexp[2]; var count = compileList(params, builder); builder.getBlock(to); builder.compileDynamicBlock(); builder.invokeDynamic(new InvokeDynamicYield(count)); builder.popScope(); builder.popFrame(); if (count) { builder.pop(count); } }); STATEMENTS.add(Ops$3.Debugger, function (sexp, builder) { var evalInfo = sexp[1]; builder.debugger(builder.meta.symbols, evalInfo); }); STATEMENTS.add(Ops$3.ClientSideStatement, function (sexp, builder) { CLIENT_SIDE.compile(sexp, builder); }); var EXPRESSIONS = new Compilers(); var CLIENT_SIDE_EXPRS = new Compilers(1); var E = _wireFormat.Expressions; function expr(expression, builder) { if (Array.isArray(expression)) { EXPRESSIONS.compile(expression, builder); } else { builder.primitive(expression); } } EXPRESSIONS.add(Ops$3.Unknown, function (sexp, builder) { var name = sexp[1]; if (builder.env.hasHelper(name, builder.meta.templateMeta)) { EXPRESSIONS.compile([Ops$3.Helper, name, _util.EMPTY_ARRAY, null], builder); } else if (builder.meta.asPartial) { builder.resolveMaybeLocal(name); } else { builder.getVariable(0); builder.getProperty(name); } }); EXPRESSIONS.add(Ops$3.Concat, function (sexp, builder) { var parts = sexp[1], i; for (i = 0; i < parts.length; i++) { expr(parts[i], builder); } builder.concat(parts.length); }); CLIENT_SIDE_EXPRS.add(Ops$2.FunctionExpression, function (sexp, builder) { builder.function(sexp[2]); }); EXPRESSIONS.add(Ops$3.Helper, function (sexp, builder) { var env = builder.env, meta = builder.meta; var name = sexp[1], params = sexp[2], hash = sexp[3]; if (env.hasHelper(name, meta.templateMeta)) { builder.compileArgs(params, hash, true); builder.helper(env.lookupHelper(name, meta.templateMeta)); } else { throw new Error('Compile Error: ' + name + ' is not a helper'); } }); EXPRESSIONS.add(Ops$3.Get, function (sexp, builder) { var head = sexp[1], path = sexp[2], i; builder.getVariable(head); for (i = 0; i < path.length; i++) { builder.getProperty(path[i]); } }); EXPRESSIONS.add(Ops$3.MaybeLocal, function (sexp, builder) { var path = sexp[1], head, i; if (builder.meta.asPartial) { head = path[0]; path = path.slice(1); builder.resolveMaybeLocal(head); } else { builder.getVariable(0); } for (i = 0; i < path.length; i++) { builder.getProperty(path[i]); } }); EXPRESSIONS.add(Ops$3.Undefined, function (_sexp, builder) { return builder.primitive(undefined); }); EXPRESSIONS.add(Ops$3.HasBlock, function (sexp, builder) { builder.hasBlock(sexp[1]); }); EXPRESSIONS.add(Ops$3.HasBlockParams, function (sexp, builder) { builder.hasBlockParams(sexp[1]); }); EXPRESSIONS.add(Ops$3.ClientSideExpression, function (sexp, builder) { CLIENT_SIDE_EXPRS.compile(sexp, builder); }); function compileList(params, builder) { var i; if (!params) return 0; for (i = 0; i < params.length; i++) { expr(params[i], builder); } return params.length; } var Blocks = function () { function Blocks() { _classCallCheck$18(this, Blocks); this.names = (0, _util.dict)(); this.funcs = []; } Blocks.prototype.add = function (name, func) { this.funcs.push(func); this.names[name] = this.funcs.length - 1; }; Blocks.prototype.addMissing = function (func) { this.missing = func; }; Blocks.prototype.compile = function (name, params, hash, template, inverse, builder) { var index = this.names[name], func, handled, _func; if (index === undefined) { (0, _util.assert)(!!this.missing, name + ' not found, and no catch-all block handler was registered'); func = this.missing; handled = func(name, params, hash, template, inverse, builder); (0, _util.assert)(!!handled, name + ' not found, and the catch-all block handler didn\'t handle it'); } else { _func = this.funcs[index]; _func(params, hash, template, inverse, builder); } }; return Blocks; }(); var BLOCKS = new Blocks(); var Inlines = function () { function Inlines() { _classCallCheck$18(this, Inlines); this.names = (0, _util.dict)(); this.funcs = []; } Inlines.prototype.add = function (name, func) { this.funcs.push(func); this.names[name] = this.funcs.length - 1; }; Inlines.prototype.addMissing = function (func) { this.missing = func; }; Inlines.prototype.compile = function (sexp, builder) { var value = sexp[1], func, returned, _func2, _returned; // TODO: Fix this so that expression macros can return // things like components, so that {{component foo}} // is the same as {{(component foo)}} if (!Array.isArray(value)) return ['expr', value]; var name = void 0; var params = void 0; var hash = void 0; if (value[0] === Ops$3.Helper) { name = value[1]; params = value[2]; hash = value[3]; } else if (value[0] === Ops$3.Unknown) { name = value[1]; params = hash = null; } else { return ['expr', value]; } var index = this.names[name]; if (index === undefined && this.missing) { func = this.missing; returned = func(name, params, hash, builder); return returned === false ? ['expr', value] : returned; } else if (index !== undefined) { _func2 = this.funcs[index]; _returned = _func2(name, params, hash, builder); return _returned === false ? ['expr', value] : _returned; } else { return ['expr', value]; } }; return Inlines; }(); var INLINES = new Inlines(); populateBuiltins(BLOCKS, INLINES); function populateBuiltins() { var blocks = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : new Blocks(); var inlines = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : new Inlines(); blocks.add('if', function (params, _hash, template, inverse, builder) { // PutArgs // Test(Environment) // Enter(BEGIN, END) // BEGIN: Noop // JumpUnless(ELSE) // Evaluate(default) // Jump(END) // ELSE: Noop // Evalulate(inverse) // END: Noop // Exit if (!params || params.length !== 1) { throw new Error('SYNTAX ERROR: #if requires a single argument'); } builder.startLabels(); builder.pushFrame(); builder.returnTo('END'); expr(params[0], builder); builder.test('environment'); builder.enter(1); builder.jumpUnless('ELSE'); builder.invokeStatic(template); if (inverse) { builder.jump('EXIT'); builder.label('ELSE'); builder.invokeStatic(inverse); builder.label('EXIT'); builder.exit(); builder.return(); } else { builder.label('ELSE'); builder.exit(); builder.return(); } builder.label('END'); builder.popFrame(); builder.stopLabels(); }); blocks.add('unless', function (params, _hash, template, inverse, builder) { // PutArgs // Test(Environment) // Enter(BEGIN, END) // BEGIN: Noop // JumpUnless(ELSE) // Evaluate(default) // Jump(END) // ELSE: Noop // Evalulate(inverse) // END: Noop // Exit if (!params || params.length !== 1) { throw new Error('SYNTAX ERROR: #unless requires a single argument'); } builder.startLabels(); builder.pushFrame(); builder.returnTo('END'); expr(params[0], builder); builder.test('environment'); builder.enter(1); builder.jumpIf('ELSE'); builder.invokeStatic(template); if (inverse) { builder.jump('EXIT'); builder.label('ELSE'); builder.invokeStatic(inverse); builder.label('EXIT'); builder.exit(); builder.return(); } else { builder.label('ELSE'); builder.exit(); builder.return(); } builder.label('END'); builder.popFrame(); builder.stopLabels(); }); blocks.add('with', function (params, _hash, template, inverse, builder) { // PutArgs // Test(Environment) // Enter(BEGIN, END) // BEGIN: Noop // JumpUnless(ELSE) // Evaluate(default) // Jump(END) // ELSE: Noop // Evalulate(inverse) // END: Noop // Exit if (!params || params.length !== 1) { throw new Error('SYNTAX ERROR: #with requires a single argument'); } builder.startLabels(); builder.pushFrame(); builder.returnTo('END'); expr(params[0], builder); builder.dup(); builder.test('environment'); builder.enter(2); builder.jumpUnless('ELSE'); builder.invokeStatic(template, 1); if (inverse) { builder.jump('EXIT'); builder.label('ELSE'); builder.invokeStatic(inverse); builder.label('EXIT'); builder.exit(); builder.return(); } else { builder.label('ELSE'); builder.exit(); builder.return(); } builder.label('END'); builder.popFrame(); builder.stopLabels(); }); blocks.add('each', function (params, hash, template, inverse, builder) { // Enter(BEGIN, END) // BEGIN: Noop // PutArgs // PutIterable // JumpUnless(ELSE) // EnterList(BEGIN2, END2) // ITER: Noop // NextIter(BREAK) // BEGIN2: Noop // PushChildScope // Evaluate(default) // PopScope // END2: Noop // Exit // Jump(ITER) // BREAK: Noop // ExitList // Jump(END) // ELSE: Noop // Evalulate(inverse) // END: Noop // Exit builder.startLabels(); builder.pushFrame(); builder.returnTo('END'); if (hash && hash[0][0] === 'key') { expr(hash[1][0], builder); } else { builder.primitive(null); } expr(params[0], builder); builder.enter(2); builder.putIterator(); builder.jumpUnless('ELSE'); builder.pushFrame(); builder.returnTo('ITER'); builder.dup(Register.fp, 1); builder.enterList('BODY'); builder.label('ITER'); builder.iterate('BREAK'); builder.label('BODY'); builder.invokeStatic(template, 2); builder.pop(2); builder.exit(); builder.return(); builder.label('BREAK'); builder.exitList(); builder.popFrame(); if (inverse) { builder.jump('EXIT'); builder.label('ELSE'); builder.invokeStatic(inverse); builder.label('EXIT'); builder.exit(); builder.return(); } else { builder.label('ELSE'); builder.exit(); builder.return(); } builder.label('END'); builder.popFrame(); builder.stopLabels(); }); blocks.add('-in-element', function (params, hash, template, _inverse, builder) { var keys, values; if (!params || params.length !== 1) { throw new Error('SYNTAX ERROR: #-in-element requires a single argument'); } builder.startLabels(); builder.pushFrame(); builder.returnTo('END'); if (hash && hash[0].length) { keys = hash[0], values = hash[1]; if (keys.length === 1 && keys[0] === 'nextSibling') { expr(values[0], builder); } else { throw new Error('SYNTAX ERROR: #-in-element does not take a `' + keys[0] + '` option'); } } else { expr(null, builder); } expr(params[0], builder); builder.dup(); builder.test('simple'); builder.enter(3); builder.jumpUnless('ELSE'); builder.pushRemoteElement(); builder.invokeStatic(template); builder.popRemoteElement(); builder.label('ELSE'); builder.exit(); builder.return(); builder.label('END'); builder.popFrame(); builder.stopLabels(); }); blocks.add('-with-dynamic-vars', function (_params, hash, template, _inverse, builder) { var names, expressions; if (hash) { names = hash[0], expressions = hash[1]; compileList(expressions, builder); builder.pushDynamicScope(); builder.bindDynamicScope(names); builder.invokeStatic(template); builder.popDynamicScope(); } else { builder.invokeStatic(template); } }); return { blocks: blocks, inlines: inlines }; } function compileStatement(statement, builder) { STATEMENTS.compile(statement, builder); } function compileStatements(statements, meta, env) { var b = new OpcodeBuilder(env, meta), i; for (i = 0; i < statements.length; i++) { compileStatement(statements[i], b); } return b; } function _classCallCheck$16(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var CompilableTemplate = function () { function CompilableTemplate(statements, symbolTable) { _classCallCheck$16(this, CompilableTemplate); this.statements = statements; this.symbolTable = symbolTable; this.compiledStatic = null; this.compiledDynamic = null; } CompilableTemplate.prototype.compileStatic = function (env) { var compiledStatic = this.compiledStatic, builder, handle; if (!compiledStatic) { builder = compileStatements(this.statements, this.symbolTable.meta, env); builder.finalize(); handle = builder.start; compiledStatic = this.compiledStatic = new CompiledStaticTemplate(handle); } return compiledStatic; }; CompilableTemplate.prototype.compileDynamic = function (env) { var compiledDynamic = this.compiledDynamic, staticBlock; if (!compiledDynamic) { staticBlock = this.compileStatic(env); compiledDynamic = new CompiledDynamicTemplate(staticBlock.handle, this.symbolTable); } return compiledDynamic; }; return CompilableTemplate; }(); function _classCallCheck$15(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var Ops$1 = _wireFormat.Ops; var Scanner = function () { function Scanner(block, env) { _classCallCheck$15(this, Scanner); this.block = block; this.env = env; } Scanner.prototype.scanEntryPoint = function (meta) { var block = this.block; var statements = block.statements, symbols = block.symbols, hasEval = block.hasEval; return new CompilableTemplate(statements, { meta: meta, symbols: symbols, hasEval: hasEval }); }; Scanner.prototype.scanBlock = function (meta) { var block = this.block; var statements = block.statements; return new CompilableTemplate(statements, { meta: meta, parameters: _util.EMPTY_ARRAY }); }; Scanner.prototype.scanLayout = function (meta, attrs, componentName) { var block = this.block, i, statement, tagName; var statements = block.statements, symbols = block.symbols, hasEval = block.hasEval; var newStatements = []; var toplevel = void 0; var inTopLevel = false; for (i = 0; i < statements.length; i++) { statement = statements[i]; if (_wireFormat.Statements.isComponent(statement)) { tagName = statement[1]; if (!this.env.hasComponentDefinition(tagName, meta.templateMeta)) { if (toplevel !== undefined) { newStatements.push([Ops$1.OpenElement, tagName]); } else { toplevel = tagName; decorateTopLevelElement(tagName, symbols, attrs, newStatements); } addFallback(statement, newStatements); } else { if (toplevel === undefined && tagName === componentName) { toplevel = tagName; decorateTopLevelElement(tagName, symbols, attrs, newStatements); addFallback(statement, newStatements); } else { newStatements.push(statement); } } } else { if (toplevel === undefined && _wireFormat.Statements.isOpenElement(statement)) { toplevel = statement[1]; inTopLevel = true; decorateTopLevelElement(toplevel, symbols, attrs, newStatements); } else { if (inTopLevel) { if (_wireFormat.Statements.isFlushElement(statement)) { inTopLevel = false; } else if (_wireFormat.Statements.isModifier(statement)) { throw Error('Found modifier "' + statement[1] + '" on the top-level element of "' + componentName + '". Modifiers cannot be on the top-level element'); } } newStatements.push(statement); } } } newStatements.push([Ops$1.ClientSideStatement, Ops$2.DidRenderLayout]); return new CompilableTemplate(newStatements, { meta: meta, hasEval: hasEval, symbols: symbols }); }; return Scanner; }(); function addFallback(statement, buffer) { var attrs = statement[2], block = statement[4], i, statements, _i; for (i = 0; i < attrs.length; i++) { buffer.push(attrs[i]); } buffer.push([Ops$1.FlushElement]); if (block) { statements = block.statements; for (_i = 0; _i < statements.length; _i++) { buffer.push(statements[_i]); } } buffer.push([Ops$1.CloseElement]); } function decorateTopLevelElement(tagName, symbols, attrs, buffer) { var attrsSymbol = symbols.push(ATTRS_BLOCK); buffer.push([Ops$1.ClientSideStatement, Ops$2.OpenComponentElement, tagName]); buffer.push([Ops$1.ClientSideStatement, Ops$2.DidCreateElement]); buffer.push([Ops$1.Yield, attrsSymbol, _util.EMPTY_ARRAY]); buffer.push.apply(buffer, attrs); } function _classCallCheck$24(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var Constants = function () { function Constants() { _classCallCheck$24(this, Constants); // `0` means NULL this.references = []; this.strings = []; this.expressions = []; this.floats = []; this.arrays = []; this.blocks = []; this.functions = []; this.others = []; } Constants.prototype.getReference = function (value) { return this.references[value - 1]; }; Constants.prototype.reference = function (value) { var index = this.references.length; this.references.push(value); return index + 1; }; Constants.prototype.getString = function (value) { return this.strings[value - 1]; }; Constants.prototype.getFloat = function (value) { return this.floats[value - 1]; }; Constants.prototype.float = function (value) { return this.floats.push(value); }; Constants.prototype.string = function (value) { var index = this.strings.length; this.strings.push(value); return index + 1; }; Constants.prototype.getExpression = function (value) { return this.expressions[value - 1]; }; Constants.prototype.getArray = function (value) { return this.arrays[value - 1]; }; Constants.prototype.getNames = function (value) { var _names = [], i, n; var names = this.getArray(value); for (i = 0; i < names.length; i++) { n = names[i]; _names[i] = this.getString(n); } return _names; }; Constants.prototype.array = function (values) { var index = this.arrays.length; this.arrays.push(values); return index + 1; }; Constants.prototype.getBlock = function (value) { return this.blocks[value - 1]; }; Constants.prototype.block = function (_block) { var index = this.blocks.length; this.blocks.push(_block); return index + 1; }; Constants.prototype.getFunction = function (value) { return this.functions[value - 1]; }; Constants.prototype.function = function (f) { var index = this.functions.length; this.functions.push(f); return index + 1; }; Constants.prototype.getOther = function (value) { return this.others[value - 1]; }; Constants.prototype.other = function (_other) { var index = this.others.length; this.others.push(_other); return index + 1; }; return Constants; }(); var badProtocols = ['javascript:', 'vbscript:']; var badTags = ['A', 'BODY', 'LINK', 'IMG', 'IFRAME', 'BASE', 'FORM']; var badTagsForDataURI = ['EMBED']; var badAttributes = ['href', 'src', 'background', 'action']; var badAttributesForDataURI = ['src']; function has(array, item) { return array.indexOf(item) !== -1; } function checkURI(tagName, attribute) { return (tagName === null || has(badTags, tagName)) && has(badAttributes, attribute); } function checkDataURI(tagName, attribute) { if (tagName === null) return false; return has(badTagsForDataURI, tagName) && has(badAttributesForDataURI, attribute); } function requiresSanitization(tagName, attribute) { return checkURI(tagName, attribute) || checkDataURI(tagName, attribute); } function sanitizeAttributeValue(env, element, attribute, value) { var tagName = null, protocol; if (value === null || value === undefined) { return value; } if (isSafeString(value)) { return value.toHTML(); } if (!element) { tagName = null; } else { tagName = element.tagName.toUpperCase(); } var str = normalizeTextValue(value); if (checkURI(tagName, attribute)) { protocol = env.protocolForURL(str); if (has(badProtocols, protocol)) { return 'unsafe:' + str; } } if (checkDataURI(tagName, attribute)) { return 'unsafe:' + str; } return str; } /* * @method normalizeProperty * @param element {HTMLElement} * @param slotName {String} * @returns {Object} { name, type } */ function normalizeProperty(element, slotName) { var type = void 0, normalized = void 0, lower; if (slotName in element) { normalized = slotName; type = 'prop'; } else { lower = slotName.toLowerCase(); if (lower in element) { type = 'prop'; normalized = lower; } else { type = 'attr'; normalized = slotName; } } if (type === 'prop' && (normalized.toLowerCase() === 'style' || preferAttr(element.tagName, normalized))) { type = 'attr'; } return { normalized: normalized, type: type }; } // properties that MUST be set as attributes, due to: // * browser bug // * strange spec outlier var ATTR_OVERRIDES = { // phantomjs < 2.0 lets you set it as a prop but won't reflect it // back to the attribute. button.getAttribute('type') === null BUTTON: { type: true, form: true }, INPUT: { // Some version of IE (like IE9) actually throw an exception // if you set input.type = 'something-unknown' type: true, form: true, // Chrome 46.0.2464.0: 'autocorrect' in document.createElement('input') === false // Safari 8.0.7: 'autocorrect' in document.createElement('input') === false // Mobile Safari (iOS 8.4 simulator): 'autocorrect' in document.createElement('input') === true autocorrect: true, // Chrome 54.0.2840.98: 'list' in document.createElement('input') === true // Safari 9.1.3: 'list' in document.createElement('input') === false list: true }, // element.form is actually a legitimate readOnly property, that is to be // mutated, but must be mutated by setAttribute... SELECT: { form: true }, OPTION: { form: true }, TEXTAREA: { form: true }, LABEL: { form: true }, FIELDSET: { form: true }, LEGEND: { form: true }, OBJECT: { form: true } }; function preferAttr(tagName, propName) { var tag = ATTR_OVERRIDES[tagName.toUpperCase()]; return tag && tag[propName.toLowerCase()] || false; } function _defaults$12(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _classCallCheck$27(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _possibleConstructorReturn$12(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$12(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$12(subClass, superClass); } var innerHTMLWrapper = { colgroup: { depth: 2, before: '', after: '
' }, table: { depth: 1, before: '', after: '
' }, tbody: { depth: 2, before: '', after: '
' }, tfoot: { depth: 2, before: '', after: '
' }, thead: { depth: 2, before: '', after: '
' }, tr: { depth: 3, before: '', after: '
' } }; // Patch: innerHTML Fix // Browsers: IE9 // Reason: IE9 don't allow us to set innerHTML on col, colgroup, frameset, // html, style, table, tbody, tfoot, thead, title, tr. // Fix: Wrap the innerHTML we are about to set in its parents, apply the // wrapped innerHTML on a div, then move the unwrapped nodes into the // target position. function treeConstruction(document, DOMTreeConstructionClass) { if (!document) return DOMTreeConstructionClass; if (!shouldApplyFix(document)) { return DOMTreeConstructionClass; } var div = document.createElement('div'); return function (_DOMTreeConstructionC) { _inherits$12(DOMTreeConstructionWithInnerHTMLFix, _DOMTreeConstructionC); function DOMTreeConstructionWithInnerHTMLFix() { _classCallCheck$27(this, DOMTreeConstructionWithInnerHTMLFix); return _possibleConstructorReturn$12(this, _DOMTreeConstructionC.apply(this, arguments)); } DOMTreeConstructionWithInnerHTMLFix.prototype.insertHTMLBefore = function (parent, referenceNode, html) { if (html === null || html === '') { return _DOMTreeConstructionC.prototype.insertHTMLBefore.call(this, parent, referenceNode, html); } var parentTag = parent.tagName.toLowerCase(); var wrapper = innerHTMLWrapper[parentTag]; if (wrapper === undefined) { return _DOMTreeConstructionC.prototype.insertHTMLBefore.call(this, parent, referenceNode, html); } return fixInnerHTML(parent, wrapper, div, html, referenceNode); }; return DOMTreeConstructionWithInnerHTMLFix; }(DOMTreeConstructionClass); } function fixInnerHTML(parent, wrapper, div, html, reference$$1) { var wrappedHtml = wrapper.before + html + wrapper.after, i; div.innerHTML = wrappedHtml; var parentNode = div; for (i = 0; i < wrapper.depth; i++) { parentNode = parentNode.childNodes[0]; } var _moveNodesBefore = moveNodesBefore(parentNode, parent, reference$$1), first = _moveNodesBefore[0], last = _moveNodesBefore[1]; return new ConcreteBounds(parent, first, last); } function shouldApplyFix(document) { var table = document.createElement('table'); try { table.innerHTML = ''; } catch (e) {} finally { if (table.childNodes.length !== 0) { // It worked as expected, no fix required return false; } } return true; } function _defaults$13(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _classCallCheck$28(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _possibleConstructorReturn$13(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$13(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$13(subClass, superClass); } // Patch: insertAdjacentHTML on SVG Fix // Browsers: Safari, IE, Edge, Firefox ~33-34 // Reason: insertAdjacentHTML does not exist on SVG elements in Safari. It is // present but throws an exception on IE and Edge. Old versions of // Firefox create nodes in the incorrect namespace. // Fix: Since IE and Edge silently fail to create SVG nodes using // innerHTML, and because Firefox may create nodes in the incorrect // namespace using innerHTML on SVG elements, an HTML-string wrapping // approach is used. A pre/post SVG tag is added to the string, then // that whole string is added to a div. The created nodes are plucked // out and applied to the target location on DOM. function treeConstruction$1(document, TreeConstructionClass, svgNamespace) { if (!document) return TreeConstructionClass; if (!shouldApplyFix$1(document, svgNamespace)) { return TreeConstructionClass; } var div = document.createElement('div'); return function (_TreeConstructionClas) { _inherits$13(TreeConstructionWithSVGInnerHTMLFix, _TreeConstructionClas); function TreeConstructionWithSVGInnerHTMLFix() { _classCallCheck$28(this, TreeConstructionWithSVGInnerHTMLFix); return _possibleConstructorReturn$13(this, _TreeConstructionClas.apply(this, arguments)); } TreeConstructionWithSVGInnerHTMLFix.prototype.insertHTMLBefore = function (parent, reference$$1, html) { if (html === null || html === '') { return _TreeConstructionClas.prototype.insertHTMLBefore.call(this, parent, reference$$1, html); } if (parent.namespaceURI !== svgNamespace) { return _TreeConstructionClas.prototype.insertHTMLBefore.call(this, parent, reference$$1, html); } return fixSVG(parent, div, html, reference$$1); }; return TreeConstructionWithSVGInnerHTMLFix; }(TreeConstructionClass); } function fixSVG(parent, div, html, reference$$1) { div.innerHTML = '' + html + ''; // IE, Edge: also do not correctly support using `innerHTML` on SVG // namespaced elements. So here a wrapper is used. var _moveNodesBefore = moveNodesBefore(div.firstChild, parent, reference$$1), first = _moveNodesBefore[0], last = _moveNodesBefore[1]; return new ConcreteBounds(parent, first, last); } function shouldApplyFix$1(document, svgNamespace) { var svg = document.createElementNS(svgNamespace, 'svg'); try { svg['insertAdjacentHTML']('beforeend', ''); } catch (e) { // IE, Edge: Will throw, insertAdjacentHTML is unsupported on SVG // Safari: Will throw, insertAdjacentHTML is not present on SVG } finally { // FF: Old versions will create a node in the wrong namespace if (svg.childNodes.length === 1 && svg.firstChild.namespaceURI === 'http://www.w3.org/2000/svg') { // The test worked as expected, no fix required return false; } return true; } } function _defaults$14(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _classCallCheck$29(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function _possibleConstructorReturn$14(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$14(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$14(subClass, superClass); } // Patch: Adjacent text node merging fix // Browsers: IE, Edge, Firefox w/o inspector open // Reason: These browsers will merge adjacent text nodes. For exmaple given //
Hello
with div.insertAdjacentHTML(' world') browsers // with proper behavior will populate div.childNodes with two items. // These browsers will populate it with one merged node instead. // Fix: Add these nodes to a wrapper element, then iterate the childNodes // of that wrapper and move the nodes to their target location. Note // that potential SVG bugs will have been handled before this fix. // Note that this fix must only apply to the previous text node, as // the base implementation of `insertHTMLBefore` already handles // following text nodes correctly. function treeConstruction$2(document, TreeConstructionClass) { if (!document) return TreeConstructionClass; if (!shouldApplyFix$2(document)) { return TreeConstructionClass; } return function (_TreeConstructionClas) { _inherits$14(TreeConstructionWithTextNodeMergingFix, _TreeConstructionClas); function TreeConstructionWithTextNodeMergingFix(document) { _classCallCheck$29(this, TreeConstructionWithTextNodeMergingFix); var _this2 = _possibleConstructorReturn$14(this, _TreeConstructionClas.call(this, document)); _this2.uselessComment = _this2.createComment(''); return _this2; } TreeConstructionWithTextNodeMergingFix.prototype.insertHTMLBefore = function (parent, reference$$1, html) { if (html === null) { return _TreeConstructionClas.prototype.insertHTMLBefore.call(this, parent, reference$$1, html); } var didSetUselessComment = false; var nextPrevious = reference$$1 ? reference$$1.previousSibling : parent.lastChild; if (nextPrevious && nextPrevious instanceof Text) { didSetUselessComment = true; parent.insertBefore(this.uselessComment, reference$$1); } var bounds = _TreeConstructionClas.prototype.insertHTMLBefore.call(this, parent, reference$$1, html); if (didSetUselessComment) { parent.removeChild(this.uselessComment); } return bounds; }; return TreeConstructionWithTextNodeMergingFix; }(TreeConstructionClass); } function shouldApplyFix$2(document) { var mergingTextDiv = document.createElement('div'); mergingTextDiv.innerHTML = 'first'; mergingTextDiv.insertAdjacentHTML('beforeend', 'second'); if (mergingTextDiv.childNodes.length === 2) { // It worked as expected, no fix required return false; } return true; } function _defaults$11(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _possibleConstructorReturn$11(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$11(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$11(subClass, superClass); } function _classCallCheck$26(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var SVG_NAMESPACE = 'http://www.w3.org/2000/svg'; // http://www.w3.org/TR/html/syntax.html#html-integration-point var SVG_INTEGRATION_POINTS = { foreignObject: 1, desc: 1, title: 1 }; // http://www.w3.org/TR/html/syntax.html#adjust-svg-attributes // TODO: Adjust SVG attributes // http://www.w3.org/TR/html/syntax.html#parsing-main-inforeign // TODO: Adjust SVG elements // http://www.w3.org/TR/html/syntax.html#parsing-main-inforeign var BLACKLIST_TABLE = Object.create(null); ["b", "big", "blockquote", "body", "br", "center", "code", "dd", "div", "dl", "dt", "em", "embed", "h1", "h2", "h3", "h4", "h5", "h6", "head", "hr", "i", "img", "li", "listing", "main", "meta", "nobr", "ol", "p", "pre", "ruby", "s", "small", "span", "strong", "strike", "sub", "sup", "table", "tt", "u", "ul", "var"].forEach(function (tag) { return BLACKLIST_TABLE[tag] = 1; }); var WHITESPACE = /[\t-\r \xA0\u1680\u180E\u2000-\u200A\u2028\u2029\u202F\u205F\u3000\uFEFF]/; var doc = typeof document === 'undefined' ? null : document; function moveNodesBefore(source, target, nextSibling) { var first = source.firstChild; var last = null; var current = first; while (current) { last = current; current = current.nextSibling; target.insertBefore(last, nextSibling); } return [first, last]; } var DOMOperations = function () { function DOMOperations(document) { _classCallCheck$26(this, DOMOperations); this.document = document; this.setupUselessElement(); } // split into seperate method so that NodeDOMTreeConstruction // can override it. DOMOperations.prototype.setupUselessElement = function () { this.uselessElement = this.document.createElement('div'); }; DOMOperations.prototype.createElement = function (tag, context) { var isElementInSVGNamespace = void 0, isHTMLIntegrationPoint = void 0; if (context) { isElementInSVGNamespace = context.namespaceURI === SVG_NAMESPACE || tag === 'svg'; isHTMLIntegrationPoint = SVG_INTEGRATION_POINTS[context.tagName]; } else { isElementInSVGNamespace = tag === 'svg'; isHTMLIntegrationPoint = false; } if (isElementInSVGNamespace && !isHTMLIntegrationPoint) { // FIXME: This does not properly handle with color, face, or // size attributes, which is also disallowed by the spec. We should fix // this. if (BLACKLIST_TABLE[tag]) { throw new Error('Cannot create a ' + tag + ' inside an SVG context'); } return this.document.createElementNS(SVG_NAMESPACE, tag); } else { return this.document.createElement(tag); } }; DOMOperations.prototype.insertBefore = function (parent, node, reference$$1) { parent.insertBefore(node, reference$$1); }; DOMOperations.prototype.insertHTMLBefore = function (_parent, nextSibling, html) { return _insertHTMLBefore(this.uselessElement, _parent, nextSibling, html); }; DOMOperations.prototype.createTextNode = function (text) { return this.document.createTextNode(text); }; DOMOperations.prototype.createComment = function (data) { return this.document.createComment(data); }; return DOMOperations; }(); var DOM; (function (DOM) { var TreeConstruction = function (_DOMOperations) { _inherits$11(TreeConstruction, _DOMOperations); function TreeConstruction() { _classCallCheck$26(this, TreeConstruction); return _possibleConstructorReturn$11(this, _DOMOperations.apply(this, arguments)); } TreeConstruction.prototype.createElementNS = function (namespace, tag) { return this.document.createElementNS(namespace, tag); }; TreeConstruction.prototype.setAttribute = function (element, name, value, namespace) { if (namespace) { element.setAttributeNS(namespace, name, value); } else { element.setAttribute(name, value); } }; return TreeConstruction; }(DOMOperations); DOM.TreeConstruction = TreeConstruction; var appliedTreeContruction = TreeConstruction; appliedTreeContruction = treeConstruction$2(doc, appliedTreeContruction); appliedTreeContruction = treeConstruction(doc, appliedTreeContruction); appliedTreeContruction = treeConstruction$1(doc, appliedTreeContruction, SVG_NAMESPACE); DOM.DOMTreeConstruction = appliedTreeContruction; })(DOM || (DOM = {})); var DOMChanges = function (_DOMOperations2) { _inherits$11(DOMChanges, _DOMOperations2); function DOMChanges(document) { _classCallCheck$26(this, DOMChanges); var _this2 = _possibleConstructorReturn$11(this, _DOMOperations2.call(this, document)); _this2.document = document; _this2.namespace = null; return _this2; } DOMChanges.prototype.setAttribute = function (element, name, value) { element.setAttribute(name, value); }; DOMChanges.prototype.setAttributeNS = function (element, namespace, name, value) { element.setAttributeNS(namespace, name, value); }; DOMChanges.prototype.removeAttribute = function (element, name) { element.removeAttribute(name); }; DOMChanges.prototype.removeAttributeNS = function (element, namespace, name) { element.removeAttributeNS(namespace, name); }; DOMChanges.prototype.insertNodeBefore = function (parent, node, reference$$1) { var firstChild, lastChild; if (isDocumentFragment(node)) { firstChild = node.firstChild, lastChild = node.lastChild; this.insertBefore(parent, node, reference$$1); return new ConcreteBounds(parent, firstChild, lastChild); } else { this.insertBefore(parent, node, reference$$1); return new SingleNodeBounds(parent, node); } }; DOMChanges.prototype.insertTextBefore = function (parent, nextSibling, text) { var textNode = this.createTextNode(text); this.insertBefore(parent, textNode, nextSibling); return textNode; }; DOMChanges.prototype.insertBefore = function (element, node, reference$$1) { element.insertBefore(node, reference$$1); }; DOMChanges.prototype.insertAfter = function (element, node, reference$$1) { this.insertBefore(element, node, reference$$1.nextSibling); }; return DOMChanges; }(DOMOperations); function _insertHTMLBefore(_useless, _parent, _nextSibling, html) { // TypeScript vendored an old version of the DOM spec where `insertAdjacentHTML` // only exists on `HTMLElement` but not on `Element`. We actually work with the // newer version of the DOM API here (and monkey-patch this method in `./compat` // when we detect older browsers). This is a hack to work around this limitation. var parent = _parent; var useless = _useless; var nextSibling = _nextSibling; var prev = nextSibling ? nextSibling.previousSibling : parent.lastChild; var last = void 0; if (html === null || html === '') { return new ConcreteBounds(parent, null, null); } if (nextSibling === null) { parent.insertAdjacentHTML('beforeend', html); last = parent.lastChild; } else if (nextSibling instanceof HTMLElement) { nextSibling.insertAdjacentHTML('beforebegin', html); last = nextSibling.previousSibling; } else { // Non-element nodes do not support insertAdjacentHTML, so add an // element and call it on that element. Then remove the element. // // This also protects Edge, IE and Firefox w/o the inspector open // from merging adjacent text nodes. See ./compat/text-node-merging-fix.ts parent.insertBefore(useless, nextSibling); useless.insertAdjacentHTML('beforebegin', html); last = useless.previousSibling; parent.removeChild(useless); } var first = prev ? prev.nextSibling : parent.firstChild; return new ConcreteBounds(parent, first, last); } function isDocumentFragment(node) { return node.nodeType === Node.DOCUMENT_FRAGMENT_NODE; } var helper = DOMChanges; helper = function (document, DOMChangesClass) { if (!document) return DOMChangesClass; if (!shouldApplyFix$2(document)) { return DOMChangesClass; } return function (_DOMChangesClass) { _inherits$14(DOMChangesWithTextNodeMergingFix, _DOMChangesClass); function DOMChangesWithTextNodeMergingFix(document) { _classCallCheck$29(this, DOMChangesWithTextNodeMergingFix); var _this = _possibleConstructorReturn$14(this, _DOMChangesClass.call(this, document)); _this.uselessComment = document.createComment(''); return _this; } DOMChangesWithTextNodeMergingFix.prototype.insertHTMLBefore = function (parent, nextSibling, html) { if (html === null) { return _DOMChangesClass.prototype.insertHTMLBefore.call(this, parent, nextSibling, html); } var didSetUselessComment = false; var nextPrevious = nextSibling ? nextSibling.previousSibling : parent.lastChild; if (nextPrevious && nextPrevious instanceof Text) { didSetUselessComment = true; parent.insertBefore(this.uselessComment, nextSibling); } var bounds = _DOMChangesClass.prototype.insertHTMLBefore.call(this, parent, nextSibling, html); if (didSetUselessComment) { parent.removeChild(this.uselessComment); } return bounds; }; return DOMChangesWithTextNodeMergingFix; }(DOMChangesClass); }(doc, helper); helper = function (document, DOMChangesClass) { if (!document) return DOMChangesClass; if (!shouldApplyFix(document)) { return DOMChangesClass; } var div = document.createElement('div'); return function (_DOMChangesClass) { _inherits$12(DOMChangesWithInnerHTMLFix, _DOMChangesClass); function DOMChangesWithInnerHTMLFix() { _classCallCheck$27(this, DOMChangesWithInnerHTMLFix); return _possibleConstructorReturn$12(this, _DOMChangesClass.apply(this, arguments)); } DOMChangesWithInnerHTMLFix.prototype.insertHTMLBefore = function (parent, nextSibling, html) { if (html === null || html === '') { return _DOMChangesClass.prototype.insertHTMLBefore.call(this, parent, nextSibling, html); } var parentTag = parent.tagName.toLowerCase(); var wrapper = innerHTMLWrapper[parentTag]; if (wrapper === undefined) { return _DOMChangesClass.prototype.insertHTMLBefore.call(this, parent, nextSibling, html); } return fixInnerHTML(parent, wrapper, div, html, nextSibling); }; return DOMChangesWithInnerHTMLFix; }(DOMChangesClass); }(doc, helper); helper = function (document, DOMChangesClass, svgNamespace) { if (!document) return DOMChangesClass; if (!shouldApplyFix$1(document, svgNamespace)) { return DOMChangesClass; } var div = document.createElement('div'); return function (_DOMChangesClass) { _inherits$13(DOMChangesWithSVGInnerHTMLFix, _DOMChangesClass); function DOMChangesWithSVGInnerHTMLFix() { _classCallCheck$28(this, DOMChangesWithSVGInnerHTMLFix); return _possibleConstructorReturn$13(this, _DOMChangesClass.apply(this, arguments)); } DOMChangesWithSVGInnerHTMLFix.prototype.insertHTMLBefore = function (parent, nextSibling, html) { if (html === null || html === '') { return _DOMChangesClass.prototype.insertHTMLBefore.call(this, parent, nextSibling, html); } if (parent.namespaceURI !== svgNamespace) { return _DOMChangesClass.prototype.insertHTMLBefore.call(this, parent, nextSibling, html); } return fixSVG(parent, div, html, nextSibling); }; return DOMChangesWithSVGInnerHTMLFix; }(DOMChangesClass); }(doc, helper, SVG_NAMESPACE); var helper$1 = helper; var DOMTreeConstruction = DOM.DOMTreeConstruction; function _defaults$10(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } function _possibleConstructorReturn$10(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$10(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$10(subClass, superClass); } function _classCallCheck$25(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } function defaultManagers(element, attr) { var tagName = element.tagName; var isSVG = element.namespaceURI === SVG_NAMESPACE; if (isSVG) { return defaultAttributeManagers(tagName, attr); } var _normalizeProperty = normalizeProperty(element, attr), type = _normalizeProperty.type, normalized = _normalizeProperty.normalized; if (type === 'attr') { return defaultAttributeManagers(tagName, normalized); } else { return defaultPropertyManagers(tagName, normalized); } } function defaultPropertyManagers(tagName, attr) { if (requiresSanitization(tagName, attr)) { return new SafePropertyManager(attr); } if (isUserInputValue(tagName, attr)) { return INPUT_VALUE_PROPERTY_MANAGER; } if (isOptionSelected(tagName, attr)) { return OPTION_SELECTED_MANAGER; } return new PropertyManager(attr); } function defaultAttributeManagers(tagName, attr) { if (requiresSanitization(tagName, attr)) { return new SafeAttributeManager(attr); } return new AttributeManager(attr); } var AttributeManager = function () { function AttributeManager(attr) { _classCallCheck$25(this, AttributeManager); this.attr = attr; } AttributeManager.prototype.setAttribute = function (env, element, value, namespace) { var dom = env.getAppendOperations(); var normalizedValue = normalizeAttributeValue(value); if (!isAttrRemovalValue(normalizedValue)) { dom.setAttribute(element, this.attr, normalizedValue, namespace); } }; AttributeManager.prototype.updateAttribute = function (env, element, value, namespace) { if (value === null || value === undefined || value === false) { if (namespace) { env.getDOM().removeAttributeNS(element, namespace, this.attr); } else { env.getDOM().removeAttribute(element, this.attr); } } else { this.setAttribute(env, element, value); } }; return AttributeManager; }(); var PropertyManager = function (_AttributeManager) { _inherits$10(PropertyManager, _AttributeManager); function PropertyManager() { _classCallCheck$25(this, PropertyManager); return _possibleConstructorReturn$10(this, _AttributeManager.apply(this, arguments)); } PropertyManager.prototype.setAttribute = function (_env, element, value) { if (!isAttrRemovalValue(value)) { element[this.attr] = value; } }; PropertyManager.prototype.removeAttribute = function (env, element, namespace) { // TODO this sucks but to preserve properties first and to meet current // semantics we must do this. var attr = this.attr; if (namespace) { env.getDOM().removeAttributeNS(element, namespace, attr); } else { env.getDOM().removeAttribute(element, attr); } }; PropertyManager.prototype.updateAttribute = function (env, element, value, namespace) { // ensure the property is always updated element[this.attr] = value; if (isAttrRemovalValue(value)) { this.removeAttribute(env, element, namespace); } }; return PropertyManager; }(AttributeManager); function normalizeAttributeValue(value) { if (value === false || value === undefined || value === null) { return null; } if (value === true) { return ''; } // onclick function etc in SSR if (typeof value === 'function') { return null; } return String(value); } function isAttrRemovalValue(value) { return value === null || value === undefined; } var SafePropertyManager = function (_PropertyManager) { _inherits$10(SafePropertyManager, _PropertyManager); function SafePropertyManager() { _classCallCheck$25(this, SafePropertyManager); return _possibleConstructorReturn$10(this, _PropertyManager.apply(this, arguments)); } SafePropertyManager.prototype.setAttribute = function (env, element, value) { _PropertyManager.prototype.setAttribute.call(this, env, element, sanitizeAttributeValue(env, element, this.attr, value)); }; SafePropertyManager.prototype.updateAttribute = function (env, element, value) { _PropertyManager.prototype.updateAttribute.call(this, env, element, sanitizeAttributeValue(env, element, this.attr, value)); }; return SafePropertyManager; }(PropertyManager); function isUserInputValue(tagName, attribute) { return (tagName === 'INPUT' || tagName === 'TEXTAREA') && attribute === 'value'; } var InputValuePropertyManager = function (_AttributeManager2) { _inherits$10(InputValuePropertyManager, _AttributeManager2); function InputValuePropertyManager() { _classCallCheck$25(this, InputValuePropertyManager); return _possibleConstructorReturn$10(this, _AttributeManager2.apply(this, arguments)); } InputValuePropertyManager.prototype.setAttribute = function (_env, element, value) { element.value = normalizeTextValue(value); }; InputValuePropertyManager.prototype.updateAttribute = function (_env, element, value) { var input = element; var currentValue = input.value; var normalizedValue = normalizeTextValue(value); if (currentValue !== normalizedValue) { input.value = normalizedValue; } }; return InputValuePropertyManager; }(AttributeManager); var INPUT_VALUE_PROPERTY_MANAGER = new InputValuePropertyManager('value'); function isOptionSelected(tagName, attribute) { return tagName === 'OPTION' && attribute === 'selected'; } var OptionSelectedManager = function (_PropertyManager2) { _inherits$10(OptionSelectedManager, _PropertyManager2); function OptionSelectedManager() { _classCallCheck$25(this, OptionSelectedManager); return _possibleConstructorReturn$10(this, _PropertyManager2.apply(this, arguments)); } OptionSelectedManager.prototype.setAttribute = function (_env, element, value) { if (value !== null && value !== undefined && value !== false) { element.selected = true; } }; OptionSelectedManager.prototype.updateAttribute = function (_env, element, value) { var option = element; if (value) { option.selected = true; } else { option.selected = false; } }; return OptionSelectedManager; }(PropertyManager); var OPTION_SELECTED_MANAGER = new OptionSelectedManager('selected'); var SafeAttributeManager = function (_AttributeManager3) { _inherits$10(SafeAttributeManager, _AttributeManager3); function SafeAttributeManager() { _classCallCheck$25(this, SafeAttributeManager); return _possibleConstructorReturn$10(this, _AttributeManager3.apply(this, arguments)); } SafeAttributeManager.prototype.setAttribute = function (env, element, value) { _AttributeManager3.prototype.setAttribute.call(this, env, element, sanitizeAttributeValue(env, element, this.attr, value)); }; SafeAttributeManager.prototype.updateAttribute = function (env, element, value) { _AttributeManager3.prototype.updateAttribute.call(this, env, element, sanitizeAttributeValue(env, element, this.attr, value)); }; return SafeAttributeManager; }(AttributeManager); var _createClass$4 = function () { function defineProperties(target, props) { var i, descriptor; for (i = 0; i < props.length; i++) { descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false;descriptor.configurable = true;if ("value" in descriptor) descriptor.writable = true;Object.defineProperty(target, descriptor.key, descriptor); } }return function (Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps);if (staticProps) defineProperties(Constructor, staticProps);return Constructor; }; }(); function _classCallCheck$23(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var Scope = function () { function Scope( // the 0th slot is `self` slots, callerScope, // named arguments and blocks passed to a layout that uses eval evalScope, // locals in scope when the partial was invoked partialMap) { _classCallCheck$23(this, Scope); this.slots = slots; this.callerScope = callerScope; this.evalScope = evalScope; this.partialMap = partialMap; } Scope.root = function (self) { var size = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 0, i; var refs = new Array(size + 1); for (i = 0; i <= size; i++) { refs[i] = UNDEFINED_REFERENCE; } return new Scope(refs, null, null, null).init({ self: self }); }; Scope.sized = function () { var size = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : 0, i; var refs = new Array(size + 1); for (i = 0; i <= size; i++) { refs[i] = UNDEFINED_REFERENCE; } return new Scope(refs, null, null, null); }; Scope.prototype.init = function (_ref) { var self = _ref.self; this.slots[0] = self; return this; }; Scope.prototype.getSelf = function () { return this.get(0); }; Scope.prototype.getSymbol = function (symbol) { return this.get(symbol); }; Scope.prototype.getBlock = function (symbol) { return this.get(symbol); }; Scope.prototype.getEvalScope = function () { return this.evalScope; }; Scope.prototype.getPartialMap = function () { return this.partialMap; }; Scope.prototype.bind = function (symbol, value) { this.set(symbol, value); }; Scope.prototype.bindSelf = function (self) { this.set(0, self); }; Scope.prototype.bindSymbol = function (symbol, value) { this.set(symbol, value); }; Scope.prototype.bindBlock = function (symbol, value) { this.set(symbol, value); }; Scope.prototype.bindEvalScope = function (map$$1) { this.evalScope = map$$1; }; Scope.prototype.bindPartialMap = function (map$$1) { this.partialMap = map$$1; }; Scope.prototype.bindCallerScope = function (scope) { this.callerScope = scope; }; Scope.prototype.getCallerScope = function () { return this.callerScope; }; Scope.prototype.child = function () { return new Scope(this.slots.slice(), this.callerScope, this.evalScope, this.partialMap); }; Scope.prototype.get = function (index) { if (index >= this.slots.length) { throw new RangeError('BUG: cannot get $' + index + ' from scope; length=' + this.slots.length); } return this.slots[index]; }; Scope.prototype.set = function (index, value) { if (index >= this.slots.length) { throw new RangeError('BUG: cannot get $' + index + ' from scope; length=' + this.slots.length); } this.slots[index] = value; }; return Scope; }(); var Transaction = function () { function Transaction() { _classCallCheck$23(this, Transaction); this.scheduledInstallManagers = []; this.scheduledInstallModifiers = []; this.scheduledUpdateModifierManagers = []; this.scheduledUpdateModifiers = []; this.createdComponents = []; this.createdManagers = []; this.updatedComponents = []; this.updatedManagers = []; this.destructors = []; } Transaction.prototype.didCreate = function (component, manager) { this.createdComponents.push(component); this.createdManagers.push(manager); }; Transaction.prototype.didUpdate = function (component, manager) { this.updatedComponents.push(component); this.updatedManagers.push(manager); }; Transaction.prototype.scheduleInstallModifier = function (modifier, manager) { this.scheduledInstallManagers.push(manager); this.scheduledInstallModifiers.push(modifier); }; Transaction.prototype.scheduleUpdateModifier = function (modifier, manager) { this.scheduledUpdateModifierManagers.push(manager); this.scheduledUpdateModifiers.push(modifier); }; Transaction.prototype.didDestroy = function (d) { this.destructors.push(d); }; Transaction.prototype.commit = function () { var createdComponents = this.createdComponents, createdManagers = this.createdManagers, i, component, manager, _i, _component, _manager, _i2, _i3, _manager2, modifier, _i4, _manager3, _modifier; for (i = 0; i < createdComponents.length; i++) { component = createdComponents[i]; manager = createdManagers[i]; manager.didCreate(component); } var updatedComponents = this.updatedComponents, updatedManagers = this.updatedManagers; for (_i = 0; _i < updatedComponents.length; _i++) { _component = updatedComponents[_i]; _manager = updatedManagers[_i]; _manager.didUpdate(_component); } var destructors = this.destructors; for (_i2 = 0; _i2 < destructors.length; _i2++) { destructors[_i2].destroy(); } var scheduledInstallManagers = this.scheduledInstallManagers, scheduledInstallModifiers = this.scheduledInstallModifiers; for (_i3 = 0; _i3 < scheduledInstallManagers.length; _i3++) { _manager2 = scheduledInstallManagers[_i3]; modifier = scheduledInstallModifiers[_i3]; _manager2.install(modifier); } var scheduledUpdateModifierManagers = this.scheduledUpdateModifierManagers, scheduledUpdateModifiers = this.scheduledUpdateModifiers; for (_i4 = 0; _i4 < scheduledUpdateModifierManagers.length; _i4++) { _manager3 = scheduledUpdateModifierManagers[_i4]; _modifier = scheduledUpdateModifiers[_i4]; _manager3.update(_modifier); } }; return Transaction; }(); var Opcode = function () { function Opcode(heap) { _classCallCheck$23(this, Opcode); this.heap = heap; this.offset = 0; } _createClass$4(Opcode, [{ key: 'type', get: function () { return this.heap.getbyaddr(this.offset); } }, { key: 'op1', get: function () { return this.heap.getbyaddr(this.offset + 1); } }, { key: 'op2', get: function () { return this.heap.getbyaddr(this.offset + 2); } }, { key: 'op3', get: function () { return this.heap.getbyaddr(this.offset + 3); } }]); return Opcode; }(); var TableSlotState; (function (TableSlotState) { TableSlotState[TableSlotState["Allocated"] = 0] = "Allocated"; TableSlotState[TableSlotState["Freed"] = 1] = "Freed"; TableSlotState[TableSlotState["Purged"] = 2] = "Purged"; TableSlotState[TableSlotState["Pointer"] = 3] = "Pointer"; })(TableSlotState || (TableSlotState = {})); var Heap = function () { function Heap() { _classCallCheck$23(this, Heap); this.heap = []; this.offset = 0; this.handle = 0; /** * layout: * * - pointer into heap * - size * - freed (0 or 1) */ this.table = []; } Heap.prototype.push = function (item) { this.heap[this.offset++] = item; }; Heap.prototype.getbyaddr = function (address) { return this.heap[address]; }; Heap.prototype.setbyaddr = function (address, value) { this.heap[address] = value; }; Heap.prototype.malloc = function () { this.table.push(this.offset, 0, 0); var handle = this.handle; this.handle += 3; return handle; }; Heap.prototype.finishMalloc = function (handle) { var start = this.table[handle]; var finish = this.offset; this.table[handle + 1] = finish - start; }; Heap.prototype.size = function () { return this.offset; }; // It is illegal to close over this address, as compaction // may move it. However, it is legal to use this address // multiple times between compactions. Heap.prototype.getaddr = function (handle) { return this.table[handle]; }; Heap.prototype.gethandle = function (address) { this.table.push(address, 0, TableSlotState.Pointer); var handle = this.handle; this.handle += 3; return handle; }; Heap.prototype.sizeof = function () { return -1; }; Heap.prototype.free = function (handle) { this.table[handle + 2] = 1; }; Heap.prototype.compact = function () { var compactedSize = 0, i, offset, size, state, j; var table = this.table, length = this.table.length, heap = this.heap; for (i = 0; i < length; i += 3) { offset = table[i]; size = table[i + 1]; state = table[i + 2]; if (state === TableSlotState.Purged) { continue; } else if (state === TableSlotState.Freed) { // transition to "already freed" // a good improvement would be to reuse // these slots table[i + 2] = 2; compactedSize += size; } else if (state === TableSlotState.Allocated) { for (j = offset; j <= i + size; j++) { heap[j - compactedSize] = heap[j]; } table[i] = offset - compactedSize; } else if (state === TableSlotState.Pointer) { table[i] = offset - compactedSize; } } this.offset = this.offset - compactedSize; }; return Heap; }(); var Program = function () { function Program() { _classCallCheck$23(this, Program); this.heap = new Heap(); this._opcode = new Opcode(this.heap); this.constants = new Constants(); } Program.prototype.opcode = function (offset) { this._opcode.offset = offset; return this._opcode; }; return Program; }(); var Environment = function () { function Environment(_ref2) { var appendOperations = _ref2.appendOperations, updateOperations = _ref2.updateOperations; _classCallCheck$23(this, Environment); this._macros = null; this._transaction = null; this.program = new Program(); this.appendOperations = appendOperations; this.updateOperations = updateOperations; } Environment.prototype.toConditionalReference = function (reference$$1) { return new ConditionalReference(reference$$1); }; Environment.prototype.getAppendOperations = function () { return this.appendOperations; }; Environment.prototype.getDOM = function () { return this.updateOperations; }; Environment.prototype.getIdentity = function (object) { return (0, _util.ensureGuid)(object) + ''; }; Environment.prototype.begin = function () { (0, _util.assert)(!this._transaction, 'a glimmer transaction was begun, but one already exists. You may have a nested transaction'); this._transaction = new Transaction(); }; Environment.prototype.didCreate = function (component, manager) { this.transaction.didCreate(component, manager); }; Environment.prototype.didUpdate = function (component, manager) { this.transaction.didUpdate(component, manager); }; Environment.prototype.scheduleInstallModifier = function (modifier, manager) { this.transaction.scheduleInstallModifier(modifier, manager); }; Environment.prototype.scheduleUpdateModifier = function (modifier, manager) { this.transaction.scheduleUpdateModifier(modifier, manager); }; Environment.prototype.didDestroy = function (d) { this.transaction.didDestroy(d); }; Environment.prototype.commit = function () { var transaction = this.transaction; this._transaction = null; transaction.commit(); }; Environment.prototype.attributeFor = function (element, attr, isTrusting, namespace) { return defaultManagers(element, attr, isTrusting, namespace === undefined ? null : namespace); }; Environment.prototype.macros = function () { var macros = this._macros; if (!macros) { this._macros = macros = this.populateBuiltins(); } return macros; }; Environment.prototype.populateBuiltins = function () { return populateBuiltins(); }; _createClass$4(Environment, [{ key: 'transaction', get: function () { return this._transaction; } }]); return Environment; }(); function _defaults$15(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults), i, key, value;for (i = 0; i < keys.length; i++) { key = keys[i]; value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } }return obj; } var _createClass$5 = function () { function defineProperties(target, props) { var i, descriptor; for (i = 0; i < props.length; i++) { descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false;descriptor.configurable = true;if ("value" in descriptor) descriptor.writable = true;Object.defineProperty(target, descriptor.key, descriptor); } }return function (Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps);if (staticProps) defineProperties(Constructor, staticProps);return Constructor; }; }(); function _possibleConstructorReturn$15(self, call) { if (!self) { throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); }return call && (typeof call === "object" || typeof call === "function") ? call : self; } function _inherits$15(subClass, superClass) { if (typeof superClass !== "function" && superClass !== null) { throw new TypeError("Super expression must either be null or a function, not " + typeof superClass); }subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } });if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : _defaults$15(subClass, superClass); } function _classCallCheck$30(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var UpdatingVM = function () { function UpdatingVM(env, _ref) { var _ref$alwaysRevalidate = _ref.alwaysRevalidate, alwaysRevalidate = _ref$alwaysRevalidate === undefined ? false : _ref$alwaysRevalidate; _classCallCheck$30(this, UpdatingVM); this.frameStack = new _util.Stack(); this.env = env; this.constants = env.program.constants; this.dom = env.getDOM(); this.alwaysRevalidate = alwaysRevalidate; } UpdatingVM.prototype.execute = function (opcodes, handler) { var frameStack = this.frameStack, opcode; this.try(opcodes, handler); while (true) { if (frameStack.isEmpty()) break; opcode = this.frame.nextStatement(); if (opcode === null) { this.frameStack.pop(); continue; } opcode.evaluate(this); } }; UpdatingVM.prototype.goto = function (op) { this.frame.goto(op); }; UpdatingVM.prototype.try = function (ops, handler) { this.frameStack.push(new UpdatingVMFrame(this, ops, handler)); }; UpdatingVM.prototype.throw = function () { this.frame.handleException(); this.frameStack.pop(); }; UpdatingVM.prototype.evaluateOpcode = function (opcode) { opcode.evaluate(this); }; _createClass$5(UpdatingVM, [{ key: 'frame', get: function () { return this.frameStack.current; } }]); return UpdatingVM; }(); var BlockOpcode = function (_UpdatingOpcode) { _inherits$15(BlockOpcode, _UpdatingOpcode); function BlockOpcode(start, state, bounds$$1, children) { _classCallCheck$30(this, BlockOpcode); var _this = _possibleConstructorReturn$15(this, _UpdatingOpcode.call(this)); _this.start = start; _this.type = "block"; _this.next = null; _this.prev = null; var env = state.env, scope = state.scope, dynamicScope = state.dynamicScope, stack = state.stack; _this.children = children; _this.env = env; _this.scope = scope; _this.dynamicScope = dynamicScope; _this.stack = stack; _this.bounds = bounds$$1; return _this; } BlockOpcode.prototype.parentElement = function () { return this.bounds.parentElement(); }; BlockOpcode.prototype.firstNode = function () { return this.bounds.firstNode(); }; BlockOpcode.prototype.lastNode = function () { return this.bounds.lastNode(); }; BlockOpcode.prototype.evaluate = function (vm) { vm.try(this.children, null); }; BlockOpcode.prototype.destroy = function () { this.bounds.destroy(); }; BlockOpcode.prototype.didDestroy = function () { this.env.didDestroy(this.bounds); }; BlockOpcode.prototype.toJSON = function () { var details = (0, _util.dict)(); details["guid"] = '' + this._guid; return { guid: this._guid, type: this.type, details: details, children: this.children.toArray().map(function (op) { return op.toJSON(); }) }; }; return BlockOpcode; }(UpdatingOpcode); var TryOpcode = function (_BlockOpcode) { _inherits$15(TryOpcode, _BlockOpcode); function TryOpcode(start, state, bounds$$1, children) { _classCallCheck$30(this, TryOpcode); var _this2 = _possibleConstructorReturn$15(this, _BlockOpcode.call(this, start, state, bounds$$1, children)); _this2.type = "try"; _this2.tag = _this2._tag = _reference2.UpdatableTag.create(_reference2.CONSTANT_TAG); return _this2; } TryOpcode.prototype.didInitializeChildren = function () { this._tag.inner.update((0, _reference2.combineSlice)(this.children)); }; TryOpcode.prototype.evaluate = function (vm) { vm.try(this.children, this); }; TryOpcode.prototype.handleException = function () { var _this3 = this; var env = this.env, bounds$$1 = this.bounds, children = this.children, scope = this.scope, dynamicScope = this.dynamicScope, start = this.start, stack = this.stack, prev = this.prev, next = this.next; children.clear(); var elementStack = ElementStack.resume(env, bounds$$1, bounds$$1.reset(env)); var vm = new VM(env, scope, dynamicScope, elementStack); var updating = new _util.LinkedList(); vm.execute(start, function (vm) { vm.stack = EvaluationStack.restore(stack); vm.updatingOpcodeStack.push(updating); vm.updateWith(_this3); vm.updatingOpcodeStack.push(children); }); this.prev = prev; this.next = next; }; TryOpcode.prototype.toJSON = function () { var json = _BlockOpcode.prototype.toJSON.call(this); var details = json["details"]; if (!details) { details = json["details"] = {}; } return _BlockOpcode.prototype.toJSON.call(this); }; return TryOpcode; }(BlockOpcode); var ListRevalidationDelegate = function () { function ListRevalidationDelegate(opcode, marker) { _classCallCheck$30(this, ListRevalidationDelegate); this.opcode = opcode; this.marker = marker; this.didInsert = false; this.didDelete = false; this.map = opcode.map; this.updating = opcode['children']; } ListRevalidationDelegate.prototype.insert = function (key, item, memo, before) { var map$$1 = this.map, opcode = this.opcode, updating = this.updating; var nextSibling = null; var reference$$1 = null; if (before) { reference$$1 = map$$1[before]; nextSibling = reference$$1['bounds'].firstNode(); } else { nextSibling = this.marker; } var vm = opcode.vmForInsertion(nextSibling); var tryOpcode = null; var start = opcode.start; vm.execute(start, function (vm) { map$$1[key] = tryOpcode = vm.iterate(memo, item); vm.updatingOpcodeStack.push(new _util.LinkedList()); vm.updateWith(tryOpcode); vm.updatingOpcodeStack.push(tryOpcode.children); }); updating.insertBefore(tryOpcode, reference$$1); this.didInsert = true; }; ListRevalidationDelegate.prototype.retain = function () {}; ListRevalidationDelegate.prototype.move = function (key, _item, _memo, before) { var map$$1 = this.map, updating = this.updating; var entry = map$$1[key]; var reference$$1 = map$$1[before] || null; if (before) { move(entry, reference$$1.firstNode()); } else { move(entry, this.marker); } updating.remove(entry); updating.insertBefore(entry, reference$$1); }; ListRevalidationDelegate.prototype.delete = function (key) { var map$$1 = this.map; var opcode = map$$1[key]; opcode.didDestroy(); clear(opcode); this.updating.remove(opcode); delete map$$1[key]; this.didDelete = true; }; ListRevalidationDelegate.prototype.done = function () { this.opcode.didInitializeChildren(this.didInsert || this.didDelete); }; return ListRevalidationDelegate; }(); var ListBlockOpcode = function (_BlockOpcode2) { _inherits$15(ListBlockOpcode, _BlockOpcode2); function ListBlockOpcode(start, state, bounds$$1, children, artifacts) { _classCallCheck$30(this, ListBlockOpcode); var _this4 = _possibleConstructorReturn$15(this, _BlockOpcode2.call(this, start, state, bounds$$1, children)); _this4.type = "list-block"; _this4.map = (0, _util.dict)(); _this4.lastIterated = _reference2.INITIAL; _this4.artifacts = artifacts; var _tag = _this4._tag = _reference2.UpdatableTag.create(_reference2.CONSTANT_TAG); _this4.tag = (0, _reference2.combine)([artifacts.tag, _tag]); return _this4; } ListBlockOpcode.prototype.didInitializeChildren = function () { var listDidChange = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : true; this.lastIterated = this.artifacts.tag.value(); if (listDidChange) { this._tag.inner.update((0, _reference2.combineSlice)(this.children)); } }; ListBlockOpcode.prototype.evaluate = function (vm) { var artifacts = this.artifacts, lastIterated = this.lastIterated, bounds$$1, dom, marker, target, synchronizer; if (!artifacts.tag.validate(lastIterated)) { bounds$$1 = this.bounds; dom = vm.dom; marker = dom.createComment(''); dom.insertAfter(bounds$$1.parentElement(), marker, bounds$$1.lastNode()); target = new ListRevalidationDelegate(this, marker); synchronizer = new _reference2.IteratorSynchronizer({ target: target, artifacts: artifacts }); synchronizer.sync(); this.parentElement().removeChild(marker); } // Run now-updated updating opcodes _BlockOpcode2.prototype.evaluate.call(this, vm); }; ListBlockOpcode.prototype.vmForInsertion = function (nextSibling) { var env = this.env, scope = this.scope, dynamicScope = this.dynamicScope; var elementStack = ElementStack.forInitialRender(this.env, this.bounds.parentElement(), nextSibling); return new VM(env, scope, dynamicScope, elementStack); }; ListBlockOpcode.prototype.toJSON = function () { var json = _BlockOpcode2.prototype.toJSON.call(this); var map$$1 = this.map; var inner = Object.keys(map$$1).map(function (key) { return JSON.stringify(key) + ': ' + map$$1[key]._guid; }).join(", "); var details = json["details"]; if (!details) { details = json["details"] = {}; } details["map"] = '{' + inner + '}'; return json; }; return ListBlockOpcode; }(BlockOpcode); var UpdatingVMFrame = function () { function UpdatingVMFrame(vm, ops, exceptionHandler) { _classCallCheck$30(this, UpdatingVMFrame); this.vm = vm; this.ops = ops; this.exceptionHandler = exceptionHandler; this.vm = vm; this.ops = ops; this.current = ops.head(); } UpdatingVMFrame.prototype.goto = function (op) { this.current = op; }; UpdatingVMFrame.prototype.nextStatement = function () { var current = this.current, ops = this.ops; if (current) this.current = ops.nextNode(current); return current; }; UpdatingVMFrame.prototype.handleException = function () { if (this.exceptionHandler) { this.exceptionHandler.handleException(); } }; return UpdatingVMFrame; }(); function _classCallCheck$31(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var RenderResult = function () { function RenderResult(env, updating, bounds$$1) { _classCallCheck$31(this, RenderResult); this.env = env; this.updating = updating; this.bounds = bounds$$1; } RenderResult.prototype.rerender = function () { var _ref = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : { alwaysRevalidate: false }, _ref$alwaysRevalidate = _ref.alwaysRevalidate, alwaysRevalidate = _ref$alwaysRevalidate === undefined ? false : _ref$alwaysRevalidate; var env = this.env, updating = this.updating; var vm = new UpdatingVM(env, { alwaysRevalidate: alwaysRevalidate }); vm.execute(updating, this); }; RenderResult.prototype.parentElement = function () { return this.bounds.parentElement(); }; RenderResult.prototype.firstNode = function () { return this.bounds.firstNode(); }; RenderResult.prototype.lastNode = function () { return this.bounds.lastNode(); }; RenderResult.prototype.opcodes = function () { return this.updating; }; RenderResult.prototype.handleException = function () { throw "this should never happen"; }; RenderResult.prototype.destroy = function () { this.bounds.destroy(); clear(this.bounds); }; return RenderResult; }(); var _createClass$3 = function () { function defineProperties(target, props) { var i, descriptor; for (i = 0; i < props.length; i++) { descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false;descriptor.configurable = true;if ("value" in descriptor) descriptor.writable = true;Object.defineProperty(target, descriptor.key, descriptor); } }return function (Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps);if (staticProps) defineProperties(Constructor, staticProps);return Constructor; }; }(); function _classCallCheck$22(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var EvaluationStack = function () { function EvaluationStack(stack, fp, sp) { _classCallCheck$22(this, EvaluationStack); this.stack = stack; this.fp = fp; this.sp = sp; } EvaluationStack.empty = function () { return new this([], 0, -1); }; EvaluationStack.restore = function (snapshot) { return new this(snapshot.slice(), 0, snapshot.length - 1); }; EvaluationStack.prototype.isEmpty = function () { return this.sp === -1; }; EvaluationStack.prototype.push = function (value) { this.stack[++this.sp] = value; }; EvaluationStack.prototype.dup = function () { var position = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : this.sp; this.push(this.stack[position]); }; EvaluationStack.prototype.pop = function () { var n = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : 1; var top = this.stack[this.sp]; this.sp -= n; return top; }; EvaluationStack.prototype.peek = function () { return this.stack[this.sp]; }; EvaluationStack.prototype.fromBase = function (offset) { return this.stack[this.fp - offset]; }; EvaluationStack.prototype.fromTop = function (offset) { return this.stack[this.sp - offset]; }; EvaluationStack.prototype.capture = function (items) { var end = this.sp + 1; return this.stack.slice(end - items, end); }; EvaluationStack.prototype.reset = function () { this.stack.length = 0; }; EvaluationStack.prototype.toArray = function () { return this.stack.slice(this.fp, this.sp + 1); }; return EvaluationStack; }(); var VM = function () { function VM(env, scope, dynamicScope, elementStack) { _classCallCheck$22(this, VM); this.env = env; this.elementStack = elementStack; this.dynamicScopeStack = new _util.Stack(); this.scopeStack = new _util.Stack(); this.updatingOpcodeStack = new _util.Stack(); this.cacheGroups = new _util.Stack(); this.listBlockStack = new _util.Stack(); this.stack = EvaluationStack.empty(); /* Registers */ this.pc = -1; this.ra = -1; this.s0 = null; this.s1 = null; this.t0 = null; this.t1 = null; this.env = env; this.heap = env.program.heap; this.constants = env.program.constants; this.elementStack = elementStack; this.scopeStack.push(scope); this.dynamicScopeStack.push(dynamicScope); } // Fetch a value from a register onto the stack VM.prototype.fetch = function (register) { this.stack.push(this[Register[register]]); }; // Load a value from the stack into a register VM.prototype.load = function (register) { this[Register[register]] = this.stack.pop(); }; // Fetch a value from a register VM.prototype.fetchValue = function (register) { return this[Register[register]]; }; // Load a value into a register VM.prototype.loadValue = function (register, value) { this[Register[register]] = value; }; // Start a new frame and save $ra and $fp on the stack VM.prototype.pushFrame = function () { this.stack.push(this.ra); this.stack.push(this.fp); this.fp = this.sp - 1; }; // Restore $ra, $sp and $fp VM.prototype.popFrame = function () { this.sp = this.fp - 1; this.ra = this.stack.fromBase(0); this.fp = this.stack.fromBase(-1); }; // Jump to an address in `program` VM.prototype.goto = function (offset) { this.pc = (0, _util.typePos)(this.pc + offset); }; // Save $pc into $ra, then jump to a new address in `program` (jal in MIPS) VM.prototype.call = function (handle) { var pc = this.heap.getaddr(handle); this.ra = this.pc; this.pc = pc; }; // Put a specific `program` address in $ra VM.prototype.returnTo = function (offset) { this.ra = (0, _util.typePos)(this.pc + offset); }; // Return to the `program` address stored in $ra VM.prototype.return = function () { this.pc = this.ra; }; VM.initial = function (env, self, dynamicScope, elementStack, program) { var scope = Scope.root(self, program.symbolTable.symbols.length); var vm = new VM(env, scope, dynamicScope, elementStack); vm.pc = vm.heap.getaddr(program.handle); vm.updatingOpcodeStack.push(new _util.LinkedList()); return vm; }; VM.prototype.capture = function (args) { return { dynamicScope: this.dynamicScope(), env: this.env, scope: this.scope(), stack: this.stack.capture(args) }; }; VM.prototype.beginCacheGroup = function () { this.cacheGroups.push(this.updating().tail()); }; VM.prototype.commitCacheGroup = function () { // JumpIfNotModified(END) // (head) // (....) // (tail) // DidModify // END: Noop var END = new LabelOpcode("END"); var opcodes = this.updating(); var marker = this.cacheGroups.pop(); var head = marker ? opcodes.nextNode(marker) : opcodes.head(); var tail = opcodes.tail(); var tag = (0, _reference2.combineSlice)(new _util.ListSlice(head, tail)); var guard = new JumpIfNotModifiedOpcode(tag, END); opcodes.insertBefore(guard, head); opcodes.append(new DidModifyOpcode(guard)); opcodes.append(END); }; VM.prototype.enter = function (args) { var updating = new _util.LinkedList(); var state = this.capture(args); var tracker = this.elements().pushUpdatableBlock(); var tryOpcode = new TryOpcode(this.heap.gethandle(this.pc), state, tracker, updating); this.didEnter(tryOpcode); }; VM.prototype.iterate = function (memo, value) { var stack = this.stack; stack.push(value); stack.push(memo); var state = this.capture(2); var tracker = this.elements().pushUpdatableBlock(); // let ip = this.ip; // this.ip = end + 4; // this.frames.push(ip); return new TryOpcode(this.heap.gethandle(this.pc), state, tracker, new _util.LinkedList()); }; VM.prototype.enterItem = function (key, opcode) { this.listBlock().map[key] = opcode; this.didEnter(opcode); }; VM.prototype.enterList = function (relativeStart) { var updating = new _util.LinkedList(); var state = this.capture(0); var tracker = this.elements().pushBlockList(updating); var artifacts = this.stack.peek().artifacts; var start = this.heap.gethandle((0, _util.typePos)(this.pc + relativeStart)); var opcode = new ListBlockOpcode(start, state, tracker, updating, artifacts); this.listBlockStack.push(opcode); this.didEnter(opcode); }; VM.prototype.didEnter = function (opcode) { this.updateWith(opcode); this.updatingOpcodeStack.push(opcode.children); }; VM.prototype.exit = function () { this.elements().popBlock(); this.updatingOpcodeStack.pop(); var parent = this.updating().tail(); parent.didInitializeChildren(); }; VM.prototype.exitList = function () { this.exit(); this.listBlockStack.pop(); }; VM.prototype.updateWith = function (opcode) { this.updating().append(opcode); }; VM.prototype.listBlock = function () { return this.listBlockStack.current; }; VM.prototype.updating = function () { return this.updatingOpcodeStack.current; }; VM.prototype.elements = function () { return this.elementStack; }; VM.prototype.scope = function () { return this.scopeStack.current; }; VM.prototype.dynamicScope = function () { return this.dynamicScopeStack.current; }; VM.prototype.pushChildScope = function () { this.scopeStack.push(this.scope().child()); }; VM.prototype.pushCallerScope = function () { var childScope = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : false; var callerScope = this.scope().getCallerScope(); this.scopeStack.push(childScope ? callerScope.child() : callerScope); }; VM.prototype.pushDynamicScope = function () { var child = this.dynamicScope().child(); this.dynamicScopeStack.push(child); return child; }; VM.prototype.pushRootScope = function (size, bindCaller) { var scope = Scope.sized(size); if (bindCaller) scope.bindCallerScope(this.scope()); this.scopeStack.push(scope); return scope; }; VM.prototype.popScope = function () { this.scopeStack.pop(); }; VM.prototype.popDynamicScope = function () { this.dynamicScopeStack.pop(); }; VM.prototype.newDestroyable = function (d) { this.elements().newDestroyable(d); }; /// SCOPE HELPERS VM.prototype.getSelf = function () { return this.scope().getSelf(); }; VM.prototype.referenceForSymbol = function (symbol) { return this.scope().getSymbol(symbol); }; /// EXECUTION VM.prototype.execute = function (start, initialize) { this.pc = this.heap.getaddr(start); if (initialize) initialize(this); var result = void 0; while (true) { result = this.next(); if (result.done) break; } return result.value; }; VM.prototype.next = function () { var env = this.env, updatingOpcodeStack = this.updatingOpcodeStack, elementStack = this.elementStack; var opcode = this.nextStatement(env); var result = void 0; if (opcode !== null) { APPEND_OPCODES.evaluate(this, opcode, opcode.type); result = { done: false, value: null }; } else { // Unload the stack this.stack.reset(); result = { done: true, value: new RenderResult(env, updatingOpcodeStack.pop(), elementStack.popBlock()) }; } return result; }; VM.prototype.nextStatement = function (env) { var pc = this.pc; if (pc === -1) { return null; } var program = env.program; this.pc += 4; return program.opcode(pc); }; VM.prototype.evaluateOpcode = function (opcode) { APPEND_OPCODES.evaluate(this, opcode, opcode.type); }; VM.prototype.bindDynamicScope = function (names) { var scope = this.dynamicScope(), i, name; for (i = names.length - 1; i >= 0; i--) { name = this.constants.getString(names[i]); scope.set(name, this.stack.pop()); } }; _createClass$3(VM, [{ key: 'fp', get: function () { return this.stack.fp; }, set: function (fp) { this.stack.fp = fp; } }, { key: 'sp', get: function () { return this.stack.sp; }, set: function (sp) { this.stack.sp = sp; } }]); return VM; }(); function _classCallCheck$14(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var TemplateIterator = function () { function TemplateIterator(vm) { _classCallCheck$14(this, TemplateIterator); this.vm = vm; } TemplateIterator.prototype.next = function () { return this.vm.next(); }; return TemplateIterator; }(); var clientId = 0; var ScannableTemplate = function () { function ScannableTemplate(id, meta, env, rawBlock) { _classCallCheck$14(this, ScannableTemplate); this.id = id; this.meta = meta; this.env = env; this.entryPoint = null; this.layout = null; this.partial = null; this.block = null; this.scanner = new Scanner(rawBlock, env); this.symbols = rawBlock.symbols; this.hasEval = rawBlock.hasEval; } ScannableTemplate.prototype.render = function (self, appendTo, dynamicScope) { var env = this.env; var elementStack = ElementStack.forInitialRender(env, appendTo, null); var compiled = this.asEntryPoint().compileDynamic(env); var vm = VM.initial(env, self, dynamicScope, elementStack, compiled); return new TemplateIterator(vm); }; ScannableTemplate.prototype.asEntryPoint = function () { if (!this.entryPoint) this.entryPoint = this.scanner.scanEntryPoint(this.compilationMeta()); return this.entryPoint; }; ScannableTemplate.prototype.asLayout = function (componentName, attrs) { if (!this.layout) this.layout = this.scanner.scanLayout(this.compilationMeta(), attrs || _util.EMPTY_ARRAY, componentName); return this.layout; }; ScannableTemplate.prototype.asPartial = function () { if (!this.partial) this.partial = this.scanner.scanEntryPoint(this.compilationMeta(true)); return this.partial; }; ScannableTemplate.prototype.asBlock = function () { if (!this.block) this.block = this.scanner.scanBlock(this.compilationMeta()); return this.block; }; ScannableTemplate.prototype.compilationMeta = function () { var asPartial = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : false; return { templateMeta: this.meta, symbols: this.symbols, asPartial: asPartial }; }; return ScannableTemplate; }(); function _classCallCheck$32(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var DynamicVarReference = function () { function DynamicVarReference(scope, nameRef) { _classCallCheck$32(this, DynamicVarReference); this.scope = scope; this.nameRef = nameRef; var varTag = this.varTag = _reference2.UpdatableTag.create(_reference2.CONSTANT_TAG); this.tag = (0, _reference2.combine)([nameRef.tag, varTag]); } DynamicVarReference.prototype.value = function () { return this.getVar().value(); }; DynamicVarReference.prototype.get = function (key) { return this.getVar().get(key); }; DynamicVarReference.prototype.getVar = function () { var name = String(this.nameRef.value()); var ref = this.scope.get(name); this.varTag.inner.update(ref.tag); return ref; }; return DynamicVarReference; }(); function _classCallCheck$33(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var NodeType; (function (NodeType) { NodeType[NodeType["Element"] = 0] = "Element"; NodeType[NodeType["Attribute"] = 1] = "Attribute"; NodeType[NodeType["Text"] = 2] = "Text"; NodeType[NodeType["CdataSection"] = 3] = "CdataSection"; NodeType[NodeType["EntityReference"] = 4] = "EntityReference"; NodeType[NodeType["Entity"] = 5] = "Entity"; NodeType[NodeType["ProcessingInstruction"] = 6] = "ProcessingInstruction"; NodeType[NodeType["Comment"] = 7] = "Comment"; NodeType[NodeType["Document"] = 8] = "Document"; NodeType[NodeType["DocumentType"] = 9] = "DocumentType"; NodeType[NodeType["DocumentFragment"] = 10] = "DocumentFragment"; NodeType[NodeType["Notation"] = 11] = "Notation"; })(NodeType || (NodeType = {})); var interfaces = Object.freeze({ get NodeType() { return NodeType; } }); exports.Simple = interfaces; exports.templateFactory = function (_ref) { var templateId = _ref.id, meta = _ref.meta, block = _ref.block; var parsedBlock = void 0; var id = templateId || 'client-' + clientId++; return { id: id, meta: meta, create: function (env, envMeta) { var newMeta = envMeta ? (0, _util.assign)({}, envMeta, meta) : meta; if (!parsedBlock) { parsedBlock = JSON.parse(block); } return new ScannableTemplate(id, newMeta, env, parsedBlock); } }; }; exports.NULL_REFERENCE = NULL_REFERENCE; exports.UNDEFINED_REFERENCE = UNDEFINED_REFERENCE; exports.PrimitiveReference = PrimitiveReference; exports.ConditionalReference = ConditionalReference; exports.OpcodeBuilderDSL = OpcodeBuilder; exports.compileLayout = function (compilable, env) { var builder = new ComponentLayoutBuilder(env); compilable.compile(builder); return builder.compile(); }; exports.CompiledStaticTemplate = CompiledStaticTemplate; exports.CompiledDynamicTemplate = CompiledDynamicTemplate; exports.IAttributeManager = AttributeManager; exports.AttributeManager = AttributeManager; exports.PropertyManager = PropertyManager; exports.INPUT_VALUE_PROPERTY_MANAGER = INPUT_VALUE_PROPERTY_MANAGER; exports.defaultManagers = defaultManagers; exports.defaultAttributeManagers = defaultAttributeManagers; exports.defaultPropertyManagers = defaultPropertyManagers; exports.readDOMAttr = function (element, attr) { var isSVG = element.namespaceURI === SVG_NAMESPACE; var _normalizeProperty2 = normalizeProperty(element, attr), type = _normalizeProperty2.type, normalized = _normalizeProperty2.normalized; if (isSVG) { return element.getAttribute(normalized); } if (type === 'attr') { return element.getAttribute(normalized); } { return element[normalized]; } }; exports.Register = Register; exports.debugSlice = function () {}; exports.normalizeTextValue = normalizeTextValue; exports.setDebuggerCallback = function (cb) { callback = cb; }; exports.resetDebuggerCallback = function () { callback = debugCallback; }; exports.getDynamicVar = function (vm, args) { var scope = vm.dynamicScope(); var nameRef = args.positional.at(0); return new DynamicVarReference(scope, nameRef); }; exports.BlockMacros = Blocks; exports.InlineMacros = Inlines; exports.compileList = compileList; exports.compileExpression = expr; exports.UpdatingVM = UpdatingVM; exports.RenderResult = RenderResult; exports.isSafeString = isSafeString; exports.Scope = Scope; exports.Environment = Environment; exports.PartialDefinition = function PartialDefinition(name, // for debugging template) { _classCallCheck$33(this, PartialDefinition); this.name = name; this.template = template; }; exports.ComponentDefinition = function ComponentDefinition(name, manager, ComponentClass) { _classCallCheck$10(this, ComponentDefinition); this[COMPONENT_DEFINITION_BRAND] = true; this.name = name; this.manager = manager; this.ComponentClass = ComponentClass; }; exports.isComponentDefinition = isComponentDefinition; exports.DOMChanges = helper$1; exports.IDOMChanges = DOMChanges; exports.DOMTreeConstruction = DOMTreeConstruction; exports.isWhitespace = function (string) { return WHITESPACE.test(string); }; exports.insertHTMLBefore = _insertHTMLBefore; exports.ElementStack = ElementStack; exports.ConcreteBounds = ConcreteBounds; }); enifed('@glimmer/util', ['exports'], function (exports) { 'use strict'; // There is a small whitelist of namespaced attributes specially // enumerated in // https://www.w3.org/TR/html/syntax.html#attributes-0 // // > When a foreign element has one of the namespaced attributes given by // > the local name and namespace of the first and second cells of a row // > from the following table, it must be written using the name given by // > the third cell from the same row. // // In all other cases, colons are interpreted as a regular character // with no special meaning: // // > No other namespaced attribute can be expressed in the HTML syntax. var XLINK = 'http://www.w3.org/1999/xlink'; var XML = 'http://www.w3.org/XML/1998/namespace'; var XMLNS = 'http://www.w3.org/2000/xmlns/'; var WHITELIST = { 'xlink:actuate': XLINK, 'xlink:arcrole': XLINK, 'xlink:href': XLINK, 'xlink:role': XLINK, 'xlink:show': XLINK, 'xlink:title': XLINK, 'xlink:type': XLINK, 'xml:base': XML, 'xml:lang': XML, 'xml:space': XML, 'xmlns': XMLNS, 'xmlns:xlink': XMLNS }; // import Logger from './logger'; // let alreadyWarned = false; // import Logger from './logger'; function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var LogLevel; (function (LogLevel) { LogLevel[LogLevel["Trace"] = 0] = "Trace"; LogLevel[LogLevel["Debug"] = 1] = "Debug"; LogLevel[LogLevel["Warn"] = 2] = "Warn"; LogLevel[LogLevel["Error"] = 3] = "Error"; })(LogLevel || (exports.LogLevel = LogLevel = {})); var NullConsole = function () { function NullConsole() { _classCallCheck(this, NullConsole); } NullConsole.prototype.log = function () {}; NullConsole.prototype.warn = function () {}; NullConsole.prototype.error = function () {}; NullConsole.prototype.trace = function () {}; return NullConsole; }(); var ALWAYS = void 0; var Logger = function () { function Logger(_ref) { var console = _ref.console, level = _ref.level; _classCallCheck(this, Logger); this.f = ALWAYS; this.force = ALWAYS; this.console = console; this.level = level; } Logger.prototype.skipped = function (level) { return level < this.level; }; Logger.prototype.trace = function (message) { var _ref2 = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}, _ref2$stackTrace = _ref2.stackTrace, stackTrace = _ref2$stackTrace === undefined ? false : _ref2$stackTrace; if (this.skipped(LogLevel.Trace)) return; this.console.log(message); if (stackTrace) this.console.trace(); }; Logger.prototype.debug = function (message) { var _ref3 = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}, _ref3$stackTrace = _ref3.stackTrace, stackTrace = _ref3$stackTrace === undefined ? false : _ref3$stackTrace; if (this.skipped(LogLevel.Debug)) return; this.console.log(message); if (stackTrace) this.console.trace(); }; Logger.prototype.warn = function (message) { var _ref4 = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}, _ref4$stackTrace = _ref4.stackTrace, stackTrace = _ref4$stackTrace === undefined ? false : _ref4$stackTrace; if (this.skipped(LogLevel.Warn)) return; this.console.warn(message); if (stackTrace) this.console.trace(); }; Logger.prototype.error = function (message) { if (this.skipped(LogLevel.Error)) return; this.console.error(message); }; return Logger; }(); var _console = typeof console === 'undefined' ? new NullConsole() : console; ALWAYS = new Logger({ console: _console, level: LogLevel.Trace }); var LOG_LEVEL = LogLevel.Debug; var logger = new Logger({ console: _console, level: LOG_LEVEL }); var objKeys = Object.keys; var GUID = 0; function initializeGuid(object) { return object._guid = ++GUID; } function ensureGuid(object) { return object._guid || initializeGuid(object); } function _classCallCheck$1(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var proto = Object.create(null, { // without this, we will always still end up with (new // EmptyObject()).constructor === Object constructor: { value: undefined, enumerable: false, writable: true } }); function EmptyObject() {} EmptyObject.prototype = proto; function dict() { // let d = Object.create(null); // d.x = 1; // delete d.x; // return d; return new EmptyObject(); } var DictSet = function () { function DictSet() { _classCallCheck$1(this, DictSet); this.dict = dict(); } DictSet.prototype.add = function (obj) { if (typeof obj === 'string') this.dict[obj] = obj;else this.dict[ensureGuid(obj)] = obj; return this; }; DictSet.prototype.delete = function (obj) { if (typeof obj === 'string') delete this.dict[obj];else if (obj._guid) delete this.dict[obj._guid]; }; DictSet.prototype.forEach = function (callback) { var dict = this.dict, i; var dictKeys = Object.keys(dict); for (i = 0; dictKeys.length; i++) { callback(dict[dictKeys[i]]); } }; DictSet.prototype.toArray = function () { return Object.keys(this.dict); }; return DictSet; }(); var Stack = function () { function Stack() { _classCallCheck$1(this, Stack); this.stack = []; this.current = null; } Stack.prototype.toArray = function () { return this.stack; }; Stack.prototype.push = function (item) { this.current = item; this.stack.push(item); }; Stack.prototype.pop = function () { var item = this.stack.pop(); var len = this.stack.length; this.current = len === 0 ? null : this.stack[len - 1]; return item === undefined ? null : item; }; Stack.prototype.isEmpty = function () { return this.stack.length === 0; }; return Stack; }(); function _classCallCheck$2(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } } var LinkedList = function () { function LinkedList() { _classCallCheck$2(this, LinkedList); this.clear(); } LinkedList.fromSlice = function (slice) { var list = new LinkedList(); slice.forEachNode(function (n) { return list.append(n.clone()); }); return list; }; LinkedList.prototype.head = function () { return this._head; }; LinkedList.prototype.tail = function () { return this._tail; }; LinkedList.prototype.clear = function () { this._head = this._tail = null; }; LinkedList.prototype.isEmpty = function () { return this._head === null; }; LinkedList.prototype.toArray = function () { var out = []; this.forEachNode(function (n) { return out.push(n); }); return out; }; LinkedList.prototype.splice = function (start, end, reference) { var before = void 0; if (reference === null) { before = this._tail; this._tail = end; } else { before = reference.prev; end.next = reference; reference.prev = end; } if (before) { before.next = start; start.prev = before; } }; LinkedList.prototype.nextNode = function (node) { return node.next; }; LinkedList.prototype.prevNode = function (node) { return node.prev; }; LinkedList.prototype.forEachNode = function (callback) { var node = this._head; while (node !== null) { callback(node); node = node.next; } }; LinkedList.prototype.contains = function (needle) { var node = this._head; while (node !== null) { if (node === needle) return true; node = node.next; } return false; }; LinkedList.prototype.insertBefore = function (node) { var reference = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : null; if (reference === null) return this.append(node); if (reference.prev) reference.prev.next = node;else this._head = node; node.prev = reference.prev; node.next = reference; reference.prev = node; return node; }; LinkedList.prototype.append = function (node) { var tail = this._tail; if (tail) { tail.next = node; node.prev = tail; node.next = null; } else { this._head = node; } return this._tail = node; }; LinkedList.prototype.pop = function () { if (this._tail) return this.remove(this._tail); return null; }; LinkedList.prototype.prepend = function (node) { if (this._head) return this.insertBefore(node, this._head); return this._head = this._tail = node; }; LinkedList.prototype.remove = function (node) { if (node.prev) node.prev.next = node.next;else this._head = node.next; if (node.next) node.next.prev = node.prev;else this._tail = node.prev; return node; }; return LinkedList; }(); var ListSlice = function () { function ListSlice(head, tail) { _classCallCheck$2(this, ListSlice); this._head = head; this._tail = tail; } ListSlice.toList = function (slice) { var list = new LinkedList(); slice.forEachNode(function (n) { return list.append(n.clone()); }); return list; }; ListSlice.prototype.forEachNode = function (callback) { var node = this._head; while (node !== null) { callback(node); node = this.nextNode(node); } }; ListSlice.prototype.contains = function (needle) { var node = this._head; while (node !== null) { if (node === needle) return true; node = node.next; } return false; }; ListSlice.prototype.head = function () { return this._head; }; ListSlice.prototype.tail = function () { return this._tail; }; ListSlice.prototype.toArray = function () { var out = []; this.forEachNode(function (n) { return out.push(n); }); return out; }; ListSlice.prototype.nextNode = function (node) { if (node === this._tail) return null; return node.next; }; ListSlice.prototype.prevNode = function (node) { if (node === this._head) return null; return node.prev; }; ListSlice.prototype.isEmpty = function () { return false; }; return ListSlice; }(); var EMPTY_SLICE = new ListSlice(null, null); var HAS_NATIVE_WEAKMAP = function () { // detect if `WeakMap` is even present var hasWeakMap = typeof WeakMap === 'function'; if (!hasWeakMap) { return false; } var instance = new WeakMap(); // use `Object`'s `.toString` directly to prevent us from detecting // polyfills as native weakmaps return Object.prototype.toString.call(instance) === '[object WeakMap]'; }(); var HAS_TYPED_ARRAYS = typeof Uint32Array !== 'undefined'; var A = void 0; if (HAS_TYPED_ARRAYS) { A = Uint32Array; } else { A = Array; } var A$1 = A; var EMPTY_ARRAY = HAS_NATIVE_WEAKMAP ? Object.freeze([]) : []; exports.getAttrNamespace = function (attrName) { return WHITELIST[attrName] || null; }; exports.assert = function (test, msg) { // if (!alreadyWarned) { // alreadyWarned = true; // Logger.warn("Don't leave debug assertions on in public builds"); // } if (!test) { throw new Error(msg || "assertion failure"); } }; exports.LOGGER = logger; exports.Logger = Logger; exports.LogLevel = LogLevel; exports.assign = function (obj) { var i, assignment, keys, j, key; for (i = 1; i < arguments.length; i++) { assignment = arguments[i]; if (assignment === null || typeof assignment !== 'object') continue; keys = objKeys(assignment); for (j = 0; j < keys.length; j++) { key = keys[j]; obj[key] = assignment[key]; } } return obj; }; exports.fillNulls = function (count) { var arr = new Array(count), i; for (i = 0; i < count; i++) { arr[i] = null; } return arr; }; exports.ensureGuid = ensureGuid; exports.initializeGuid = initializeGuid; exports.Stack = Stack; exports.DictSet = DictSet; exports.dict = dict; exports.EMPTY_SLICE = EMPTY_SLICE; exports.LinkedList = LinkedList; exports.ListNode = function ListNode(value) { _classCallCheck$2(this, ListNode); this.next = null; this.prev = null; this.value = value; }; exports.ListSlice = ListSlice; exports.A = A$1; exports.EMPTY_ARRAY = EMPTY_ARRAY; exports.HAS_NATIVE_WEAKMAP = HAS_NATIVE_WEAKMAP; exports.unwrap = function (val) { if (val === null || val === undefined) throw new Error('Expected value to be present'); return val; }; exports.expect = function (val, message) { if (val === null || val === undefined) throw new Error(message); return val; }; exports.unreachable = function () { return new Error('unreachable'); }; exports.typePos = function (lastOperand) { return lastOperand - 4; }; }); enifed("@glimmer/wire-format", ["exports"], function (exports) { "use strict"; var Opcodes; (function (Opcodes) { // Statements Opcodes[Opcodes["Text"] = 0] = "Text"; Opcodes[Opcodes["Append"] = 1] = "Append"; Opcodes[Opcodes["Comment"] = 2] = "Comment"; Opcodes[Opcodes["Modifier"] = 3] = "Modifier"; Opcodes[Opcodes["Block"] = 4] = "Block"; Opcodes[Opcodes["Component"] = 5] = "Component"; Opcodes[Opcodes["OpenElement"] = 6] = "OpenElement"; Opcodes[Opcodes["FlushElement"] = 7] = "FlushElement"; Opcodes[Opcodes["CloseElement"] = 8] = "CloseElement"; Opcodes[Opcodes["StaticAttr"] = 9] = "StaticAttr"; Opcodes[Opcodes["DynamicAttr"] = 10] = "DynamicAttr"; Opcodes[Opcodes["Yield"] = 11] = "Yield"; Opcodes[Opcodes["Partial"] = 12] = "Partial"; Opcodes[Opcodes["DynamicArg"] = 13] = "DynamicArg"; Opcodes[Opcodes["StaticArg"] = 14] = "StaticArg"; Opcodes[Opcodes["TrustingAttr"] = 15] = "TrustingAttr"; Opcodes[Opcodes["Debugger"] = 16] = "Debugger"; Opcodes[Opcodes["ClientSideStatement"] = 17] = "ClientSideStatement"; // Expressions Opcodes[Opcodes["Unknown"] = 18] = "Unknown"; Opcodes[Opcodes["Get"] = 19] = "Get"; Opcodes[Opcodes["MaybeLocal"] = 20] = "MaybeLocal"; Opcodes[Opcodes["FixThisBeforeWeMerge"] = 21] = "FixThisBeforeWeMerge"; Opcodes[Opcodes["HasBlock"] = 22] = "HasBlock"; Opcodes[Opcodes["HasBlockParams"] = 23] = "HasBlockParams"; Opcodes[Opcodes["Undefined"] = 24] = "Undefined"; Opcodes[Opcodes["Helper"] = 25] = "Helper"; Opcodes[Opcodes["Concat"] = 26] = "Concat"; Opcodes[Opcodes["ClientSideExpression"] = 27] = "ClientSideExpression"; })(Opcodes || (exports.Ops = Opcodes = {})); function is(variant) { return function (value) { return Array.isArray(value) && value[0] === variant; }; } var Expressions; (function (Expressions) { Expressions.isUnknown = is(Opcodes.Unknown); Expressions.isGet = is(Opcodes.Get); Expressions.isConcat = is(Opcodes.Concat); Expressions.isHelper = is(Opcodes.Helper); Expressions.isHasBlock = is(Opcodes.HasBlock); Expressions.isHasBlockParams = is(Opcodes.HasBlockParams); Expressions.isUndefined = is(Opcodes.Undefined); Expressions.isClientSide = is(Opcodes.ClientSideExpression); Expressions.isMaybeLocal = is(Opcodes.MaybeLocal); Expressions.isPrimitiveValue = function (value) { if (value === null) { return true; } return typeof value !== 'object'; }; })(Expressions || (exports.Expressions = Expressions = {})); var Statements; (function (Statements) { Statements.isText = is(Opcodes.Text); Statements.isAppend = is(Opcodes.Append); Statements.isComment = is(Opcodes.Comment); Statements.isModifier = is(Opcodes.Modifier); Statements.isBlock = is(Opcodes.Block); Statements.isComponent = is(Opcodes.Component); Statements.isOpenElement = is(Opcodes.OpenElement); Statements.isFlushElement = is(Opcodes.FlushElement); Statements.isCloseElement = is(Opcodes.CloseElement); Statements.isStaticAttr = is(Opcodes.StaticAttr); Statements.isDynamicAttr = is(Opcodes.DynamicAttr); Statements.isYield = is(Opcodes.Yield); Statements.isPartial = is(Opcodes.Partial); Statements.isDynamicArg = is(Opcodes.DynamicArg); Statements.isStaticArg = is(Opcodes.StaticArg); Statements.isTrustingAttr = is(Opcodes.TrustingAttr); Statements.isDebugger = is(Opcodes.Debugger); Statements.isClientSide = is(Opcodes.ClientSideStatement); function isAttribute(val) { return val[0] === Opcodes.StaticAttr || val[0] === Opcodes.DynamicAttr || val[0] === Opcodes.TrustingAttr; } Statements.isAttribute = isAttribute; function isArgument(val) { return val[0] === Opcodes.StaticArg || val[0] === Opcodes.DynamicArg; } Statements.isArgument = isArgument; Statements.isParameter = function (val) { return isAttribute(val) || isArgument(val); }; Statements.getParameterName = function (s) { return s[1]; }; })(Statements || (exports.Statements = Statements = {})); exports.is = is; exports.Expressions = Expressions; exports.Statements = Statements; exports.Ops = Opcodes; }); enifed('backburner', ['exports'], function (exports) { 'use strict'; var NUMBER = /\d+/; function isString(suspect) { return typeof suspect === 'string'; } function isFunction(suspect) { return typeof suspect === 'function'; } function isNumber(suspect) { return typeof suspect === 'number'; } function isCoercableNumber(suspect) { return isNumber(suspect) && suspect === suspect || NUMBER.test(suspect); } function noSuchQueue(name) { throw new Error('You attempted to schedule an action in a queue (' + name + ') that doesn\'t exist'); } function noSuchMethod(name) { throw new Error('You attempted to schedule an action in a queue (' + name + ') for a method that doesn\'t exist'); } function getOnError(options) { return options.onError || options.onErrorTarget && options.onErrorTarget[options.onErrorMethod]; } function findItem(target, method, collection) { var index = -1, i, l; for (i = 0, l = collection.length; i < l; i += 4) { if (collection[i] === target && collection[i + 1] === method) { index = i; break; } } return index; } function findTimer(timer, collection) { var index = -1, i; for (i = 3; i < collection.length; i += 4) { if (collection[i] === timer) { index = i - 3; break; } } return index; } function binarySearch(time, timers) { var start = 0; var end = timers.length - 2; var middle = void 0; var l = void 0; while (start < end) { // since timers is an array of pairs 'l' will always // be an integer l = (end - start) / 2; // compensate for the index in case even number // of pairs inside timers middle = start + l - l % 2; if (time >= timers[middle]) { start = middle + 2; } else { end = middle; } } return time >= timers[start] ? start + 2 : start; } var Queue = function () { function Queue(name) { var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}; var globalOptions = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {}; this._queueBeingFlushed = []; this.targetQueues = new Map(); this.index = 0; this._queue = []; this.name = name; this.options = options; this.globalOptions = globalOptions; } Queue.prototype.push = function (target, method, args, stack) { this._queue.push(target, method, args, stack); return { queue: this, target: target, method: method }; }; Queue.prototype.flush = function (sync) { var _options = this.options, before = _options.before, after = _options.after, onError, i; var target = void 0; var method = void 0; var args = void 0; var errorRecordedForStack = void 0; this.targetQueues.clear(); if (this._queueBeingFlushed.length === 0) { this._queueBeingFlushed = this._queue; this._queue = []; } if (before !== undefined) { before(); } var invoke = void 0; var queueItems = this._queueBeingFlushed; if (queueItems.length > 0) { onError = getOnError(this.globalOptions); invoke = onError ? this.invokeWithOnError : this.invoke; for (i = this.index; i < queueItems.length; i += 4) { this.index += 4; method = queueItems[i + 1]; // method could have been nullified / canceled during flush if (method !== null) { // // ** Attention intrepid developer ** // // To find out the stack of this task when it was scheduled onto // the run loop, add the following to your app.js: // // Ember.run.backburner.DEBUG = true; // NOTE: This slows your app, don't leave it on in production. // // Once that is in place, when you are at a breakpoint and navigate // here in the stack explorer, you can look at `errorRecordedForStack.stack`, // which will be the captured stack when this job was scheduled. // // One possible long-term solution is the following Chrome issue: // https://bugs.chromium.org/p/chromium/issues/detail?id=332624 // target = queueItems[i]; args = queueItems[i + 2]; errorRecordedForStack = queueItems[i + 3]; // Debugging assistance invoke(target, method, args, onError, errorRecordedForStack); } if (this.index !== this._queueBeingFlushed.length && this.globalOptions.mustYield && this.globalOptions.mustYield()) { return 1 /* Pause */; } } } if (after !== undefined) { after(); } this._queueBeingFlushed.length = 0; this.index = 0; if (sync !== false && this._queue.length > 0) { // check if new items have been added this.flush(true); } }; Queue.prototype.hasWork = function () { return this._queueBeingFlushed.length > 0 || this._queue.length > 0; }; Queue.prototype.cancel = function (_ref) { var target = _ref.target, method = _ref.method; var queue = this._queue; var targetQueueMap = this.targetQueues.get(target); var index = void 0; if (targetQueueMap !== undefined) { index = targetQueueMap.get(method); if (index !== undefined) { targetQueueMap.delete(method); } } if (index === undefined) { index = findItem(target, method, queue); } if (index > -1) { queue.splice(index, 4); return true; } // if not found in current queue // could be in the queue that is being flushed queue = this._queueBeingFlushed; index = findItem(target, method, queue); if (index > -1) { queue[index + 1] = null; return true; } return false; }; Queue.prototype.pushUnique = function (target, method, args, stack) { var localQueueMap = this.targetQueues.get(target), queueIndex, queue; if (localQueueMap === undefined) { localQueueMap = new Map(); this.targetQueues.set(target, localQueueMap); } var index = localQueueMap.get(method); if (index === undefined) { queueIndex = this._queue.push(target, method, args, stack) - 4; localQueueMap.set(method, queueIndex); } else { queue = this._queue; queue[index + 2] = args; // replace args queue[index + 3] = stack; // replace stack } return { queue: this, target: target, method: method }; }; Queue.prototype.invoke = function (target, method, args /*, onError, errorRecordedForStack */) { if (args === undefined) { method.call(target); } else { method.apply(target, args); } }; Queue.prototype.invokeWithOnError = function (target, method, args, onError, errorRecordedForStack) { try { if (args === undefined) { method.call(target); } else { method.apply(target, args); } } catch (error) { onError(error, errorRecordedForStack); } }; return Queue; }(); var DeferredActionQueues = function () { function DeferredActionQueues() { var queueNames = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : []; var options = arguments[1]; this.queues = {}; this.queueNameIndex = 0; this.queueNames = queueNames; queueNames.reduce(function (queues, queueName) { queues[queueName] = new Queue(queueName, options[queueName], options); return queues; }, this.queues); } /* @method schedule @param {String} queueName @param {Any} target @param {Any} method @param {Any} args @param {Boolean} onceFlag @param {Any} stack @return queue */ DeferredActionQueues.prototype.schedule = function (queueName, target, method, args, onceFlag, stack) { var queues = this.queues; var queue = queues[queueName]; if (!queue) { noSuchQueue(queueName); } if (!method) { noSuchMethod(queueName); } if (onceFlag) { return queue.pushUnique(target, method, args, stack); } else { return queue.push(target, method, args, stack); } }; DeferredActionQueues.prototype.flush = function () { var queue = void 0; var queueName = void 0; var numberOfQueues = this.queueNames.length; while (this.queueNameIndex < numberOfQueues) { queueName = this.queueNames[this.queueNameIndex]; queue = this.queues[queueName]; if (queue.hasWork() === false) { this.queueNameIndex++; } else { if (queue.flush(false /* async */) === 1 /* Pause */) { return 1 /* Pause */; } this.queueNameIndex = 0; // only reset to first queue if non-pause break } } }; return DeferredActionQueues; }(); // accepts a function that when invoked will return an iterator // iterator will drain until completion var iteratorDrain = function (fn) { var iterator = fn(); var result = iterator.next(); while (result.done === false) { result.value(); result = iterator.next(); } }; var noop = function () {}; var SET_TIMEOUT = setTimeout; function parseArgs() { var length = arguments.length, i; var method = void 0; var target = void 0; var args = void 0; if (length === 1) { method = arguments[0]; target = null; } else { target = arguments[0]; method = arguments[1]; if (isString(method)) { method = target[method]; } if (length > 2) { args = new Array(length - 2); for (i = 0; i < length - 2; i++) { args[i] = arguments[i + 2]; } } } return [target, method, args]; } var Backburner = function () { function Backburner(queueNames) { var _this = this; var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}; this.DEBUG = false; this.currentInstance = null; this._timerTimeoutId = null; this._autorun = null; this.queueNames = queueNames; this.options = options; if (!this.options.defaultQueue) { this.options.defaultQueue = queueNames[0]; } this.instanceStack = []; this._timers = []; this._debouncees = []; this._throttlers = []; this._eventCallbacks = { end: [], begin: [] }; this._onBegin = this.options.onBegin || noop; this._onEnd = this.options.onEnd || noop; var _platform = this.options._platform || {}; var platform = Object.create(null); platform.setTimeout = _platform.setTimeout || function (fn, ms) { return setTimeout(fn, ms); }; platform.clearTimeout = _platform.clearTimeout || function (id) { return clearTimeout(id); }; platform.next = _platform.next || function (fn) { return SET_TIMEOUT(fn, 0); }; platform.clearNext = _platform.clearNext || platform.clearTimeout; platform.now = _platform.now || function () { return Date.now(); }; this._platform = platform; this._boundRunExpiredTimers = function () { _this._runExpiredTimers(); }; this._boundAutorunEnd = function () { _this._autorun = null; _this.end(); }; } /* @method begin @return instantiated class DeferredActionQueues */ Backburner.prototype.begin = function () { var options = this.options; var previousInstance = this.currentInstance; var current = void 0; if (this._autorun !== null) { current = previousInstance; this._cancelAutorun(); } else { if (previousInstance !== null) { this.instanceStack.push(previousInstance); } current = this.currentInstance = new DeferredActionQueues(this.queueNames, options); this._trigger('begin', current, previousInstance); } this._onBegin(current, previousInstance); return current; }; Backburner.prototype.end = function () { var currentInstance = this.currentInstance, next; var nextInstance = null; if (currentInstance === null) { throw new Error('end called without begin'); } // Prevent double-finally bug in Safari 6.0.2 and iOS 6 // This bug appears to be resolved in Safari 6.0.5 and iOS 7 var finallyAlreadyCalled = false; var result = void 0; try { result = currentInstance.flush(); } finally { if (!finallyAlreadyCalled) { finallyAlreadyCalled = true; if (result === 1 /* Pause */) { next = this._platform.next; this._autorun = next(this._boundAutorunEnd); } else { this.currentInstance = null; if (this.instanceStack.length > 0) { nextInstance = this.instanceStack.pop(); this.currentInstance = nextInstance; } this._trigger('end', currentInstance, nextInstance); this._onEnd(currentInstance, nextInstance); } } } }; Backburner.prototype.on = function (eventName, callback) { if (typeof callback !== 'function') { throw new TypeError('Callback must be a function'); } var callbacks = this._eventCallbacks[eventName]; if (callbacks !== undefined) { callbacks.push(callback); } else { throw new TypeError('Cannot on() event ' + eventName + ' because it does not exist'); } }; Backburner.prototype.off = function (eventName, callback) { var callbacks = this._eventCallbacks[eventName], i; if (!eventName || callbacks === undefined) { throw new TypeError('Cannot off() event ' + eventName + ' because it does not exist'); } var callbackFound = false; if (callback) { for (i = 0; i < callbacks.length; i++) { if (callbacks[i] === callback) { callbackFound = true; callbacks.splice(i, 1); i--; } } } if (!callbackFound) { throw new TypeError('Cannot off() callback that does not exist'); } }; Backburner.prototype.run = function () { var _parseArgs = parseArgs.apply(undefined, arguments), target = _parseArgs[0], method = _parseArgs[1], args = _parseArgs[2]; return this._run(target, method, args); }; Backburner.prototype.join = function () { var _parseArgs2 = parseArgs.apply(undefined, arguments), target = _parseArgs2[0], method = _parseArgs2[1], args = _parseArgs2[2]; return this._join(target, method, args); }; Backburner.prototype.defer = function () { return this.schedule.apply(this, arguments); }; Backburner.prototype.schedule = function (queueName) { for (_len = arguments.length, _args = Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { _args[_key - 1] = arguments[_key]; } var _parseArgs3 = parseArgs.apply(undefined, _args), target = _parseArgs3[0], method = _parseArgs3[1], args = _parseArgs3[2], _len, _args, _key; var stack = this.DEBUG ? new Error() : undefined; return this._ensureInstance().schedule(queueName, target, method, args, false, stack); }; Backburner.prototype.scheduleIterable = function (queueName, iterable) { var stack = this.DEBUG ? new Error() : undefined; return this._ensureInstance().schedule(queueName, null, iteratorDrain, [iterable], false, stack); }; Backburner.prototype.deferOnce = function () { return this.scheduleOnce.apply(this, arguments); }; Backburner.prototype.scheduleOnce = function (queueName) { for (_len2 = arguments.length, _args = Array(_len2 > 1 ? _len2 - 1 : 0), _key2 = 1; _key2 < _len2; _key2++) { _args[_key2 - 1] = arguments[_key2]; } var _parseArgs4 = parseArgs.apply(undefined, _args), target = _parseArgs4[0], method = _parseArgs4[1], args = _parseArgs4[2], _len2, _args, _key2; var stack = this.DEBUG ? new Error() : undefined; return this._ensureInstance().schedule(queueName, target, method, args, true, stack); }; Backburner.prototype.setTimeout = function () { return this.later.apply(this, arguments); }; Backburner.prototype.later = function () { for (_len3 = arguments.length, args = Array(_len3), _key3 = 0; _key3 < _len3; _key3++) { args[_key3] = arguments[_key3]; } var length = args.length, _len3, args, _key3, last; var wait = 0; var method = void 0; var target = void 0; var methodOrTarget = void 0; var methodOrWait = void 0; var methodOrArgs = void 0; if (length === 0) { return; } else if (length === 1) { method = args.shift(); } else if (length === 2) { methodOrTarget = args[0]; methodOrWait = args[1]; if (isFunction(methodOrWait)) { target = args.shift(); method = args.shift(); } else if (methodOrTarget !== null && isString(methodOrWait) && methodOrWait in methodOrTarget) { target = args.shift(); method = target[args.shift()]; } else if (isCoercableNumber(methodOrWait)) { method = args.shift(); wait = parseInt(args.shift(), 10); } else { method = args.shift(); } } else { last = args[args.length - 1]; if (isCoercableNumber(last)) { wait = parseInt(args.pop(), 10); } methodOrTarget = args[0]; methodOrArgs = args[1]; if (isFunction(methodOrArgs)) { target = args.shift(); method = args.shift(); } else if (methodOrTarget !== null && isString(methodOrArgs) && methodOrArgs in methodOrTarget) { target = args.shift(); method = target[args.shift()]; } else { method = args.shift(); } } var onError = getOnError(this.options); var executeAt = this._platform.now() + wait; var fn = void 0; if (onError) { fn = function () { try { method.apply(target, args); } catch (e) { onError(e); } }; } else { fn = function () { method.apply(target, args); }; } return this._setTimeout(fn, executeAt); }; Backburner.prototype.throttle = function (target, method) /*, ...args, wait, [immediate] */{ var _this2 = this, _len4, args, _key4; for (_len4 = arguments.length, args = Array(_len4 > 2 ? _len4 - 2 : 0), _key4 = 2; _key4 < _len4; _key4++) { args[_key4 - 2] = arguments[_key4]; } var immediate = args.pop(); var isImmediate = void 0; var wait = void 0; if (isCoercableNumber(immediate)) { wait = immediate; isImmediate = true; } else { wait = args.pop(); isImmediate = immediate === true; } if (isString(method)) { method = target[method]; } var index = findItem(target, method, this._throttlers); if (index > -1) { this._throttlers[index + 2] = args; return this._throttlers[index + 3]; } // throttled wait = parseInt(wait, 10); var timer = this._platform.setTimeout(function () { var i = findTimer(timer, _this2._throttlers); var _throttlers$splice = _this2._throttlers.splice(i, 4), context = _throttlers$splice[0], func = _throttlers$splice[1], params = _throttlers$splice[2]; if (isImmediate === false) { _this2._run(context, func, params); } }, wait); if (isImmediate) { this._join(target, method, args); } this._throttlers.push(target, method, args, timer); return timer; }; Backburner.prototype.debounce = function (target, method) /* , wait, [immediate] */{ var _this3 = this, _len5, args, _key5, timerId; for (_len5 = arguments.length, args = Array(_len5 > 2 ? _len5 - 2 : 0), _key5 = 2; _key5 < _len5; _key5++) { args[_key5 - 2] = arguments[_key5]; } var immediate = args.pop(); var isImmediate = void 0; var wait = void 0; if (isCoercableNumber(immediate)) { wait = immediate; isImmediate = false; } else { wait = args.pop(); isImmediate = immediate === true; } if (isString(method)) { method = target[method]; } wait = parseInt(wait, 10); // Remove debouncee var index = findItem(target, method, this._debouncees); if (index > -1) { timerId = this._debouncees[index + 3]; this._platform.clearTimeout(timerId); this._debouncees.splice(index, 4); } var timer = this._platform.setTimeout(function () { var i = findTimer(timer, _this3._debouncees); var _debouncees$splice = _this3._debouncees.splice(i, 4), context = _debouncees$splice[0], func = _debouncees$splice[1], params = _debouncees$splice[2]; if (isImmediate === false) { _this3._run(context, func, params); } }, wait); if (isImmediate && index === -1) { this._join(target, method, args); } this._debouncees.push(target, method, args, timer); return timer; }; Backburner.prototype.cancelTimers = function () { var i, t; for (i = 3; i < this._throttlers.length; i += 4) { this._platform.clearTimeout(this._throttlers[i]); } this._throttlers = []; for (t = 3; t < this._debouncees.length; t += 4) { this._platform.clearTimeout(this._debouncees[t]); } this._debouncees = []; this._clearTimerTimeout(); this._timers = []; this._cancelAutorun(); }; Backburner.prototype.hasTimers = function () { return this._timers.length > 0 || this._debouncees.length > 0 || this._throttlers.length > 0 || this._autorun !== null; }; Backburner.prototype.cancel = function (timer) { if (!timer) { return false; } var timerType = typeof timer; if (timerType === 'number' || timerType === 'string') { return this._cancelItem(timer, this._throttlers) || this._cancelItem(timer, this._debouncees); } else if (timerType === 'function') { return this._cancelLaterTimer(timer); } else if (timerType === 'object' && timer.queue && timer.method) { return timer.queue.cancel(timer); } return false; }; Backburner.prototype.ensureInstance = function () { this._ensureInstance(); }; Backburner.prototype._join = function (target, method, args) { if (this.currentInstance === null) { return this._run(target, method, args); } if (target === undefined && args === undefined) { return method(); } else { return method.apply(target, args); } }; Backburner.prototype._run = function (target, method, args) { var onError = getOnError(this.options); this.begin(); if (onError) { try { return method.apply(target, args); } catch (error) { onError(error); } finally { this.end(); } } else { try { return method.apply(target, args); } finally { this.end(); } } }; Backburner.prototype._cancelAutorun = function () { if (this._autorun !== null) { this._platform.clearNext(this._autorun); this._autorun = null; } }; Backburner.prototype._setTimeout = function (fn, executeAt) { if (this._timers.length === 0) { this._timers.push(executeAt, fn); this._installTimerTimeout(); return fn; } // find position to insert var i = binarySearch(executeAt, this._timers); this._timers.splice(i, 0, executeAt, fn); // we should be the new earliest timer if i == 0 if (i === 0) { this._reinstallTimerTimeout(); } return fn; }; Backburner.prototype._cancelLaterTimer = function (timer) { var i; for (i = 1; i < this._timers.length; i += 2) { if (this._timers[i] === timer) { i = i - 1; this._timers.splice(i, 2); // remove the two elements if (i === 0) { this._reinstallTimerTimeout(); } return true; } } return false; }; Backburner.prototype._cancelItem = function (timer, array) { var index = findTimer(timer, array); if (index > -1) { this._platform.clearTimeout(timer); array.splice(index, 4); return true; } return false; }; Backburner.prototype._trigger = function (eventName, arg1, arg2) { var callbacks = this._eventCallbacks[eventName], i; if (callbacks !== undefined) { for (i = 0; i < callbacks.length; i++) { callbacks[i](arg1, arg2); } } }; Backburner.prototype._runExpiredTimers = function () { this._timerTimeoutId = null; if (this._timers.length === 0) { return; } this.begin(); this._scheduleExpiredTimers(); this.end(); }; Backburner.prototype._scheduleExpiredTimers = function () { var timers = this._timers, executeAt, fn; var l = timers.length; var i = 0; var defaultQueue = this.options.defaultQueue; var n = this._platform.now(); for (; i < l; i += 2) { executeAt = timers[i]; if (executeAt <= n) { fn = timers[i + 1]; this.schedule(defaultQueue, null, fn); } else { break; } } timers.splice(0, i); this._installTimerTimeout(); }; Backburner.prototype._reinstallTimerTimeout = function () { this._clearTimerTimeout(); this._installTimerTimeout(); }; Backburner.prototype._clearTimerTimeout = function () { if (this._timerTimeoutId === null) { return; } this._platform.clearTimeout(this._timerTimeoutId); this._timerTimeoutId = null; }; Backburner.prototype._installTimerTimeout = function () { if (this._timers.length === 0) { return; } var minExpiresAt = this._timers[0]; var n = this._platform.now(); var wait = Math.max(0, minExpiresAt - n); this._timerTimeoutId = this._platform.setTimeout(this._boundRunExpiredTimers, wait); }; Backburner.prototype._ensureInstance = function () { var currentInstance = this.currentInstance, next; if (currentInstance === null) { currentInstance = this.begin(); next = this._platform.next; this._autorun = next(this._boundAutorunEnd); } return currentInstance; }; return Backburner; }(); Backburner.Queue = Queue; exports.default = Backburner; }); enifed('container', ['exports', 'ember-utils', 'ember-debug', 'ember-environment'], function (exports, _emberUtils, _emberDebug, _emberEnvironment) { 'use strict'; exports.Container = exports.privatize = exports.Registry = undefined; var Container = function () { function Container(registry) { var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}; this.registry = registry; this.owner = options.owner || null; this.cache = (0, _emberUtils.dictionary)(options.cache || null); this.factoryManagerCache = (0, _emberUtils.dictionary)(options.factoryManagerCache || null); this.isDestroyed = false; } /** @private @property registry @type Registry @since 1.11.0 */ /** @private @property cache @type InheritingDict */ /** @private @property validationCache @type InheritingDict */ /** Given a fullName return a corresponding instance. The default behavior is for lookup to return a singleton instance. The singleton is scoped to the container, allowing multiple containers to all have their own locally scoped singletons. ```javascript let registry = new Registry(); let container = registry.container(); registry.register('api:twitter', Twitter); let twitter = container.lookup('api:twitter'); twitter instanceof Twitter; // => true // by default the container will return singletons let twitter2 = container.lookup('api:twitter'); twitter2 instanceof Twitter; // => true twitter === twitter2; //=> true ``` If singletons are not wanted, an optional flag can be provided at lookup. ```javascript let registry = new Registry(); let container = registry.container(); registry.register('api:twitter', Twitter); let twitter = container.lookup('api:twitter', { singleton: false }); let twitter2 = container.lookup('api:twitter', { singleton: false }); twitter === twitter2; //=> false ``` @private @method lookup @param {String} fullName @param {Object} [options] @param {String} [options.source] The fullname of the request source (used for local lookup) @return {any} */ Container.prototype.lookup = function (fullName, options) { false && !this.registry.isValidFullName(fullName) && (0, _emberDebug.assert)('fullName must be a proper full name', this.registry.isValidFullName(fullName)); return _lookup(this, this.registry.normalize(fullName), options); }; Container.prototype.destroy = function () { destroyDestroyables(this); this.isDestroyed = true; }; Container.prototype.reset = function (fullName) { if (fullName === undefined) { resetCache(this); } else { resetMember(this, this.registry.normalize(fullName)); } }; Container.prototype.ownerInjection = function () { var _ref; return _ref = {}, _ref[_emberUtils.OWNER] = this.owner, _ref; }; Container.prototype._resolverCacheKey = function (name, options) { return this.registry.resolverCacheKey(name, options); }; Container.prototype.factoryFor = function (fullName) { var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}, expandedFullName; var normalizedName = this.registry.normalize(fullName); false && !this.registry.isValidFullName(normalizedName) && (0, _emberDebug.assert)('fullName must be a proper full name', this.registry.isValidFullName(normalizedName)); if (options.source) { expandedFullName = this.registry.expandLocalLookup(fullName, options); // if expandLocalLookup returns falsey, we do not support local lookup if (!expandedFullName) { return; } normalizedName = expandedFullName; } var cacheKey = this._resolverCacheKey(normalizedName, options); var cached = this.factoryManagerCache[cacheKey]; if (cached !== undefined) { return cached; } var factory = this.registry.resolve(normalizedName); if (factory === undefined) { return; } var manager = new FactoryManager(this, factory, fullName, normalizedName); this.factoryManagerCache[cacheKey] = manager; return manager; }; return Container; }(); /* * Wrap a factory manager in a proxy which will not permit properties to be * set on the manager. */ function isSingleton(container, fullName) { return container.registry.getOption(fullName, 'singleton') !== false; } function isInstantiatable(container, fullName) { return container.registry.getOption(fullName, 'instantiate') !== false; } function _lookup(container, fullName) { var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {}, expandedFullName, cacheKey, cached; if (options.source) { expandedFullName = container.registry.expandLocalLookup(fullName, options); // if expandLocalLookup returns falsey, we do not support local lookup if (!expandedFullName) { return; } fullName = expandedFullName; } if (options.singleton !== false) { cacheKey = container._resolverCacheKey(fullName, options); cached = container.cache[cacheKey]; if (cached !== undefined) { return cached; } } return instantiateFactory(container, fullName, options); } function isSingletonClass(container, fullName, _ref2) { var instantiate = _ref2.instantiate, singleton = _ref2.singleton; return singleton !== false && !instantiate && isSingleton(container, fullName) && !isInstantiatable(container, fullName); } function isSingletonInstance(container, fullName, _ref3) { var instantiate = _ref3.instantiate, singleton = _ref3.singleton; return singleton !== false && instantiate !== false && isSingleton(container, fullName) && isInstantiatable(container, fullName); } function isFactoryClass(container, fullname, _ref4) { var instantiate = _ref4.instantiate, singleton = _ref4.singleton; return instantiate === false && (singleton === false || !isSingleton(container, fullname)) && !isInstantiatable(container, fullname); } function isFactoryInstance(container, fullName, _ref5) { var instantiate = _ref5.instantiate, singleton = _ref5.singleton; return instantiate !== false && (singleton !== false || isSingleton(container, fullName)) && isInstantiatable(container, fullName); } function instantiateFactory(container, fullName, options) { var factoryManager = container.factoryFor(fullName), cacheKey; if (factoryManager === undefined) { return; } // SomeClass { singleton: true, instantiate: true } | { singleton: true } | { instantiate: true } | {} // By default majority of objects fall into this case if (isSingletonInstance(container, fullName, options)) { cacheKey = container._resolverCacheKey(fullName, options); return container.cache[cacheKey] = factoryManager.create(); } // SomeClass { singleton: false, instantiate: true } if (isFactoryInstance(container, fullName, options)) { return factoryManager.create(); } // SomeClass { singleton: true, instantiate: false } | { instantiate: false } | { singleton: false, instantiation: false } if (isSingletonClass(container, fullName, options) || isFactoryClass(container, fullName, options)) { return factoryManager.class; } throw new Error('Could not create factory'); } function buildInjections(container, injections) { var hash = {}, injection, i; var isDynamic = false; if (injections.length > 0) { injection = void 0; for (i = 0; i < injections.length; i++) { injection = injections[i]; hash[injection.property] = _lookup(container, injection.fullName); if (!isDynamic) { isDynamic = !isSingleton(container, injection.fullName); } } } return { injections: hash, isDynamic: isDynamic }; } function injectionsFor(container, fullName) { var registry = container.registry; var _fullName$split = fullName.split(':'), type = _fullName$split[0]; var injections = registry.getTypeInjections(type).concat(registry.getInjections(fullName)); return buildInjections(container, injections); } function destroyDestroyables(container) { var cache = container.cache, i, key, value; var keys = Object.keys(cache); for (i = 0; i < keys.length; i++) { key = keys[i]; value = cache[key]; if (value.destroy) { value.destroy(); } } } function resetCache(container) { destroyDestroyables(container); container.cache = (0, _emberUtils.dictionary)(null); container.factoryManagerCache = (0, _emberUtils.dictionary)(null); } function resetMember(container, fullName) { var member = container.cache[fullName]; delete container.factoryManagerCache[fullName]; if (member) { delete container.cache[fullName]; if (member.destroy) { member.destroy(); } } } var FactoryManager = function () { function FactoryManager(container, factory, fullName, normalizedName) { this.container = container; this.owner = container.owner; this.class = factory; this.fullName = fullName; this.normalizedName = normalizedName; this.madeToString = undefined; this.injections = undefined; } FactoryManager.prototype.toString = function () { if (this.madeToString === undefined) { this.madeToString = this.container.registry.makeToString(this.class, this.fullName); } return this.madeToString; }; FactoryManager.prototype.create = function () { var options = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : {}, _injectionsFor, injections, isDynamic; var injectionsCache = this.injections; if (injectionsCache === undefined) { _injectionsFor = injectionsFor(this.container, this.normalizedName), injections = _injectionsFor.injections, isDynamic = _injectionsFor.isDynamic; injectionsCache = injections; if (!isDynamic) { this.injections = injections; } } var props = (0, _emberUtils.assign)({}, injectionsCache, options); if (!this.class.create) { throw new Error('Failed to create an instance of \'' + this.normalizedName + '\'. Most likely an improperly defined class or' + ' an invalid module export.'); } // required to allow access to things like // the customized toString, _debugContainerKey, // owner, etc. without a double extend and without // modifying the objects properties if (typeof this.class._initFactory === 'function') { this.class._initFactory(this); } else { // in the non-EmberObject case we need to still setOwner // this is required for supporting glimmer environment and // template instantiation which rely heavily on // `options[OWNER]` being passed into `create` // TODO: clean this up, and remove in future versions (0, _emberUtils.setOwner)(props, this.owner); } return this.class.create(props); }; return FactoryManager; }(); var VALID_FULL_NAME_REGEXP = /^[^:]+:[^:]+$/; var missingResolverFunctionsDeprecation = 'Passing a `resolver` function into a Registry is deprecated. Please pass in a Resolver object with a `resolve` method.'; /** A registry used to store factory and option information keyed by type. A `Registry` stores the factory and option information needed by a `Container` to instantiate and cache objects. The API for `Registry` is still in flux and should not be considered stable. @private @class Registry @since 1.11.0 */ var Registry = function () { function Registry() { var options = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : {}; this.fallback = options.fallback || null; this.resolver = options.resolver || null; if (_emberEnvironment.ENV._ENABLE_RESOLVER_FUNCTION_SUPPORT !== true) { false && !(typeof this.resolver !== 'function') && (0, _emberDebug.assert)(missingResolverFunctionsDeprecation, typeof this.resolver !== 'function'); } if (typeof this.resolver === 'function' && _emberEnvironment.ENV._ENABLE_RESOLVER_FUNCTION_SUPPORT === true) { deprecateResolverFunction(this); } this.registrations = (0, _emberUtils.dictionary)(options.registrations || null); this._typeInjections = (0, _emberUtils.dictionary)(null); this._injections = (0, _emberUtils.dictionary)(null); this._localLookupCache = Object.create(null); this._normalizeCache = (0, _emberUtils.dictionary)(null); this._resolveCache = (0, _emberUtils.dictionary)(null); this._failSet = new Set(); this._options = (0, _emberUtils.dictionary)(null); this._typeOptions = (0, _emberUtils.dictionary)(null); } /** A backup registry for resolving registrations when no matches can be found. @private @property fallback @type Registry */ /** An object that has a `resolve` method that resolves a name. @private @property resolver @type Resolver */ /** @private @property registrations @type InheritingDict */ /** @private @property _typeInjections @type InheritingDict */ /** @private @property _injections @type InheritingDict */ /** @private @property _normalizeCache @type InheritingDict */ /** @private @property _resolveCache @type InheritingDict */ /** @private @property _options @type InheritingDict */ /** @private @property _typeOptions @type InheritingDict */ /** Creates a container based on this registry. @private @method container @param {Object} options @return {Container} created container */ Registry.prototype.container = function (options) { return new Container(this, options); }; Registry.prototype.register = function (fullName, factory) { var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {}; false && !this.isValidFullName(fullName) && (0, _emberDebug.assert)('fullName must be a proper full name', this.isValidFullName(fullName)); false && !(factory !== undefined) && (0, _emberDebug.assert)('Attempting to register an unknown factory: \'' + fullName + '\'', factory !== undefined); var normalizedName = this.normalize(fullName); false && !!this._resolveCache[normalizedName] && (0, _emberDebug.assert)('Cannot re-register: \'' + fullName + '\', as it has already been resolved.', !this._resolveCache[normalizedName]); this._failSet.delete(normalizedName); this.registrations[normalizedName] = factory; this._options[normalizedName] = options; }; Registry.prototype.unregister = function (fullName) { false && !this.isValidFullName(fullName) && (0, _emberDebug.assert)('fullName must be a proper full name', this.isValidFullName(fullName)); var normalizedName = this.normalize(fullName); this._localLookupCache = Object.create(null); delete this.registrations[normalizedName]; delete this._resolveCache[normalizedName]; delete this._options[normalizedName]; this._failSet.delete(normalizedName); }; Registry.prototype.resolve = function (fullName, options) { false && !this.isValidFullName(fullName) && (0, _emberDebug.assert)('fullName must be a proper full name', this.isValidFullName(fullName)); var factory = _resolve(this, this.normalize(fullName), options), _fallback; if (factory === undefined && this.fallback !== null) { factory = (_fallback = this.fallback).resolve.apply(_fallback, arguments); } return factory; }; Registry.prototype.describe = function (fullName) { if (this.resolver !== null && this.resolver.lookupDescription) { return this.resolver.lookupDescription(fullName); } else if (this.fallback !== null) { return this.fallback.describe(fullName); } else { return fullName; } }; Registry.prototype.normalizeFullName = function (fullName) { if (this.resolver !== null && this.resolver.normalize) { return this.resolver.normalize(fullName); } else if (this.fallback !== null) { return this.fallback.normalizeFullName(fullName); } else { return fullName; } }; Registry.prototype.normalize = function (fullName) { return this._normalizeCache[fullName] || (this._normalizeCache[fullName] = this.normalizeFullName(fullName)); }; Registry.prototype.makeToString = function (factory, fullName) { if (this.resolver !== null && this.resolver.makeToString) { return this.resolver.makeToString(factory, fullName); } else if (this.fallback !== null) { return this.fallback.makeToString(factory, fullName); } else { return factory.toString(); } }; Registry.prototype.has = function (fullName, options) { if (!this.isValidFullName(fullName)) { return false; } var source = options && options.source && this.normalize(options.source); return _has(this, this.normalize(fullName), source); }; Registry.prototype.optionsForType = function (type, options) { this._typeOptions[type] = options; }; Registry.prototype.getOptionsForType = function (type) { var optionsForType = this._typeOptions[type]; if (optionsForType === undefined && this.fallback !== null) { optionsForType = this.fallback.getOptionsForType(type); } return optionsForType; }; Registry.prototype.options = function (fullName) { var _options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}; var normalizedName = this.normalize(fullName); this._options[normalizedName] = _options; }; Registry.prototype.getOptions = function (fullName) { var normalizedName = this.normalize(fullName); var options = this._options[normalizedName]; if (options === undefined && this.fallback !== null) { options = this.fallback.getOptions(fullName); } return options; }; Registry.prototype.getOption = function (fullName, optionName) { var options = this._options[fullName]; if (options && options[optionName] !== undefined) { return options[optionName]; } var type = fullName.split(':')[0]; options = this._typeOptions[type]; if (options && options[optionName] !== undefined) { return options[optionName]; } else if (this.fallback !== null) { return this.fallback.getOption(fullName, optionName); } }; Registry.prototype.typeInjection = function (type, property, fullName) { false && !this.isValidFullName(fullName) && (0, _emberDebug.assert)('fullName must be a proper full name', this.isValidFullName(fullName)); var fullNameType = fullName.split(':')[0]; false && !(fullNameType !== type) && (0, _emberDebug.assert)('Cannot inject a \'' + fullName + '\' on other ' + type + '(s).', fullNameType !== type); var injections = this._typeInjections[type] || (this._typeInjections[type] = []); injections.push({ property: property, fullName: fullName }); }; Registry.prototype.injection = function (fullName, property, injectionName) { false && !this.isValidFullName(injectionName) && (0, _emberDebug.assert)('Invalid injectionName, expected: \'type:name\' got: ' + injectionName, this.isValidFullName(injectionName)); var normalizedInjectionName = this.normalize(injectionName); if (fullName.indexOf(':') === -1) { return this.typeInjection(fullName, property, normalizedInjectionName); } false && !this.isValidFullName(fullName) && (0, _emberDebug.assert)('fullName must be a proper full name', this.isValidFullName(fullName)); var normalizedName = this.normalize(fullName); var injections = this._injections[normalizedName] || (this._injections[normalizedName] = []); injections.push({ property: property, fullName: normalizedInjectionName }); }; Registry.prototype.knownForType = function (type) { var localKnown = (0, _emberUtils.dictionary)(null), index, fullName, itemType; var registeredNames = Object.keys(this.registrations); for (index = 0; index < registeredNames.length; index++) { fullName = registeredNames[index]; itemType = fullName.split(':')[0]; if (itemType === type) { localKnown[fullName] = true; } } var fallbackKnown = void 0, resolverKnown = void 0; if (this.fallback !== null) { fallbackKnown = this.fallback.knownForType(type); } if (this.resolver !== null && this.resolver.knownForType) { resolverKnown = this.resolver.knownForType(type); } return (0, _emberUtils.assign)({}, fallbackKnown, localKnown, resolverKnown); }; Registry.prototype.isValidFullName = function (fullName) { return VALID_FULL_NAME_REGEXP.test(fullName); }; Registry.prototype.getInjections = function (fullName) { var injections = this._injections[fullName] || []; if (this.fallback !== null) { injections = injections.concat(this.fallback.getInjections(fullName)); } return injections; }; Registry.prototype.getTypeInjections = function (type) { var injections = this._typeInjections[type] || []; if (this.fallback !== null) { injections = injections.concat(this.fallback.getTypeInjections(type)); } return injections; }; Registry.prototype.resolverCacheKey = function (name, options) { return name; }; Registry.prototype.expandLocalLookup = function (fullName, options) { var normalizedFullName, normalizedSource; if (this.resolver !== null && this.resolver.expandLocalLookup) { false && !this.isValidFullName(fullName) && (0, _emberDebug.assert)('fullName must be a proper full name', this.isValidFullName(fullName)); false && !(options && options.source) && (0, _emberDebug.assert)('options.source must be provided to expandLocalLookup', options && options.source); false && !this.isValidFullName(options.source) && (0, _emberDebug.assert)('options.source must be a proper full name', this.isValidFullName(options.source)); normalizedFullName = this.normalize(fullName); normalizedSource = this.normalize(options.source); return _expandLocalLookup(this, normalizedFullName, normalizedSource); } else if (this.fallback !== null) { return this.fallback.expandLocalLookup(fullName, options); } else { return null; } }; return Registry; }(); function deprecateResolverFunction(registry) { false && !false && (0, _emberDebug.deprecate)(missingResolverFunctionsDeprecation, false, { id: 'ember-application.registry-resolver-as-function', until: '3.0.0', url: 'https://emberjs.com/deprecations/v2.x#toc_registry-resolver-as-function' }); registry.resolver = { resolve: registry.resolver }; } function _expandLocalLookup(registry, normalizedName, normalizedSource) { var cache = registry._localLookupCache; var normalizedNameCache = cache[normalizedName]; if (!normalizedNameCache) { normalizedNameCache = cache[normalizedName] = Object.create(null); } var cached = normalizedNameCache[normalizedSource]; if (cached !== undefined) { return cached; } var expanded = registry.resolver.expandLocalLookup(normalizedName, normalizedSource); return normalizedNameCache[normalizedSource] = expanded; } function _resolve(registry, normalizedName, options) { if (options && options.source) { // when `source` is provided expand normalizedName // and source into the full normalizedName expandedNormalizedName = registry.expandLocalLookup(normalizedName, options); // if expandLocalLookup returns falsey, we do not support local lookup if (!expandedNormalizedName) { return; } normalizedName = expandedNormalizedName; } var cacheKey = registry.resolverCacheKey(normalizedName, options), expandedNormalizedName; var cached = registry._resolveCache[cacheKey]; if (cached !== undefined) { return cached; } if (registry._failSet.has(cacheKey)) { return; } var resolved = void 0; if (registry.resolver) { resolved = registry.resolver.resolve(normalizedName, options && options.source); } if (resolved === undefined) { resolved = registry.registrations[normalizedName]; } if (resolved === undefined) { registry._failSet.add(cacheKey); } else { registry._resolveCache[cacheKey] = resolved; } return resolved; } function _has(registry, fullName, source) { return registry.resolve(fullName, { source: source }) !== undefined; } var privateNames = (0, _emberUtils.dictionary)(null); var privateSuffix = ('' + Math.random() + Date.now()).replace('.', ''); /* Public API for the container is still in flux. The public API, specified on the application namespace should be considered the stable API. // @module container @private */ exports.Registry = Registry; exports.privatize = function (_ref6) { var fullName = _ref6[0]; var name = privateNames[fullName]; if (name) { return name; } var _fullName$split2 = fullName.split(':'), type = _fullName$split2[0], rawName = _fullName$split2[1]; return privateNames[fullName] = (0, _emberUtils.intern)(type + ':' + rawName + '-' + privateSuffix); }; exports.Container = Container; }); enifed("dag-map", ["exports"], function (exports) { "use strict"; /** * A topologically ordered map of key/value pairs with a simple API for adding constraints. * * Edges can forward reference keys that have not been added yet (the forward reference will * map the key to undefined). */ var DAG = function () { function DAG() { this._vertices = new Vertices(); } /** * Adds a key/value pair with dependencies on other key/value pairs. * * @public * @param key The key of the vertex to be added. * @param value The value of that vertex. * @param before A key or array of keys of the vertices that must * be visited before this vertex. * @param after An string or array of strings with the keys of the * vertices that must be after this vertex is visited. */ DAG.prototype.add = function (key, value, before, after) { if (!key) throw new Error('argument `key` is required'); var vertices = this._vertices, i; var v = vertices.add(key); v.val = value; if (before) { if (typeof before === "string") { vertices.addEdge(v, vertices.add(before)); } else { for (var i = 0; i < before.length; i++) { vertices.addEdge(v, vertices.add(before[i])); } } } if (after) { if (typeof after === "string") { vertices.addEdge(vertices.add(after), v); } else { for (i = 0; i < after.length; i++) { vertices.addEdge(vertices.add(after[i]), v); } } } }; /** * @deprecated please use add. */ DAG.prototype.addEdges = function (key, value, before, after) { this.add(key, value, before, after); }; /** * Visits key/value pairs in topological order. * * @public * @param callback The function to be invoked with each key/value. */ DAG.prototype.each = function (callback) { this._vertices.walk(callback); }; /** * @deprecated please use each. */ DAG.prototype.topsort = function (callback) { this.each(callback); }; return DAG; }(); exports.default = DAG; /** @private */ var Vertices = function () { function Vertices() { this.length = 0; this.stack = new IntStack(); this.path = new IntStack(); this.result = new IntStack(); } Vertices.prototype.add = function (key) { if (!key) throw new Error("missing key"); var l = this.length | 0, i; var vertex; for (i = 0; i < l; i++) { vertex = this[i]; if (vertex.key === key) return vertex; } this.length = l + 1; return this[l] = { idx: l, key: key, val: undefined, out: false, flag: false, length: 0 }; }; Vertices.prototype.addEdge = function (v, w) { this.check(v, w.key); var l = w.length | 0, i; for (i = 0; i < l; i++) { if (w[i] === v.idx) return; } w.length = l + 1; w[l] = v.idx; v.out = true; }; Vertices.prototype.walk = function (cb) { var i, vertex; this.reset(); for (i = 0; i < this.length; i++) { vertex = this[i]; if (vertex.out) continue; this.visit(vertex, ""); } this.each(this.result, cb); }; Vertices.prototype.check = function (v, w) { var i, key, msg_1; if (v.key === w) { throw new Error("cycle detected: " + w + " <- " + w); } // quick check if (v.length === 0) return; // shallow check for (i = 0; i < v.length; i++) { key = this[v[i]].key; if (key === w) { throw new Error("cycle detected: " + w + " <- " + v.key + " <- " + w); } } // deep check this.reset(); this.visit(v, w); if (this.path.length > 0) { msg_1 = "cycle detected: " + w; this.each(this.path, function (key) { msg_1 += " <- " + key; }); throw new Error(msg_1); } }; Vertices.prototype.reset = function () { var i, l; this.stack.length = 0; this.path.length = 0; this.result.length = 0; for (i = 0, l = this.length; i < l; i++) { this[i].flag = false; } }; Vertices.prototype.visit = function (start, search) { var _a = this, stack = _a.stack, path = _a.path, result = _a.result, index, vertex; stack.push(start.idx); while (stack.length) { index = stack.pop() | 0; if (index >= 0) { // enter vertex = this[index]; if (vertex.flag) continue; vertex.flag = true; path.push(index); if (search === vertex.key) break; // push exit stack.push(~index); this.pushIncoming(vertex); } else { // exit path.pop(); result.push(~index); } } }; Vertices.prototype.pushIncoming = function (incomming) { var stack = this.stack, i, index; for (i = incomming.length - 1; i >= 0; i--) { index = incomming[i]; if (!this[index].flag) { stack.push(index); } } }; Vertices.prototype.each = function (indices, cb) { var i, l, vertex; for (i = 0, l = indices.length; i < l; i++) { vertex = this[indices[i]]; cb(vertex.key, vertex.val); } }; return Vertices; }(); /** @private */ var IntStack = function () { function IntStack() { this.length = 0; } IntStack.prototype.push = function (n) { this[this.length++] = n | 0; }; IntStack.prototype.pop = function () { return this[--this.length] | 0; }; return IntStack; }(); }); enifed('ember-application/index', ['exports', 'ember-application/system/application', 'ember-application/system/application-instance', 'ember-application/system/resolver', 'ember-application/system/engine', 'ember-application/system/engine-instance', 'ember-application/system/engine-parent', 'ember-application/initializers/dom-templates'], function (exports, _application, _applicationInstance, _resolver, _engine, _engineInstance, _engineParent) { 'use strict'; exports.setEngineParent = exports.getEngineParent = exports.EngineInstance = exports.Engine = exports.Resolver = exports.ApplicationInstance = exports.Application = undefined; Object.defineProperty(exports, 'Application', { enumerable: true, get: function () { return _application.default; } }); Object.defineProperty(exports, 'ApplicationInstance', { enumerable: true, get: function () { return _applicationInstance.default; } }); Object.defineProperty(exports, 'Resolver', { enumerable: true, get: function () { return _resolver.default; } }); Object.defineProperty(exports, 'Engine', { enumerable: true, get: function () { return _engine.default; } }); Object.defineProperty(exports, 'EngineInstance', { enumerable: true, get: function () { return _engineInstance.default; } }); Object.defineProperty(exports, 'getEngineParent', { enumerable: true, get: function () { return _engineParent.getEngineParent; } }); Object.defineProperty(exports, 'setEngineParent', { enumerable: true, get: function () { return _engineParent.setEngineParent; } }); }); enifed('ember-application/initializers/dom-templates', ['require', 'ember-glimmer', 'ember-environment', 'ember-application/system/application'], function (_require2, _emberGlimmer, _emberEnvironment, _application) { 'use strict'; var bootstrap = function () {}; _application.default.initializer({ name: 'domTemplates', initialize: function () { var bootstrapModuleId = 'ember-template-compiler/system/bootstrap'; var context = void 0; if (_emberEnvironment.environment.hasDOM && (0, _require2.has)(bootstrapModuleId)) { bootstrap = (0, _require2.default)(bootstrapModuleId).default; context = document; } bootstrap({ context: context, hasTemplate: _emberGlimmer.hasTemplate, setTemplate: _emberGlimmer.setTemplate }); } }); }); enifed('ember-application/system/application-instance', ['exports', 'ember-utils', 'ember-metal', 'ember-runtime', 'ember-environment', 'ember-views', 'ember-application/system/engine-instance'], function (exports, _emberUtils, _emberMetal, _emberRuntime, _emberEnvironment, _emberViews, _engineInstance) { 'use strict'; /** The `ApplicationInstance` encapsulates all of the stateful aspects of a running `Application`. At a high-level, we break application boot into two distinct phases: * Definition time, where all of the classes, templates, and other dependencies are loaded (typically in the browser). * Run time, where we begin executing the application once everything has loaded. Definition time can be expensive and only needs to happen once since it is an idempotent operation. For example, between test runs and FastBoot requests, the application stays the same. It is only the state that we want to reset. That state is what the `ApplicationInstance` manages: it is responsible for creating the container that contains all application state, and disposing of it once the particular test run or FastBoot request has finished. @public @class ApplicationInstance @extends EngineInstance */ /** @module @ember/application */ var ApplicationInstance = _engineInstance.default.extend({ /** The `Application` for which this is an instance. @property {Application} application @private */ application: null, /** The DOM events for which the event dispatcher should listen. By default, the application's `Ember.EventDispatcher` listens for a set of standard DOM events, such as `mousedown` and `keyup`, and delegates them to your application's `Ember.View` instances. @private @property {Object} customEvents */ customEvents: null, /** The root DOM element of the Application as an element or a [jQuery-compatible selector string](http://api.jquery.com/category/selectors/). @private @property {String|DOMElement} rootElement */ rootElement: null, init: function () { this._super.apply(this, arguments); // Register this instance in the per-instance registry. // // Why do we need to register the instance in the first place? // Because we need a good way for the root route (a.k.a ApplicationRoute) // to notify us when it has created the root-most view. That view is then // appended to the rootElement, in the case of apps, to the fixture harness // in tests, or rendered to a string in the case of FastBoot. this.register('-application-instance:main', this, { instantiate: false }); }, _bootSync: function (options) { var router; if (this._booted) { return this; } options = new BootOptions(options); this.setupRegistry(options); if (options.rootElement) { this.rootElement = options.rootElement; } else { this.rootElement = this.application.rootElement; } if (options.location) { router = (0, _emberMetal.get)(this, 'router'); (0, _emberMetal.set)(router, 'location', options.location); } this.application.runInstanceInitializers(this); if (options.isInteractive) { this.setupEventDispatcher(); } this._booted = true; return this; }, setupRegistry: function (options) { this.constructor.setupRegistry(this.__registry__, options); }, router: (0, _emberMetal.computed)(function () { return this.lookup('router:main'); }).readOnly(), didCreateRootView: function (view) { view.appendTo(this.rootElement); }, startRouting: function () { var router = (0, _emberMetal.get)(this, 'router'); router.startRouting(); this._didSetupRouter = true; }, setupRouter: function () { if (this._didSetupRouter) { return; } this._didSetupRouter = true; var router = (0, _emberMetal.get)(this, 'router'); router.setupRouter(); }, handleURL: function (url) { var router = (0, _emberMetal.get)(this, 'router'); this.setupRouter(); return router.handleURL(url); }, setupEventDispatcher: function () { var dispatcher = this.lookup('event_dispatcher:main'); var applicationCustomEvents = (0, _emberMetal.get)(this.application, 'customEvents'); var instanceCustomEvents = (0, _emberMetal.get)(this, 'customEvents'); var customEvents = (0, _emberUtils.assign)({}, applicationCustomEvents, instanceCustomEvents); dispatcher.setup(customEvents, this.rootElement); return dispatcher; }, getURL: function () { return (0, _emberMetal.get)(this, 'router.url'); }, visit: function (url) { var _this = this; this.setupRouter(); var bootOptions = this.__container__.lookup('-environment:main'); var router = (0, _emberMetal.get)(this, 'router'); var handleTransitionResolve = function () { if (!bootOptions.options.shouldRender) { // No rendering is needed, and routing has completed, simply return. return _this; } else { return new _emberRuntime.RSVP.Promise(function (resolve) { // Resolve once rendering is completed. `router.handleURL` returns the transition (as a thennable) // which resolves once the transition is completed, but the transition completion only queues up // a scheduled revalidation (into the `render` queue) in the Renderer. // // This uses `run.schedule('afterRender', ....)` to resolve after that rendering has completed. _emberMetal.run.schedule('afterRender', null, resolve, _this); }); } }; var handleTransitionReject = function (error) { if (error.error) { throw error.error; } else if (error.name === 'TransitionAborted' && router._routerMicrolib.activeTransition) { return router._routerMicrolib.activeTransition.then(handleTransitionResolve, handleTransitionReject); } else if (error.name === 'TransitionAborted') { throw new Error(error.message); } else { throw error; } }; var location = (0, _emberMetal.get)(router, 'location'); // Keeps the location adapter's internal URL in-sync location.setURL(url); // getURL returns the set url with the rootURL stripped off return router.handleURL(location.getURL()).then(handleTransitionResolve, handleTransitionReject); } }); ApplicationInstance.reopenClass({ setupRegistry: function (registry) { var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}; if (!options.toEnvironment) { options = new BootOptions(options); } registry.register('-environment:main', options.toEnvironment(), { instantiate: false }); registry.register('service:-document', options.document, { instantiate: false }); this._super(registry, options); } }); /** A list of boot-time configuration options for customizing the behavior of an `Ember.ApplicationInstance`. This is an interface class that exists purely to document the available options; you do not need to construct it manually. Simply pass a regular JavaScript object containing the desired options into methods that require one of these options object: ```javascript MyApp.visit("/", { location: "none", rootElement: "#container" }); ``` Not all combinations of the supported options are valid. See the documentation on `Ember.Application#visit` for the supported configurations. Internal, experimental or otherwise unstable flags are marked as private. @class BootOptions @namespace ApplicationInstance @public */ function BootOptions() { var options = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : {}; /** Provide a specific instance of jQuery. This is useful in conjunction with the `document` option, as it allows you to use a copy of `jQuery` that is appropriately bound to the foreign `document` (e.g. a jsdom). This is highly experimental and support very incomplete at the moment. @property jQuery @type Object @default auto-detected @private */ this.jQuery = _emberViews.jQuery; // This default is overridable below /** Interactive mode: whether we need to set up event delegation and invoke lifecycle callbacks on Components. @property isInteractive @type boolean @default auto-detected @private */ this.isInteractive = _emberEnvironment.environment.hasDOM; // This default is overridable below /** Run in a full browser environment. When this flag is set to `false`, it will disable most browser-specific and interactive features. Specifically: * It does not use `jQuery` to append the root view; the `rootElement` (either specified as a subsequent option or on the application itself) must already be an `Element` in the given `document` (as opposed to a string selector). * It does not set up an `EventDispatcher`. * It does not run any `Component` lifecycle hooks (such as `didInsertElement`). * It sets the `location` option to `"none"`. (If you would like to use the location adapter specified in the app's router instead, you can also specify `{ location: null }` to specifically opt-out.) @property isBrowser @type boolean @default auto-detected @public */ if (options.isBrowser !== undefined) { this.isBrowser = !!options.isBrowser; } else { this.isBrowser = _emberEnvironment.environment.hasDOM; } if (!this.isBrowser) { this.jQuery = null; this.isInteractive = false; this.location = 'none'; } /** Disable rendering completely. When this flag is set to `true`, it will disable the entire rendering pipeline. Essentially, this puts the app into "routing-only" mode. No templates will be rendered, and no Components will be created. @property shouldRender @type boolean @default true @public */ if (options.shouldRender !== undefined) { this.shouldRender = !!options.shouldRender; } else { this.shouldRender = true; } if (!this.shouldRender) { this.jQuery = null; this.isInteractive = false; } /** If present, render into the given `Document` object instead of the global `window.document` object. In practice, this is only useful in non-browser environment or in non-interactive mode, because Ember's `jQuery` dependency is implicitly bound to the current document, causing event delegation to not work properly when the app is rendered into a foreign document object (such as an iframe's `contentDocument`). In non-browser mode, this could be a "`Document`-like" object as Ember only interact with a small subset of the DOM API in non- interactive mode. While the exact requirements have not yet been formalized, the `SimpleDOM` library's implementation is known to work. @property document @type Document @default the global `document` object @public */ if (options.document) { this.document = options.document; } else { this.document = typeof document !== 'undefined' ? document : null; } /** If present, overrides the application's `rootElement` property on the instance. This is useful for testing environment, where you might want to append the root view to a fixture area. In non-browser mode, because Ember does not have access to jQuery, this options must be specified as a DOM `Element` object instead of a selector string. See the documentation on `Ember.Applications`'s `rootElement` for details. @property rootElement @type String|Element @default null @public */ if (options.rootElement) { this.rootElement = options.rootElement; } // Set these options last to give the user a chance to override the // defaults from the "combo" options like `isBrowser` (although in // practice, the resulting combination is probably invalid) /** If present, overrides the router's `location` property with this value. This is useful for environments where trying to modify the URL would be inappropriate. @property location @type string @default null @public */ if (options.location !== undefined) { this.location = options.location; } if (options.jQuery !== undefined) { this.jQuery = options.jQuery; } if (options.isInteractive !== undefined) { this.isInteractive = !!options.isInteractive; } } BootOptions.prototype.toEnvironment = function () { var env = (0, _emberUtils.assign)({}, _emberEnvironment.environment); // For compatibility with existing code env.hasDOM = this.isBrowser; env.isInteractive = this.isInteractive; env.options = this; return env; }; exports.default = ApplicationInstance; }); enifed('ember-application/system/application', ['exports', 'ember-babel', 'ember-utils', 'ember-environment', 'ember-debug', 'ember-metal', 'ember-runtime', 'ember-views', 'ember-routing', 'ember-application/system/application-instance', 'container', 'ember-application/system/engine', 'ember-glimmer'], function (exports, _emberBabel, _emberUtils, _emberEnvironment, _emberDebug, _emberMetal, _emberRuntime, _emberViews, _emberRouting, _applicationInstance, _container, _engine, _emberGlimmer) { 'use strict'; var _templateObject = (0, _emberBabel.taggedTemplateLiteralLoose)(['-bucket-cache:main'], ['-bucket-cache:main']); var librariesRegistered = false; /** An instance of `Ember.Application` is the starting point for every Ember application. It helps to instantiate, initialize and coordinate the many objects that make up your app. Each Ember app has one and only one `Ember.Application` object. In fact, the very first thing you should do in your application is create the instance: ```javascript window.App = Ember.Application.create(); ``` Typically, the application object is the only global variable. All other classes in your app should be properties on the `Ember.Application` instance, which highlights its first role: a global namespace. For example, if you define a view class, it might look like this: ```javascript App.MyView = Ember.View.extend(); ``` By default, calling `Ember.Application.create()` will automatically initialize your application by calling the `Ember.Application.initialize()` method. If you need to delay initialization, you can call your app's `deferReadiness()` method. When you are ready for your app to be initialized, call its `advanceReadiness()` method. You can define a `ready` method on the `Ember.Application` instance, which will be run by Ember when the application is initialized. Because `Ember.Application` inherits from `Ember.Namespace`, any classes you create will have useful string representations when calling `toString()`. See the `Ember.Namespace` documentation for more information. While you can think of your `Ember.Application` as a container that holds the other classes in your application, there are several other responsibilities going on under-the-hood that you may want to understand. ### Event Delegation Ember uses a technique called _event delegation_. This allows the framework to set up a global, shared event listener instead of requiring each view to do it manually. For example, instead of each view registering its own `mousedown` listener on its associated element, Ember sets up a `mousedown` listener on the `body`. If a `mousedown` event occurs, Ember will look at the target of the event and start walking up the DOM node tree, finding corresponding views and invoking their `mouseDown` method as it goes. `Ember.Application` has a number of default events that it listens for, as well as a mapping from lowercase events to camel-cased view method names. For example, the `keypress` event causes the `keyPress` method on the view to be called, the `dblclick` event causes `doubleClick` to be called, and so on. If there is a bubbling browser event that Ember does not listen for by default, you can specify custom events and their corresponding view method names by setting the application's `customEvents` property: ```javascript let App = Ember.Application.create({ customEvents: { // add support for the paste event paste: 'paste' } }); ``` To prevent Ember from setting up a listener for a default event, specify the event name with a `null` value in the `customEvents` property: ```javascript let App = Ember.Application.create({ customEvents: { // prevent listeners for mouseenter/mouseleave events mouseenter: null, mouseleave: null } }); ``` By default, the application sets up these event listeners on the document body. However, in cases where you are embedding an Ember application inside an existing page, you may want it to set up the listeners on an element inside the body. For example, if only events inside a DOM element with the ID of `ember-app` should be delegated, set your application's `rootElement` property: ```javascript let App = Ember.Application.create({ rootElement: '#ember-app' }); ``` The `rootElement` can be either a DOM element or a jQuery-compatible selector string. Note that *views appended to the DOM outside the root element will not receive events.* If you specify a custom root element, make sure you only append views inside it! To learn more about the events Ember components use, see [components/handling-events](https://guides.emberjs.com/v2.6.0/components/handling-events/#toc_event-names). ### Initializers Libraries on top of Ember can add initializers, like so: ```javascript Ember.Application.initializer({ name: 'api-adapter', initialize: function(application) { application.register('api-adapter:main', ApiAdapter); } }); ``` Initializers provide an opportunity to access the internal registry, which organizes the different components of an Ember application. Additionally they provide a chance to access the instantiated application. Beyond being used for libraries, initializers are also a great way to organize dependency injection or setup in your own application. ### Routing In addition to creating your application's router, `Ember.Application` is also responsible for telling the router when to start routing. Transitions between routes can be logged with the `LOG_TRANSITIONS` flag, and more detailed intra-transition logging can be logged with the `LOG_TRANSITIONS_INTERNAL` flag: ```javascript let App = Ember.Application.create({ LOG_TRANSITIONS: true, // basic logging of successful transitions LOG_TRANSITIONS_INTERNAL: true // detailed logging of all routing steps }); ``` By default, the router will begin trying to translate the current URL into application state once the browser emits the `DOMContentReady` event. If you need to defer routing, you can call the application's `deferReadiness()` method. Once routing can begin, call the `advanceReadiness()` method. If there is any setup required before routing begins, you can implement a `ready()` method on your app that will be invoked immediately before routing begins. @class Application @extends Engine @uses RegistryProxyMixin @public */ var Application = _engine.default.extend({ /** The root DOM element of the Application. This can be specified as an element or a [jQuery-compatible selector string](http://api.jquery.com/category/selectors/). This is the element that will be passed to the Application's, `eventDispatcher`, which sets up the listeners for event delegation. Every view in your application should be a child of the element you specify here. @property rootElement @type DOMElement @default 'body' @public */ rootElement: 'body', /** The `Ember.EventDispatcher` responsible for delegating events to this application's views. The event dispatcher is created by the application at initialization time and sets up event listeners on the DOM element described by the application's `rootElement` property. See the documentation for `Ember.EventDispatcher` for more information. @property eventDispatcher @type Ember.EventDispatcher @default null @public */ eventDispatcher: null, /** The DOM events for which the event dispatcher should listen. By default, the application's `Ember.EventDispatcher` listens for a set of standard DOM events, such as `mousedown` and `keyup`, and delegates them to your application's `Ember.View` instances. If you would like additional bubbling events to be delegated to your views, set your `Ember.Application`'s `customEvents` property to a hash containing the DOM event name as the key and the corresponding view method name as the value. Setting an event to a value of `null` will prevent a default event listener from being added for that event. To add new events to be listened to: ```javascript let App = Ember.Application.create({ customEvents: { // add support for the paste event paste: 'paste' } }); ``` To prevent default events from being listened to: ```javascript let App = Ember.Application.create({ customEvents: { // remove support for mouseenter / mouseleave events mouseenter: null, mouseleave: null } }); ``` @property customEvents @type Object @default null @public */ customEvents: null, /** Whether the application should automatically start routing and render templates to the `rootElement` on DOM ready. While default by true, other environments such as FastBoot or a testing harness can set this property to `false` and control the precise timing and behavior of the boot process. @property autoboot @type Boolean @default true @private */ autoboot: true, /** Whether the application should be configured for the legacy "globals mode". Under this mode, the Application object serves as a global namespace for all classes. ```javascript let App = Ember.Application.create({ ... }); App.Router.reopen({ location: 'none' }); App.Router.map({ ... }); App.MyComponent = Ember.Component.extend({ ... }); ``` This flag also exposes other internal APIs that assumes the existence of a special "default instance", like `App.__container__.lookup(...)`. This option is currently not configurable, its value is derived from the `autoboot` flag – disabling `autoboot` also implies opting-out of globals mode support, although they are ultimately orthogonal concerns. Some of the global modes features are already deprecated in 1.x. The existence of this flag is to untangle the globals mode code paths from the autoboot code paths, so that these legacy features can be reviewed for deprecation/removal separately. Forcing the (autoboot=true, _globalsMode=false) here and running the tests would reveal all the places where we are still relying on these legacy behavior internally (mostly just tests). @property _globalsMode @type Boolean @default true @private */ _globalsMode: true, init: function () { // eslint-disable-line no-unused-vars this._super.apply(this, arguments); if (!this.$) { this.$ = _emberViews.jQuery; } registerLibraries(); // Start off the number of deferrals at 1. This will be decremented by // the Application's own `boot` method. this._readinessDeferrals = 1; this._booted = false; this.autoboot = this._globalsMode = !!this.autoboot; if (this._globalsMode) { this._prepareForGlobalsMode(); } if (this.autoboot) { this.waitForDOMReady(); } }, buildInstance: function () { var options = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : {}; options.base = this; options.application = this; return _applicationInstance.default.create(options); }, _prepareForGlobalsMode: function () { // Create subclass of Ember.Router for this Application instance. // This is to ensure that someone reopening `App.Router` does not // tamper with the default `Ember.Router`. this.Router = (this.Router || _emberRouting.Router).extend(); this._buildDeprecatedInstance(); }, _buildDeprecatedInstance: function () { // Build a default instance var instance = this.buildInstance(); // Legacy support for App.__container__ and other global methods // on App that rely on a single, default instance. this.__deprecatedInstance__ = instance; this.__container__ = instance.__container__; }, waitForDOMReady: function () { if (!this.$ || this.$.isReady) { _emberMetal.run.schedule('actions', this, 'domReady'); } else { this.$().ready(_emberMetal.run.bind(this, 'domReady')); } }, domReady: function () { if (this.isDestroyed) { return; } this._bootSync(); // Continues to `didBecomeReady` }, deferReadiness: function () { false && !(this instanceof Application) && (0, _emberDebug.assert)('You must call deferReadiness on an instance of Ember.Application', this instanceof Application); false && !(this._readinessDeferrals > 0) && (0, _emberDebug.assert)('You cannot defer readiness since the `ready()` hook has already been called.', this._readinessDeferrals > 0); this._readinessDeferrals++; }, advanceReadiness: function () { false && !(this instanceof Application) && (0, _emberDebug.assert)('You must call advanceReadiness on an instance of Ember.Application', this instanceof Application); this._readinessDeferrals--; if (this._readinessDeferrals === 0) { _emberMetal.run.once(this, this.didBecomeReady); } }, boot: function () { if (this._bootPromise) { return this._bootPromise; } try { this._bootSync(); } catch (_) { // Ignore th error: in the asynchronous boot path, the error is already reflected // in the promise rejection } return this._bootPromise; }, _bootSync: function () { if (this._booted) { return; } // Even though this returns synchronously, we still need to make sure the // boot promise exists for book-keeping purposes: if anything went wrong in // the boot process, we need to store the error as a rejection on the boot // promise so that a future caller of `boot()` can tell what failed. var defer = this._bootResolver = _emberRuntime.RSVP.defer(); this._bootPromise = defer.promise; try { this.runInitializers(); (0, _emberRuntime.runLoadHooks)('application', this); this.advanceReadiness(); // Continues to `didBecomeReady` } catch (error) { // For the asynchronous boot path defer.reject(error); // For the synchronous boot path throw error; } }, reset: function () { false && !(this._globalsMode && this.autoboot) && (0, _emberDebug.assert)('Calling reset() on instances of `Ember.Application` is not\n supported when globals mode is disabled; call `visit()` to\n create new `Ember.ApplicationInstance`s and dispose them\n via their `destroy()` method instead.', this._globalsMode && this.autoboot); var instance = this.__deprecatedInstance__; this._readinessDeferrals = 1; this._bootPromise = null; this._bootResolver = null; this._booted = false; _emberMetal.run.join(this, function () { (0, _emberMetal.run)(instance, 'destroy'); this._buildDeprecatedInstance(); _emberMetal.run.schedule('actions', this, '_bootSync'); }); }, didBecomeReady: function () { var instance; try { // TODO: Is this still needed for _globalsMode = false? if (!(0, _emberDebug.isTesting)()) { // Eagerly name all classes that are already loaded _emberRuntime.Namespace.processAll(); (0, _emberRuntime.setNamespaceSearchDisabled)(true); } // See documentation on `_autoboot()` for details if (this.autoboot) { instance = void 0; if (this._globalsMode) { // If we already have the __deprecatedInstance__ lying around, boot it to // avoid unnecessary work instance = this.__deprecatedInstance__; } else { // Otherwise, build an instance and boot it. This is currently unreachable, // because we forced _globalsMode to === autoboot; but having this branch // allows us to locally toggle that flag for weeding out legacy globals mode // dependencies independently instance = this.buildInstance(); } instance._bootSync(); // TODO: App.ready() is not called when autoboot is disabled, is this correct? this.ready(); instance.startRouting(); } // For the asynchronous boot path this._bootResolver.resolve(this); // For the synchronous boot path this._booted = true; } catch (error) { // For the asynchronous boot path this._bootResolver.reject(error); // For the synchronous boot path throw error; } }, ready: function () { return this; }, willDestroy: function () { this._super.apply(this, arguments); (0, _emberRuntime.setNamespaceSearchDisabled)(false); this._booted = false; this._bootPromise = null; this._bootResolver = null; if (_emberRuntime._loaded.application === this) { _emberRuntime._loaded.application = undefined; } if (this._globalsMode && this.__deprecatedInstance__) { this.__deprecatedInstance__.destroy(); } }, visit: function (url, options) { var _this = this; return this.boot().then(function () { var instance = _this.buildInstance(); return instance.boot(options).then(function () { return instance.visit(url); }).catch(function (error) { (0, _emberMetal.run)(instance, 'destroy'); throw error; }); }); } }); Application.reopenClass({ buildRegistry: function () { arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}; // eslint-disable-line no-unused-vars var registry = this._super.apply(this, arguments); commonSetupRegistry(registry); (0, _emberGlimmer.setupApplicationRegistry)(registry); return registry; } }); function commonSetupRegistry(registry) { registry.register('router:main', _emberRouting.Router.extend()); registry.register('-view-registry:main', { create: function () { return (0, _emberUtils.dictionary)(null); } }); registry.register('route:basic', _emberRouting.Route); registry.register('event_dispatcher:main', _emberViews.EventDispatcher); registry.injection('router:main', 'namespace', 'application:main'); registry.register('location:auto', _emberRouting.AutoLocation); registry.register('location:hash', _emberRouting.HashLocation); registry.register('location:history', _emberRouting.HistoryLocation); registry.register('location:none', _emberRouting.NoneLocation); registry.register((0, _container.privatize)(_templateObject), _emberRouting.BucketCache); registry.register('service:router', _emberRouting.RouterService); registry.injection('service:router', '_router', 'router:main'); } function registerLibraries() { if (!librariesRegistered) { librariesRegistered = true; if (_emberEnvironment.environment.hasDOM && typeof _emberViews.jQuery === 'function') { _emberMetal.libraries.registerCoreLibrary('jQuery', (0, _emberViews.jQuery)().jquery); } } } exports.default = Application; }); enifed('ember-application/system/engine-instance', ['exports', 'ember-babel', 'ember-utils', 'ember-runtime', 'ember-debug', 'container', 'ember-application/system/engine-parent'], function (exports, _emberBabel, _emberUtils, _emberRuntime, _emberDebug, _container, _engineParent) { 'use strict'; var _templateObject = (0, _emberBabel.taggedTemplateLiteralLoose)(['-bucket-cache:main'], ['-bucket-cache:main']); /** The `EngineInstance` encapsulates all of the stateful aspects of a running `Engine`. @public @class EngineInstance @extends EmberObject @uses RegistryProxyMixin @uses ContainerProxyMixin */ var EngineInstance = _emberRuntime.Object.extend(_emberRuntime.RegistryProxyMixin, _emberRuntime.ContainerProxyMixin, { /** The base `Engine` for which this is an instance. @property {Ember.Engine} engine @private */ base: null, init: function () { this._super.apply(this, arguments); (0, _emberUtils.guidFor)(this); var base = this.base; if (!base) { base = this.application; this.base = base; } // Create a per-instance registry that will use the application's registry // as a fallback for resolving registrations. var registry = this.__registry__ = new _container.Registry({ fallback: base.__registry__ }); // Create a per-instance container from the instance's registry this.__container__ = registry.container({ owner: this }); this._booted = false; }, boot: function (options) { var _this = this; if (this._bootPromise) { return this._bootPromise; } this._bootPromise = new _emberRuntime.RSVP.Promise(function (resolve) { return resolve(_this._bootSync(options)); }); return this._bootPromise; }, _bootSync: function (options) { if (this._booted) { return this; } false && !(0, _engineParent.getEngineParent)(this) && (0, _emberDebug.assert)('An engine instance\'s parent must be set via `setEngineParent(engine, parent)` prior to calling `engine.boot()`.', (0, _engineParent.getEngineParent)(this)); this.cloneParentDependencies(); this.setupRegistry(options); this.base.runInstanceInitializers(this); this._booted = true; return this; }, setupRegistry: function () { var options = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : this.__container__.lookup('-environment:main'); this.constructor.setupRegistry(this.__registry__, options); }, unregister: function (fullName) { this.__container__.reset(fullName); this._super.apply(this, arguments); }, buildChildEngineInstance: function (name) { var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}; var Engine = this.lookup('engine:' + name); if (!Engine) { throw new _emberDebug.Error('You attempted to mount the engine \'' + name + '\', but it is not registered with its parent.'); } var engineInstance = Engine.buildInstance(options); (0, _engineParent.setEngineParent)(engineInstance, this); return engineInstance; }, cloneParentDependencies: function () { var _this2 = this; var parent = (0, _engineParent.getEngineParent)(this); ['route:basic', 'service:-routing', 'service:-glimmer-environment'].forEach(function (key) { return _this2.register(key, parent.resolveRegistration(key)); }); var env = parent.lookup('-environment:main'); this.register('-environment:main', env, { instantiate: false }); var singletons = ['router:main', (0, _container.privatize)(_templateObject), '-view-registry:main', 'renderer:-' + (env.isInteractive ? 'dom' : 'inert'), 'service:-document']; if (env.isInteractive) { singletons.push('event_dispatcher:main'); } singletons.forEach(function (key) { return _this2.register(key, parent.lookup(key), { instantiate: false }); }); this.inject('view', '_environment', '-environment:main'); this.inject('route', '_environment', '-environment:main'); } }); EngineInstance.reopenClass({ setupRegistry: function (registry, options) { // when no options/environment is present, do nothing if (!options) { return; } registry.injection('view', '_environment', '-environment:main'); registry.injection('route', '_environment', '-environment:main'); if (options.isInteractive) { registry.injection('view', 'renderer', 'renderer:-dom'); registry.injection('component', 'renderer', 'renderer:-dom'); } else { registry.injection('view', 'renderer', 'renderer:-inert'); registry.injection('component', 'renderer', 'renderer:-inert'); } } }); exports.default = EngineInstance; }); enifed('ember-application/system/engine-parent', ['exports', 'ember-utils'], function (exports, _emberUtils) { 'use strict'; exports.ENGINE_PARENT = undefined; exports.getEngineParent = /** `getEngineParent` retrieves an engine instance's parent instance. @method getEngineParent @param {EngineInstance} engine An engine instance. @return {EngineInstance} The parent engine instance. @for @ember/engine @static @private */ function (engine) { return engine[ENGINE_PARENT]; } /** `setEngineParent` sets an engine instance's parent instance. @method setEngineParent @param {EngineInstance} engine An engine instance. @param {EngineInstance} parent The parent engine instance. @private */ ; exports.setEngineParent = function (engine, parent) { engine[ENGINE_PARENT] = parent; }; var ENGINE_PARENT = exports.ENGINE_PARENT = (0, _emberUtils.symbol)('ENGINE_PARENT'); }); enifed('ember-application/system/engine', ['exports', 'ember-babel', 'ember-utils', 'ember-runtime', 'container', 'dag-map', 'ember-debug', 'ember-metal', 'ember-application/system/resolver', 'ember-application/system/engine-instance', 'ember-routing', 'ember-extension-support', 'ember-views', 'ember-glimmer'], function (exports, _emberBabel, _emberUtils, _emberRuntime, _container, _dagMap, _emberDebug, _emberMetal, _resolver, _engineInstance, _emberRouting, _emberExtensionSupport, _emberViews, _emberGlimmer) { 'use strict'; var _templateObject = (0, _emberBabel.taggedTemplateLiteralLoose)(['-bucket-cache:main'], ['-bucket-cache:main']); function props(obj) { var properties = []; for (var key in obj) { properties.push(key); } return properties; } /** The `Engine` class contains core functionality for both applications and engines. Each engine manages a registry that's used for dependency injection and exposed through `RegistryProxy`. Engines also manage initializers and instance initializers. Engines can spawn `EngineInstance` instances via `buildInstance()`. @class Engine @extends Ember.Namespace @uses RegistryProxy @public */ var Engine = _emberRuntime.Namespace.extend(_emberRuntime.RegistryProxyMixin, { init: function () { this._super.apply(this, arguments); this.buildRegistry(); }, /** A private flag indicating whether an engine's initializers have run yet. @private @property _initializersRan */ _initializersRan: false, ensureInitializers: function () { if (!this._initializersRan) { this.runInitializers(); this._initializersRan = true; } }, buildInstance: function () { var options = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : {}; this.ensureInitializers(); options.base = this; return _engineInstance.default.create(options); }, buildRegistry: function () { var registry = this.__registry__ = this.constructor.buildRegistry(this); return registry; }, initializer: function (options) { this.constructor.initializer(options); }, instanceInitializer: function (options) { this.constructor.instanceInitializer(options); }, runInitializers: function () { var _this = this; this._runInitializer('initializers', function (name, initializer) { false && !!!initializer && (0, _emberDebug.assert)('No application initializer named \'' + name + '\'', !!initializer); initializer.initialize(_this); }); }, runInstanceInitializers: function (instance) { this._runInitializer('instanceInitializers', function (name, initializer) { false && !!!initializer && (0, _emberDebug.assert)('No instance initializer named \'' + name + '\'', !!initializer); initializer.initialize(instance); }); }, _runInitializer: function (bucketName, cb) { var initializersByName = (0, _emberMetal.get)(this.constructor, bucketName), i; var initializers = props(initializersByName); var graph = new _dagMap.default(); var initializer = void 0; for (i = 0; i < initializers.length; i++) { initializer = initializersByName[initializers[i]]; graph.add(initializer.name, initializer, initializer.before, initializer.after); } graph.topsort(cb); } }); Engine.reopenClass({ initializers: Object.create(null), instanceInitializers: Object.create(null), /** The goal of initializers should be to register dependencies and injections. This phase runs once. Because these initializers may load code, they are allowed to defer application readiness and advance it. If you need to access the container or store you should use an InstanceInitializer that will be run after all initializers and therefore after all code is loaded and the app is ready. Initializer receives an object which has the following attributes: `name`, `before`, `after`, `initialize`. The only required attribute is `initialize`, all others are optional. * `name` allows you to specify under which name the initializer is registered. This must be a unique name, as trying to register two initializers with the same name will result in an error. ```app/initializer/named-initializer.js import { debug } from '@ember/debug'; export function initialize() { debug('Running namedInitializer!'); } export default { name: 'named-initializer', initialize }; ``` * `before` and `after` are used to ensure that this initializer is ran prior or after the one identified by the value. This value can be a single string or an array of strings, referencing the `name` of other initializers. An example of ordering initializers, we create an initializer named `first`: ```app/initializer/first.js import { debug } from '@ember/debug'; export function initialize() { debug('First initializer!'); } export default { name: 'first', initialize }; ``` ```bash // DEBUG: First initializer! ``` We add another initializer named `second`, specifying that it should run after the initializer named `first`: ```app/initializer/second.js import { debug } from '@ember/debug'; export function initialize() { debug('Second initializer!'); } export default { name: 'second', after: 'first', initialize }; ``` ``` // DEBUG: First initializer! // DEBUG: Second initializer! ``` Afterwards we add a further initializer named `pre`, this time specifying that it should run before the initializer named `first`: ```app/initializer/pre.js import { debug } from '@ember/debug'; export function initialize() { debug('Pre initializer!'); } export default { name: 'pre', before: 'first', initialize }; ``` ```bash // DEBUG: Pre initializer! // DEBUG: First initializer! // DEBUG: Second initializer! ``` Finally we add an initializer named `post`, specifying it should run after both the `first` and the `second` initializers: ```app/initializer/post.js import { debug } from '@ember/debug'; export function initialize() { debug('Post initializer!'); } export default { name: 'post', after: ['first', 'second'], initialize }; ``` ```bash // DEBUG: Pre initializer! // DEBUG: First initializer! // DEBUG: Second initializer! // DEBUG: Post initializer! ``` * `initialize` is a callback function that receives one argument, `application`, on which you can operate. Example of using `application` to register an adapter: ```app/initializer/api-adapter.js import ApiAdapter from '../utils/api-adapter'; export function initialize(application) { application.register('api-adapter:main', ApiAdapter); } export default { name: 'post', after: ['first', 'second'], initialize }; ``` @method initializer @param initializer {Object} @public */ initializer: buildInitializerMethod('initializers', 'initializer'), /** Instance initializers run after all initializers have run. Because instance initializers run after the app is fully set up. We have access to the store, container, and other items. However, these initializers run after code has loaded and are not allowed to defer readiness. Instance initializer receives an object which has the following attributes: `name`, `before`, `after`, `initialize`. The only required attribute is `initialize`, all others are optional. * `name` allows you to specify under which name the instanceInitializer is registered. This must be a unique name, as trying to register two instanceInitializer with the same name will result in an error. ```app/initializer/named-instance-initializer.js import { debug } from '@ember/debug'; export function initialize() { debug('Running named-instance-initializer!'); } export default { name: 'named-instance-initializer', initialize }; ``` * `before` and `after` are used to ensure that this initializer is ran prior or after the one identified by the value. This value can be a single string or an array of strings, referencing the `name` of other initializers. * See Ember.Application.initializer for discussion on the usage of before and after. Example instanceInitializer to preload data into the store. ```app/initializer/preload-data.js import $ from 'jquery'; export function initialize(application) { var userConfig, userConfigEncoded, store; // We have a HTML escaped JSON representation of the user's basic // configuration generated server side and stored in the DOM of the main // index.html file. This allows the app to have access to a set of data // without making any additional remote calls. Good for basic data that is // needed for immediate rendering of the page. Keep in mind, this data, // like all local models and data can be manipulated by the user, so it // should not be relied upon for security or authorization. // Grab the encoded data from the meta tag userConfigEncoded = $('head meta[name=app-user-config]').attr('content'); // Unescape the text, then parse the resulting JSON into a real object userConfig = JSON.parse(unescape(userConfigEncoded)); // Lookup the store store = application.lookup('service:store'); // Push the encoded JSON into the store store.pushPayload(userConfig); } export default { name: 'named-instance-initializer', initialize }; ``` @method instanceInitializer @param instanceInitializer @public */ instanceInitializer: buildInitializerMethod('instanceInitializers', 'instance initializer'), buildRegistry: function (namespace) { var registry = new _container.Registry({ resolver: resolverFor(namespace) }); registry.set = _emberMetal.set; registry.register('application:main', namespace, { instantiate: false }); commonSetupRegistry(registry); (0, _emberGlimmer.setupEngineRegistry)(registry); return registry; }, /** Set this to provide an alternate class to `Ember.DefaultResolver` @deprecated Use 'Resolver' instead @property resolver @public */ resolver: null, /** Set this to provide an alternate class to `Ember.DefaultResolver` @property resolver @public */ Resolver: null }); /** This function defines the default lookup rules for container lookups: * templates are looked up on `Ember.TEMPLATES` * other names are looked up on the application after classifying the name. For example, `controller:post` looks up `App.PostController` by default. * if the default lookup fails, look for registered classes on the container This allows the application to register default injections in the container that could be overridden by the normal naming convention. @private @method resolverFor @param {Ember.Namespace} namespace the namespace to look for classes @return {*} the resolved value for a given lookup */ function resolverFor(namespace) { var ResolverClass = namespace.get('Resolver') || _resolver.default; return ResolverClass.create({ namespace: namespace }); } function buildInitializerMethod(bucketName, humanName) { return function (initializer) { var attrs; // If this is the first initializer being added to a subclass, we are going to reopen the class // to make sure we have a new `initializers` object, which extends from the parent class' using // prototypal inheritance. Without this, attempting to add initializers to the subclass would // pollute the parent class as well as other subclasses. if (this.superclass[bucketName] !== undefined && this.superclass[bucketName] === this[bucketName]) { attrs = {}; attrs[bucketName] = Object.create(this[bucketName]); this.reopenClass(attrs); } false && !!this[bucketName][initializer.name] && (0, _emberDebug.assert)('The ' + humanName + ' \'' + initializer.name + '\' has already been registered', !this[bucketName][initializer.name]); false && !(0, _emberUtils.canInvoke)(initializer, 'initialize') && (0, _emberDebug.assert)('An ' + humanName + ' cannot be registered without an initialize function', (0, _emberUtils.canInvoke)(initializer, 'initialize')); false && !(initializer.name !== undefined) && (0, _emberDebug.assert)('An ' + humanName + ' cannot be registered without a name property', initializer.name !== undefined); this[bucketName][initializer.name] = initializer; }; } function commonSetupRegistry(registry) { registry.optionsForType('component', { singleton: false }); registry.optionsForType('view', { singleton: false }); registry.register('controller:basic', _emberRuntime.Controller, { instantiate: false }); registry.injection('view', '_viewRegistry', '-view-registry:main'); registry.injection('renderer', '_viewRegistry', '-view-registry:main'); registry.injection('event_dispatcher:main', '_viewRegistry', '-view-registry:main'); registry.injection('route', '_topLevelViewTemplate', 'template:-outlet'); registry.injection('view:-outlet', 'namespace', 'application:main'); registry.injection('controller', 'target', 'router:main'); registry.injection('controller', 'namespace', 'application:main'); registry.injection('router', '_bucketCache', (0, _container.privatize)(_templateObject)); registry.injection('route', '_bucketCache', (0, _container.privatize)(_templateObject)); registry.injection('route', 'router', 'router:main'); // Register the routing service... registry.register('service:-routing', _emberRouting.RoutingService); // Then inject the app router into it registry.injection('service:-routing', 'router', 'router:main'); // DEBUGGING registry.register('resolver-for-debugging:main', registry.resolver, { instantiate: false }); registry.injection('container-debug-adapter:main', 'resolver', 'resolver-for-debugging:main'); registry.injection('data-adapter:main', 'containerDebugAdapter', 'container-debug-adapter:main'); // Custom resolver authors may want to register their own ContainerDebugAdapter with this key registry.register('container-debug-adapter:main', _emberExtensionSupport.ContainerDebugAdapter); registry.register('component-lookup:main', _emberViews.ComponentLookup); } exports.default = Engine; }); enifed('ember-application/system/resolver', ['exports', 'ember-utils', 'ember-metal', 'ember-debug', 'ember-runtime', 'ember-application/utils/validate-type', 'ember-glimmer'], function (exports, _emberUtils, _emberMetal, _emberDebug, _emberRuntime, _validateType, _emberGlimmer) { 'use strict'; exports.Resolver = undefined; /** @module @ember/application */ exports.Resolver = _emberRuntime.Object.extend({ /* This will be set to the Application instance when it is created. @property namespace */ namespace: null, normalize: null, // required resolve: null, // required parseName: null, // required lookupDescription: null, // required makeToString: null, // required resolveOther: null, // required _logLookup: null // required }); /** The DefaultResolver defines the default lookup rules to resolve container lookups before consulting the container for registered items: * templates are looked up on `Ember.TEMPLATES` * other names are looked up on the application after converting the name. For example, `controller:post` looks up `App.PostController` by default. * there are some nuances (see examples below) ### How Resolving Works The container calls this object's `resolve` method with the `fullName` argument. It first parses the fullName into an object using `parseName`. Then it checks for the presence of a type-specific instance method of the form `resolve[Type]` and calls it if it exists. For example if it was resolving 'template:post', it would call the `resolveTemplate` method. Its last resort is to call the `resolveOther` method. The methods of this object are designed to be easy to override in a subclass. For example, you could enhance how a template is resolved like so: ```app/app.js import Application from '@ember/application'; import GlobalsResolver from '@ember/application/globals-resolver'; App = Application.create({ Resolver: GlobalsResolver.extend({ resolveTemplate(parsedName) { let resolvedTemplate = this._super(parsedName); if (resolvedTemplate) { return resolvedTemplate; } return Ember.TEMPLATES['not_found']; } }) }); ``` Some examples of how names are resolved: ```text 'template:post' //=> Ember.TEMPLATES['post'] 'template:posts/byline' //=> Ember.TEMPLATES['posts/byline'] 'template:posts.byline' //=> Ember.TEMPLATES['posts/byline'] 'template:blogPost' //=> Ember.TEMPLATES['blog-post'] 'controller:post' //=> App.PostController 'controller:posts.index' //=> App.PostsIndexController 'controller:blog/post' //=> Blog.PostController 'controller:basic' //=> Controller 'route:post' //=> App.PostRoute 'route:posts.index' //=> App.PostsIndexRoute 'route:blog/post' //=> Blog.PostRoute 'route:basic' //=> Route 'foo:post' //=> App.PostFoo 'model:post' //=> App.Post ``` @class GlobalsResolver @extends EmberObject @public */ var DefaultResolver = _emberRuntime.Object.extend({ /** This will be set to the Application instance when it is created. @property namespace @public */ namespace: null, init: function () { this._parseNameCache = (0, _emberUtils.dictionary)(null); }, normalize: function (fullName) { var _fullName$split = fullName.split(':'), type = _fullName$split[0], name = _fullName$split[1], result; false && !(fullName.split(':').length === 2) && (0, _emberDebug.assert)('Tried to normalize a container name without a colon (:) in it. ' + 'You probably tried to lookup a name that did not contain a type, ' + 'a colon, and a name. A proper lookup name would be `view:post`.', fullName.split(':').length === 2); if (type !== 'template') { result = name.replace(/(\.|_|-)./g, function (m) { return m.charAt(1).toUpperCase(); }); return type + ':' + result; } else { return fullName; } }, resolve: function (fullName) { var parsedName = this.parseName(fullName); var resolveMethodName = parsedName.resolveMethodName; var resolved = void 0; if (this[resolveMethodName]) { resolved = this[resolveMethodName](parsedName); } resolved = resolved || this.resolveOther(parsedName); if (resolved) { (0, _validateType.default)(resolved, parsedName); } return resolved; }, parseName: function (fullName) { return this._parseNameCache[fullName] || (this._parseNameCache[fullName] = this._parseName(fullName)); }, _parseName: function (fullName) { var _fullName$split2 = fullName.split(':'), type = _fullName$split2[0], fullNameWithoutType = _fullName$split2[1], parts, namespaceName; var name = fullNameWithoutType; var namespace = (0, _emberMetal.get)(this, 'namespace'); var root = namespace; var lastSlashIndex = name.lastIndexOf('/'); var dirname = lastSlashIndex !== -1 ? name.slice(0, lastSlashIndex) : null; if (type !== 'template' && lastSlashIndex !== -1) { parts = name.split('/'); name = parts[parts.length - 1]; namespaceName = _emberRuntime.String.capitalize(parts.slice(0, -1).join('.')); root = _emberRuntime.Namespace.byName(namespaceName); false && !root && (0, _emberDebug.assert)('You are looking for a ' + name + ' ' + type + ' in the ' + namespaceName + ' namespace, but the namespace could not be found', root); } var resolveMethodName = fullNameWithoutType === 'main' ? 'Main' : _emberRuntime.String.classify(type); if (!(name && type)) { throw new TypeError('Invalid fullName: `' + fullName + '`, must be of the form `type:name` '); } return { fullName: fullName, type: type, fullNameWithoutType: fullNameWithoutType, dirname: dirname, name: name, root: root, resolveMethodName: 'resolve' + resolveMethodName }; }, lookupDescription: function (fullName) { var parsedName = this.parseName(fullName); var description = void 0; if (parsedName.type === 'template') { return 'template at ' + parsedName.fullNameWithoutType.replace(/\./g, '/'); } description = parsedName.root + '.' + _emberRuntime.String.classify(parsedName.name).replace(/\./g, ''); if (parsedName.type !== 'model') { description += _emberRuntime.String.classify(parsedName.type); } return description; }, makeToString: function (factory) { return factory.toString(); }, useRouterNaming: function (parsedName) { if (parsedName.name === 'basic') { parsedName.name = ''; } else { parsedName.name = parsedName.name.replace(/\./g, '_'); } }, resolveTemplate: function (parsedName) { var templateName = parsedName.fullNameWithoutType.replace(/\./g, '/'); return (0, _emberGlimmer.getTemplate)(templateName) || (0, _emberGlimmer.getTemplate)(_emberRuntime.String.decamelize(templateName)); }, resolveView: function (parsedName) { this.useRouterNaming(parsedName); return this.resolveOther(parsedName); }, resolveController: function (parsedName) { this.useRouterNaming(parsedName); return this.resolveOther(parsedName); }, resolveRoute: function (parsedName) { this.useRouterNaming(parsedName); return this.resolveOther(parsedName); }, resolveModel: function (parsedName) { var className = _emberRuntime.String.classify(parsedName.name); var factory = (0, _emberMetal.get)(parsedName.root, className); return factory; }, resolveHelper: function (parsedName) { return this.resolveOther(parsedName); }, resolveOther: function (parsedName) { var className = _emberRuntime.String.classify(parsedName.name) + _emberRuntime.String.classify(parsedName.type); var factory = (0, _emberMetal.get)(parsedName.root, className); return factory; }, resolveMain: function (parsedName) { var className = _emberRuntime.String.classify(parsedName.type); return (0, _emberMetal.get)(parsedName.root, className); }, knownForType: function (type) { var namespace = (0, _emberMetal.get)(this, 'namespace'), index, name, containerName; var suffix = _emberRuntime.String.classify(type); var typeRegexp = new RegExp(suffix + '$'); var known = (0, _emberUtils.dictionary)(null); var knownKeys = Object.keys(namespace); for (index = 0; index < knownKeys.length; index++) { name = knownKeys[index]; if (typeRegexp.test(name)) { containerName = this.translateToContainerFullname(type, name); known[containerName] = true; } } return known; }, translateToContainerFullname: function (type, name) { var suffix = _emberRuntime.String.classify(type); var namePrefix = name.slice(0, suffix.length * -1); var dasherizedName = _emberRuntime.String.dasherize(namePrefix); return type + ':' + dasherizedName; } }); exports.default = DefaultResolver; }); enifed('ember-application/utils/validate-type', ['exports', 'ember-debug'], function (exports, _emberDebug) { 'use strict'; exports.default = function (resolvedType, parsedName) { var validationAttributes = VALIDATED_TYPES[parsedName.type]; if (!validationAttributes) { return; } var factoryFlag = validationAttributes[1], expectedType = validationAttributes[2]; false && !!!resolvedType[factoryFlag] && (0, _emberDebug.assert)('Expected ' + parsedName.fullName + ' to resolve to an ' + expectedType + ' but ' + ('instead it was ' + resolvedType + '.'), !!resolvedType[factoryFlag]); }; var VALIDATED_TYPES = { route: ['assert', 'isRouteFactory', 'Ember.Route'], component: ['deprecate', 'isComponentFactory', 'Ember.Component'], view: ['deprecate', 'isViewFactory', 'Ember.View'], service: ['deprecate', 'isServiceFactory', 'Ember.Service'] }; }); enifed('ember-babel', ['exports'], function (exports) { 'use strict'; exports.inherits = inherits; exports.taggedTemplateLiteralLoose = taggedTemplateLiteralLoose; exports.createClass = createClass; exports.defaults = defaults; function inherits(subClass, superClass) { subClass.prototype = Object.create(superClass && superClass.prototype, { constructor: { value: subClass, enumerable: false, writable: true, configurable: true } }); if (superClass) Object.setPrototypeOf ? Object.setPrototypeOf(subClass, superClass) : defaults(subClass, superClass); } function taggedTemplateLiteralLoose(strings, raw) { strings.raw = raw; return strings; } function defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ('value' in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } } function createClass(Constructor, protoProps, staticProps) { if (protoProps) defineProperties(Constructor.prototype, protoProps); if (staticProps) defineProperties(Constructor, staticProps); return Constructor; } function defaults(obj, defaults) { var keys = Object.getOwnPropertyNames(defaults); for (var i = 0; i < keys.length; i++) { var key = keys[i]; var value = Object.getOwnPropertyDescriptor(defaults, key); if (value && value.configurable && obj[key] === undefined) { Object.defineProperty(obj, key, value); } } return obj; } var possibleConstructorReturn = exports.possibleConstructorReturn = function (self, call) { return call && (typeof call === 'object' || typeof call === 'function') ? call : self; }; var slice = exports.slice = Array.prototype.slice; }); enifed("ember-console", ["exports"], function (exports) { "use strict"; /** Inside Ember-Metal, simply uses the methods from `imports.console`. Override this to provide more robust logging functionality. @class Logger @namespace Ember @public */ exports.default = { log: function () { var _console; return (_console = console).log.apply(_console, arguments); }, warn: function () { var _console2; return (_console2 = console).warn.apply(_console2, arguments); }, error: function () { var _console3; return (_console3 = console).error.apply(_console3, arguments); }, info: function () { var _console4; return (_console4 = console).info.apply(_console4, arguments); }, debug: function () { var _console5, _console6; return console.debug && (_console5 = console).debug.apply(_console5, arguments) || (_console6 = console).info.apply(_console6, arguments); // eslint-disable-line no-console }, assert: function () { var _console7; return (_console7 = console).assert.apply(_console7, arguments); } }; }); enifed('ember-debug/deprecate', ['exports', 'ember-debug/error', 'ember-console', 'ember-environment', 'ember-debug/index', 'ember-debug/handlers'], function (exports) { 'use strict'; exports.missingOptionsUntilDeprecation = exports.missingOptionsIdDeprecation = exports.missingOptionsDeprecation = exports.registerHandler = undefined; /** @module @ember/debug @public */ /** Allows for runtime registration of handler functions that override the default deprecation behavior. Deprecations are invoked by calls to [Ember.deprecate](https://emberjs.com/api/classes/Ember.html#method_deprecate). The following example demonstrates its usage by registering a handler that throws an error if the message contains the word "should", otherwise defers to the default handler. ```javascript Ember.Debug.registerDeprecationHandler((message, options, next) => { if (message.indexOf('should') !== -1) { throw new Error(`Deprecation message with should: ${message}`); } else { // defer to whatever handler was registered before this one next(message, options); } }); ``` The handler function takes the following arguments:
  • message - The message received from the deprecation call.
  • options - An object passed in with the deprecation call containing additional information including:
    • id - An id of the deprecation in the form of package-name.specific-deprecation.
    • until - The Ember version number the feature and deprecation will be removed in.
  • next - A function that calls into the previously registered handler.
@public @static @method registerDeprecationHandler @for @ember/debug @param handler {Function} A function to handle deprecation calls. @since 2.1.0 */ /*global __fail__*/ exports.default = void 0; exports.registerHandler = function () {}; exports.missingOptionsDeprecation = void 0; exports.missingOptionsIdDeprecation = void 0; exports.missingOptionsUntilDeprecation = void 0; }); enifed("ember-debug/error", ["exports", "ember-babel"], function (exports, _emberBabel) { "use strict"; /** @module @ember/error */ /** A subclass of the JavaScript Error object for use in Ember. @class EmberError @extends Error @constructor @public */ var EmberError = function (_ExtendBuiltin) { (0, _emberBabel.inherits)(EmberError, _ExtendBuiltin); function EmberError(message) { var _this = (0, _emberBabel.possibleConstructorReturn)(this, _ExtendBuiltin.call(this)), _ret; if (!(_this instanceof EmberError)) { return _ret = new EmberError(message), (0, _emberBabel.possibleConstructorReturn)(_this, _ret); } var error = Error.call(_this, message); _this.stack = error.stack; _this.description = error.description; _this.fileName = error.fileName; _this.lineNumber = error.lineNumber; _this.message = error.message; _this.name = error.name; _this.number = error.number; _this.code = error.code; return _this; } return EmberError; }(function (klass) { function ExtendableBuiltin() { klass.apply(this, arguments); } ExtendableBuiltin.prototype = Object.create(klass.prototype); ExtendableBuiltin.prototype.constructor = ExtendableBuiltin; return ExtendableBuiltin; }(Error)); exports.default = EmberError; }); enifed('ember-debug/features', ['exports', 'ember-environment', 'ember/features'], function (exports, _emberEnvironment, _features) { 'use strict'; exports.default = /** @module ember */ /** The hash of enabled Canary features. Add to this, any canary features before creating your application. Alternatively (and recommended), you can also define `EmberENV.FEATURES` if you need to enable features flagged at runtime. @class FEATURES @namespace Ember @static @since 1.1.0 @public */ // Auto-generated /** Determine whether the specified `feature` is enabled. Used by Ember's build tools to exclude experimental features from beta/stable builds. You can define the following configuration options: * `EmberENV.ENABLE_OPTIONAL_FEATURES` - enable any features that have not been explicitly enabled/disabled. @method isEnabled @param {String} feature The feature to check @return {Boolean} @for Ember.FEATURES @since 1.1.0 @public */ function (feature) { var featureValue = FEATURES[feature]; if (featureValue === true || featureValue === false || featureValue === undefined) { return featureValue; } else if (_emberEnvironment.ENV.ENABLE_OPTIONAL_FEATURES) { return true; } else { return false; } }; var FEATURES = _features.FEATURES; }); enifed('ember-debug/handlers', ['exports'], function (exports) { 'use strict'; exports.HANDLERS = {}; exports.registerHandler = function () {}; exports.invoke = function () {}; }); enifed('ember-debug/index', ['exports', 'ember-debug/warn', 'ember-debug/deprecate', 'ember-debug/features', 'ember-debug/error', 'ember-debug/testing', 'ember-environment', 'ember-console', 'ember/features'], function (exports, _warn2, _deprecate2, _features, _error, _testing, _emberEnvironment, _emberConsole, _features2) { 'use strict'; exports._warnIfUsingStrippedFeatureFlags = exports.getDebugFunction = exports.setDebugFunction = exports.deprecateFunc = exports.runInDebug = exports.debugFreeze = exports.debugSeal = exports.deprecate = exports.debug = exports.warn = exports.info = exports.assert = exports.setTesting = exports.isTesting = exports.Error = exports.isFeatureEnabled = exports.registerDeprecationHandler = exports.registerWarnHandler = undefined; Object.defineProperty(exports, 'registerWarnHandler', { enumerable: true, get: function () { return _warn2.registerHandler; } }); Object.defineProperty(exports, 'registerDeprecationHandler', { enumerable: true, get: function () { return _deprecate2.registerHandler; } }); Object.defineProperty(exports, 'isFeatureEnabled', { enumerable: true, get: function () { return _features.default; } }); Object.defineProperty(exports, 'Error', { enumerable: true, get: function () { return _error.default; } }); Object.defineProperty(exports, 'isTesting', { enumerable: true, get: function () { return _testing.isTesting; } }); Object.defineProperty(exports, 'setTesting', { enumerable: true, get: function () { return _testing.setTesting; } }); var DEFAULT_FEATURES = _features2.DEFAULT_FEATURES, FEATURES = _features2.FEATURES; // These are the default production build versions: var noop = function () {}; exports.assert = noop; exports.info = noop; exports.warn = noop; exports.debug = noop; exports.deprecate = noop; exports.debugSeal = noop; exports.debugFreeze = noop; exports.runInDebug = noop; exports.deprecateFunc = function () { return arguments[arguments.length - 1]; }; exports.setDebugFunction = noop; exports.getDebugFunction = noop; exports._warnIfUsingStrippedFeatureFlags = void 0; }); enifed("ember-debug/testing", ["exports"], function (exports) { "use strict"; exports.isTesting = function () { return testing; }; exports.setTesting = function (value) { testing = !!value; }; var testing = false; }); enifed('ember-debug/warn', ['exports', 'ember-environment', 'ember-console', 'ember-debug/deprecate', 'ember-debug/index', 'ember-debug/handlers'], function (exports) { 'use strict'; exports.missingOptionsDeprecation = exports.missingOptionsIdDeprecation = exports.registerHandler = undefined; /** @module @ember/debug */ exports.default = function () {}; exports.registerHandler = function () {}; exports.missingOptionsIdDeprecation = void 0; exports.missingOptionsDeprecation = void 0; }); enifed('ember-environment', ['exports'], function (exports) { 'use strict'; /* globals global, window, self, mainContext */ // from lodash to catch fake globals function checkGlobal(value) { return value && value.Object === Object ? value : undefined; } // element ids can ruin global miss checks // export real global var global$1 = checkGlobal(function (value) { return value && value.nodeType === undefined ? value : undefined; }(typeof global === 'object' && global)) || checkGlobal(typeof self === 'object' && self) || checkGlobal(typeof window === 'object' && window) || mainContext || // set before strict mode in Ember loader/wrapper new Function('return this')(); // eval outside of strict mode function defaultTrue(v) { return v === false ? false : true; } function defaultFalse(v) { return v === true ? true : false; } /* globals module */ /** The hash of environment variables used to control various configuration settings. To specify your own or override default settings, add the desired properties to a global hash named `EmberENV` (or `ENV` for backwards compatibility with earlier versions of Ember). The `EmberENV` hash must be created before loading Ember. @class EmberENV @type Object @public */ var ENV = typeof global$1.EmberENV === 'object' && global$1.EmberENV || typeof global$1.ENV === 'object' && global$1.ENV || {}; // ENABLE_ALL_FEATURES was documented, but you can't actually enable non optional features. if (ENV.ENABLE_ALL_FEATURES) { ENV.ENABLE_OPTIONAL_FEATURES = true; } /** Determines whether Ember should add to `Array`, `Function`, and `String` native object prototypes, a few extra methods in order to provide a more friendly API. We generally recommend leaving this option set to true however, if you need to turn it off, you can add the configuration property `EXTEND_PROTOTYPES` to `EmberENV` and set it to `false`. Note, when disabled (the default configuration for Ember Addons), you will instead have to access all methods and functions from the Ember namespace. @property EXTEND_PROTOTYPES @type Boolean @default true @for EmberENV @public */ ENV.EXTEND_PROTOTYPES = function (obj) { if (obj === false) { return { String: false, Array: false, Function: false }; } else if (!obj || obj === true) { return { String: true, Array: true, Function: true }; } else { return { String: defaultTrue(obj.String), Array: defaultTrue(obj.Array), Function: defaultTrue(obj.Function) }; } }(ENV.EXTEND_PROTOTYPES); /** The `LOG_STACKTRACE_ON_DEPRECATION` property, when true, tells Ember to log a full stack trace during deprecation warnings. @property LOG_STACKTRACE_ON_DEPRECATION @type Boolean @default true @for EmberENV @public */ ENV.LOG_STACKTRACE_ON_DEPRECATION = defaultTrue(ENV.LOG_STACKTRACE_ON_DEPRECATION); /** The `LOG_VERSION` property, when true, tells Ember to log versions of all dependent libraries in use. @property LOG_VERSION @type Boolean @default true @for EmberENV @public */ ENV.LOG_VERSION = defaultTrue(ENV.LOG_VERSION); /** Debug parameter you can turn on. This will log all bindings that fire to the console. This should be disabled in production code. Note that you can also enable this from the console or temporarily. @property LOG_BINDINGS @for EmberENV @type Boolean @default false @public */ ENV.LOG_BINDINGS = defaultFalse(ENV.LOG_BINDINGS); ENV.RAISE_ON_DEPRECATION = defaultFalse(ENV.RAISE_ON_DEPRECATION); // check if window exists and actually is the global var hasDOM = typeof window !== 'undefined' && window === global$1 && window.document && window.document.createElement && !ENV.disableBrowserEnvironment; // is this a public thing? // legacy imports/exports/lookup stuff (should we keep this??) var originalContext = global$1.Ember || {}; var context = { // import jQuery imports: originalContext.imports || global$1, // export Ember exports: originalContext.exports || global$1, // search for Namespaces lookup: originalContext.lookup || global$1 }; // TODO: cleanup single source of truth issues with this stuff var environment = hasDOM ? { hasDOM: true, isChrome: !!window.chrome && !window.opera, isFirefox: typeof InstallTrigger !== 'undefined', location: window.location, history: window.history, userAgent: window.navigator.userAgent, window: window } : { hasDOM: false, isChrome: false, isFirefox: false, location: null, history: null, userAgent: 'Lynx (textmode)', window: null }; exports.ENV = ENV; exports.context = context; exports.environment = environment; }); enifed('ember-extension-support/container_debug_adapter', ['exports', 'ember-metal', 'ember-runtime'], function (exports, _emberMetal, _emberRuntime) { 'use strict'; exports.default = _emberRuntime.Object.extend({ /** The resolver instance of the application being debugged. This property will be injected on creation. @property resolver @default null @public */ resolver: null, /** Returns true if it is possible to catalog a list of available classes in the resolver for a given type. @method canCatalogEntriesByType @param {String} type The type. e.g. "model", "controller", "route". @return {boolean} whether a list is available for this type. @public */ canCatalogEntriesByType: function (type) { if (type === 'model' || type === 'template') { return false; } return true; }, /** Returns the available classes a given type. @method catalogEntriesByType @param {String} type The type. e.g. "model", "controller", "route". @return {Array} An array of strings. @public */ catalogEntriesByType: function (type) { var namespaces = (0, _emberRuntime.A)(_emberRuntime.Namespace.NAMESPACES); var types = (0, _emberRuntime.A)(); var typeSuffixRegex = new RegExp(_emberRuntime.String.classify(type) + '$'); namespaces.forEach(function (namespace) { var klass; if (namespace !== _emberMetal.default) { for (var key in namespace) { if (!namespace.hasOwnProperty(key)) { continue; } if (typeSuffixRegex.test(key)) { klass = namespace[key]; if ((0, _emberRuntime.typeOf)(klass) === 'class') { types.push(_emberRuntime.String.dasherize(key.replace(typeSuffixRegex, ''))); } } } } }); return types; } }); }); enifed('ember-extension-support/data_adapter', ['exports', 'ember-utils', 'ember-metal', 'ember-runtime'], function (exports, _emberUtils, _emberMetal, _emberRuntime) { 'use strict'; exports.default = _emberRuntime.Object.extend({ init: function () { this._super.apply(this, arguments); this.releaseMethods = (0, _emberRuntime.A)(); }, /** The container-debug-adapter which is used to list all models. @property containerDebugAdapter @default undefined @since 1.5.0 @public **/ containerDebugAdapter: undefined, /** The number of attributes to send as columns. (Enough to make the record identifiable). @private @property attributeLimit @default 3 @since 1.3.0 */ attributeLimit: 3, /** Ember Data > v1.0.0-beta.18 requires string model names to be passed around instead of the actual factories. This is a stamp for the Ember Inspector to differentiate between the versions to be able to support older versions too. @public @property acceptsModelName */ acceptsModelName: true, /** Stores all methods that clear observers. These methods will be called on destruction. @private @property releaseMethods @since 1.3.0 */ releaseMethods: (0, _emberRuntime.A)(), /** Specifies how records can be filtered. Records returned will need to have a `filterValues` property with a key for every name in the returned array. @public @method getFilters @return {Array} List of objects defining filters. The object should have a `name` and `desc` property. */ getFilters: function () { return (0, _emberRuntime.A)(); }, /** Fetch the model types and observe them for changes. @public @method watchModelTypes @param {Function} typesAdded Callback to call to add types. Takes an array of objects containing wrapped types (returned from `wrapModelType`). @param {Function} typesUpdated Callback to call when a type has changed. Takes an array of objects containing wrapped types. @return {Function} Method to call to remove all observers */ watchModelTypes: function (typesAdded, typesUpdated) { var _this = this; var modelTypes = this.getModelTypes(); var releaseMethods = (0, _emberRuntime.A)(); var typesToSend = void 0; typesToSend = modelTypes.map(function (type) { var klass = type.klass; var wrapped = _this.wrapModelType(klass, type.name); releaseMethods.push(_this.observeModelType(type.name, typesUpdated)); return wrapped; }); typesAdded(typesToSend); var release = function () { releaseMethods.forEach(function (fn) { return fn(); }); _this.releaseMethods.removeObject(release); }; this.releaseMethods.pushObject(release); return release; }, _nameToClass: function (type) { var owner, Factory; if (typeof type === 'string') { owner = (0, _emberUtils.getOwner)(this); Factory = owner.factoryFor('model:' + type); type = Factory && Factory.class; } return type; }, /** Fetch the records of a given type and observe them for changes. @public @method watchRecords @param {String} modelName The model name. @param {Function} recordsAdded Callback to call to add records. Takes an array of objects containing wrapped records. The object should have the following properties: columnValues: {Object} The key and value of a table cell. object: {Object} The actual record object. @param {Function} recordsUpdated Callback to call when a record has changed. Takes an array of objects containing wrapped records. @param {Function} recordsRemoved Callback to call when a record has removed. Takes the following parameters: index: The array index where the records were removed. count: The number of records removed. @return {Function} Method to call to remove all observers. */ watchRecords: function (modelName, recordsAdded, recordsUpdated, recordsRemoved) { var _this2 = this; var releaseMethods = (0, _emberRuntime.A)(); var klass = this._nameToClass(modelName); var records = this.getRecords(klass, modelName); var release = void 0; function recordUpdated(updatedRecord) { recordsUpdated([updatedRecord]); } var recordsToSend = records.map(function (record) { releaseMethods.push(_this2.observeRecord(record, recordUpdated)); return _this2.wrapRecord(record); }); var observer = { didChange: function (array, idx, removedCount, addedCount) { var i, record, wrapped; for (i = idx; i < idx + addedCount; i++) { record = (0, _emberRuntime.objectAt)(array, i); wrapped = _this2.wrapRecord(record); releaseMethods.push(_this2.observeRecord(record, recordUpdated)); recordsAdded([wrapped]); } if (removedCount) { recordsRemoved(idx, removedCount); } }, willChange: function () { return this; } }; (0, _emberRuntime.addArrayObserver)(records, this, observer); release = function () { releaseMethods.forEach(function (fn) { return fn(); }); (0, _emberRuntime.removeArrayObserver)(records, _this2, observer); _this2.releaseMethods.removeObject(release); }; recordsAdded(recordsToSend); this.releaseMethods.pushObject(release); return release; }, /** Clear all observers before destruction @private @method willDestroy */ willDestroy: function () { this._super.apply(this, arguments); this.releaseMethods.forEach(function (fn) { return fn(); }); }, /** Detect whether a class is a model. Test that against the model class of your persistence library. @private @method detect @return boolean Whether the class is a model class or not. */ detect: function () { return false; }, /** Get the columns for a given model type. @private @method columnsForType @return {Array} An array of columns of the following format: name: {String} The name of the column. desc: {String} Humanized description (what would show in a table column name). */ columnsForType: function () { return (0, _emberRuntime.A)(); }, /** Adds observers to a model type class. @private @method observeModelType @param {String} modelName The model type name. @param {Function} typesUpdated Called when a type is modified. @return {Function} The function to call to remove observers. */ observeModelType: function (modelName, typesUpdated) { var _this3 = this; var klass = this._nameToClass(modelName); var records = this.getRecords(klass, modelName); function onChange() { typesUpdated([this.wrapModelType(klass, modelName)]); } var observer = { didChange: function (array, idx, removedCount, addedCount) { // Only re-fetch records if the record count changed // (which is all we care about as far as model types are concerned). if (removedCount > 0 || addedCount > 0) { _emberMetal.run.scheduleOnce('actions', this, onChange); } }, willChange: function () { return this; } }; (0, _emberRuntime.addArrayObserver)(records, this, observer); return function () { return (0, _emberRuntime.removeArrayObserver)(records, _this3, observer); }; }, /** Wraps a given model type and observes changes to it. @private @method wrapModelType @param {Class} klass A model class. @param {String} modelName Name of the class. @return {Object} Contains the wrapped type and the function to remove observers Format: type: {Object} The wrapped type. The wrapped type has the following format: name: {String} The name of the type. count: {Integer} The number of records available. columns: {Columns} An array of columns to describe the record. object: {Class} The actual Model type class. release: {Function} The function to remove observers. */ wrapModelType: function (klass, name) { var records = this.getRecords(klass, name); var typeToSend = void 0; typeToSend = { name: name, count: (0, _emberMetal.get)(records, 'length'), columns: this.columnsForType(klass), object: klass }; return typeToSend; }, /** Fetches all models defined in the application. @private @method getModelTypes @return {Array} Array of model types. */ getModelTypes: function () { var _this4 = this; var containerDebugAdapter = this.get('containerDebugAdapter'); var types = void 0; if (containerDebugAdapter.canCatalogEntriesByType('model')) { types = containerDebugAdapter.catalogEntriesByType('model'); } else { types = this._getObjectsOnNamespaces(); } // New adapters return strings instead of classes. types = (0, _emberRuntime.A)(types).map(function (name) { return { klass: _this4._nameToClass(name), name: name }; }); types = (0, _emberRuntime.A)(types).filter(function (type) { return _this4.detect(type.klass); }); return (0, _emberRuntime.A)(types); }, /** Loops over all namespaces and all objects attached to them. @private @method _getObjectsOnNamespaces @return {Array} Array of model type strings. */ _getObjectsOnNamespaces: function () { var _this5 = this; var namespaces = (0, _emberRuntime.A)(_emberRuntime.Namespace.NAMESPACES); var types = (0, _emberRuntime.A)(); namespaces.forEach(function (namespace) { var name; for (var key in namespace) { if (!namespace.hasOwnProperty(key)) { continue; } // Even though we will filter again in `getModelTypes`, // we should not call `lookupFactory` on non-models if (!_this5.detect(namespace[key])) { continue; } name = _emberRuntime.String.dasherize(key); types.push(name); } }); return types; }, /** Fetches all loaded records for a given type. @private @method getRecords @return {Array} An array of records. This array will be observed for changes, so it should update when new records are added/removed. */ getRecords: function () { return (0, _emberRuntime.A)(); }, /** Wraps a record and observers changes to it. @private @method wrapRecord @param {Object} record The record instance. @return {Object} The wrapped record. Format: columnValues: {Array} searchKeywords: {Array} */ wrapRecord: function (record) { var recordToSend = { object: record }; recordToSend.columnValues = this.getRecordColumnValues(record); recordToSend.searchKeywords = this.getRecordKeywords(record); recordToSend.filterValues = this.getRecordFilterValues(record); recordToSend.color = this.getRecordColor(record); return recordToSend; }, /** Gets the values for each column. @private @method getRecordColumnValues @return {Object} Keys should match column names defined by the model type. */ getRecordColumnValues: function () { return {}; }, /** Returns keywords to match when searching records. @private @method getRecordKeywords @return {Array} Relevant keywords for search. */ getRecordKeywords: function () { return (0, _emberRuntime.A)(); }, /** Returns the values of filters defined by `getFilters`. @private @method getRecordFilterValues @param {Object} record The record instance. @return {Object} The filter values. */ getRecordFilterValues: function () { return {}; }, /** Each record can have a color that represents its state. @private @method getRecordColor @param {Object} record The record instance @return {String} The records color. Possible options: black, red, blue, green. */ getRecordColor: function () { return null; }, /** Observes all relevant properties and re-sends the wrapped record when a change occurs. @private @method observerRecord @return {Function} The function to call to remove all observers. */ observeRecord: function () { return function () {}; } }); }); enifed('ember-extension-support/index', ['exports', 'ember-extension-support/data_adapter', 'ember-extension-support/container_debug_adapter'], function (exports, _data_adapter, _container_debug_adapter) { 'use strict'; Object.defineProperty(exports, 'DataAdapter', { enumerable: true, get: function () { return _data_adapter.default; } }); Object.defineProperty(exports, 'ContainerDebugAdapter', { enumerable: true, get: function () { return _container_debug_adapter.default; } }); }); enifed('ember-glimmer/component-managers/abstract', ['exports'], function (exports) { 'use strict'; var AbstractManager = function () { function AbstractManager() { this.debugStack = undefined; } AbstractManager.prototype.prepareArgs = function () { return null; }; AbstractManager.prototype.didCreateElement = function () {} // noop // inheritors should also call `this.debugStack.pop()` to // ensure the rerendering assertion messages are properly // maintained ; AbstractManager.prototype.didRenderLayout = function () { // noop }; AbstractManager.prototype.didCreate = function () { // noop }; AbstractManager.prototype.getTag = function () { return null; }; AbstractManager.prototype.update = function () {} // noop // inheritors should also call `this.debugStack.pop()` to // ensure the rerendering assertion messages are properly // maintained ; AbstractManager.prototype.didUpdateLayout = function () { // noop }; AbstractManager.prototype.didUpdate = function () { // noop }; return AbstractManager; }(); exports.default = AbstractManager; }); enifed('ember-glimmer/component-managers/curly', ['exports', 'ember-babel', '@glimmer/reference', '@glimmer/runtime', 'container', 'ember-debug', 'ember-metal', 'ember-utils', 'ember-views', 'ember-glimmer/component', 'ember-glimmer/utils/bindings', 'ember-glimmer/utils/curly-component-state-bucket', 'ember-glimmer/utils/process-args', 'ember-glimmer/utils/references', 'ember-glimmer/component-managers/abstract'], function (exports, _emberBabel, _reference, _runtime, _container, _emberDebug, _emberMetal, _emberUtils, _emberViews, _component, _bindings, _curlyComponentStateBucket, _processArgs, _references, _abstract) { 'use strict'; exports.CurlyComponentDefinition = exports.PositionalArgumentReference = undefined; exports.validatePositionalParameters = function () {}; exports.processComponentInitializationAssertions = function (component, props) { false && !function () { var classNameBindings = component.classNameBindings, i, binding; for (i = 0; i < classNameBindings.length; i++) { binding = classNameBindings[i]; if (typeof binding !== 'string' || binding.length === 0) { return false; } } return true; }() && (0, _emberDebug.assert)('classNameBindings must be non-empty strings: ' + component, function () { var classNameBindings = component.classNameBindings, i, binding; for (i = 0; i < classNameBindings.length; i++) { binding = classNameBindings[i]; if (typeof binding !== 'string' || binding.length === 0) { return false; } }return true; }()); false && !function () { var classNameBindings = component.classNameBindings, i, binding; for (i = 0; i < classNameBindings.length; i++) { binding = classNameBindings[i]; if (binding.split(' ').length > 1) { return false; } } return true; }() && (0, _emberDebug.assert)('classNameBindings must not have spaces in them: ' + component, function () { var classNameBindings = component.classNameBindings, i, binding; for (i = 0; i < classNameBindings.length; i++) { binding = classNameBindings[i]; if (binding.split(' ').length > 1) { return false; } }return true; }()); false && !(component.tagName !== '' || !component.classNameBindings || component.classNameBindings.length === 0) && (0, _emberDebug.assert)('You cannot use `classNameBindings` on a tag-less component: ' + component, component.tagName !== '' || !component.classNameBindings || component.classNameBindings.length === 0); false && !(component.tagName !== '' || props.id === component.elementId || !component.elementId && component.elementId !== '') && (0, _emberDebug.assert)('You cannot use `elementId` on a tag-less component: ' + component, component.tagName !== '' || props.id === component.elementId || !component.elementId && component.elementId !== ''); false && !(component.tagName !== '' || !component.attributeBindings || component.attributeBindings.length === 0) && (0, _emberDebug.assert)('You cannot use `attributeBindings` on a tag-less component: ' + component, component.tagName !== '' || !component.attributeBindings || component.attributeBindings.length === 0); }; exports.initialRenderInstrumentDetails = initialRenderInstrumentDetails; exports.rerenderInstrumentDetails = rerenderInstrumentDetails; var _templateObject = (0, _emberBabel.taggedTemplateLiteralLoose)(['template:components/-default'], ['template:components/-default']); var DEFAULT_LAYOUT = (0, _container.privatize)(_templateObject); function aliasIdToElementId(args, props) { if (args.named.has('id')) { false && !!args.named.has('elementId') && (0, _emberDebug.assert)('You cannot invoke a component with both \'id\' and \'elementId\' at the same time.', !args.named.has('elementId')); props.elementId = props.id; } } // We must traverse the attributeBindings in reverse keeping track of // what has already been applied. This is essentially refining the concatenated // properties applying right to left. function applyAttributeBindings(element, attributeBindings, component, operations) { var seen = [], binding, parsed, attribute; var i = attributeBindings.length - 1; while (i !== -1) { binding = attributeBindings[i]; parsed = _bindings.AttributeBinding.parse(binding); attribute = parsed[1]; if (seen.indexOf(attribute) === -1) { seen.push(attribute); _bindings.AttributeBinding.install(element, component, parsed, operations); } i--; } if (seen.indexOf('id') === -1) { operations.addStaticAttribute(element, 'id', component.elementId); } if (seen.indexOf('style') === -1) { _bindings.IsVisibleBinding.install(element, component, operations); } } function tagName(vm) { var dynamicScope = vm.dynamicScope(); // tslint:disable-next-line:no-shadowed-variable var tagName = dynamicScope.view.tagName; return _runtime.PrimitiveReference.create(tagName === '' ? null : tagName || 'div'); } function ariaRole(vm) { return vm.getSelf().get('ariaRole'); } var CurlyComponentLayoutCompiler = function () { function CurlyComponentLayoutCompiler(template) { this.template = template; } CurlyComponentLayoutCompiler.prototype.compile = function (builder) { builder.wrapLayout(this.template); builder.tag.dynamic(tagName); builder.attrs.dynamic('role', ariaRole); builder.attrs.static('class', 'ember-view'); }; return CurlyComponentLayoutCompiler; }(); CurlyComponentLayoutCompiler.id = 'curly'; var PositionalArgumentReference = exports.PositionalArgumentReference = function () { function PositionalArgumentReference(references) { this.tag = (0, _reference.combineTagged)(references); this._references = references; } PositionalArgumentReference.prototype.value = function () { return this._references.map(function (reference) { return reference.value(); }); }; PositionalArgumentReference.prototype.get = function (key) { return _references.PropertyReference.create(this, key); }; return PositionalArgumentReference; }(); var CurlyComponentManager = function (_AbstractManager) { (0, _emberBabel.inherits)(CurlyComponentManager, _AbstractManager); function CurlyComponentManager() { return (0, _emberBabel.possibleConstructorReturn)(this, _AbstractManager.apply(this, arguments)); } CurlyComponentManager.prototype.prepareArgs = function (definition, args) { var componentPositionalParamsDefinition = definition.ComponentClass.class.positionalParams, remainingDefinitionPositionals, _positionalParamsToNa, length, i, name; var componentHasRestStylePositionalParams = typeof componentPositionalParamsDefinition === 'string'; var componentHasPositionalParams = componentHasRestStylePositionalParams || componentPositionalParamsDefinition.length > 0; var needsPositionalParamMunging = componentHasPositionalParams && args.positional.length !== 0; var isClosureComponent = definition.args; if (!needsPositionalParamMunging && !isClosureComponent) { return null; } var capturedArgs = args.capture(); // grab raw positional references array var positional = capturedArgs.positional.references; // handle prep for closure component with positional params var curriedNamed = void 0; if (definition.args) { remainingDefinitionPositionals = definition.args.positional.slice(positional.length); positional = positional.concat(remainingDefinitionPositionals); curriedNamed = definition.args.named; } // handle positionalParams var positionalParamsToNamed = void 0; if (componentHasRestStylePositionalParams) { positionalParamsToNamed = (_positionalParamsToNa = {}, _positionalParamsToNa[componentPositionalParamsDefinition] = new PositionalArgumentReference(positional), _positionalParamsToNa); positional = []; } else if (componentHasPositionalParams) { positionalParamsToNamed = {}; length = Math.min(positional.length, componentPositionalParamsDefinition.length); for (i = 0; i < length; i++) { name = componentPositionalParamsDefinition[i]; positionalParamsToNamed[name] = positional[i]; } } var named = (0, _emberUtils.assign)({}, curriedNamed, positionalParamsToNamed, capturedArgs.named.map); return { positional: positional, named: named }; }; CurlyComponentManager.prototype.create = function (environment, definition, args, dynamicScope, callerSelfRef, hasBlock) { var parentView = dynamicScope.view; var factory = definition.ComponentClass; var capturedArgs = args.named.capture(); var props = (0, _processArgs.processComponentArgs)(capturedArgs); aliasIdToElementId(args, props); props.parentView = parentView; props[_component.HAS_BLOCK] = hasBlock; props._targetObject = callerSelfRef.value(); var component = factory.create(props); var finalizer = (0, _emberMetal._instrumentStart)('render.component', initialRenderInstrumentDetails, component); dynamicScope.view = component; if (parentView !== null && parentView !== undefined) { parentView.appendChild(component); } // We usually do this in the `didCreateElement`, but that hook doesn't fire for tagless components if (component.tagName === '') { if (environment.isInteractive) { component.trigger('willRender'); } component._transitionTo('hasElement'); if (environment.isInteractive) { component.trigger('willInsertElement'); } } var bucket = new _curlyComponentStateBucket.default(environment, component, capturedArgs, finalizer); if (args.named.has('class')) { bucket.classRef = args.named.get('class'); } if (environment.isInteractive && component.tagName !== '') { component.trigger('willRender'); } return bucket; }; CurlyComponentManager.prototype.layoutFor = function (definition, bucket, env) { var template = definition.template; if (!template) { template = this.templateFor(bucket.component, env); } return env.getCompiledBlock(CurlyComponentLayoutCompiler, template); }; CurlyComponentManager.prototype.templateFor = function (component, env) { var Template = (0, _emberMetal.get)(component, 'layout'), template; var owner = component[_emberUtils.OWNER]; if (Template) { return env.getTemplate(Template, owner); } var layoutName = (0, _emberMetal.get)(component, 'layoutName'); if (layoutName) { template = owner.lookup('template:' + layoutName); if (template) { return template; } } return owner.lookup(DEFAULT_LAYOUT); }; CurlyComponentManager.prototype.getSelf = function (_ref) { var component = _ref.component; return component[_component.ROOT_REF]; }; CurlyComponentManager.prototype.didCreateElement = function (_ref2, element, operations) { var component = _ref2.component, classRef = _ref2.classRef, environment = _ref2.environment; (0, _emberViews.setViewElement)(component, element); var attributeBindings = component.attributeBindings, classNames = component.classNames, classNameBindings = component.classNameBindings; if (attributeBindings && attributeBindings.length) { applyAttributeBindings(element, attributeBindings, component, operations); } else { operations.addStaticAttribute(element, 'id', component.elementId); _bindings.IsVisibleBinding.install(element, component, operations); } if (classRef) { // TODO should make addDynamicAttribute accept an opaque operations.addDynamicAttribute(element, 'class', classRef, false); } if (classNames && classNames.length) { classNames.forEach(function (name) { operations.addStaticAttribute(element, 'class', name); }); } if (classNameBindings && classNameBindings.length) { classNameBindings.forEach(function (binding) { _bindings.ClassNameBinding.install(element, component, binding, operations); }); } component._transitionTo('hasElement'); if (environment.isInteractive) { component.trigger('willInsertElement'); } }; CurlyComponentManager.prototype.didRenderLayout = function (bucket, bounds) { bucket.component[_component.BOUNDS] = bounds; bucket.finalize(); }; CurlyComponentManager.prototype.getTag = function (_ref3) { var component = _ref3.component; return component[_component.DIRTY_TAG]; }; CurlyComponentManager.prototype.didCreate = function (_ref4) { var component = _ref4.component, environment = _ref4.environment; if (environment.isInteractive) { component._transitionTo('inDOM'); component.trigger('didInsertElement'); component.trigger('didRender'); } }; CurlyComponentManager.prototype.update = function (bucket) { var component = bucket.component, args = bucket.args, argsRevision = bucket.argsRevision, environment = bucket.environment, props; bucket.finalizer = (0, _emberMetal._instrumentStart)('render.component', rerenderInstrumentDetails, component); if (!args.tag.validate(argsRevision)) { props = (0, _processArgs.processComponentArgs)(args); bucket.argsRevision = args.tag.value(); component[_component.IS_DISPATCHING_ATTRS] = true; component.setProperties(props); component[_component.IS_DISPATCHING_ATTRS] = false; component.trigger('didUpdateAttrs'); component.trigger('didReceiveAttrs'); } if (environment.isInteractive) { component.trigger('willUpdate'); component.trigger('willRender'); } }; CurlyComponentManager.prototype.didUpdateLayout = function (bucket) { bucket.finalize(); }; CurlyComponentManager.prototype.didUpdate = function (_ref5) { var component = _ref5.component, environment = _ref5.environment; if (environment.isInteractive) { component.trigger('didUpdate'); component.trigger('didRender'); } }; CurlyComponentManager.prototype.getDestructor = function (stateBucket) { return stateBucket; }; return CurlyComponentManager; }(_abstract.default); exports.default = CurlyComponentManager; function initialRenderInstrumentDetails(component) { return component.instrumentDetails({ initialRender: true }); } function rerenderInstrumentDetails(component) { return component.instrumentDetails({ initialRender: false }); } var MANAGER = new CurlyComponentManager(); exports.CurlyComponentDefinition = function (_ComponentDefinition) { (0, _emberBabel.inherits)(CurlyComponentDefinition, _ComponentDefinition); // tslint:disable-next-line:no-shadowed-variable function CurlyComponentDefinition(name, ComponentClass, template, args, customManager) { var _this2 = (0, _emberBabel.possibleConstructorReturn)(this, _ComponentDefinition.call(this, name, customManager || MANAGER, ComponentClass)); _this2.template = template; _this2.args = args; return _this2; } return CurlyComponentDefinition; }(_runtime.ComponentDefinition); }); enifed('ember-glimmer/component-managers/mount', ['exports', 'ember-babel', '@glimmer/runtime', 'ember-routing', 'ember-glimmer/utils/references', 'ember-glimmer/component-managers/abstract', 'ember-glimmer/component-managers/outlet'], function (exports, _emberBabel, _runtime, _emberRouting, _references, _abstract, _outlet) { 'use strict'; exports.MountDefinition = undefined; var MountManager = function (_AbstractManager) { (0, _emberBabel.inherits)(MountManager, _AbstractManager); function MountManager() { return (0, _emberBabel.possibleConstructorReturn)(this, _AbstractManager.apply(this, arguments)); } MountManager.prototype.create = function (environment, _ref, args) { var name = _ref.name; var engine = environment.owner.buildChildEngineInstance(name); engine.boot(); var bucket = { engine: engine }; bucket.modelReference = args.named.get('model'); return bucket; }; MountManager.prototype.layoutFor = function (_definition, _ref2, env) { var engine = _ref2.engine; var template = engine.lookup('template:application'); return env.getCompiledBlock(_outlet.OutletLayoutCompiler, template); }; MountManager.prototype.getSelf = function (bucket) { var engine = bucket.engine, modelReference = bucket.modelReference; var applicationFactory = engine.factoryFor('controller:application'); var controllerFactory = applicationFactory || (0, _emberRouting.generateControllerFactory)(engine, 'application'); var controller = bucket.controller = controllerFactory.create(); var model = modelReference.value(); bucket.modelRevision = modelReference.tag.value(); controller.set('model', model); return new _references.RootReference(controller); }; MountManager.prototype.getDestructor = function (_ref3) { var engine = _ref3.engine; return engine; }; MountManager.prototype.didRenderLayout = function () {}; MountManager.prototype.update = function (bucket) { var controller = bucket.controller, modelReference = bucket.modelReference, modelRevision = bucket.modelRevision, model; if (!modelReference.tag.validate(modelRevision)) { model = modelReference.value(); bucket.modelRevision = modelReference.tag.value(); controller.set('model', model); } }; return MountManager; }(_abstract.default); var MOUNT_MANAGER = new MountManager(); exports.MountDefinition = function (_ComponentDefinition) { (0, _emberBabel.inherits)(MountDefinition, _ComponentDefinition); function MountDefinition(name) { return (0, _emberBabel.possibleConstructorReturn)(this, _ComponentDefinition.call(this, name, MOUNT_MANAGER, null)); } return MountDefinition; }(_runtime.ComponentDefinition); }); enifed('ember-glimmer/component-managers/outlet', ['exports', 'ember-babel', '@glimmer/runtime', 'ember-metal', 'ember-utils', 'ember-glimmer/utils/references', 'ember-glimmer/component-managers/abstract'], function (exports, _emberBabel, _runtime, _emberMetal, _emberUtils, _references, _abstract) { 'use strict'; exports.OutletLayoutCompiler = exports.OutletComponentDefinition = exports.TopLevelOutletComponentDefinition = undefined; function instrumentationPayload(_ref) { var _ref$render = _ref.render, name = _ref$render.name, outlet = _ref$render.outlet; return { object: name + ':' + outlet }; } function NOOP() {} var StateBucket = function () { function StateBucket(outletState) { this.outletState = outletState; this.instrument(); } StateBucket.prototype.instrument = function () { this.finalizer = (0, _emberMetal._instrumentStart)('render.outlet', instrumentationPayload, this.outletState); }; StateBucket.prototype.finalize = function () { var finalizer = this.finalizer; finalizer(); this.finalizer = NOOP; }; return StateBucket; }(); var OutletComponentManager = function (_AbstractManager) { (0, _emberBabel.inherits)(OutletComponentManager, _AbstractManager); function OutletComponentManager() { return (0, _emberBabel.possibleConstructorReturn)(this, _AbstractManager.apply(this, arguments)); } OutletComponentManager.prototype.create = function (environment, definition, _args, dynamicScope) { var outletStateReference = dynamicScope.outletState = dynamicScope.outletState.get('outlets').get(definition.outletName); var outletState = outletStateReference.value(); return new StateBucket(outletState); }; OutletComponentManager.prototype.layoutFor = function (definition, _bucket, env) { return env.getCompiledBlock(OutletLayoutCompiler, definition.template); }; OutletComponentManager.prototype.getSelf = function (_ref2) { var outletState = _ref2.outletState; return new _references.RootReference(outletState.render.controller); }; OutletComponentManager.prototype.didRenderLayout = function (bucket) { bucket.finalize(); }; OutletComponentManager.prototype.getDestructor = function () { return null; }; return OutletComponentManager; }(_abstract.default); var MANAGER = new OutletComponentManager(); var TopLevelOutletComponentManager = function (_OutletComponentManag) { (0, _emberBabel.inherits)(TopLevelOutletComponentManager, _OutletComponentManag); function TopLevelOutletComponentManager() { return (0, _emberBabel.possibleConstructorReturn)(this, _OutletComponentManag.apply(this, arguments)); } TopLevelOutletComponentManager.prototype.create = function (environment, definition, _args, dynamicScope) { return new StateBucket(dynamicScope.outletState.value()); }; return TopLevelOutletComponentManager; }(OutletComponentManager); var TOP_LEVEL_MANAGER = function () { var WrappedTopLevelOutletLayoutCompiler = function () { function WrappedTopLevelOutletLayoutCompiler(template) { this.template = template; } WrappedTopLevelOutletLayoutCompiler.prototype.compile = function (builder) { builder.wrapLayout(this.template); builder.tag.static('div'); builder.attrs.static('id', (0, _emberUtils.guidFor)(this)); builder.attrs.static('class', 'ember-view'); }; return WrappedTopLevelOutletLayoutCompiler; }(); WrappedTopLevelOutletLayoutCompiler.id = 'wrapped-top-level-outlet'; var WrappedTopLevelOutletComponentManager = function (_TopLevelOutletCompon) { (0, _emberBabel.inherits)(WrappedTopLevelOutletComponentManager, _TopLevelOutletCompon); function WrappedTopLevelOutletComponentManager() { return (0, _emberBabel.possibleConstructorReturn)(this, _TopLevelOutletCompon.apply(this, arguments)); } WrappedTopLevelOutletComponentManager.prototype.layoutFor = function (definition, _bucket, env) { return env.getCompiledBlock(WrappedTopLevelOutletLayoutCompiler, definition.template); }; return WrappedTopLevelOutletComponentManager; }(TopLevelOutletComponentManager); return new WrappedTopLevelOutletComponentManager(); }(); exports.TopLevelOutletComponentDefinition = function (_ComponentDefinition) { (0, _emberBabel.inherits)(TopLevelOutletComponentDefinition, _ComponentDefinition); function TopLevelOutletComponentDefinition(instance) { var _this4 = (0, _emberBabel.possibleConstructorReturn)(this, _ComponentDefinition.call(this, 'outlet', TOP_LEVEL_MANAGER, instance)); _this4.template = instance.template; (0, _emberUtils.generateGuid)(_this4); return _this4; } return TopLevelOutletComponentDefinition; }(_runtime.ComponentDefinition); exports.OutletComponentDefinition = function (_ComponentDefinition2) { (0, _emberBabel.inherits)(OutletComponentDefinition, _ComponentDefinition2); function OutletComponentDefinition(outletName, template) { var _this5 = (0, _emberBabel.possibleConstructorReturn)(this, _ComponentDefinition2.call(this, 'outlet', MANAGER, null)); _this5.outletName = outletName; _this5.template = template; (0, _emberUtils.generateGuid)(_this5); return _this5; } return OutletComponentDefinition; }(_runtime.ComponentDefinition); var OutletLayoutCompiler = exports.OutletLayoutCompiler = function () { function OutletLayoutCompiler(template) { this.template = template; } OutletLayoutCompiler.prototype.compile = function (builder) { builder.wrapLayout(this.template); }; return OutletLayoutCompiler; }(); OutletLayoutCompiler.id = 'outlet'; }); enifed('ember-glimmer/component-managers/render', ['exports', 'ember-babel', '@glimmer/runtime', 'ember-debug', 'ember-routing', 'ember-glimmer/utils/references', 'ember-glimmer/component-managers/abstract', 'ember-glimmer/component-managers/outlet'], function (exports, _emberBabel, _runtime, _emberDebug, _emberRouting, _references, _abstract, _outlet) { 'use strict'; exports.RenderDefinition = exports.NON_SINGLETON_RENDER_MANAGER = exports.SINGLETON_RENDER_MANAGER = exports.AbstractRenderManager = undefined; var AbstractRenderManager = exports.AbstractRenderManager = function (_AbstractManager) { (0, _emberBabel.inherits)(AbstractRenderManager, _AbstractManager); function AbstractRenderManager() { return (0, _emberBabel.possibleConstructorReturn)(this, _AbstractManager.apply(this, arguments)); } AbstractRenderManager.prototype.layoutFor = function (definition, _bucket, env) { // only curly components can have lazy layout false && !!!definition.template && (0, _emberDebug.assert)('definition is missing a template', !!definition.template); return env.getCompiledBlock(_outlet.OutletLayoutCompiler, definition.template); }; AbstractRenderManager.prototype.getSelf = function (_ref) { var controller = _ref.controller; return new _references.RootReference(controller); }; return AbstractRenderManager; }(_abstract.default); var SingletonRenderManager = function (_AbstractRenderManage) { (0, _emberBabel.inherits)(SingletonRenderManager, _AbstractRenderManage); function SingletonRenderManager() { return (0, _emberBabel.possibleConstructorReturn)(this, _AbstractRenderManage.apply(this, arguments)); } SingletonRenderManager.prototype.create = function (env, definition, _args, dynamicScope) { var name = definition.name; var controller = env.owner.lookup('controller:' + name) || (0, _emberRouting.generateController)(env.owner, name); if (dynamicScope.rootOutletState) { dynamicScope.outletState = dynamicScope.rootOutletState.getOrphan(name); } return { controller: controller }; }; SingletonRenderManager.prototype.getDestructor = function () { return null; }; return SingletonRenderManager; }(AbstractRenderManager); exports.SINGLETON_RENDER_MANAGER = new SingletonRenderManager(); var NonSingletonRenderManager = function (_AbstractRenderManage2) { (0, _emberBabel.inherits)(NonSingletonRenderManager, _AbstractRenderManage2); function NonSingletonRenderManager() { return (0, _emberBabel.possibleConstructorReturn)(this, _AbstractRenderManage2.apply(this, arguments)); } NonSingletonRenderManager.prototype.create = function (environment, definition, args, dynamicScope) { var name = definition.name, env = definition.env; var modelRef = args.positional.at(0); var controllerFactory = env.owner.factoryFor('controller:' + name); var factory = controllerFactory || (0, _emberRouting.generateControllerFactory)(env.owner, name); var controller = factory.create({ model: modelRef.value() }); if (dynamicScope.rootOutletState) { dynamicScope.outletState = dynamicScope.rootOutletState.getOrphan(name); } return { controller: controller, model: modelRef }; }; NonSingletonRenderManager.prototype.update = function (_ref2) { var controller = _ref2.controller, model = _ref2.model; controller.set('model', model.value()); }; NonSingletonRenderManager.prototype.getDestructor = function (_ref3) { var controller = _ref3.controller; return controller; }; return NonSingletonRenderManager; }(AbstractRenderManager); exports.NON_SINGLETON_RENDER_MANAGER = new NonSingletonRenderManager(); exports.RenderDefinition = function (_ComponentDefinition) { (0, _emberBabel.inherits)(RenderDefinition, _ComponentDefinition); function RenderDefinition(name, template, env, manager) { var _this4 = (0, _emberBabel.possibleConstructorReturn)(this, _ComponentDefinition.call(this, 'render', manager, null)); _this4.name = name; _this4.template = template; _this4.env = env; return _this4; } return RenderDefinition; }(_runtime.ComponentDefinition); }); enifed('ember-glimmer/component-managers/root', ['exports', 'ember-babel', '@glimmer/runtime', 'ember-metal', 'ember-glimmer/utils/curly-component-state-bucket', 'ember-glimmer/component-managers/curly'], function (exports, _emberBabel, _runtime, _emberMetal, _curlyComponentStateBucket, _curly) { 'use strict'; exports.RootComponentDefinition = undefined; var RootComponentManager = function (_CurlyComponentManage) { (0, _emberBabel.inherits)(RootComponentManager, _CurlyComponentManage); function RootComponentManager() { return (0, _emberBabel.possibleConstructorReturn)(this, _CurlyComponentManage.apply(this, arguments)); } RootComponentManager.prototype.create = function (environment, definition, args, dynamicScope) { var component = definition.ComponentClass.create(); var finalizer = (0, _emberMetal._instrumentStart)('render.component', _curly.initialRenderInstrumentDetails, component); dynamicScope.view = component; // We usually do this in the `didCreateElement`, but that hook doesn't fire for tagless components if (component.tagName === '') { if (environment.isInteractive) { component.trigger('willRender'); } component._transitionTo('hasElement'); if (environment.isInteractive) { component.trigger('willInsertElement'); } } return new _curlyComponentStateBucket.default(environment, component, args.named.capture(), finalizer); }; return RootComponentManager; }(_curly.default); var ROOT_MANAGER = new RootComponentManager(); exports.RootComponentDefinition = function (_ComponentDefinition) { (0, _emberBabel.inherits)(RootComponentDefinition, _ComponentDefinition); function RootComponentDefinition(instance) { var _this2 = (0, _emberBabel.possibleConstructorReturn)(this, _ComponentDefinition.call(this, '-root', ROOT_MANAGER, { class: instance.constructor, create: function () { return instance; } })); _this2.template = undefined; _this2.args = undefined; return _this2; } return RootComponentDefinition; }(_runtime.ComponentDefinition); }); enifed('ember-glimmer/component-managers/template-only', ['exports', 'ember-babel', '@glimmer/runtime', 'ember-glimmer/component-managers/abstract'], function (exports, _emberBabel, _runtime, _abstract) { 'use strict'; exports.TemplateOnlyComponentDefinition = undefined; var TemplateOnlyComponentLayoutCompiler = function () { function TemplateOnlyComponentLayoutCompiler(template) { this.template = template; } TemplateOnlyComponentLayoutCompiler.prototype.compile = function (builder) { // TODO: use fromLayout builder.wrapLayout(this.template); }; return TemplateOnlyComponentLayoutCompiler; }(); TemplateOnlyComponentLayoutCompiler.id = 'template-only'; var TemplateOnlyComponentManager = function (_AbstractManager) { (0, _emberBabel.inherits)(TemplateOnlyComponentManager, _AbstractManager); function TemplateOnlyComponentManager() { return (0, _emberBabel.possibleConstructorReturn)(this, _AbstractManager.apply(this, arguments)); } TemplateOnlyComponentManager.prototype.create = function () { return null; }; TemplateOnlyComponentManager.prototype.layoutFor = function (_ref, _, env) { var template = _ref.template; return env.getCompiledBlock(TemplateOnlyComponentLayoutCompiler, template); }; TemplateOnlyComponentManager.prototype.getSelf = function () { return _runtime.NULL_REFERENCE; }; TemplateOnlyComponentManager.prototype.getDestructor = function () { return null; }; return TemplateOnlyComponentManager; }(_abstract.default); exports.default = TemplateOnlyComponentManager; var MANAGER = new TemplateOnlyComponentManager(); exports.TemplateOnlyComponentDefinition = function (_ComponentDefinition) { (0, _emberBabel.inherits)(TemplateOnlyComponentDefinition, _ComponentDefinition); function TemplateOnlyComponentDefinition(name, template) { var _this2 = (0, _emberBabel.possibleConstructorReturn)(this, _ComponentDefinition.call(this, name, MANAGER, null)); _this2.template = template; return _this2; } return TemplateOnlyComponentDefinition; }(_runtime.ComponentDefinition); }); enifed('ember-glimmer/component', ['exports', '@glimmer/reference', '@glimmer/runtime', 'ember-debug', 'ember-metal', 'ember-runtime', 'ember-utils', 'ember-views', 'ember-glimmer/utils/references'], function (exports, _reference, _runtime, _emberDebug, _emberMetal, _emberRuntime, _emberUtils, _emberViews, _references) { 'use strict'; exports.BOUNDS = exports.HAS_BLOCK = exports.IS_DISPATCHING_ATTRS = exports.ROOT_REF = exports.ARGS = exports.DIRTY_TAG = undefined; var _CoreView$extend; var DIRTY_TAG = exports.DIRTY_TAG = (0, _emberUtils.symbol)('DIRTY_TAG'); var ARGS = exports.ARGS = (0, _emberUtils.symbol)('ARGS'); var ROOT_REF = exports.ROOT_REF = (0, _emberUtils.symbol)('ROOT_REF'); var IS_DISPATCHING_ATTRS = exports.IS_DISPATCHING_ATTRS = (0, _emberUtils.symbol)('IS_DISPATCHING_ATTRS'); exports.HAS_BLOCK = (0, _emberUtils.symbol)('HAS_BLOCK'); var BOUNDS = exports.BOUNDS = (0, _emberUtils.symbol)('BOUNDS'); /** @module @ember/component */ /** A `Component` is a view that is completely isolated. Properties accessed in its templates go to the view object and actions are targeted at the view object. There is no access to the surrounding context or outer controller; all contextual information must be passed in. The easiest way to create a `Component` is via a template. If you name a template `app/components/my-foo.hbs`, you will be able to use `{{my-foo}}` in other templates, which will make an instance of the isolated component. ```app/components/my-foo.hbs {{person-profile person=currentUser}} ``` ```app/components/person-profile.hbs

{{person.title}}

{{person.signature}}

``` You can use `yield` inside a template to include the **contents** of any block attached to the component. The block will be executed in the context of the surrounding context or outer controller: ```handlebars {{#person-profile person=currentUser}}

Admin mode

{{! Executed in the controller's context. }} {{/person-profile}} ``` ```app/components/person-profile.hbs

{{person.title}}

{{! Executed in the component's context. }} {{yield}} {{! block contents }} ``` If you want to customize the component, in order to handle events or actions, you implement a subclass of `Component` named after the name of the component. For example, you could implement the action `hello` for the `person-profile` component: ```app/components/person-profile.js import Component from '@ember/component'; export default Component.extend({ actions: { hello(name) { console.log("Hello", name); } } }); ``` And then use it in the component's template: ```app/templates/components/person-profile.hbs

{{person.title}}

{{yield}} ``` Components must have a `-` in their name to avoid conflicts with built-in controls that wrap HTML elements. This is consistent with the same requirement in web components. ## HTML Tag The default HTML tag name used for a component's DOM representation is `div`. This can be customized by setting the `tagName` property. The following component class: ```app/components/emphasized-paragraph.js import Component from '@ember/component'; export default Component.extend({ tagName: 'em' }); ``` Would result in instances with the following HTML: ```html ``` ## HTML `class` Attribute The HTML `class` attribute of a component's tag can be set by providing a `classNames` property that is set to an array of strings: ```app/components/my-widget.js import Component from '@ember/component'; export default Component.extend({ classNames: ['my-class', 'my-other-class'] }); ``` Will result in component instances with an HTML representation of: ```html
``` `class` attribute values can also be set by providing a `classNameBindings` property set to an array of properties names for the component. The return value of these properties will be added as part of the value for the components's `class` attribute. These properties can be computed properties: ```app/components/my-widget.js import Component from '@ember/component'; import { computed } from '@ember/object'; export default Component.extend({ classNameBindings: ['propertyA', 'propertyB'], propertyA: 'from-a', propertyB: computed(function() { if (someLogic) { return 'from-b'; } }) }); ``` Will result in component instances with an HTML representation of: ```html
``` If the value of a class name binding returns a boolean the property name itself will be used as the class name if the property is true. The class name will not be added if the value is `false` or `undefined`. ```app/components/my-widget.js import Component from '@ember/component'; export default Component.extend({ classNameBindings: ['hovered'], hovered: true }); ``` Will result in component instances with an HTML representation of: ```html
``` When using boolean class name bindings you can supply a string value other than the property name for use as the `class` HTML attribute by appending the preferred value after a ":" character when defining the binding: ```app/components/my-widget.js import Component from '@ember/component'; export default Component.extend({ classNameBindings: ['awesome:so-very-cool'], awesome: true }); ``` Will result in component instances with an HTML representation of: ```html
``` Boolean value class name bindings whose property names are in a camelCase-style format will be converted to a dasherized format: ```app/components/my-widget.js import Component from '@ember/component'; export default Component.extend({ classNameBindings: ['isUrgent'], isUrgent: true }); ``` Will result in component instances with an HTML representation of: ```html
``` Class name bindings can also refer to object values that are found by traversing a path relative to the component itself: ```app/components/my-widget.js import Component from '@ember/component'; import EmberObject from '@ember/object'; export default Component.extend({ classNameBindings: ['messages.empty'], messages: EmberObject.create({ empty: true }) }); ``` Will result in component instances with an HTML representation of: ```html
``` If you want to add a class name for a property which evaluates to true and and a different class name if it evaluates to false, you can pass a binding like this: ```app/components/my-widget.js import Component from '@ember/component'; export default Component.extend({ classNameBindings: ['isEnabled:enabled:disabled'], isEnabled: true }); ``` Will result in component instances with an HTML representation of: ```html
``` When isEnabled is `false`, the resulting HTML representation looks like this: ```html
``` This syntax offers the convenience to add a class if a property is `false`: ```app/components/my-widget.js import Component from '@ember/component'; // Applies no class when isEnabled is true and class 'disabled' when isEnabled is false export default Component.extend({ classNameBindings: ['isEnabled::disabled'], isEnabled: true }); ``` Will result in component instances with an HTML representation of: ```html
``` When the `isEnabled` property on the component is set to `false`, it will result in component instances with an HTML representation of: ```html
``` Updates to the value of a class name binding will result in automatic update of the HTML `class` attribute in the component's rendered HTML representation. If the value becomes `false` or `undefined` the class name will be removed. Both `classNames` and `classNameBindings` are concatenated properties. See [EmberObject](/api/classes/Ember.Object.html) documentation for more information about concatenated properties. ## HTML Attributes The HTML attribute section of a component's tag can be set by providing an `attributeBindings` property set to an array of property names on the component. The return value of these properties will be used as the value of the component's HTML associated attribute: ```app/components/my-anchor.js import Component from '@ember/component'; export default Component.extend({ tagName: 'a', attributeBindings: ['href'], href: 'http://google.com' }); ``` Will result in component instances with an HTML representation of: ```html ``` One property can be mapped on to another by placing a ":" between the source property and the destination property: ```app/components/my-anchor.js import Component from '@ember/component'; export default Component.extend({ tagName: 'a', attributeBindings: ['url:href'], url: 'http://google.com' }); ``` Will result in component instances with an HTML representation of: ```html ``` Namespaced attributes (e.g. `xlink:href`) are supported, but have to be mapped, since `:` is not a valid character for properties in Javascript: ```app/components/my-use.js import Component from '@ember/component'; export default Component.extend({ tagName: 'use', attributeBindings: ['xlinkHref:xlink:href'], xlinkHref: '#triangle' }); ``` Will result in component instances with an HTML representation of: ```html ``` If the return value of an `attributeBindings` monitored property is a boolean the attribute will be present or absent depending on the value: ```app/components/my-text-input.js import Component from '@ember/component'; export default Component.extend({ tagName: 'input', attributeBindings: ['disabled'], disabled: false }); ``` Will result in a component instance with an HTML representation of: ```html ``` `attributeBindings` can refer to computed properties: ```app/components/my-text-input.js import Component from '@ember/component'; import { computed } from '@ember/object'; export default Component.extend({ tagName: 'input', attributeBindings: ['disabled'], disabled: computed(function() { if (someLogic) { return true; } else { return false; } }) }); ``` To prevent setting an attribute altogether, use `null` or `undefined` as the return value of the `attributeBindings` monitored property: ```app/components/my-text-input.js import Component from '@ember/component'; export default Component.extend({ tagName: 'form', attributeBindings: ['novalidate'], novalidate: null }); ``` Updates to the property of an attribute binding will result in automatic update of the HTML attribute in the component's rendered HTML representation. `attributeBindings` is a concatenated property. See [EmberObject](/api/classes/Ember.Object.html) documentation for more information about concatenated properties. ## Layouts See [Ember.Templates.helpers.yield](/api/classes/Ember.Templates.helpers.html#method_yield) for more information. Layout can be used to wrap content in a component. In addition to wrapping content in a Component's template, you can also use the public layout API in your Component JavaScript. ```app/templates/components/person-profile.hbs

Person's Title

{{yield}}
``` ```app/components/person-profile.js import Component from '@ember/component'; import layout from '../templates/components/person-profile'; export default Component.extend({ layout }); ``` The above will result in the following HTML output: ```html

Person's Title

Chief Basket Weaver

Fisherman Industries

``` ## Responding to Browser Events Components can respond to user-initiated events in one of three ways: method implementation, through an event manager, and through `{{action}}` helper use in their template or layout. ### Method Implementation Components can respond to user-initiated events by implementing a method that matches the event name. A `jQuery.Event` object will be passed as the argument to this method. ```app/components/my-widget.js import Component from '@ember/component'; export default Component.extend({ click(event) { // will be called when an instance's // rendered element is clicked } }); ``` ### `{{action}}` Helper See [Ember.Templates.helpers.action](/api/classes/Ember.Templates.helpers.html#method_action). ### Event Names All of the event handling approaches described above respond to the same set of events. The names of the built-in events are listed below. (The hash of built-in events exists in `Ember.EventDispatcher`.) Additional, custom events can be registered by using `Ember.Application.customEvents`. Touch events: * `touchStart` * `touchMove` * `touchEnd` * `touchCancel` Keyboard events: * `keyDown` * `keyUp` * `keyPress` Mouse events: * `mouseDown` * `mouseUp` * `contextMenu` * `click` * `doubleClick` * `mouseMove` * `focusIn` * `focusOut` * `mouseEnter` * `mouseLeave` Form events: * `submit` * `change` * `focusIn` * `focusOut` * `input` HTML5 drag and drop events: * `dragStart` * `drag` * `dragEnter` * `dragLeave` * `dragOver` * `dragEnd` * `drop` @class Component @extends Ember.CoreView @uses Ember.TargetActionSupport @uses Ember.ClassNamesSupport @uses Ember.ActionSupport @uses Ember.ViewMixin @uses Ember.ViewStateSupport @public */ var Component = _emberViews.CoreView.extend(_emberViews.ChildViewsSupport, _emberViews.ViewStateSupport, _emberViews.ClassNamesSupport, _emberRuntime.TargetActionSupport, _emberViews.ActionSupport, _emberViews.ViewMixin, (_CoreView$extend = { isComponent: true, init: function () { var _this = this; this._super.apply(this, arguments); this[IS_DISPATCHING_ATTRS] = false; this[DIRTY_TAG] = new _reference.DirtyableTag(); this[ROOT_REF] = new _references.RootReference(this); this[BOUNDS] = null; // If in a tagless component, assert that no event handlers are defined false && !(this.tagName !== '' || !this.renderer._destinedForDOM || !function () { var eventDispatcher = (0, _emberUtils.getOwner)(_this).lookup('event_dispatcher:main'), methodName; var events = eventDispatcher && eventDispatcher._finalEvents || {}; // tslint:disable-next-line:forin for (var key in events) { methodName = events[key]; if (typeof _this[methodName] === 'function') { return true; // indicate that the assertion should be triggered } } return false; }()) && (0, _emberDebug.assert)('You can not define a function that handles DOM events in the `' + this + '` tagless component since it doesn\'t have any DOM element.', this.tagName !== '' || !this.renderer._destinedForDOM || !function () { var eventDispatcher = (0, _emberUtils.getOwner)(_this).lookup('event_dispatcher:main'), methodName;var events = eventDispatcher && eventDispatcher._finalEvents || {};for (var key in events) { methodName = events[key]; if (typeof _this[methodName] === 'function') { return true; } }return false; }()); }, rerender: function () { this[DIRTY_TAG].dirty(); this._super(); }, __defineNonEnumerable: function (property) { this[property.name] = property.descriptor.value; } }, _CoreView$extend[_emberMetal.PROPERTY_DID_CHANGE] = function (key) { if (this[IS_DISPATCHING_ATTRS]) { return; } var args = this[ARGS]; var reference = args && args[key]; if (reference) { if (reference[_references.UPDATE]) { reference[_references.UPDATE]((0, _emberMetal.get)(this, key)); } } }, _CoreView$extend.getAttr = function (key) { // TODO Intimate API should be deprecated return this.get(key); }, _CoreView$extend.readDOMAttr = function (name) { var element = (0, _emberViews.getViewElement)(this); return (0, _runtime.readDOMAttr)(element, name); }, _CoreView$extend)); Component[_emberUtils.NAME_KEY] = 'Ember.Component'; Component.reopenClass({ isComponentFactory: true, positionalParams: [] }); exports.default = Component; }); enifed('ember-glimmer/components/checkbox', ['exports', 'ember-metal', 'ember-glimmer/component', 'ember-glimmer/templates/empty'], function (exports, _emberMetal, _component, _empty) { 'use strict'; exports.default = _component.default.extend({ layout: _empty.default, classNames: ['ember-checkbox'], tagName: 'input', attributeBindings: ['type', 'checked', 'indeterminate', 'disabled', 'tabindex', 'name', 'autofocus', 'required', 'form'], type: 'checkbox', disabled: false, indeterminate: false, didInsertElement: function () { this._super.apply(this, arguments); (0, _emberMetal.get)(this, 'element').indeterminate = !!(0, _emberMetal.get)(this, 'indeterminate'); }, change: function () { (0, _emberMetal.set)(this, 'checked', this.$().prop('checked')); } }); }); enifed('ember-glimmer/components/link-to', ['exports', 'ember-debug', 'ember-metal', 'ember-runtime', 'ember-views', 'ember-glimmer/component', 'ember-glimmer/templates/link-to'], function (exports, _emberDebug, _emberMetal, _emberRuntime, _emberViews, _component, _linkTo) { 'use strict'; /** @module @ember/routing */ /** `LinkComponent` renders an element whose `click` event triggers a transition of the application's instance of `Router` to a supplied route by name. `LinkComponent` components are invoked with {{#link-to}}. Properties of this class can be overridden with `reopen` to customize application-wide behavior. @class LinkComponent @extends Component @see {Ember.Templates.helpers.link-to} @public **/ var LinkComponent = _component.default.extend({ layout: _linkTo.default, tagName: 'a', /** Used to determine when this `LinkComponent` is active. @property current-when @public */ 'current-when': null, /** Sets the `title` attribute of the `LinkComponent`'s HTML element. @property title @default null @public **/ title: null, /** Sets the `rel` attribute of the `LinkComponent`'s HTML element. @property rel @default null @public **/ rel: null, /** Sets the `tabindex` attribute of the `LinkComponent`'s HTML element. @property tabindex @default null @public **/ tabindex: null, /** Sets the `target` attribute of the `LinkComponent`'s HTML element. @since 1.8.0 @property target @default null @public **/ target: null, /** The CSS class to apply to `LinkComponent`'s element when its `active` property is `true`. @property activeClass @type String @default active @public **/ activeClass: 'active', /** The CSS class to apply to `LinkComponent`'s element when its `loading` property is `true`. @property loadingClass @type String @default loading @private **/ loadingClass: 'loading', /** The CSS class to apply to a `LinkComponent`'s element when its `disabled` property is `true`. @property disabledClass @type String @default disabled @private **/ disabledClass: 'disabled', /** Determines whether the `LinkComponent` will trigger routing via the `replaceWith` routing strategy. @property replace @type Boolean @default false @public **/ replace: false, /** By default the `{{link-to}}` component will bind to the `href` and `title` attributes. It's discouraged that you override these defaults, however you can push onto the array if needed. @property attributeBindings @type Array | String @default ['title', 'rel', 'tabindex', 'target'] @public */ attributeBindings: ['href', 'title', 'rel', 'tabindex', 'target'], /** By default the `{{link-to}}` component will bind to the `active`, `loading`, and `disabled` classes. It is discouraged to override these directly. @property classNameBindings @type Array @default ['active', 'loading', 'disabled', 'ember-transitioning-in', 'ember-transitioning-out'] @public */ classNameBindings: ['active', 'loading', 'disabled', 'transitioningIn', 'transitioningOut'], /** By default the `{{link-to}}` component responds to the `click` event. You can override this globally by setting this property to your custom event name. This is particularly useful on mobile when one wants to avoid the 300ms click delay using some sort of custom `tap` event. @property eventName @type String @default click @private */ eventName: 'click', init: function () { this._super.apply(this, arguments); // Map desired event name to invoke function var eventName = (0, _emberMetal.get)(this, 'eventName'); this.on(eventName, this, this._invoke); }, _routing: _emberRuntime.inject.service('-routing'), /** Accessed as a classname binding to apply the `LinkComponent`'s `disabledClass` CSS `class` to the element when the link is disabled. When `true` interactions with the element will not trigger route changes. @property disabled @private */ disabled: (0, _emberMetal.computed)({ get: function () { // always returns false for `get` because (due to the `set` just below) // the cached return value from the set will prevent this getter from _ever_ // being called after a set has occured return false; }, set: function (_key, value) { this._isDisabled = value; return value ? (0, _emberMetal.get)(this, 'disabledClass') : false; } }), _isActive: function (routerState) { if ((0, _emberMetal.get)(this, 'loading')) { return false; } var currentWhen = (0, _emberMetal.get)(this, 'current-when'), i; if (typeof currentWhen === 'boolean') { return currentWhen; } var isCurrentWhenSpecified = !!currentWhen; currentWhen = currentWhen || (0, _emberMetal.get)(this, 'qualifiedRouteName'); currentWhen = currentWhen.split(' '); var routing = (0, _emberMetal.get)(this, '_routing'); var models = (0, _emberMetal.get)(this, 'models'); var resolvedQueryParams = (0, _emberMetal.get)(this, 'resolvedQueryParams'); for (i = 0; i < currentWhen.length; i++) { if (routing.isActiveForRoute(models, resolvedQueryParams, currentWhen[i], routerState, isCurrentWhenSpecified)) { return true; } } return false; }, /** Accessed as a classname binding to apply the `LinkComponent`'s `activeClass` CSS `class` to the element when the link is active. A `LinkComponent` is considered active when its `currentWhen` property is `true` or the application's current route is the route the `LinkComponent` would trigger transitions into. The `currentWhen` property can match against multiple routes by separating route names using the ` ` (space) character. @property active @private */ active: (0, _emberMetal.computed)('activeClass', '_active', function () { return this.get('_active') ? (0, _emberMetal.get)(this, 'activeClass') : false; }), _active: (0, _emberMetal.computed)('_routing.currentState', function () { var currentState = (0, _emberMetal.get)(this, '_routing.currentState'); if (!currentState) { return false; } return this._isActive(currentState); }), willBeActive: (0, _emberMetal.computed)('_routing.targetState', function () { var routing = (0, _emberMetal.get)(this, '_routing'); var targetState = (0, _emberMetal.get)(routing, 'targetState'); if ((0, _emberMetal.get)(routing, 'currentState') === targetState) { return; } return this._isActive(targetState); }), transitioningIn: (0, _emberMetal.computed)('active', 'willBeActive', function () { if ((0, _emberMetal.get)(this, 'willBeActive') === true && !(0, _emberMetal.get)(this, '_active')) { return 'ember-transitioning-in'; } else { return false; } }), transitioningOut: (0, _emberMetal.computed)('active', 'willBeActive', function () { if ((0, _emberMetal.get)(this, 'willBeActive') === false && (0, _emberMetal.get)(this, '_active')) { return 'ember-transitioning-out'; } else { return false; } }), _invoke: function (event) { if (!(0, _emberViews.isSimpleClick)(event)) { return true; } var preventDefault = (0, _emberMetal.get)(this, 'preventDefault'); var targetAttribute = (0, _emberMetal.get)(this, 'target'); if (preventDefault !== false) { if (!targetAttribute || targetAttribute === '_self') { event.preventDefault(); } } if ((0, _emberMetal.get)(this, 'bubbles') === false) { event.stopPropagation(); } if (this._isDisabled) { return false; } if ((0, _emberMetal.get)(this, 'loading')) { false && (0, _emberDebug.warn)('This link-to is in an inactive loading state because at least one of its parameters presently has a null/undefined value, or the provided route name is invalid.', false); return false; } if (targetAttribute && targetAttribute !== '_self') { return false; } var qualifiedRouteName = (0, _emberMetal.get)(this, 'qualifiedRouteName'); var models = (0, _emberMetal.get)(this, 'models'); var queryParams = (0, _emberMetal.get)(this, 'queryParams.values'); var shouldReplace = (0, _emberMetal.get)(this, 'replace'); var payload = { queryParams: queryParams, routeName: qualifiedRouteName }; // tslint:disable-next-line:max-line-length (0, _emberMetal.flaggedInstrument)('interaction.link-to', payload, this._generateTransition(payload, qualifiedRouteName, models, queryParams, shouldReplace)); return false; }, _generateTransition: function (payload, qualifiedRouteName, models, queryParams, shouldReplace) { var routing = (0, _emberMetal.get)(this, '_routing'); return function () { payload.transition = routing.transitionTo(qualifiedRouteName, models, queryParams, shouldReplace); }; }, queryParams: null, qualifiedRouteName: (0, _emberMetal.computed)('targetRouteName', '_routing.currentState', function () { var params = (0, _emberMetal.get)(this, 'params'); var paramsLength = params.length; var lastParam = params[paramsLength - 1]; if (lastParam && lastParam.isQueryParams) { paramsLength--; } var onlyQueryParamsSupplied = this[_component.HAS_BLOCK] ? paramsLength === 0 : paramsLength === 1; if (onlyQueryParamsSupplied) { return (0, _emberMetal.get)(this, '_routing.currentRouteName'); } return (0, _emberMetal.get)(this, 'targetRouteName'); }), resolvedQueryParams: (0, _emberMetal.computed)('queryParams', function () { var resolvedQueryParams = {}; var queryParams = (0, _emberMetal.get)(this, 'queryParams'); if (!queryParams) { return resolvedQueryParams; } var values = queryParams.values; for (var key in values) { if (!values.hasOwnProperty(key)) { continue; } resolvedQueryParams[key] = values[key]; } return resolvedQueryParams; }), /** Sets the element's `href` attribute to the url for the `LinkComponent`'s targeted route. If the `LinkComponent`'s `tagName` is changed to a value other than `a`, this property will be ignored. @property href @private */ href: (0, _emberMetal.computed)('models', 'qualifiedRouteName', function () { if ((0, _emberMetal.get)(this, 'tagName') !== 'a') { return; } var qualifiedRouteName = (0, _emberMetal.get)(this, 'qualifiedRouteName'); var models = (0, _emberMetal.get)(this, 'models'); if ((0, _emberMetal.get)(this, 'loading')) { return (0, _emberMetal.get)(this, 'loadingHref'); } var routing = (0, _emberMetal.get)(this, '_routing'); var queryParams = (0, _emberMetal.get)(this, 'queryParams.values'); return routing.generateURL(qualifiedRouteName, models, queryParams); }), loading: (0, _emberMetal.computed)('_modelsAreLoaded', 'qualifiedRouteName', function () { var qualifiedRouteName = (0, _emberMetal.get)(this, 'qualifiedRouteName'); var modelsAreLoaded = (0, _emberMetal.get)(this, '_modelsAreLoaded'); if (!modelsAreLoaded || qualifiedRouteName === null || qualifiedRouteName === undefined) { return (0, _emberMetal.get)(this, 'loadingClass'); } }), _modelsAreLoaded: (0, _emberMetal.computed)('models', function () { var models = (0, _emberMetal.get)(this, 'models'), i, model; for (i = 0; i < models.length; i++) { model = models[i]; if (model === null || model === undefined) { return false; } } return true; }), _getModels: function (params) { var modelCount = params.length - 1, i, value; var models = new Array(modelCount); for (i = 0; i < modelCount; i++) { value = params[i + 1]; models[i] = value; } return models; }, /** The default href value to use while a link-to is loading. Only applies when tagName is 'a' @property loadingHref @type String @default # @private */ loadingHref: '#', didReceiveAttrs: function () { var queryParams = void 0; var params = (0, _emberMetal.get)(this, 'params'); if (params) { // Do not mutate params in place params = params.slice(); } false && !(params && params.length) && (0, _emberDebug.assert)('You must provide one or more parameters to the link-to component.', params && params.length); var disabledWhen = (0, _emberMetal.get)(this, 'disabledWhen'); if (disabledWhen !== undefined) { this.set('disabled', disabledWhen); } // Process the positional arguments, in order. // 1. Inline link title comes first, if present. if (!this[_component.HAS_BLOCK]) { this.set('linkTitle', params.shift()); } // 2. `targetRouteName` is now always at index 0. this.set('targetRouteName', params[0]); // 3. The last argument (if still remaining) is the `queryParams` object. var lastParam = params[params.length - 1]; if (lastParam && lastParam.isQueryParams) { queryParams = params.pop(); } else { queryParams = { values: {} }; } this.set('queryParams', queryParams); // 4. Any remaining indices (excepting `targetRouteName` at 0) are `models`. if (params.length > 1) { this.set('models', this._getModels(params)); } else { this.set('models', []); } } }); /** @module ember */ /** The `{{link-to}}` component renders a link to the supplied `routeName` passing an optionally supplied model to the route as its `model` context of the route. The block for `{{link-to}}` becomes the innerHTML of the rendered element: ```handlebars {{#link-to 'photoGallery'}} Great Hamster Photos {{/link-to}} ``` You can also use an inline form of `{{link-to}}` component by passing the link text as the first argument to the component: ```handlebars {{link-to 'Great Hamster Photos' 'photoGallery'}} ``` Both will result in: ```html Great Hamster Photos ``` ### Supplying a tagName By default `{{link-to}}` renders an `` element. This can be overridden for a single use of `{{link-to}}` by supplying a `tagName` option: ```handlebars {{#link-to 'photoGallery' tagName="li"}} Great Hamster Photos {{/link-to}} ``` ```html
  • Great Hamster Photos
  • ``` To override this option for your entire application, see "Overriding Application-wide Defaults". ### Disabling the `link-to` component By default `{{link-to}}` is enabled. any passed value to the `disabled` component property will disable the `link-to` component. static use: the `disabled` option: ```handlebars {{#link-to 'photoGallery' disabled=true}} Great Hamster Photos {{/link-to}} ``` dynamic use: the `disabledWhen` option: ```handlebars {{#link-to 'photoGallery' disabledWhen=controller.someProperty}} Great Hamster Photos {{/link-to}} ``` any truthy value passed to `disabled` will disable it except `undefined`. See "Overriding Application-wide Defaults" for more. ### Handling `href` `{{link-to}}` will use your application's Router to fill the element's `href` property with a url that matches the path to the supplied `routeName` for your router's configured `Location` scheme, which defaults to HashLocation. ### Handling current route `{{link-to}}` will apply a CSS class name of 'active' when the application's current route matches the supplied routeName. For example, if the application's current route is 'photoGallery.recent' the following use of `{{link-to}}`: ```handlebars {{#link-to 'photoGallery.recent'}} Great Hamster Photos {{/link-to}} ``` will result in ```html
    Great Hamster Photos ``` The CSS class name used for active classes can be customized for a single use of `{{link-to}}` by passing an `activeClass` option: ```handlebars {{#link-to 'photoGallery.recent' activeClass="current-url"}} Great Hamster Photos {{/link-to}} ``` ```html Great Hamster Photos ``` To override this option for your entire application, see "Overriding Application-wide Defaults". ### Keeping a link active for other routes If you need a link to be 'active' even when it doesn't match the current route, you can use the `current-when` argument. ```handlebars {{#link-to 'photoGallery' current-when='photos'}} Photo Gallery {{/link-to}} ``` This may be helpful for keeping links active for: * non-nested routes that are logically related * some secondary menu approaches * 'top navigation' with 'sub navigation' scenarios A link will be active if `current-when` is `true` or the current route is the route this link would transition to. To match multiple routes 'space-separate' the routes: ```handlebars {{#link-to 'gallery' current-when='photos drawings paintings'}} Art Gallery {{/link-to}} ``` ### Supplying a model An optional model argument can be used for routes whose paths contain dynamic segments. This argument will become the model context of the linked route: ```javascript Router.map(function() { this.route("photoGallery", {path: "hamster-photos/:photo_id"}); }); ``` ```handlebars {{#link-to 'photoGallery' aPhoto}} {{aPhoto.title}} {{/link-to}} ``` ```html Tomster ``` ### Supplying multiple models For deep-linking to route paths that contain multiple dynamic segments, multiple model arguments can be used. As the router transitions through the route path, each supplied model argument will become the context for the route with the dynamic segments: ```javascript Router.map(function() { this.route("photoGallery", { path: "hamster-photos/:photo_id" }, function() { this.route("comment", {path: "comments/:comment_id"}); }); }); ``` This argument will become the model context of the linked route: ```handlebars {{#link-to 'photoGallery.comment' aPhoto comment}} {{comment.body}} {{/link-to}} ``` ```html A+++ would snuggle again. ``` ### Supplying an explicit dynamic segment value If you don't have a model object available to pass to `{{link-to}}`, an optional string or integer argument can be passed for routes whose paths contain dynamic segments. This argument will become the value of the dynamic segment: ```javascript Router.map(function() { this.route("photoGallery", { path: "hamster-photos/:photo_id" }); }); ``` ```handlebars {{#link-to 'photoGallery' aPhotoId}} {{aPhoto.title}} {{/link-to}} ``` ```html Tomster ``` When transitioning into the linked route, the `model` hook will be triggered with parameters including this passed identifier. ### Allowing Default Action By default the `{{link-to}}` component prevents the default browser action by calling `preventDefault()` as this sort of action bubbling is normally handled internally and we do not want to take the browser to a new URL (for example). If you need to override this behavior specify `preventDefault=false` in your template: ```handlebars {{#link-to 'photoGallery' aPhotoId preventDefault=false}} {{aPhotoId.title}} {{/link-to}} ``` ### Overriding attributes You can override any given property of the `LinkComponent` that is generated by the `{{link-to}}` component by passing key/value pairs, like so: ```handlebars {{#link-to aPhoto tagName='li' title='Following this link will change your life' classNames='pic sweet'}} Uh-mazing! {{/link-to}} ``` See [LinkComponent](/api/classes/Ember.LinkComponent.html) for a complete list of overrideable properties. Be sure to also check out inherited properties of `LinkComponent`. ### Overriding Application-wide Defaults ``{{link-to}}`` creates an instance of `LinkComponent` for rendering. To override options for your entire application, export your customized `LinkComponent` from `app/components/link-to.js` with the desired overrides: ```javascript // app/components/link-to.js import LinkComponent from '@ember/routing/link-component'; export default LinkComponent.extend({ activeClass: "is-active", tagName: 'li' }) ``` It is also possible to override the default event in this manner: ```javascript import LinkCompoennt from '@ember/routing/link-component'; export default LinkComponent.extend({ eventName: 'customEventName' }); ``` @method link-to @for Ember.Templates.helpers @param {String} routeName @param {Object} [context]* @param [options] {Object} Handlebars key/value pairs of options, you can override any property of Ember.LinkComponent @return {String} HTML string @see {LinkComponent} @public */ LinkComponent.toString = function () { return 'LinkComponent'; }; LinkComponent.reopenClass({ positionalParams: 'params' }); exports.default = LinkComponent; }); enifed('ember-glimmer/components/text_area', ['exports', 'ember-views', 'ember-glimmer/component', 'ember-glimmer/templates/empty'], function (exports, _emberViews, _component, _empty) { 'use strict'; exports.default = _component.default.extend(_emberViews.TextSupport, { classNames: ['ember-text-area'], layout: _empty.default, tagName: 'textarea', attributeBindings: ['rows', 'cols', 'name', 'selectionEnd', 'selectionStart', 'wrap', 'lang', 'dir', 'value'], rows: null, cols: null }); }); enifed('ember-glimmer/components/text_field', ['exports', 'ember-environment', 'ember-metal', 'ember-views', 'ember-glimmer/component', 'ember-glimmer/templates/empty'], function (exports, _emberEnvironment, _emberMetal, _emberViews, _component, _empty) { 'use strict'; var inputTypes = Object.create(null); /** @module @ember/component */ function canSetTypeOfInput(type) { if (type in inputTypes) { return inputTypes[type]; } // if running in outside of a browser always return the // original type if (!_emberEnvironment.environment.hasDOM) { inputTypes[type] = type; return type; } var inputTypeTestElement = document.createElement('input'); try { inputTypeTestElement.type = type; } catch (e) { // ignored } return inputTypes[type] = inputTypeTestElement.type === type; } /** The internal class used to create text inputs when the `{{input}}` helper is used with `type` of `text`. See [Ember.Templates.helpers.input](/api/classes/Ember.Templates.helpers.html#method_input) for usage details. ## Layout and LayoutName properties Because HTML `input` elements are self closing `layout` and `layoutName` properties will not be applied. @class TextField @extends Component @uses Ember.TextSupport @public */ exports.default = _component.default.extend(_emberViews.TextSupport, { layout: _empty.default, classNames: ['ember-text-field'], tagName: 'input', attributeBindings: ['accept', 'autocomplete', 'autosave', 'dir', 'formaction', 'formenctype', 'formmethod', 'formnovalidate', 'formtarget', 'height', 'inputmode', 'lang', 'list', 'type', 'max', 'min', 'multiple', 'name', 'pattern', 'size', 'step', 'value', 'width'], /** The `value` attribute of the input element. As the user inputs text, this property is updated live. @property value @type String @default "" @public */ value: '', /** The `type` attribute of the input element. @property type @type String @default "text" @public */ type: (0, _emberMetal.computed)({ get: function () { return 'text'; }, set: function (_key, value) { var type = 'text'; if (canSetTypeOfInput(value)) { type = value; } return type; } }), /** The `size` of the text field in characters. @property size @type String @default null @public */ size: null, /** The `pattern` attribute of input element. @property pattern @type String @default null @public */ pattern: null, /** The `min` attribute of input element used with `type="number"` or `type="range"`. @property min @type String @default null @since 1.4.0 @public */ min: null, /** The `max` attribute of input element used with `type="number"` or `type="range"`. @property max @type String @default null @since 1.4.0 @public */ max: null }); }); enifed('ember-glimmer/dom', ['exports', '@glimmer/runtime', '@glimmer/node'], function (exports, _runtime, _node) { 'use strict'; Object.defineProperty(exports, 'DOMChanges', { enumerable: true, get: function () { return _runtime.DOMChanges; } }); Object.defineProperty(exports, 'DOMTreeConstruction', { enumerable: true, get: function () { return _runtime.DOMTreeConstruction; } }); Object.defineProperty(exports, 'NodeDOMTreeConstruction', { enumerable: true, get: function () { return _node.NodeDOMTreeConstruction; } }); }); enifed('ember-glimmer/environment', ['exports', 'ember-babel', '@glimmer/runtime', 'ember-debug', 'ember-metal', 'ember-utils', 'ember-views', 'ember-glimmer/component-managers/curly', 'ember-glimmer/component-managers/template-only', 'ember-glimmer/syntax', 'ember-glimmer/utils/debug-stack', 'ember-glimmer/utils/iterable', 'ember-glimmer/utils/references', 'ember-glimmer/helpers/-class', 'ember-glimmer/helpers/-html-safe', 'ember-glimmer/helpers/-input-type', 'ember-glimmer/helpers/-normalize-class', 'ember-glimmer/helpers/action', 'ember-glimmer/helpers/component', 'ember-glimmer/helpers/concat', 'ember-glimmer/helpers/each-in', 'ember-glimmer/helpers/get', 'ember-glimmer/helpers/hash', 'ember-glimmer/helpers/if-unless', 'ember-glimmer/helpers/log', 'ember-glimmer/helpers/mut', 'ember-glimmer/helpers/query-param', 'ember-glimmer/helpers/readonly', 'ember-glimmer/helpers/unbound', 'ember-glimmer/modifiers/action', 'ember-glimmer/protocol-for-url'], function (exports, _emberBabel, _runtime, _emberDebug, _emberMetal, _emberUtils, _emberViews, _curly, _templateOnly, _syntax, _debugStack, _iterable, _references, _class, _htmlSafe, _inputType, _normalizeClass, _action, _component, _concat, _eachIn, _get, _hash, _ifUnless, _log, _mut, _queryParam, _readonly, _unbound, _action2, _protocolForUrl) { 'use strict'; function instrumentationPayload(name) { return { object: 'component:' + name }; } function isTemplateFactory(template) { return typeof template.create === 'function'; } var Environment = function (_GlimmerEnvironment) { (0, _emberBabel.inherits)(Environment, _GlimmerEnvironment); Environment.create = function (options) { return new this(options); }; function Environment(injections) { var _this = (0, _emberBabel.possibleConstructorReturn)(this, _GlimmerEnvironment.call(this, injections)); _this.owner = injections[_emberUtils.OWNER]; _this.isInteractive = _this.owner.lookup('-environment:main').isInteractive; // can be removed once https://github.com/tildeio/glimmer/pull/305 lands _this.destroyedComponents = []; (0, _protocolForUrl.default)(_this); _this._definitionCache = new _emberMetal.Cache(2000, function (_ref) { var name = _ref.name, source = _ref.source, owner = _ref.owner; var _lookupComponent = (0, _emberViews.lookupComponent)(owner, name, { source: source }), componentFactory = _lookupComponent.component, layout = _lookupComponent.layout; if (componentFactory || layout) { return new _curly.CurlyComponentDefinition(name, componentFactory, layout, undefined, void 0); } return undefined; }, function (_ref2) { var name = _ref2.name, source = _ref2.source, owner = _ref2.owner; var expandedName = source && _this._resolveLocalLookupName(name, source, owner) || name; var ownerGuid = (0, _emberUtils.guidFor)(owner); return ownerGuid + '|' + expandedName; }); _this._templateCache = new _emberMetal.Cache(1000, function (_ref3) { var Template = _ref3.Template, owner = _ref3.owner, _Template$create; if (isTemplateFactory(Template)) { // we received a factory return Template.create((_Template$create = { env: _this }, _Template$create[_emberUtils.OWNER] = owner, _Template$create)); } else { // we were provided an instance already return Template; } }, function (_ref4) { var Template = _ref4.Template, owner = _ref4.owner; return (0, _emberUtils.guidFor)(owner) + '|' + Template.id; }); _this._compilerCache = new _emberMetal.Cache(10, function (Compiler) { return new _emberMetal.Cache(2000, function (template) { var compilable = new Compiler(template); return (0, _runtime.compileLayout)(compilable, _this); }, function (template) { var owner = template.meta.owner; return (0, _emberUtils.guidFor)(owner) + '|' + template.id; }); }, function (Compiler) { return Compiler.id; }); _this.builtInModifiers = { action: new _action2.default() }; _this.builtInHelpers = { 'if': _ifUnless.inlineIf, action: _action.default, concat: _concat.default, get: _get.default, hash: _hash.default, log: _log.default, mut: _mut.default, 'query-params': _queryParam.default, readonly: _readonly.default, unbound: _unbound.default, 'unless': _ifUnless.inlineUnless, '-class': _class.default, '-each-in': _eachIn.default, '-input-type': _inputType.default, '-normalize-class': _normalizeClass.default, '-html-safe': _htmlSafe.default, '-get-dynamic-var': _runtime.getDynamicVar }; return _this; } // this gets clobbered by installPlatformSpecificProtocolForURL // it really should just delegate to a platform specific injection Environment.prototype.protocolForURL = function (s) { return s; }; Environment.prototype._resolveLocalLookupName = function (name, source, owner) { return owner._resolveLocalLookupName(name, source); }; Environment.prototype.macros = function () { var macros = _GlimmerEnvironment.prototype.macros.call(this); (0, _syntax.populateMacros)(macros.blocks, macros.inlines); return macros; }; Environment.prototype.hasComponentDefinition = function () { return false; }; Environment.prototype.getComponentDefinition = function (name, _ref5) { var owner = _ref5.owner, moduleName = _ref5.moduleName; var finalizer = (0, _emberMetal._instrumentStart)('render.getComponentDefinition', instrumentationPayload, name); var definition = this._definitionCache.get({ name: name, source: moduleName && 'template:' + moduleName, owner: owner }); finalizer(); // TODO the glimmer-vm wants this to always have a def // but internally we need it to sometimes be undefined return definition; }; Environment.prototype.getTemplate = function (Template, owner) { return this._templateCache.get({ Template: Template, owner: owner }); }; Environment.prototype.getCompiledBlock = function (Compiler, template) { var compilerCache = this._compilerCache.get(Compiler); return compilerCache.get(template); }; Environment.prototype.hasPartial = function (name, meta) { return (0, _emberViews.hasPartial)(name, meta.owner); }; Environment.prototype.lookupPartial = function (name, meta) { var partial = { name: name, template: (0, _emberViews.lookupPartial)(name, meta.owner) }; if (partial.template) { return partial; } else { throw new Error(name + ' is not a partial'); } }; Environment.prototype.hasHelper = function (name, _ref6) { var owner = _ref6.owner, moduleName = _ref6.moduleName; if (name === 'component' || this.builtInHelpers[name]) { return true; } return owner.hasRegistration('helper:' + name, { source: 'template:' + moduleName }) || owner.hasRegistration('helper:' + name); }; Environment.prototype.lookupHelper = function (name, meta) { if (name === 'component') { return function (vm, args) { return (0, _component.default)(vm, args, meta); }; } var owner = meta.owner, moduleName = meta.moduleName; var helper = this.builtInHelpers[name]; if (helper) { return helper; } var helperFactory = owner.factoryFor('helper:' + name, moduleName && { source: 'template:' + moduleName } || {}) || owner.factoryFor('helper:' + name); // TODO: try to unify this into a consistent protocol to avoid wasteful closure allocations var HelperReference = void 0; if (helperFactory.class.isSimpleHelperFactory) { HelperReference = _references.SimpleHelperReference; } else if (helperFactory.class.isHelperFactory) { HelperReference = _references.ClassBasedHelperReference; } else { throw new Error(name + ' is not a helper'); } return function (vm, args) { return HelperReference.create(helperFactory, vm, args.capture()); }; }; Environment.prototype.hasModifier = function (name) { return !!this.builtInModifiers[name]; }; Environment.prototype.lookupModifier = function (name) { var modifier = this.builtInModifiers[name]; if (modifier) { return modifier; } else { throw new Error(name + ' is not a modifier'); } }; Environment.prototype.toConditionalReference = function (reference) { return _references.ConditionalReference.create(reference); }; Environment.prototype.iterableFor = function (ref, key) { return (0, _iterable.default)(ref, key); }; Environment.prototype.scheduleInstallModifier = function (modifier, manager) { if (this.isInteractive) { _GlimmerEnvironment.prototype.scheduleInstallModifier.call(this, modifier, manager); } }; Environment.prototype.scheduleUpdateModifier = function (modifier, manager) { if (this.isInteractive) { _GlimmerEnvironment.prototype.scheduleUpdateModifier.call(this, modifier, manager); } }; Environment.prototype.didDestroy = function (destroyable) { destroyable.destroy(); }; Environment.prototype.begin = function () { this.inTransaction = true; _GlimmerEnvironment.prototype.begin.call(this); }; Environment.prototype.commit = function () { var destroyedComponents = this.destroyedComponents, i; this.destroyedComponents = []; // components queued for destruction must be destroyed before firing // `didCreate` to prevent errors when removing and adding a component // with the same name (would throw an error when added to view registry) for (i = 0; i < destroyedComponents.length; i++) { destroyedComponents[i].destroy(); } _GlimmerEnvironment.prototype.commit.call(this); this.inTransaction = false; }; return Environment; }(_runtime.Environment); exports.default = Environment; }); enifed('ember-glimmer/helper', ['exports', '@glimmer/reference', 'ember-runtime', 'ember-utils'], function (exports, _reference, _emberRuntime, _emberUtils) { 'use strict'; exports.SimpleHelper = exports.RECOMPUTE_TAG = undefined; exports.helper = /** In many cases, the ceremony of a full `Helper` class is not required. The `helper` method create pure-function helpers without instances. For example: ```app/helpers/format-currency.js import { helper } from '@ember/component/helper'; export default helper(function(params, hash) { let cents = params[0]; let currency = hash.currency; return `${currency}${cents * 0.01}`; }); ``` @static @param {Function} helper The helper function @method helper @for @ember/component/helper @public @since 1.13.0 */ function (helperFn) { return new SimpleHelper(helperFn); }; var RECOMPUTE_TAG = exports.RECOMPUTE_TAG = (0, _emberUtils.symbol)('RECOMPUTE_TAG'); /** Ember Helpers are functions that can compute values, and are used in templates. For example, this code calls a helper named `format-currency`: ```handlebars
    {{format-currency cents currency="$"}}
    ``` Additionally a helper can be called as a nested helper (sometimes called a subexpression). In this example, the computed value of a helper is passed to a component named `show-money`: ```handlebars {{show-money amount=(format-currency cents currency="$")}} ``` Helpers defined using a class must provide a `compute` function. For example: ```app/helpers/format-currency.js import Helper from '@ember/component/helper'; export default Helper.extend({ compute(params, hash) { let cents = params[0]; let currency = hash.currency; return `${currency}${cents * 0.01}`; } }); ``` Each time the input to a helper changes, the `compute` function will be called again. As instances, these helpers also have access to the container an will accept injected dependencies. Additionally, class helpers can call `recompute` to force a new computation. @class Helper @public @since 1.13.0 */ /** @module @ember/component */ var Helper = _emberRuntime.FrameworkObject.extend({ isHelperInstance: true, init: function () { this._super.apply(this, arguments); this[RECOMPUTE_TAG] = new _reference.DirtyableTag(); }, recompute: function () { this[RECOMPUTE_TAG].dirty(); } }); Helper.reopenClass({ isHelperFactory: true }); var SimpleHelper = exports.SimpleHelper = function () { function SimpleHelper(compute) { this.compute = compute; this.isHelperFactory = true; this.isHelperInstance = true; this.isSimpleHelperFactory = true; } SimpleHelper.prototype.create = function () { return this; }; return SimpleHelper; }(); exports.default = Helper; }); enifed('ember-glimmer/helpers/-class', ['exports', 'ember-runtime', 'ember-glimmer/utils/references'], function (exports, _emberRuntime, _references) { 'use strict'; exports.default = function (_vm, args) { return new _references.InternalHelperReference(classHelper, args.capture()); }; function classHelper(_ref) { var positional = _ref.positional; var path = positional.at(0); var args = positional.length; var value = path.value(); if (value === true) { if (args > 1) { return _emberRuntime.String.dasherize(positional.at(1).value()); } return null; } if (value === false) { if (args > 2) { return _emberRuntime.String.dasherize(positional.at(2).value()); } return null; } return value; } }); enifed('ember-glimmer/helpers/-html-safe', ['exports', 'ember-glimmer/utils/references', 'ember-glimmer/utils/string'], function (exports, _references, _string) { 'use strict'; exports.default = function (_vm, args) { return new _references.InternalHelperReference(htmlSafe, args.capture()); }; function htmlSafe(_ref) { var positional = _ref.positional; var path = positional.at(0); return new _string.SafeString(path.value()); } }); enifed('ember-glimmer/helpers/-input-type', ['exports', 'ember-glimmer/utils/references'], function (exports, _references) { 'use strict'; exports.default = function (_vm, args) { return new _references.InternalHelperReference(inputTypeHelper, args.capture()); }; function inputTypeHelper(_ref) { var positional = _ref.positional; var type = positional.at(0).value(); if (type === 'checkbox') { return '-checkbox'; } return '-text-field'; } }); enifed('ember-glimmer/helpers/-normalize-class', ['exports', 'ember-runtime', 'ember-glimmer/utils/references'], function (exports, _emberRuntime, _references) { 'use strict'; exports.default = function (_vm, args) { return new _references.InternalHelperReference(normalizeClass, args.capture()); }; function normalizeClass(_ref) { var positional = _ref.positional; var classNameParts = positional.at(0).value().split('.'); var className = classNameParts[classNameParts.length - 1]; var value = positional.at(1).value(); if (value === true) { return _emberRuntime.String.dasherize(className); } else if (!value && value !== 0) { return ''; } else { return String(value); } } }); enifed('ember-glimmer/helpers/action', ['exports', '@glimmer/reference', 'ember-debug', 'ember-metal', 'ember-utils', 'ember-glimmer/utils/references'], function (exports, _reference, _emberDebug, _emberMetal, _emberUtils, _references) { 'use strict'; exports.ACTION = exports.INVOKE = undefined; exports.default = function (_vm, args) { var named = args.named, positional = args.positional; var capturedArgs = positional.capture(); // The first two argument slots are reserved. // pos[0] is the context (or `this`) // pos[1] is the action name or function // Anything else is an action argument. var _capturedArgs$referen = capturedArgs.references, context = _capturedArgs$referen[0], action = _capturedArgs$referen[1], restArgs = _capturedArgs$referen.slice(2); // TODO: Is there a better way of doing this? var debugKey = action._propertyKey; var target = named.has('target') ? named.get('target') : context; var processArgs = makeArgsProcessor(named.has('value') && named.get('value'), restArgs); var fn = void 0; if (typeof action[INVOKE] === 'function') { fn = makeClosureAction(action, action, action[INVOKE], processArgs, debugKey); } else if ((0, _reference.isConst)(target) && (0, _reference.isConst)(action)) { fn = makeClosureAction(context.value(), target.value(), action.value(), processArgs, debugKey); } else { fn = makeDynamicClosureAction(context.value(), target, action, processArgs, debugKey); } fn[ACTION] = true; return new _references.UnboundReference(fn); }; var INVOKE = exports.INVOKE = (0, _emberUtils.symbol)('INVOKE'); /** @module ember */ var ACTION = exports.ACTION = (0, _emberUtils.symbol)('ACTION'); /** The `{{action}}` helper provides a way to pass triggers for behavior (usually just a function) between components, and into components from controllers. ### Passing functions with the action helper There are three contexts an action helper can be used in. The first two contexts to discuss are attribute context, and Handlebars value context. ```handlebars {{! An example of attribute context }}
    {{! Examples of Handlebars value context }} {{input on-input=(action "save")}} {{yield (action "refreshData") andAnotherParam}} ``` In these contexts, the helper is called a "closure action" helper. Its behavior is simple: If passed a function name, read that function off the `actions` property of the current context. Once that function is read (or if a function was passed), create a closure over that function and any arguments. The resulting value of an action helper used this way is simply a function. For example, in the attribute context: ```handlebars {{! An example of attribute context }}
    ``` The resulting template render logic would be: ```js var div = document.createElement('div'); var actionFunction = (function(context){ return function() { return context.actions.save.apply(context, arguments); }; })(context); div.onclick = actionFunction; ``` Thus when the div is clicked, the action on that context is called. Because the `actionFunction` is just a function, closure actions can be passed between components and still execute in the correct context. Here is an example action handler on a component: ```app/components/my-component.js import Component from '@ember/component'; export default Component.extend({ actions: { save() { this.get('model').save(); } } }); ``` Actions are always looked up on the `actions` property of the current context. This avoids collisions in the naming of common actions, such as `destroy`. Two options can be passed to the `action` helper when it is used in this way. * `target=someProperty` will look to `someProperty` instead of the current context for the `actions` hash. This can be useful when targeting a service for actions. * `value="target.value"` will read the path `target.value` off the first argument to the action when it is called and rewrite the first argument to be that value. This is useful when attaching actions to event listeners. ### Invoking an action Closure actions curry both their scope and any arguments. When invoked, any additional arguments are added to the already curried list. Actions should be invoked using the [sendAction](/api/classes/Ember.Component.html#method_sendAction) method. The first argument to `sendAction` is the action to be called, and additional arguments are passed to the action function. This has interesting properties combined with currying of arguments. For example: ```app/components/my-component.js import Component from '@ember/component'; export default Component.extend({ actions: { // Usage {{input on-input=(action (action 'setName' model) value="target.value")}} setName(model, name) { model.set('name', name); } } }); ``` The first argument (`model`) was curried over, and the run-time argument (`event`) becomes a second argument. Action calls can be nested this way because each simply returns a function. Any function can be passed to the `{{action}}` helper, including other actions. Actions invoked with `sendAction` have the same currying behavior as demonstrated with `on-input` above. For example: ```app/components/my-input.js import Component from '@ember/component'; export default Component.extend({ actions: { setName(model, name) { model.set('name', name); } } }); ``` ```handlebars {{my-input submit=(action 'setName' model)}} ``` ```app/components/my-component.js import Component from '@ember/component'; export default Component.extend({ click() { // Note that model is not passed, it was curried in the template this.sendAction('submit', 'bob'); } }); ``` ### Attaching actions to DOM elements The third context of the `{{action}}` helper can be called "element space". For example: ```handlebars {{! An example of element space }}
    ``` Used this way, the `{{action}}` helper provides a useful shortcut for registering an HTML element in a template for a single DOM event and forwarding that interaction to the template's context (controller or component). If the context of a template is a controller, actions used this way will bubble to routes when the controller does not implement the specified action. Once an action hits a route, it will bubble through the route hierarchy. ### Event Propagation `{{action}}` helpers called in element space can control event bubbling. Note that the closure style actions cannot. Events triggered through the action helper will automatically have `.preventDefault()` called on them. You do not need to do so in your event handlers. If you need to allow event propagation (to handle file inputs for example) you can supply the `preventDefault=false` option to the `{{action}}` helper: ```handlebars
    ``` To disable bubbling, pass `bubbles=false` to the helper: ```handlebars ``` To disable bubbling with closure style actions you must create your own wrapper helper that makes use of `event.stopPropagation()`: ```handlebars
    Hello
    ``` ```app/helpers/disable-bubbling.js import { helper } from '@ember/component/helper'; export function disableBubbling([action]) { return function(event) { event.stopPropagation(); return action(event); }; } export default helper(disableBubbling); ``` If you need the default handler to trigger you should either register your own event handler, or use event methods on your view class. See ["Responding to Browser Events"](/api/classes/Ember.Component#responding-to-browser-events) in the documentation for `Component` for more information. ### Specifying DOM event type `{{action}}` helpers called in element space can specify an event type. By default the `{{action}}` helper registers for DOM `click` events. You can supply an `on` option to the helper to specify a different DOM event name: ```handlebars
    click me
    ``` See ["Event Names"](/api/classes/Ember.Component#event-names) for a list of acceptable DOM event names. ### Specifying whitelisted modifier keys `{{action}}` helpers called in element space can specify modifier keys. By default the `{{action}}` helper will ignore click events with pressed modifier keys. You can supply an `allowedKeys` option to specify which keys should not be ignored. ```handlebars
    click me
    ``` This way the action will fire when clicking with the alt key pressed down. Alternatively, supply "any" to the `allowedKeys` option to accept any combination of modifier keys. ```handlebars
    click me with any key pressed
    ``` ### Specifying a Target A `target` option can be provided to the helper to change which object will receive the method call. This option must be a path to an object, accessible in the current context: ```app/templates/application.hbs
    click me
    ``` ```app/controllers/application.js import Controller from '@ember/controller'; import { inject as service } from '@ember/service'; export default Controller.extend({ someService: service() }); ``` @method action @for Ember.Templates.helpers @public */ function NOOP(args) { return args; } function makeArgsProcessor(valuePathRef, actionArgsRef) { var mergeArgs = void 0; if (actionArgsRef.length > 0) { mergeArgs = function (args) { return actionArgsRef.map(function (ref) { return ref.value(); }).concat(args); }; } var readValue = void 0; if (valuePathRef) { readValue = function (args) { var valuePath = valuePathRef.value(); if (valuePath && args.length > 0) { args[0] = (0, _emberMetal.get)(args[0], valuePath); } return args; }; } if (mergeArgs && readValue) { return function (args) { return readValue(mergeArgs(args)); }; } else { return mergeArgs || readValue || NOOP; } } function makeDynamicClosureAction(context, targetRef, actionRef, processArgs, debugKey) { return function () { return makeClosureAction(context, targetRef.value(), actionRef.value(), processArgs, debugKey).apply(undefined, arguments); }; } function makeClosureAction(context, target, action, processArgs, debugKey) { var self = void 0, typeofAction; var fn = void 0; false && !!(0, _emberMetal.isNone)(action) && (0, _emberDebug.assert)('Action passed is null or undefined in (action) from ' + target + '.', !(0, _emberMetal.isNone)(action)); if (typeof action[INVOKE] === 'function') { self = action; fn = action[INVOKE]; } else { typeofAction = typeof action; if (typeofAction === 'string') { self = target; fn = target.actions && target.actions[action]; false && !fn && (0, _emberDebug.assert)('An action named \'' + action + '\' was not found in ' + target, fn); } else if (typeofAction === 'function') { self = context; fn = action; } else { false && !false && (0, _emberDebug.assert)('An action could not be made for `' + (debugKey || action) + '` in ' + target + '. Please confirm that you are using either a quoted action name (i.e. `(action \'' + (debugKey || 'myAction') + '\')`) or a function available in ' + target + '.', false); } } return function () { for (_len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } var payload = { target: self, args: args, label: '@glimmer/closure-action' }, _len, args, _key; return (0, _emberMetal.flaggedInstrument)('interaction.ember-action', payload, function () { return _emberMetal.run.join.apply(_emberMetal.run, [self, fn].concat(processArgs(args))); }); }; } }); enifed('ember-glimmer/helpers/component', ['exports', 'ember-babel', '@glimmer/runtime', 'ember-debug', 'ember-utils', 'ember-glimmer/component-managers/curly', 'ember-glimmer/utils/references'], function (exports, _emberBabel, _runtime, _emberDebug, _emberUtils, _curly, _references) { 'use strict'; exports.ClosureComponentReference = undefined; exports.default = function (vm, args, meta) { return ClosureComponentReference.create(args.capture(), meta, vm.env); }; var ClosureComponentReference = exports.ClosureComponentReference = function (_CachedReference) { (0, _emberBabel.inherits)(ClosureComponentReference, _CachedReference); ClosureComponentReference.create = function (args, meta, env) { return new ClosureComponentReference(args, meta, env); }; function ClosureComponentReference(args, meta, env) { var _this = (0, _emberBabel.possibleConstructorReturn)(this, _CachedReference.call(this)); var firstArg = args.positional.at(0); _this.defRef = firstArg; _this.tag = firstArg.tag; _this.args = args; _this.meta = meta; _this.env = env; _this.lastDefinition = undefined; _this.lastName = undefined; return _this; } ClosureComponentReference.prototype.compute = function () { // TODO: Figure out how to extract this because it's nearly identical to // DynamicComponentReference::compute(). The only differences besides // currying are in the assertion messages. var args = this.args, defRef = this.defRef, env = this.env, meta = this.meta, lastDefinition = this.lastDefinition, lastName = this.lastName; var nameOrDef = defRef.value(); var definition = void 0; if (nameOrDef && nameOrDef === lastName) { return lastDefinition; } this.lastName = nameOrDef; if (typeof nameOrDef === 'string') { // tslint:disable-next-line:max-line-length false && !(nameOrDef !== 'input') && (0, _emberDebug.assert)('You cannot use the input helper as a contextual helper. Please extend TextField or Checkbox to use it as a contextual component.', nameOrDef !== 'input'); // tslint:disable-next-line:max-line-length false && !(nameOrDef !== 'textarea') && (0, _emberDebug.assert)('You cannot use the textarea helper as a contextual helper. Please extend TextArea to use it as a contextual component.', nameOrDef !== 'textarea'); definition = env.getComponentDefinition(nameOrDef, meta); // tslint:disable-next-line:max-line-length false && !!!definition && (0, _emberDebug.assert)('The component helper cannot be used without a valid component name. You used "' + nameOrDef + '" via (component "' + nameOrDef + '")', !!definition); } else if ((0, _runtime.isComponentDefinition)(nameOrDef)) { definition = nameOrDef; } else { false && !nameOrDef && (0, _emberDebug.assert)('You cannot create a component from ' + nameOrDef + ' using the {{component}} helper', nameOrDef); return null; } var newDef = createCurriedDefinition(definition, args); this.lastDefinition = newDef; return newDef; }; return ClosureComponentReference; }(_references.CachedReference); function createCurriedDefinition(definition, args) { var curriedArgs = curryArgs(definition, args); return new _curly.CurlyComponentDefinition(definition.name, definition.ComponentClass, definition.template, curriedArgs); } function curryArgs(definition, newArgs) { var args = definition.args, ComponentClass = definition.ComponentClass, limit, i, name; var positionalParams = ComponentClass.class.positionalParams; // The args being passed in are from the (component ...) invocation, // so the first positional argument is actually the name or component // definition. It needs to be dropped in order for any actual positional // args to coincide with the ComponentClass's positionParams. // For "normal" curly components this slicing is done at the syntax layer, // but we don't have that luxury here. var _newArgs$positional$r = newArgs.positional.references, slicedPositionalArgs = _newArgs$positional$r.slice(1); if (positionalParams && slicedPositionalArgs.length) { (0, _curly.validatePositionalParameters)(newArgs.named, slicedPositionalArgs, positionalParams); } // For non-rest position params, we need to perform the position -> name mapping // at each layer to avoid a collision later when the args are used to construct // the component instance (inside of processArgs(), inside of create()). var positionalToNamedParams = {}; if (!(typeof positionalParams === 'string') && positionalParams.length > 0) { limit = Math.min(positionalParams.length, slicedPositionalArgs.length); for (i = 0; i < limit; i++) { name = positionalParams[i]; positionalToNamedParams[name] = slicedPositionalArgs[i]; } slicedPositionalArgs.length = 0; // Throw them away since you're merged in. } // args (aka 'oldArgs') may be undefined or simply be empty args, so // we need to fall back to an empty array or object. var oldNamed = args && args.named || {}; var oldPositional = args && args.positional || []; // Merge positional arrays var positional = new Array(Math.max(oldPositional.length, slicedPositionalArgs.length)); positional.splice.apply(positional, [0, oldPositional.length].concat(oldPositional)); positional.splice.apply(positional, [0, slicedPositionalArgs.length].concat(slicedPositionalArgs)); // Merge named maps var named = (0, _emberUtils.assign)({}, oldNamed, positionalToNamedParams, newArgs.named.map); return { positional: positional, named: named }; } }); enifed('ember-glimmer/helpers/concat', ['exports', '@glimmer/runtime', 'ember-glimmer/utils/references'], function (exports, _runtime, _references) { 'use strict'; exports.default = function (_vm, args) { return new _references.InternalHelperReference(concat, args.capture()); }; /** @module ember */ /** Concatenates the given arguments into a string. Example: ```handlebars {{some-component name=(concat firstName " " lastName)}} {{! would pass name=" " to the component}} ``` @public @method concat @for Ember.Templates.helpers @since 1.13.0 */ function concat(_ref) { var positional = _ref.positional; return positional.value().map(_runtime.normalizeTextValue).join(''); } }); enifed('ember-glimmer/helpers/each-in', ['exports', 'ember-utils'], function (exports, _emberUtils) { 'use strict'; exports.isEachIn = function (ref) { return ref && ref[EACH_IN_REFERENCE]; }; exports.default = function (_vm, args) { var ref = Object.create(args.positional.at(0)); ref[EACH_IN_REFERENCE] = true; return ref; }; /** The `{{#each}}` helper loops over elements in a collection. It is an extension of the base Handlebars `{{#each}}` helper. The default behavior of `{{#each}}` is to yield its inner block once for every item in an array passing the item as the first block parameter. ```javascript var developers = [{ name: 'Yehuda' },{ name: 'Tom' }, { name: 'Paul' }]; ``` ```handlebars {{#each developers key="name" as |person|}} {{person.name}} {{! `this` is whatever it was outside the #each }} {{/each}} ``` The same rules apply to arrays of primitives. ```javascript var developerNames = ['Yehuda', 'Tom', 'Paul'] ``` ```handlebars {{#each developerNames key="@index" as |name|}} {{name}} {{/each}} ``` During iteration, the index of each item in the array is provided as a second block parameter. ```handlebars
      {{#each people as |person index|}}
    • Hello, {{person.name}}! You're number {{index}} in line
    • {{/each}}
    ``` ### Specifying Keys The `key` option is used to tell Ember how to determine if the array being iterated over with `{{#each}}` has changed between renders. By helping Ember detect that some elements in the array are the same, DOM elements can be re-used, significantly improving rendering speed. For example, here's the `{{#each}}` helper with its `key` set to `id`: ```handlebars {{#each model key="id" as |item|}} {{/each}} ``` When this `{{#each}}` re-renders, Ember will match up the previously rendered items (and reorder the generated DOM elements) based on each item's `id` property. By default the item's own reference is used. ### {{else}} condition `{{#each}}` can have a matching `{{else}}`. The contents of this block will render if the collection is empty. ```handlebars {{#each developers as |person|}} {{person.name}} {{else}}

    Sorry, nobody is available for this task.

    {{/each}} ``` @method each @for Ember.Templates.helpers @public */ /** The `{{each-in}}` helper loops over properties on an object. For example, given a `user` object that looks like: ```javascript { "name": "Shelly Sails", "age": 42 } ``` This template would display all properties on the `user` object in a list: ```handlebars
      {{#each-in user as |key value|}}
    • {{key}}: {{value}}
    • {{/each-in}}
    ``` Outputting their name and age. @method each-in @for Ember.Templates.helpers @public @since 2.1.0 */ var EACH_IN_REFERENCE = (0, _emberUtils.symbol)('EACH_IN'); }); enifed('ember-glimmer/helpers/get', ['exports', 'ember-babel', '@glimmer/reference', '@glimmer/runtime', 'ember-metal', 'ember-glimmer/utils/references'], function (exports, _emberBabel, _reference, _runtime, _emberMetal, _references) { 'use strict'; exports.default = function (_vm, args) { return GetHelperReference.create(args.positional.at(0), args.positional.at(1)); }; var GetHelperReference = function (_CachedReference) { (0, _emberBabel.inherits)(GetHelperReference, _CachedReference); GetHelperReference.create = function (sourceReference, pathReference) { var parts; if ((0, _reference.isConst)(pathReference)) { parts = pathReference.value().split('.'); return (0, _reference.referenceFromParts)(sourceReference, parts); } else { return new GetHelperReference(sourceReference, pathReference); } }; function GetHelperReference(sourceReference, pathReference) { var _this = (0, _emberBabel.possibleConstructorReturn)(this, _CachedReference.call(this)); _this.sourceReference = sourceReference; _this.pathReference = pathReference; _this.lastPath = null; _this.innerReference = _runtime.NULL_REFERENCE; var innerTag = _this.innerTag = _reference.UpdatableTag.create(_reference.CONSTANT_TAG); _this.tag = (0, _reference.combine)([sourceReference.tag, pathReference.tag, innerTag]); return _this; } GetHelperReference.prototype.compute = function () { var lastPath = this.lastPath, innerReference = this.innerReference, innerTag = this.innerTag, pathType; var path = this.lastPath = this.pathReference.value(); if (path !== lastPath) { if (path !== undefined && path !== null && path !== '') { pathType = typeof path; if (pathType === 'string') { innerReference = (0, _reference.referenceFromParts)(this.sourceReference, path.split('.')); } else if (pathType === 'number') { innerReference = this.sourceReference.get('' + path); } innerTag.inner.update(innerReference.tag); } else { innerReference = _runtime.NULL_REFERENCE; innerTag.inner.update(_reference.CONSTANT_TAG); } this.innerReference = innerReference; } return innerReference.value(); }; GetHelperReference.prototype[_references.UPDATE] = function (value) { (0, _emberMetal.set)(this.sourceReference.value(), this.pathReference.value(), value); }; return GetHelperReference; }(_references.CachedReference); }); enifed("ember-glimmer/helpers/hash", ["exports"], function (exports) { "use strict"; exports.default = function (_vm, args) { return args.named.capture(); }; }); enifed('ember-glimmer/helpers/if-unless', ['exports', 'ember-babel', '@glimmer/reference', 'ember-debug', 'ember-glimmer/utils/references'], function (exports, _emberBabel, _reference, _emberDebug, _references) { 'use strict'; exports.inlineIf = /** The `if` helper allows you to conditionally render one of two branches, depending on the "truthiness" of a property. For example the following values are all falsey: `false`, `undefined`, `null`, `""`, `0`, `NaN` or an empty array. This helper has two forms, block and inline. ## Block form You can use the block form of `if` to conditionally render a section of the template. To use it, pass the conditional value to the `if` helper, using the block form to wrap the section of template you want to conditionally render. Like so: ```handlebars {{! will not render if foo is falsey}} {{#if foo}} Welcome to the {{foo.bar}} {{/if}} ``` You can also specify a template to show if the property is falsey by using the `else` helper. ```handlebars {{! is it raining outside?}} {{#if isRaining}} Yes, grab an umbrella! {{else}} No, it's lovely outside! {{/if}} ``` You are also able to combine `else` and `if` helpers to create more complex conditional logic. ```handlebars {{#if isMorning}} Good morning {{else if isAfternoon}} Good afternoon {{else}} Good night {{/if}} ``` ## Inline form The inline `if` helper conditionally renders a single property or string. In this form, the `if` helper receives three arguments, the conditional value, the value to render when truthy, and the value to render when falsey. For example, if `useLongGreeting` is truthy, the following: ```handlebars {{if useLongGreeting "Hello" "Hi"}} Alex ``` Will render: ```html Hello Alex ``` ### Nested `if` You can use the `if` helper inside another helper as a nested helper: ```handlebars {{some-component height=(if isBig "100" "10")}} ``` One detail to keep in mind is that both branches of the `if` helper will be evaluated, so if you have `{{if condition "foo" (expensive-operation "bar")`, `expensive-operation` will always calculate. @method if @for Ember.Templates.helpers @public */ function (_vm, _ref) { var positional = _ref.positional; false && !(positional.length === 3 || positional.length === 2) && (0, _emberDebug.assert)('The inline form of the `if` helper expects two or three arguments, e.g. ' + '`{{if trialExpired "Expired" expiryDate}}`.', positional.length === 3 || positional.length === 2); return ConditionalHelperReference.create(positional.at(0), positional.at(1), positional.at(2)); } /** The inline `unless` helper conditionally renders a single property or string. This helper acts like a ternary operator. If the first property is falsy, the second argument will be displayed, otherwise, the third argument will be displayed ```handlebars {{unless useLongGreeting "Hi" "Hello"}} Ben ``` You can use the `unless` helper inside another helper as a subexpression. ```handlebars {{some-component height=(unless isBig "10" "100")}} ``` @method unless @for Ember.Templates.helpers @public */ ; exports.inlineUnless = function (_vm, _ref2) { var positional = _ref2.positional; false && !(positional.length === 3 || positional.length === 2) && (0, _emberDebug.assert)('The inline form of the `unless` helper expects two or three arguments, e.g. ' + '`{{unless isFirstLogin "Welcome back!"}}`.', positional.length === 3 || positional.length === 2); return ConditionalHelperReference.create(positional.at(0), positional.at(2), positional.at(1)); }; var ConditionalHelperReference = function (_CachedReference) { (0, _emberBabel.inherits)(ConditionalHelperReference, _CachedReference); ConditionalHelperReference.create = function (_condRef, truthyRef, falsyRef) { var condRef = _references.ConditionalReference.create(_condRef); if ((0, _reference.isConst)(condRef)) { return condRef.value() ? truthyRef : falsyRef; } else { return new ConditionalHelperReference(condRef, truthyRef, falsyRef); } }; function ConditionalHelperReference(cond, truthy, falsy) { var _this = (0, _emberBabel.possibleConstructorReturn)(this, _CachedReference.call(this)); _this.branchTag = _reference.UpdatableTag.create(_reference.CONSTANT_TAG); _this.tag = (0, _reference.combine)([cond.tag, _this.branchTag]); _this.cond = cond; _this.truthy = truthy; _this.falsy = falsy; return _this; } ConditionalHelperReference.prototype.compute = function () { var branch = this.cond.value() ? this.truthy : this.falsy; this.branchTag.inner.update(branch.tag); return branch.value(); }; return ConditionalHelperReference; }(_references.CachedReference); }); enifed('ember-glimmer/helpers/loc', ['exports', 'ember-glimmer/helper', 'ember-runtime'], function (exports, _helper, _emberRuntime) { 'use strict'; exports.default = (0, _helper.helper)(function (params) { return _emberRuntime.String.loc.apply(null, params); }); }); enifed('ember-glimmer/helpers/log', ['exports', 'ember-glimmer/utils/references', 'ember-console'], function (exports, _references, _emberConsole) { 'use strict'; exports.default = function (_vm, args) { return new _references.InternalHelperReference(log, args.capture()); }; /** `log` allows you to output the value of variables in the current rendering context. `log` also accepts primitive types such as strings or numbers. ```handlebars {{log "myVariable:" myVariable }} ``` @method log @for Ember.Templates.helpers @param {Array} params @public */ function log(_ref) { var positional = _ref.positional; _emberConsole.default.log.apply(null, positional.value()); } /** @module ember */ }); enifed('ember-glimmer/helpers/mut', ['exports', 'ember-debug', 'ember-utils', 'ember-glimmer/utils/references', 'ember-glimmer/helpers/action'], function (exports, _emberDebug, _emberUtils, _references, _action) { 'use strict'; exports.isMut = isMut; exports.unMut = function (ref) { return ref[SOURCE] || ref; }; exports.default = function (_vm, args) { var rawRef = args.positional.at(0); if (isMut(rawRef)) { return rawRef; } // TODO: Improve this error message. This covers at least two distinct // cases: // // 1. (mut "not a path") – passing a literal, result from a helper // invocation, etc // // 2. (mut receivedValue) – passing a value received from the caller // that was originally derived from a literal, result from a helper // invocation, etc // // This message is alright for the first case, but could be quite // confusing for the second case. false && !rawRef[_references.UPDATE] && (0, _emberDebug.assert)('You can only pass a path to mut', rawRef[_references.UPDATE]); var wrappedRef = Object.create(rawRef); wrappedRef[SOURCE] = rawRef; wrappedRef[_action.INVOKE] = rawRef[_references.UPDATE]; wrappedRef[MUT_REFERENCE] = true; return wrappedRef; }; /** The `mut` helper lets you __clearly specify__ that a child `Component` can update the (mutable) value passed to it, which will __change the value of the parent component__. To specify that a parameter is mutable, when invoking the child `Component`: ```handlebars {{my-child childClickCount=(mut totalClicks)}} ``` The child `Component` can then modify the parent's value just by modifying its own property: ```javascript // my-child.js export default Component.extend({ click() { this.incrementProperty('childClickCount'); } }); ``` Note that for curly components (`{{my-component}}`) the bindings are already mutable, making the `mut` unnecessary. Additionally, the `mut` helper can be combined with the `action` helper to mutate a value. For example: ```handlebars {{my-child childClickCount=totalClicks click-count-change=(action (mut totalClicks))}} ``` The child `Component` would invoke the action with the new click value: ```javascript // my-child.js export default Component.extend({ click() { this.get('click-count-change')(this.get('childClickCount') + 1); } }); ``` The `mut` helper changes the `totalClicks` value to what was provided as the action argument. The `mut` helper, when used with `action`, will return a function that sets the value passed to `mut` to its first argument. This works like any other closure action and interacts with the other features `action` provides. As an example, we can create a button that increments a value passing the value directly to the `action`: ```handlebars {{! inc helper is not provided by Ember }} ``` You can also use the `value` option: ```handlebars ``` @method mut @param {Object} [attr] the "two-way" attribute that can be modified. @for Ember.Templates.helpers @public */ var MUT_REFERENCE = (0, _emberUtils.symbol)('MUT'); var SOURCE = (0, _emberUtils.symbol)('SOURCE'); function isMut(ref) { return ref && ref[MUT_REFERENCE]; } }); enifed('ember-glimmer/helpers/query-param', ['exports', 'ember-debug', 'ember-routing', 'ember-utils', 'ember-glimmer/utils/references'], function (exports, _emberDebug, _emberRouting, _emberUtils, _references) { 'use strict'; exports.default = function (_vm, args) { return new _references.InternalHelperReference(queryParams, args.capture()); }; /** This is a helper to be used in conjunction with the link-to helper. It will supply url query parameters to the target route. Example ```handlebars {{#link-to 'posts' (query-params direction="asc")}}Sort{{/link-to}} ``` @method query-params @for Ember.Templates.helpers @param {Object} hash takes a hash of query parameters @return {Object} A `QueryParams` object for `{{link-to}}` @public */ function queryParams(_ref) { var positional = _ref.positional, named = _ref.named; false && !(positional.value().length === 0) && (0, _emberDebug.assert)('The `query-params` helper only accepts hash parameters, e.g. (query-params queryParamPropertyName=\'foo\') as opposed to just (query-params \'foo\')', positional.value().length === 0); return _emberRouting.QueryParams.create({ values: (0, _emberUtils.assign)({}, named.value()) }); } }); enifed('ember-glimmer/helpers/readonly', ['exports', 'ember-glimmer/utils/references', 'ember-glimmer/helpers/mut'], function (exports, _references, _mut) { 'use strict'; exports.default = function (_vm, args) { var ref = (0, _mut.unMut)(args.positional.at(0)); var wrapped = Object.create(ref); wrapped[_references.UPDATE] = undefined; return wrapped; }; }); enifed('ember-glimmer/helpers/unbound', ['exports', 'ember-debug', 'ember-glimmer/utils/references'], function (exports, _emberDebug, _references) { 'use strict'; exports.default = function (_vm, args) { false && !(args.positional.length === 1 && args.named.length === 0) && (0, _emberDebug.assert)('unbound helper cannot be called with multiple params or hash params', args.positional.length === 1 && args.named.length === 0); return _references.UnboundReference.create(args.positional.at(0).value()); }; }); enifed('ember-glimmer/index', ['exports', 'ember-glimmer/helpers/action', 'ember-glimmer/templates/root', 'ember-glimmer/template', 'ember-glimmer/components/checkbox', 'ember-glimmer/components/text_field', 'ember-glimmer/components/text_area', 'ember-glimmer/components/link-to', 'ember-glimmer/component', 'ember-glimmer/helper', 'ember-glimmer/environment', 'ember-glimmer/utils/string', 'ember-glimmer/renderer', 'ember-glimmer/template_registry', 'ember-glimmer/setup-registry', 'ember-glimmer/dom', 'ember-glimmer/syntax', 'ember-glimmer/component-managers/abstract'], function (exports, _action, _root, _template, _checkbox, _text_field, _text_area, _linkTo, _component, _helper, _environment, _string, _renderer, _template_registry, _setupRegistry, _dom, _syntax, _abstract) { 'use strict'; Object.defineProperty(exports, 'INVOKE', { enumerable: true, get: function () { return _action.INVOKE; } }); Object.defineProperty(exports, 'RootTemplate', { enumerable: true, get: function () { return _root.default; } }); Object.defineProperty(exports, 'template', { enumerable: true, get: function () { return _template.default; } }); Object.defineProperty(exports, 'Checkbox', { enumerable: true, get: function () { return _checkbox.default; } }); Object.defineProperty(exports, 'TextField', { enumerable: true, get: function () { return _text_field.default; } }); Object.defineProperty(exports, 'TextArea', { enumerable: true, get: function () { return _text_area.default; } }); Object.defineProperty(exports, 'LinkComponent', { enumerable: true, get: function () { return _linkTo.default; } }); Object.defineProperty(exports, 'Component', { enumerable: true, get: function () { return _component.default; } }); Object.defineProperty(exports, 'Helper', { enumerable: true, get: function () { return _helper.default; } }); Object.defineProperty(exports, 'helper', { enumerable: true, get: function () { return _helper.helper; } }); Object.defineProperty(exports, 'Environment', { enumerable: true, get: function () { return _environment.default; } }); Object.defineProperty(exports, 'SafeString', { enumerable: true, get: function () { return _string.SafeString; } }); Object.defineProperty(exports, 'escapeExpression', { enumerable: true, get: function () { return _string.escapeExpression; } }); Object.defineProperty(exports, 'htmlSafe', { enumerable: true, get: function () { return _string.htmlSafe; } }); Object.defineProperty(exports, 'isHTMLSafe', { enumerable: true, get: function () { return _string.isHTMLSafe; } }); Object.defineProperty(exports, 'Renderer', { enumerable: true, get: function () { return _renderer.Renderer; } }); Object.defineProperty(exports, 'InertRenderer', { enumerable: true, get: function () { return _renderer.InertRenderer; } }); Object.defineProperty(exports, 'InteractiveRenderer', { enumerable: true, get: function () { return _renderer.InteractiveRenderer; } }); Object.defineProperty(exports, '_resetRenderers', { enumerable: true, get: function () { return _renderer._resetRenderers; } }); Object.defineProperty(exports, 'getTemplate', { enumerable: true, get: function () { return _template_registry.getTemplate; } }); Object.defineProperty(exports, 'setTemplate', { enumerable: true, get: function () { return _template_registry.setTemplate; } }); Object.defineProperty(exports, 'hasTemplate', { enumerable: true, get: function () { return _template_registry.hasTemplate; } }); Object.defineProperty(exports, 'getTemplates', { enumerable: true, get: function () { return _template_registry.getTemplates; } }); Object.defineProperty(exports, 'setTemplates', { enumerable: true, get: function () { return _template_registry.setTemplates; } }); Object.defineProperty(exports, 'setupEngineRegistry', { enumerable: true, get: function () { return _setupRegistry.setupEngineRegistry; } }); Object.defineProperty(exports, 'setupApplicationRegistry', { enumerable: true, get: function () { return _setupRegistry.setupApplicationRegistry; } }); Object.defineProperty(exports, 'DOMChanges', { enumerable: true, get: function () { return _dom.DOMChanges; } }); Object.defineProperty(exports, 'NodeDOMTreeConstruction', { enumerable: true, get: function () { return _dom.NodeDOMTreeConstruction; } }); Object.defineProperty(exports, 'DOMTreeConstruction', { enumerable: true, get: function () { return _dom.DOMTreeConstruction; } }); Object.defineProperty(exports, '_registerMacros', { enumerable: true, get: function () { return _syntax.registerMacros; } }); Object.defineProperty(exports, '_experimentalMacros', { enumerable: true, get: function () { return _syntax.experimentalMacros; } }); Object.defineProperty(exports, 'AbstractComponentManager', { enumerable: true, get: function () { return _abstract.default; } }); }); enifed('ember-glimmer/modifiers/action', ['exports', 'ember-debug', 'ember-metal', 'ember-utils', 'ember-views', 'ember-glimmer/helpers/action'], function (exports, _emberDebug, _emberMetal, _emberUtils, _emberViews, _action) { 'use strict'; exports.ActionState = exports.ActionHelper = undefined; var MODIFIERS = ['alt', 'shift', 'meta', 'ctrl']; var POINTER_EVENT_TYPE_REGEX = /^click|mouse|touch/; function isAllowedEvent(event, allowedKeys) { var i; if (allowedKeys === null || allowedKeys === undefined) { if (POINTER_EVENT_TYPE_REGEX.test(event.type)) { return (0, _emberViews.isSimpleClick)(event); } else { allowedKeys = ''; } } if (allowedKeys.indexOf('any') >= 0) { return true; } for (i = 0; i < MODIFIERS.length; i++) { if (event[MODIFIERS[i] + 'Key'] && allowedKeys.indexOf(MODIFIERS[i]) === -1) { return false; } } return true; } var ActionHelper = exports.ActionHelper = { // registeredActions is re-exported for compatibility with older plugins // that were using this undocumented API. registeredActions: _emberViews.ActionManager.registeredActions, registerAction: function (actionState) { var actionId = actionState.actionId; _emberViews.ActionManager.registeredActions[actionId] = actionState; return actionId; }, unregisterAction: function (actionState) { var actionId = actionState.actionId; delete _emberViews.ActionManager.registeredActions[actionId]; } }; var ActionState = exports.ActionState = function () { function ActionState(element, actionId, actionName, actionArgs, namedArgs, positionalArgs, implicitTarget, dom) { this.element = element; this.actionId = actionId; this.actionName = actionName; this.actionArgs = actionArgs; this.namedArgs = namedArgs; this.positional = positionalArgs; this.implicitTarget = implicitTarget; this.dom = dom; this.eventName = this.getEventName(); } ActionState.prototype.getEventName = function () { return this.namedArgs.get('on').value() || 'click'; }; ActionState.prototype.getActionArgs = function () { var result = new Array(this.actionArgs.length), i; for (i = 0; i < this.actionArgs.length; i++) { result[i] = this.actionArgs[i].value(); } return result; }; ActionState.prototype.getTarget = function () { var implicitTarget = this.implicitTarget, namedArgs = this.namedArgs; var target = void 0; if (namedArgs.has('target')) { target = namedArgs.get('target').value(); } else { target = implicitTarget.value(); } return target; }; ActionState.prototype.handler = function (event) { var _this = this; var actionName = this.actionName, namedArgs = this.namedArgs; var bubbles = namedArgs.get('bubbles'); var preventDefault = namedArgs.get('preventDefault'); var allowedKeys = namedArgs.get('allowedKeys'); var target = this.getTarget(); if (!isAllowedEvent(event, allowedKeys.value())) { return true; } if (preventDefault.value() !== false) { event.preventDefault(); } if (bubbles.value() === false) { event.stopPropagation(); } (0, _emberMetal.run)(function () { var args = _this.getActionArgs(); var payload = { args: args, target: target, name: null }; if (typeof actionName[_action.INVOKE] === 'function') { (0, _emberMetal.flaggedInstrument)('interaction.ember-action', payload, function () { actionName[_action.INVOKE].apply(actionName, args); }); return; } if (typeof actionName === 'function') { (0, _emberMetal.flaggedInstrument)('interaction.ember-action', payload, function () { actionName.apply(target, args); }); return; } payload.name = actionName; if (target.send) { (0, _emberMetal.flaggedInstrument)('interaction.ember-action', payload, function () { target.send.apply(target, [actionName].concat(args)); }); } else { false && !(typeof target[actionName] === 'function') && (0, _emberDebug.assert)('The action \'' + actionName + '\' did not exist on ' + target, typeof target[actionName] === 'function'); (0, _emberMetal.flaggedInstrument)('interaction.ember-action', payload, function () { target[actionName].apply(target, args); }); } }); return false; }; ActionState.prototype.destroy = function () { ActionHelper.unregisterAction(this); }; return ActionState; }(); var ActionModifierManager = function () { function ActionModifierManager() {} ActionModifierManager.prototype.create = function (element, args, _dynamicScope, dom) { var _args$capture = args.capture(), named = _args$capture.named, positional = _args$capture.positional, actionLabel, i; var implicitTarget = void 0; var actionName = void 0; var actionNameRef = void 0; if (positional.length > 1) { implicitTarget = positional.at(0); actionNameRef = positional.at(1); if (actionNameRef[_action.INVOKE]) { actionName = actionNameRef; } else { actionLabel = actionNameRef._propertyKey; actionName = actionNameRef.value(); false && !(typeof actionName === 'string' || typeof actionName === 'function') && (0, _emberDebug.assert)('You specified a quoteless path, `' + actionLabel + '`, to the ' + '{{action}} helper which did not resolve to an action name (a ' + 'string). Perhaps you meant to use a quoted actionName? (e.g. ' + '{{action "' + actionLabel + '"}}).', typeof actionName === 'string' || typeof actionName === 'function'); } } var actionArgs = []; // The first two arguments are (1) `this` and (2) the action name. // Everything else is a param. for (i = 2; i < positional.length; i++) { actionArgs.push(positional.at(i)); } var actionId = (0, _emberUtils.uuid)(); return new ActionState(element, actionId, actionName, actionArgs, named, positional, implicitTarget, dom); }; ActionModifierManager.prototype.install = function (actionState) { var dom = actionState.dom, element = actionState.element, actionId = actionState.actionId; ActionHelper.registerAction(actionState); dom.setAttribute(element, 'data-ember-action', ''); dom.setAttribute(element, 'data-ember-action-' + actionId, actionId); }; ActionModifierManager.prototype.update = function (actionState) { var positional = actionState.positional; var actionNameRef = positional.at(1); if (!actionNameRef[_action.INVOKE]) { actionState.actionName = actionNameRef.value(); } actionState.eventName = actionState.getEventName(); }; ActionModifierManager.prototype.getDestructor = function (modifier) { return modifier; }; return ActionModifierManager; }(); exports.default = ActionModifierManager; }); enifed('ember-glimmer/protocol-for-url', ['exports', 'ember-environment', 'node-module'], function (exports, _emberEnvironment, _nodeModule) { 'use strict'; exports.default = function (environment) { var protocol = void 0; if (_emberEnvironment.environment.hasDOM) { protocol = browserProtocolForURL.call(environment, 'foobar:baz'); } // Test to see if our DOM implementation parses // and normalizes URLs. if (protocol === 'foobar:') { // Swap in the method that doesn't do this test now that // we know it works. environment.protocolForURL = browserProtocolForURL; } else if (typeof URL === 'object') { // URL globally provided, likely from FastBoot's sandbox nodeURL = URL; environment.protocolForURL = nodeProtocolForURL; } else if (_nodeModule.IS_NODE) { // Otherwise, we need to fall back to our own URL parsing. // Global `require` is shadowed by Ember's loader so we have to use the fully // qualified `module.require`. // tslint:disable-next-line:no-require-imports nodeURL = (0, _nodeModule.require)('url'); environment.protocolForURL = nodeProtocolForURL; } else { throw new Error('Could not find valid URL parsing mechanism for URL Sanitization'); } }; /* globals module, URL */ var nodeURL = void 0; var parsingNode = void 0; function browserProtocolForURL(url) { if (!parsingNode) { parsingNode = document.createElement('a'); } parsingNode.href = url; return parsingNode.protocol; } function nodeProtocolForURL(url) { var protocol = null; if (typeof url === 'string') { protocol = nodeURL.parse(url).protocol; } return protocol === null ? ':' : protocol; } }); enifed('ember-glimmer/renderer', ['exports', 'ember-babel', '@glimmer/reference', 'ember-debug', 'ember-metal', 'ember-views', 'ember-glimmer/component', 'ember-glimmer/component-managers/outlet', 'ember-glimmer/component-managers/root', 'ember-glimmer/utils/references', '@glimmer/runtime'], function (exports, _emberBabel, _reference, _emberDebug, _emberMetal, _emberViews, _component, _outlet, _root2, _references, _runtime) { 'use strict'; exports.InteractiveRenderer = exports.InertRenderer = exports.Renderer = exports.DynamicScope = undefined; exports._resetRenderers = function () { renderers.length = 0; }; var backburner = _emberMetal.run.backburner; var DynamicScope = exports.DynamicScope = function () { function DynamicScope(view, outletState, rootOutletState) { this.view = view; this.outletState = outletState; this.rootOutletState = rootOutletState; } DynamicScope.prototype.child = function () { return new DynamicScope(this.view, this.outletState, this.rootOutletState); }; DynamicScope.prototype.get = function (key) { // tslint:disable-next-line:max-line-length false && !(key === 'outletState') && (0, _emberDebug.assert)('Using `-get-dynamic-scope` is only supported for `outletState` (you used `' + key + '`).', key === 'outletState'); return this.outletState; }; DynamicScope.prototype.set = function (key, value) { // tslint:disable-next-line:max-line-length false && !(key === 'outletState') && (0, _emberDebug.assert)('Using `-with-dynamic-scope` is only supported for `outletState` (you used `' + key + '`).', key === 'outletState'); this.outletState = value; return value; }; return DynamicScope; }(); var RootState = function () { function RootState(root, env, template, self, parentElement, dynamicScope) { var _this = this; false && !(template !== undefined) && (0, _emberDebug.assert)('You cannot render `' + self.value() + '` without a template.', template !== undefined); this.id = (0, _emberViews.getViewId)(root); this.env = env; this.root = root; this.result = undefined; this.shouldReflush = false; this.destroyed = false; var options = this.options = { alwaysRevalidate: false }; this.render = function () { var iterator = template.render(self, parentElement, dynamicScope); var iteratorResult = void 0; do { iteratorResult = iterator.next(); } while (!iteratorResult.done); var result = _this.result = iteratorResult.value; // override .render function after initial render _this.render = function () { return result.rerender(options); }; }; } RootState.prototype.isFor = function (possibleRoot) { return this.root === possibleRoot; }; RootState.prototype.destroy = function () { var result = this.result, env = this.env, needsTransaction; this.destroyed = true; this.env = undefined; this.root = null; this.result = undefined; this.render = undefined; if (result) { /* Handles these scenarios: * When roots are removed during standard rendering process, a transaction exists already `.begin()` / `.commit()` are not needed. * When roots are being destroyed manually (`component.append(); component.destroy() case), no transaction exists already. * When roots are being destroyed during `Renderer#destroy`, no transaction exists */ needsTransaction = !env.inTransaction; if (needsTransaction) { env.begin(); } result.destroy(); if (needsTransaction) { env.commit(); } } }; return RootState; }(); var renderers = []; (0, _emberMetal.setHasViews)(function () { return renderers.length > 0; }); function register(renderer) { false && !(renderers.indexOf(renderer) === -1) && (0, _emberDebug.assert)('Cannot register the same renderer twice', renderers.indexOf(renderer) === -1); renderers.push(renderer); } function deregister(renderer) { var index = renderers.indexOf(renderer); false && !(index !== -1) && (0, _emberDebug.assert)('Cannot deregister unknown unregistered renderer', index !== -1); renderers.splice(index, 1); } function K() {} var loops = 0; backburner.on('begin', function () { var i; for (i = 0; i < renderers.length; i++) { renderers[i]._scheduleRevalidate(); } }); backburner.on('end', function () { var i; for (i = 0; i < renderers.length; i++) { if (!renderers[i]._isValid()) { if (loops > 10) { loops = 0; // TODO: do something better renderers[i].destroy(); throw new Error('infinite rendering invalidation detected'); } loops++; return backburner.join(null, K); } } loops = 0; }); var Renderer = exports.Renderer = function () { function Renderer(env, rootTemplate) { var _viewRegistry = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : _emberViews.fallbackViewRegistry; var destinedForDOM = arguments.length > 3 && arguments[3] !== undefined ? arguments[3] : false; this._env = env; this._rootTemplate = rootTemplate; this._viewRegistry = _viewRegistry; this._destinedForDOM = destinedForDOM; this._destroyed = false; this._roots = []; this._lastRevision = -1; this._isRenderingRoots = false; this._removedRoots = []; } // renderer HOOKS Renderer.prototype.appendOutletView = function (view, target) { var definition = new _outlet.TopLevelOutletComponentDefinition(view); var outletStateReference = view.toReference(); this._appendDefinition(view, definition, target, outletStateReference); }; Renderer.prototype.appendTo = function (view, target) { var rootDef = new _root2.RootComponentDefinition(view); this._appendDefinition(view, rootDef, target); }; Renderer.prototype._appendDefinition = function (root, definition, target, outletStateReference) { var self = new _references.RootReference(definition); var dynamicScope = new DynamicScope(null, outletStateReference || _runtime.NULL_REFERENCE, outletStateReference); var rootState = new RootState(root, this._env, this._rootTemplate, self, target, dynamicScope); this._renderRoot(rootState); }; Renderer.prototype.rerender = function () { this._scheduleRevalidate(); }; Renderer.prototype.register = function (view) { var id = (0, _emberViews.getViewId)(view); false && !!this._viewRegistry[id] && (0, _emberDebug.assert)('Attempted to register a view with an id already in use: ' + id, !this._viewRegistry[id]); this._viewRegistry[id] = view; }; Renderer.prototype.unregister = function (view) { delete this._viewRegistry[(0, _emberViews.getViewId)(view)]; }; Renderer.prototype.remove = function (view) { view._transitionTo('destroying'); this.cleanupRootFor(view); (0, _emberViews.setViewElement)(view, null); if (this._destinedForDOM) { view.trigger('didDestroyElement'); } if (!view.isDestroying) { view.destroy(); } }; Renderer.prototype.cleanupRootFor = function (view) { // no need to cleanup roots if we have already been destroyed if (this._destroyed) { return; } var roots = this._roots, root; // traverse in reverse so we can remove items // without mucking up the index var i = this._roots.length; while (i--) { root = roots[i]; if (root.isFor(view)) { root.destroy(); roots.splice(i, 1); } } }; Renderer.prototype.destroy = function () { if (this._destroyed) { return; } this._destroyed = true; this._clearAllRoots(); }; Renderer.prototype.getBounds = function (view) { var bounds = view[_component.BOUNDS]; var parentElement = bounds.parentElement(); var firstNode = bounds.firstNode(); var lastNode = bounds.lastNode(); return { parentElement: parentElement, firstNode: firstNode, lastNode: lastNode }; }; Renderer.prototype.createElement = function (tagName) { return this._env.getAppendOperations().createElement(tagName); }; Renderer.prototype._renderRoot = function (root) { var roots = this._roots; roots.push(root); if (roots.length === 1) { register(this); } this._renderRootsTransaction(); }; Renderer.prototype._renderRoots = function () { var roots = this._roots, env = this._env, removedRoots = this._removedRoots, i, root, shouldReflush, _root, rootIndex; var globalShouldReflush = void 0; var initialRootsLength = void 0; do { env.begin(); // ensure that for the first iteration of the loop // each root is processed initialRootsLength = roots.length; globalShouldReflush = false; for (i = 0; i < roots.length; i++) { root = roots[i]; if (root.destroyed) { // add to the list of roots to be removed // they will be removed from `this._roots` later removedRoots.push(root); // skip over roots that have been marked as destroyed continue; } shouldReflush = root.shouldReflush; // when processing non-initial reflush loops, // do not process more roots than needed if (i >= initialRootsLength && !shouldReflush) { continue; } root.options.alwaysRevalidate = shouldReflush; // track shouldReflush based on this roots render result shouldReflush = root.shouldReflush = (0, _emberMetal.runInTransaction)(root, 'render'); // globalShouldReflush should be `true` if *any* of // the roots need to reflush globalShouldReflush = globalShouldReflush || shouldReflush; } this._lastRevision = _reference.CURRENT_TAG.value(); env.commit(); } while (globalShouldReflush || roots.length > initialRootsLength); // remove any roots that were destroyed during this transaction while (removedRoots.length) { _root = removedRoots.pop(); rootIndex = roots.indexOf(_root); roots.splice(rootIndex, 1); } if (this._roots.length === 0) { deregister(this); } }; Renderer.prototype._renderRootsTransaction = function () { if (this._isRenderingRoots) { // currently rendering roots, a new root was added and will // be processed by the existing _renderRoots invocation return; } // used to prevent calling _renderRoots again (see above) // while we are actively rendering roots this._isRenderingRoots = true; var completedWithoutError = false; try { this._renderRoots(); completedWithoutError = true; } finally { if (!completedWithoutError) { this._lastRevision = _reference.CURRENT_TAG.value(); } this._isRenderingRoots = false; } }; Renderer.prototype._clearAllRoots = function () { var roots = this._roots, i, root; for (i = 0; i < roots.length; i++) { root = roots[i]; root.destroy(); } this._removedRoots.length = 0; this._roots = []; // if roots were present before destroying // deregister this renderer instance if (roots.length) { deregister(this); } }; Renderer.prototype._scheduleRevalidate = function () { backburner.scheduleOnce('render', this, this._revalidate); }; Renderer.prototype._isValid = function () { return this._destroyed || this._roots.length === 0 || _reference.CURRENT_TAG.validate(this._lastRevision); }; Renderer.prototype._revalidate = function () { if (this._isValid()) { return; } this._renderRootsTransaction(); }; return Renderer; }(); exports.InertRenderer = function (_Renderer) { (0, _emberBabel.inherits)(InertRenderer, _Renderer); function InertRenderer() { return (0, _emberBabel.possibleConstructorReturn)(this, _Renderer.apply(this, arguments)); } InertRenderer.create = function (_ref) { var env = _ref.env, rootTemplate = _ref.rootTemplate, _viewRegistry = _ref._viewRegistry; return new this(env, rootTemplate, _viewRegistry, false); }; InertRenderer.prototype.getElement = function () { throw new Error('Accessing `this.element` is not allowed in non-interactive environments (such as FastBoot).'); }; return InertRenderer; }(Renderer); exports.InteractiveRenderer = function (_Renderer2) { (0, _emberBabel.inherits)(InteractiveRenderer, _Renderer2); function InteractiveRenderer() { return (0, _emberBabel.possibleConstructorReturn)(this, _Renderer2.apply(this, arguments)); } InteractiveRenderer.create = function (_ref2) { var env = _ref2.env, rootTemplate = _ref2.rootTemplate, _viewRegistry = _ref2._viewRegistry; return new this(env, rootTemplate, _viewRegistry, true); }; InteractiveRenderer.prototype.getElement = function (view) { return (0, _emberViews.getViewElement)(view); }; return InteractiveRenderer; }(Renderer); }); enifed('ember-glimmer/setup-registry', ['exports', 'ember-babel', 'container', 'ember-environment', 'ember-glimmer/component', 'ember-glimmer/components/checkbox', 'ember-glimmer/components/link-to', 'ember-glimmer/components/text_area', 'ember-glimmer/components/text_field', 'ember-glimmer/dom', 'ember-glimmer/environment', 'ember-glimmer/renderer', 'ember-glimmer/templates/component', 'ember-glimmer/templates/outlet', 'ember-glimmer/templates/root', 'ember-glimmer/views/outlet', 'ember-glimmer/helpers/loc'], function (exports, _emberBabel, _container, _emberEnvironment, _component, _checkbox, _linkTo, _text_area, _text_field, _dom, _environment, _renderer, _component2, _outlet, _root, _outlet2, _loc) { 'use strict'; exports.setupApplicationRegistry = function (registry) { registry.injection('service:-glimmer-environment', 'appendOperations', 'service:-dom-tree-construction'); registry.injection('renderer', 'env', 'service:-glimmer-environment'); registry.register((0, _container.privatize)(_templateObject), _root.default); registry.injection('renderer', 'rootTemplate', (0, _container.privatize)(_templateObject)); registry.register('renderer:-dom', _renderer.InteractiveRenderer); registry.register('renderer:-inert', _renderer.InertRenderer); if (_emberEnvironment.environment.hasDOM) { registry.injection('service:-glimmer-environment', 'updateOperations', 'service:-dom-changes'); } registry.register('service:-dom-changes', { create: function (_ref) { var document = _ref.document; return new _dom.DOMChanges(document); } }); registry.register('service:-dom-tree-construction', { create: function (_ref2) { var document = _ref2.document; var Implementation = _emberEnvironment.environment.hasDOM ? _dom.DOMTreeConstruction : _dom.NodeDOMTreeConstruction; return new Implementation(document); } }); }; exports.setupEngineRegistry = function (registry) { registry.register('view:-outlet', _outlet2.default); registry.register('template:-outlet', _outlet.default); registry.injection('view:-outlet', 'template', 'template:-outlet'); registry.injection('service:-dom-changes', 'document', 'service:-document'); registry.injection('service:-dom-tree-construction', 'document', 'service:-document'); registry.register((0, _container.privatize)(_templateObject2), _component2.default); registry.register('service:-glimmer-environment', _environment.default); registry.injection('template', 'env', 'service:-glimmer-environment'); registry.optionsForType('helper', { instantiate: false }); registry.register('helper:loc', _loc.default); registry.register('component:-text-field', _text_field.default); registry.register('component:-text-area', _text_area.default); registry.register('component:-checkbox', _checkbox.default); registry.register('component:link-to', _linkTo.default); registry.register((0, _container.privatize)(_templateObject3), _component.default); }; var _templateObject = (0, _emberBabel.taggedTemplateLiteralLoose)(['template:-root'], ['template:-root']), _templateObject2 = (0, _emberBabel.taggedTemplateLiteralLoose)(['template:components/-default'], ['template:components/-default']), _templateObject3 = (0, _emberBabel.taggedTemplateLiteralLoose)(['component:-default'], ['component:-default']); }); enifed('ember-glimmer/syntax', ['exports', 'ember-debug', 'ember-environment', 'ember-glimmer/syntax/-text-area', 'ember-glimmer/syntax/dynamic-component', 'ember-glimmer/syntax/input', 'ember-glimmer/syntax/mount', 'ember-glimmer/syntax/outlet', 'ember-glimmer/syntax/render', 'ember-glimmer/syntax/utils', 'ember-glimmer/utils/bindings'], function (exports, _emberDebug, _emberEnvironment, _textArea, _dynamicComponent, _input, _mount, _outlet, _render, _utils, _bindings) { 'use strict'; exports.experimentalMacros = undefined; exports.registerMacros = // This is a private API to allow for experimental macros // to be created in user space. Registering a macro should // should be done in an initializer. function (macro) { experimentalMacros.push(macro); }; exports.populateMacros = function (blocks, inlines) { var i, macro; inlines.add('outlet', _outlet.outletMacro); inlines.add('component', _dynamicComponent.inlineComponentMacro); if (_emberEnvironment.ENV._ENABLE_RENDER_SUPPORT === true) { inlines.add('render', _render.renderMacro); } inlines.add('mount', _mount.mountMacro); inlines.add('input', _input.inputMacro); inlines.add('textarea', _textArea.textAreaMacro); inlines.addMissing(refineInlineSyntax); blocks.add('component', _dynamicComponent.blockComponentMacro); blocks.addMissing(refineBlockSyntax); for (i = 0; i < experimentalMacros.length; i++) { macro = experimentalMacros[i]; macro(blocks, inlines); } return { blocks: blocks, inlines: inlines }; }; function refineInlineSyntax(name, params, hash, builder) { false && !!(builder.env.builtInHelpers[name] && builder.env.owner.hasRegistration('helper:' + name)) && (0, _emberDebug.assert)('You attempted to overwrite the built-in helper "' + name + '" which is not allowed. Please rename the helper.', !(builder.env.builtInHelpers[name] && builder.env.owner.hasRegistration('helper:' + name))); var definition = void 0; if (name.indexOf('-') > -1) { definition = builder.env.getComponentDefinition(name, builder.meta.templateMeta); } if (definition) { (0, _bindings.wrapComponentClassAttribute)(hash); builder.component.static(definition, [params, (0, _utils.hashToArgs)(hash), null, null]); return true; } return false; } function refineBlockSyntax(name, params, hash, _default, inverse, builder) { if (name.indexOf('-') === -1) { return false; } var meta = builder.meta.templateMeta; var definition = void 0; if (name.indexOf('-') > -1) { definition = builder.env.getComponentDefinition(name, meta); } if (definition) { (0, _bindings.wrapComponentClassAttribute)(hash); builder.component.static(definition, [params, (0, _utils.hashToArgs)(hash), _default, inverse]); return true; } false && !builder.env.hasHelper(name, meta) && (0, _emberDebug.assert)('A component or helper named "' + name + '" could not be found', builder.env.hasHelper(name, meta)); false && !!builder.env.hasHelper(name, meta) && (0, _emberDebug.assert)('Helpers may not be used in the block form, for example {{#' + name + '}}{{/' + name + '}}. Please use a component, or alternatively use the helper in combination with a built-in Ember helper, for example {{#if (' + name + ')}}{{/if}}.', !builder.env.hasHelper(name, meta)); return false; } var experimentalMacros = exports.experimentalMacros = []; }); enifed('ember-glimmer/syntax/-text-area', ['exports', 'ember-glimmer/utils/bindings', 'ember-glimmer/syntax/utils'], function (exports, _bindings, _utils) { 'use strict'; exports.textAreaMacro = function (_name, params, hash, builder) { var definition = builder.env.getComponentDefinition('-text-area', builder.meta.templateMeta); (0, _bindings.wrapComponentClassAttribute)(hash); builder.component.static(definition, [params, (0, _utils.hashToArgs)(hash), null, null]); return true; }; }); enifed('ember-glimmer/syntax/dynamic-component', ['exports', '@glimmer/runtime', 'ember-debug', 'ember-glimmer/syntax/utils'], function (exports, _runtime, _emberDebug, _utils) { 'use strict'; exports.dynamicComponentMacro = function (params, hash, _default, _inverse, builder) { var definitionArgs = [params.slice(0, 1), null, null, null]; var args = [params.slice(1), (0, _utils.hashToArgs)(hash), null, null]; builder.component.dynamic(definitionArgs, dynamicComponentFor, args); return true; }; exports.blockComponentMacro = function (params, hash, _default, inverse, builder) { var definitionArgs = [params.slice(0, 1), null, null, null]; var args = [params.slice(1), (0, _utils.hashToArgs)(hash), _default, inverse]; builder.component.dynamic(definitionArgs, dynamicComponentFor, args); return true; }; exports.inlineComponentMacro = function (_name, params, hash, builder) { var definitionArgs = [params.slice(0, 1), null, null, null]; var args = [params.slice(1), (0, _utils.hashToArgs)(hash), null, null]; builder.component.dynamic(definitionArgs, dynamicComponentFor, args); return true; }; function dynamicComponentFor(vm, args, meta) { var env = vm.env; var nameRef = args.positional.at(0); return new DynamicComponentReference({ nameRef: nameRef, env: env, meta: meta, args: null }); } var DynamicComponentReference = function () { function DynamicComponentReference(_ref) { var nameRef = _ref.nameRef, env = _ref.env, meta = _ref.meta, args = _ref.args; this.tag = nameRef.tag; this.nameRef = nameRef; this.env = env; this.meta = meta; this.args = args; } DynamicComponentReference.prototype.value = function () { var env = this.env, nameRef = this.nameRef, meta = this.meta, definition; var nameOrDef = nameRef.value(); if (typeof nameOrDef === 'string') { definition = env.getComponentDefinition(nameOrDef, meta); // tslint:disable-next-line:max-line-length false && !!!definition && (0, _emberDebug.assert)('Could not find component named "' + nameOrDef + '" (no component or template with that name was found)', !!definition); return definition; } else if ((0, _runtime.isComponentDefinition)(nameOrDef)) { return nameOrDef; } else { return null; } }; DynamicComponentReference.prototype.get = function () {}; return DynamicComponentReference; }(); }); enifed('ember-glimmer/syntax/input', ['exports', 'ember-debug', 'ember-glimmer/utils/bindings', 'ember-glimmer/syntax/dynamic-component', 'ember-glimmer/syntax/utils'], function (exports, _emberDebug, _bindings, _dynamicComponent, _utils) { 'use strict'; exports.inputMacro = /** The `{{input}}` helper lets you create an HTML `` component. It causes an `TextField` component to be rendered. For more info, see the [TextField](/api/classes/Ember.TextField.html) docs and the [templates guide](https://emberjs.com/guides/templates/input-helpers/). ```handlebars {{input value="987"}} ``` renders as: ```HTML ``` ### Text field If no `type` option is specified, a default of type 'text' is used. Many of the standard HTML attributes may be passed to this helper.
    `readonly``required``autofocus`
    `value``placeholder``disabled`
    `size``tabindex``maxlength`
    `name``min``max`
    `pattern``accept``autocomplete`
    `autosave``formaction``formenctype`
    `formmethod``formnovalidate``formtarget`
    `height``inputmode``multiple`
    `step``width``form`
    `selectionDirection``spellcheck` 
    When set to a quoted string, these values will be directly applied to the HTML element. When left unquoted, these values will be bound to a property on the template's current rendering context (most typically a controller instance). A very common use of this helper is to bind the `value` of an input to an Object's attribute: ```handlebars Search: {{input value=searchWord}} ``` In this example, the initial value in the `` will be set to the value of `searchWord`. If the user changes the text, the value of `searchWord` will also be updated. ### Actions The helper can send multiple actions based on user events. The action property defines the action which is sent when the user presses the return key. ```handlebars {{input action="submit"}} ``` The helper allows some user events to send actions. * `enter` * `insert-newline` * `escape-press` * `focus-in` * `focus-out` * `key-press` * `key-up` For example, if you desire an action to be sent when the input is blurred, you only need to setup the action name to the event name property. ```handlebars {{input focus-out="alertMessage"}} ``` See more about [Text Support Actions](/api/classes/Ember.TextField.html) ### Extending `TextField` Internally, `{{input type="text"}}` creates an instance of `TextField`, passing arguments from the helper to `TextField`'s `create` method. You can extend the capabilities of text inputs in your applications by reopening this class. For example, if you are building a Bootstrap project where `data-*` attributes are used, you can add one to the `TextField`'s `attributeBindings` property: ```javascript import TextField from '@ember/component/text-field'; TextField.reopen({ attributeBindings: ['data-error'] }); ``` Keep in mind when writing `TextField` subclasses that `TextField` itself extends `Component`. Expect isolated component semantics, not legacy 1.x view semantics (like `controller` being present). See more about [Ember components](/api/classes/Ember.Component.html) ### Checkbox Checkboxes are special forms of the `{{input}}` helper. To create a ``: ```handlebars Emberize Everything: {{input type="checkbox" name="isEmberized" checked=isEmberized}} ``` This will bind checked state of this checkbox to the value of `isEmberized` -- if either one changes, it will be reflected in the other. The following HTML attributes can be set via the helper: * `checked` * `disabled` * `tabindex` * `indeterminate` * `name` * `autofocus` * `form` ### Extending `Checkbox` Internally, `{{input type="checkbox"}}` creates an instance of `Checkbox`, passing arguments from the helper to `Checkbox`'s `create` method. You can extend the capablilties of checkbox inputs in your applications by reopening this class. For example, if you wanted to add a css class to all checkboxes in your application: ```javascript import Checkbox from '@ember/component/checkbox'; Checkbox.reopen({ classNames: ['my-app-checkbox'] }); ``` @method input @for Ember.Templates.helpers @param {Hash} options @public */ function (_name, params, hash, builder) { var keys = void 0, typeArg; var values = void 0; var typeIndex = -1; var valueIndex = -1; if (hash) { keys = hash[0]; values = hash[1]; typeIndex = keys.indexOf('type'); valueIndex = keys.indexOf('value'); } if (!params) { params = []; } if (typeIndex > -1) { typeArg = values[typeIndex]; if (Array.isArray(typeArg)) { return (0, _dynamicComponent.dynamicComponentMacro)(params, hash, null, null, builder); } else if (typeArg === 'checkbox') { false && !(valueIndex === -1) && (0, _emberDebug.assert)('{{input type=\'checkbox\'}} does not support setting `value=someBooleanValue`; ' + 'you must use `checked=someBooleanValue` instead.', valueIndex === -1); (0, _bindings.wrapComponentClassAttribute)(hash); return buildSyntax('-checkbox', params, hash, builder); } } return buildSyntax('-text-field', params, hash, builder); }; /** @module ember */ function buildSyntax(type, params, hash, builder) { var definition = builder.env.getComponentDefinition(type, builder.meta.templateMeta); builder.component.static(definition, [params, (0, _utils.hashToArgs)(hash), null, null]); return true; } }); enifed('ember-glimmer/syntax/mount', ['exports', 'ember-debug', 'ember-glimmer/component-managers/mount', 'ember-glimmer/syntax/utils'], function (exports, _emberDebug, _mount, _utils) { 'use strict'; exports.mountMacro = /** The `{{mount}}` helper lets you embed a routeless engine in a template. Mounting an engine will cause an instance to be booted and its `application` template to be rendered. For example, the following template mounts the `ember-chat` engine: ```handlebars {{! application.hbs }} {{mount "ember-chat"}} ``` Additionally, you can also pass in a `model` argument that will be set as the engines model. This can be an existing object: ```
    {{mount 'admin' model=userSettings}}
    ``` Or an inline `hash`, and you can even pass components: ```

    Application template!

    {{mount 'admin' model=(hash title='Secret Admin' signInButton=(component 'sign-in-button') )}}
    ``` @method mount @param {String} name Name of the engine to mount. @param {Object} [model] Object that will be set as the model of the engine. @for Ember.Templates.helpers @category ember-application-engines @public */ function (_name, params, hash, builder) { false && !(params.length === 1) && (0, _emberDebug.assert)('You can only pass a single positional argument to the {{mount}} helper, e.g. {{mount "chat-engine"}}.', params.length === 1); var definitionArgs = [params.slice(0, 1), null, null, null]; var args = [null, (0, _utils.hashToArgs)(hash), null, null]; builder.component.dynamic(definitionArgs, dynamicEngineFor, args); return true; }; function dynamicEngineFor(vm, args, meta) { var env = vm.env; var nameRef = args.positional.at(0); return new DynamicEngineReference({ nameRef: nameRef, env: env, meta: meta }); } var DynamicEngineReference = function () { function DynamicEngineReference(_ref) { var nameRef = _ref.nameRef, env = _ref.env, meta = _ref.meta; this.tag = nameRef.tag; this.nameRef = nameRef; this.env = env; this.meta = meta; this._lastName = undefined; this._lastDef = undefined; } DynamicEngineReference.prototype.value = function () { var env = this.env, nameRef = this.nameRef; var nameOrDef = nameRef.value(); if (typeof nameOrDef === 'string') { if (this._lastName === nameOrDef) { return this._lastDef; } false && !env.owner.hasRegistration('engine:' + nameOrDef) && (0, _emberDebug.assert)('You used `{{mount \'' + nameOrDef + '\'}}`, but the engine \'' + nameOrDef + '\' can not be found.', env.owner.hasRegistration('engine:' + nameOrDef)); if (!env.owner.hasRegistration('engine:' + nameOrDef)) { return null; } this._lastName = nameOrDef; this._lastDef = new _mount.MountDefinition(nameOrDef); return this._lastDef; } else { false && !(nameOrDef === null || nameOrDef === undefined) && (0, _emberDebug.assert)('Invalid engine name \'' + nameOrDef + '\' specified, engine name must be either a string, null or undefined.', nameOrDef === null || nameOrDef === undefined); return null; } }; return DynamicEngineReference; }(); }); enifed('ember-glimmer/syntax/outlet', ['exports', '@glimmer/reference', 'ember-glimmer/component-managers/outlet'], function (exports, _reference, _outlet) { 'use strict'; exports.outletMacro = /** The `{{outlet}}` helper lets you specify where a child route will render in your template. An important use of the `{{outlet}}` helper is in your application's `application.hbs` file: ```handlebars {{! app/templates/application.hbs }} {{my-header}}
    {{outlet}}
    {{my-footer}} ``` See [templates guide](https://emberjs.com/guides/templates/the-application-template/) for additional information on using `{{outlet}}` in `application.hbs`. You may also specify a name for the `{{outlet}}`, which is useful when using more than one `{{outlet}}` in a template: ```handlebars {{outlet "menu"}} {{outlet "sidebar"}} {{outlet "main"}} ``` Your routes can then render into a specific one of these `outlet`s by specifying the `outlet` attribute in your `renderTemplate` function: ```app/routes/menu.js import Route from '@ember/routing/route'; export default Route.extend({ renderTemplate() { this.render({ outlet: 'menu' }); } }); ``` See the [routing guide](https://emberjs.com/guides/routing/rendering-a-template/) for more information on how your `route` interacts with the `{{outlet}}` helper. Note: Your content __will not render__ if there isn't an `{{outlet}}` for it. @method outlet @param {String} [name] @for Ember.Templates.helpers @public */ function (_name, params, _hash, builder) { if (!params) { params = []; } var definitionArgs = [params.slice(0, 1), null, null, null]; // FIXME builder.component.dynamic(definitionArgs, outletComponentFor, [[], null, null, null]); return true; }; var OutletComponentReference = function () { function OutletComponentReference(outletNameRef, parentOutletStateRef) { this.outletNameRef = outletNameRef; this.parentOutletStateRef = parentOutletStateRef; this.definition = null; this.lastState = null; var outletStateTag = this.outletStateTag = _reference.UpdatableTag.create(parentOutletStateRef.tag); this.tag = (0, _reference.combine)([outletStateTag.inner, outletNameRef.tag]); } OutletComponentReference.prototype.value = function () { var outletNameRef = this.outletNameRef, parentOutletStateRef = this.parentOutletStateRef, definition = this.definition, lastState = this.lastState; var outletName = outletNameRef.value(); var outletStateRef = parentOutletStateRef.get('outlets').get(outletName); var newState = this.lastState = outletStateRef.value(); this.outletStateTag.inner.update(outletStateRef.tag); definition = revalidate(definition, lastState, newState); var hasTemplate = newState && newState.render.template; if (definition) { return definition; } else if (hasTemplate) { return this.definition = new _outlet.OutletComponentDefinition(outletName, newState.render.template); } else { return this.definition = null; } }; return OutletComponentReference; }(); function revalidate(definition, lastState, newState) { if (!lastState && !newState) { return definition; } if (!lastState && newState || lastState && !newState) { return null; } if (newState.render.template === lastState.render.template && newState.render.controller === lastState.render.controller) { return definition; } return null; } function outletComponentFor(vm, args) { var _vm$dynamicScope = vm.dynamicScope(), outletState = _vm$dynamicScope.outletState; var outletNameRef = void 0; if (args.positional.length === 0) { outletNameRef = new _reference.ConstReference('main'); } else { outletNameRef = args.positional.at(0); } return new OutletComponentReference(outletNameRef, outletState); } }); enifed('ember-glimmer/syntax/render', ['exports', '@glimmer/reference', 'ember-debug', 'ember-glimmer/component-managers/render', 'ember-glimmer/syntax/utils'], function (exports, _reference, _emberDebug, _render, _utils) { 'use strict'; exports.renderMacro = /** Calling ``{{render}}`` from within a template will insert another template that matches the provided name. The inserted template will access its properties on its own controller (rather than the controller of the parent template). If a view class with the same name exists, the view class also will be used. Note: A given controller may only be used *once* in your app in this manner. A singleton instance of the controller will be created for you. Example: ```app/controllers/navigation.js import Controller from '@ember/controller'; export default Controller.extend({ who: "world" }); ``` ```handlebars Hello, {{who}}. ``` ```handlebars

    My great app

    {{render "navigation"}} ``` ```html

    My great app

    Hello, world.
    ``` Optionally you may provide a second argument: a property path that will be bound to the `model` property of the controller. If a `model` property path is specified, then a new instance of the controller will be created and `{{render}}` can be used multiple times with the same name. For example if you had this `author` template. ```handlebars
    Written by {{firstName}} {{lastName}}. Total Posts: {{postCount}}
    ``` You could render it inside the `post` template using the `render` helper. ```handlebars

    {{title}}

    {{body}}
    {{render "author" author}}
    ``` @method render @for Ember.Templates.helpers @param {String} name @param {Object?} context @param {Hash} options @return {String} HTML string @public @deprecated Use a component instead */ function (_name, params, hash, builder) { if (!params) { params = []; } var definitionArgs = [params.slice(0), hash, null, null]; var args = [params.slice(1), (0, _utils.hashToArgs)(hash), null, null]; builder.component.dynamic(definitionArgs, makeComponentDefinition, args); return true; }; /** @module ember Remove after 3.4 once _ENABLE_RENDER_SUPPORT flag is no longer needed. */ function makeComponentDefinition(vm, args) { var env = vm.env, controllerNameRef; var nameRef = args.positional.at(0); false && !(0, _reference.isConst)(nameRef) && (0, _emberDebug.assert)('The first argument of {{render}} must be quoted, e.g. {{render "sidebar"}}.', (0, _reference.isConst)(nameRef)); false && !(args.positional.length === 1 || !(0, _reference.isConst)(args.positional.at(1))) && (0, _emberDebug.assert)('The second argument of {{render}} must be a path, e.g. {{render "post" post}}.', args.positional.length === 1 || !(0, _reference.isConst)(args.positional.at(1))); var templateName = nameRef.value(); // tslint:disable-next-line:max-line-length false && !env.owner.hasRegistration('template:' + templateName) && (0, _emberDebug.assert)('You used `{{render \'' + templateName + '\'}}`, but \'' + templateName + '\' can not be found as a template.', env.owner.hasRegistration('template:' + templateName)); var template = env.owner.lookup('template:' + templateName); var controllerName = void 0; if (args.named.has('controller')) { controllerNameRef = args.named.get('controller'); // tslint:disable-next-line:max-line-length false && !(0, _reference.isConst)(controllerNameRef) && (0, _emberDebug.assert)('The controller argument for {{render}} must be quoted, e.g. {{render "sidebar" controller="foo"}}.', (0, _reference.isConst)(controllerNameRef)); // TODO should be ensuring this to string here controllerName = controllerNameRef.value(); // tslint:disable-next-line:max-line-length false && !env.owner.hasRegistration('controller:' + controllerName) && (0, _emberDebug.assert)('The controller name you supplied \'' + controllerName + '\' did not resolve to a controller.', env.owner.hasRegistration('controller:' + controllerName)); } else { controllerName = templateName; } if (args.positional.length === 1) { return new _reference.ConstReference(new _render.RenderDefinition(controllerName, template, env, _render.SINGLETON_RENDER_MANAGER)); } else { return new _reference.ConstReference(new _render.RenderDefinition(controllerName, template, env, _render.NON_SINGLETON_RENDER_MANAGER)); } } }); enifed("ember-glimmer/syntax/utils", ["exports"], function (exports) { "use strict"; exports.hashToArgs = function (hash) { if (hash === null) { return null; } var names = hash[0].map(function (key) { return "@" + key; }); return [names, hash[1]]; }; }); enifed('ember-glimmer/template', ['exports', '@glimmer/runtime', 'ember-utils'], function (exports, _runtime, _emberUtils) { 'use strict'; exports.WrappedTemplateFactory = undefined; exports.default = function (json) { var factory = (0, _runtime.templateFactory)(json); return new WrappedTemplateFactory(factory); }; var WrappedTemplateFactory = exports.WrappedTemplateFactory = function () { function WrappedTemplateFactory(factory) { this.factory = factory; this.id = factory.id; this.meta = factory.meta; } WrappedTemplateFactory.prototype.create = function (props) { var owner = props[_emberUtils.OWNER]; return this.factory.create(props.env, { owner: owner }); }; return WrappedTemplateFactory; }(); }); enifed("ember-glimmer/template_registry", ["exports"], function (exports) { "use strict"; exports.setTemplates = function (templates) { TEMPLATES = templates; }; exports.getTemplates = function () { return TEMPLATES; }; exports.getTemplate = function (name) { if (TEMPLATES.hasOwnProperty(name)) { return TEMPLATES[name]; } }; exports.hasTemplate = function (name) { return TEMPLATES.hasOwnProperty(name); }; exports.setTemplate = function (name, template) { return TEMPLATES[name] = template; }; var TEMPLATES = {}; }); enifed("ember-glimmer/templates/component", ["exports", "ember-glimmer/template"], function (exports, _template) { "use strict"; exports.default = (0, _template.default)({ "id": "RxHsBKwy", "block": "{\"symbols\":[\"&default\"],\"statements\":[[11,1]],\"hasEval\":false}", "meta": { "moduleName": "packages/ember-glimmer/lib/templates/component.hbs" } }); }); enifed("ember-glimmer/templates/empty", ["exports", "ember-glimmer/template"], function (exports, _template) { "use strict"; exports.default = (0, _template.default)({ "id": "5jp2oO+o", "block": "{\"symbols\":[],\"statements\":[],\"hasEval\":false}", "meta": { "moduleName": "packages/ember-glimmer/lib/templates/empty.hbs" } }); }); enifed("ember-glimmer/templates/link-to", ["exports", "ember-glimmer/template"], function (exports, _template) { "use strict"; exports.default = (0, _template.default)({ "id": "VZn3uSPL", "block": "{\"symbols\":[\"&default\"],\"statements\":[[4,\"if\",[[20,[\"linkTitle\"]]],null,{\"statements\":[[1,[18,\"linkTitle\"],false]],\"parameters\":[]},{\"statements\":[[11,1]],\"parameters\":[]}]],\"hasEval\":false}", "meta": { "moduleName": "packages/ember-glimmer/lib/templates/link-to.hbs" } }); }); enifed("ember-glimmer/templates/outlet", ["exports", "ember-glimmer/template"], function (exports, _template) { "use strict"; exports.default = (0, _template.default)({ "id": "/7rqcQ85", "block": "{\"symbols\":[],\"statements\":[[1,[18,\"outlet\"],false]],\"hasEval\":false}", "meta": { "moduleName": "packages/ember-glimmer/lib/templates/outlet.hbs" } }); }); enifed("ember-glimmer/templates/root", ["exports", "ember-glimmer/template"], function (exports, _template) { "use strict"; exports.default = (0, _template.default)({ "id": "AdIsk/cm", "block": "{\"symbols\":[],\"statements\":[[1,[25,\"component\",[[19,0,[]]],null],false]],\"hasEval\":false}", "meta": { "moduleName": "packages/ember-glimmer/lib/templates/root.hbs" } }); }); enifed('ember-glimmer/utils/bindings', ['exports', 'ember-babel', '@glimmer/reference', '@glimmer/wire-format', 'ember-debug', 'ember-metal', 'ember-runtime', 'ember-glimmer/component', 'ember-glimmer/utils/string'], function (exports, _emberBabel, _reference, _wireFormat, _emberDebug, _emberMetal, _emberRuntime, _component, _string) { 'use strict'; exports.ClassNameBinding = exports.IsVisibleBinding = exports.AttributeBinding = undefined; exports.wrapComponentClassAttribute = // TODO we should probably do this transform at build time function (hash) { if (!hash) { return hash; } var keys = hash[0], values = hash[1], _values$index, type, getExp, path, propName; var index = keys.indexOf('class'); if (index !== -1) { _values$index = values[index], type = _values$index[0]; if (type === _wireFormat.Ops.Get || type === _wireFormat.Ops.MaybeLocal) { getExp = values[index]; path = getExp[getExp.length - 1]; propName = path[path.length - 1]; hash[1][index] = [_wireFormat.Ops.Helper, ['-class'], [getExp, propName]]; } } return hash; }; function referenceForKey(component, key) { return component[_component.ROOT_REF].get(key); } function referenceForParts(component, parts) { var isAttrs = parts[0] === 'attrs'; // TODO deprecate this if (isAttrs) { parts.shift(); if (parts.length === 1) { return referenceForKey(component, parts[0]); } } return (0, _reference.referenceFromParts)(component[_component.ROOT_REF], parts); }exports.AttributeBinding = { parse: function (microsyntax) { var colonIndex = microsyntax.indexOf(':'), prop, attribute; if (colonIndex === -1) { false && !(microsyntax !== 'class') && (0, _emberDebug.assert)('You cannot use class as an attributeBinding, use classNameBindings instead.', microsyntax !== 'class'); return [microsyntax, microsyntax, true]; } else { prop = microsyntax.substring(0, colonIndex); attribute = microsyntax.substring(colonIndex + 1); false && !(attribute !== 'class') && (0, _emberDebug.assert)('You cannot use class as an attributeBinding, use classNameBindings instead.', attribute !== 'class'); return [prop, attribute, false]; } }, install: function (element, component, parsed, operations) { var prop = parsed[0], attribute = parsed[1], isSimple = parsed[2], elementId; if (attribute === 'id') { elementId = (0, _emberMetal.get)(component, prop); if (elementId === undefined || elementId === null) { elementId = component.elementId; } operations.addStaticAttribute(element, 'id', elementId); return; } var isPath = prop.indexOf('.') > -1; var reference = isPath ? referenceForParts(component, prop.split('.')) : referenceForKey(component, prop); false && !!(isSimple && isPath) && (0, _emberDebug.assert)('Illegal attributeBinding: \'' + prop + '\' is not a valid attribute name.', !(isSimple && isPath)); if (attribute === 'style') { reference = new StyleBindingReference(reference, referenceForKey(component, 'isVisible')); } operations.addDynamicAttribute(element, attribute, reference, false); } }; var DISPLAY_NONE = 'display: none;'; var SAFE_DISPLAY_NONE = (0, _string.htmlSafe)(DISPLAY_NONE); var StyleBindingReference = function (_CachedReference) { (0, _emberBabel.inherits)(StyleBindingReference, _CachedReference); function StyleBindingReference(inner, isVisible) { var _this = (0, _emberBabel.possibleConstructorReturn)(this, _CachedReference.call(this)); _this.inner = inner; _this.isVisible = isVisible; _this.tag = (0, _reference.combine)([inner.tag, isVisible.tag]); return _this; } StyleBindingReference.prototype.compute = function () { var value = this.inner.value(), style; var isVisible = this.isVisible.value(); if (isVisible !== false) { return value; } else if (!value) { return SAFE_DISPLAY_NONE; } else { style = value + ' ' + DISPLAY_NONE; return (0, _string.isHTMLSafe)(value) ? (0, _string.htmlSafe)(style) : style; } }; return StyleBindingReference; }(_reference.CachedReference); exports.IsVisibleBinding = { install: function (element, component, operations) { var ref = (0, _reference.map)(referenceForKey(component, 'isVisible'), this.mapStyleValue); // the upstream type for addDynamicAttribute's `value` argument // appears to be incorrect. It is currently a Reference, I // think it should be a Reference. operations.addDynamicAttribute(element, 'style', ref, false); }, mapStyleValue: function (isVisible) { return isVisible === false ? SAFE_DISPLAY_NONE : null; } }; exports.ClassNameBinding = { install: function (element, component, microsyntax, operations) { var _microsyntax$split = microsyntax.split(':'), prop = _microsyntax$split[0], truthy = _microsyntax$split[1], falsy = _microsyntax$split[2], isPath, parts, value, ref; if (prop === '') { operations.addStaticAttribute(element, 'class', truthy); } else { isPath = prop.indexOf('.') > -1; parts = isPath ? prop.split('.') : []; value = isPath ? referenceForParts(component, parts) : referenceForKey(component, prop); ref = void 0; if (truthy === undefined) { ref = new SimpleClassNameBindingReference(value, isPath ? parts[parts.length - 1] : prop); } else { ref = new ColonClassNameBindingReference(value, truthy, falsy); } // the upstream type for addDynamicAttribute's `value` argument // appears to be incorrect. It is currently a Reference, I // think it should be a Reference. operations.addDynamicAttribute(element, 'class', ref, false); } } }; var SimpleClassNameBindingReference = function (_CachedReference2) { (0, _emberBabel.inherits)(SimpleClassNameBindingReference, _CachedReference2); function SimpleClassNameBindingReference(inner, path) { var _this2 = (0, _emberBabel.possibleConstructorReturn)(this, _CachedReference2.call(this)); _this2.inner = inner; _this2.path = path; _this2.tag = inner.tag; _this2.inner = inner; _this2.path = path; _this2.dasherizedPath = null; return _this2; } SimpleClassNameBindingReference.prototype.compute = function () { var value = this.inner.value(), path, dasherizedPath; if (value === true) { path = this.path, dasherizedPath = this.dasherizedPath; return dasherizedPath || (this.dasherizedPath = _emberRuntime.String.dasherize(path)); } else if (value || value === 0) { return String(value); } else { return null; } }; return SimpleClassNameBindingReference; }(_reference.CachedReference); var ColonClassNameBindingReference = function (_CachedReference3) { (0, _emberBabel.inherits)(ColonClassNameBindingReference, _CachedReference3); function ColonClassNameBindingReference(inner) { var truthy = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : null; var falsy = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : null; var _this3 = (0, _emberBabel.possibleConstructorReturn)(this, _CachedReference3.call(this)); _this3.inner = inner; _this3.truthy = truthy; _this3.falsy = falsy; _this3.tag = inner.tag; return _this3; } ColonClassNameBindingReference.prototype.compute = function () { var inner = this.inner, truthy = this.truthy, falsy = this.falsy; return inner.value() ? truthy : falsy; }; return ColonClassNameBindingReference; }(_reference.CachedReference); }); enifed('ember-glimmer/utils/curly-component-state-bucket', ['exports'], function (exports) { 'use strict'; // tslint:disable-next-line:no-empty function NOOP() {} /** @module ember */ /** Represents the internal state of the component. @class ComponentStateBucket @private */ var ComponentStateBucket = function () { function ComponentStateBucket(environment, component, args, finalizer) { this.environment = environment; this.component = component; this.args = args; this.finalizer = finalizer; this.classRef = null; this.classRef = null; this.argsRevision = args.tag.value(); } ComponentStateBucket.prototype.destroy = function () { var component = this.component, environment = this.environment; if (environment.isInteractive) { component.trigger('willDestroyElement'); component.trigger('willClearRender'); } environment.destroyedComponents.push(component); }; ComponentStateBucket.prototype.finalize = function () { var finalizer = this.finalizer; finalizer(); this.finalizer = NOOP; }; return ComponentStateBucket; }(); exports.default = ComponentStateBucket; }); enifed('ember-glimmer/utils/debug-stack', ['exports'], function (exports) { 'use strict'; // @ts-check exports.default = void 0; }); enifed('ember-glimmer/utils/iterable', ['exports', 'ember-babel', '@glimmer/reference', 'ember-metal', 'ember-runtime', 'ember-utils', 'ember-glimmer/helpers/each-in', 'ember-glimmer/utils/references'], function (exports, _emberBabel, _reference, _emberMetal, _emberRuntime, _emberUtils, _eachIn, _references) { 'use strict'; exports.default = function (ref, keyPath) { if ((0, _eachIn.isEachIn)(ref)) { return new EachInIterable(ref, keyForEachIn(keyPath)); } else { return new ArrayIterable(ref, keyForArray(keyPath)); } }; function keyForEachIn(keyPath) { switch (keyPath) { case '@index': case undefined: case null: return index; case '@identity': return identity; default: return function (item) { return (0, _emberMetal.get)(item, keyPath); }; } } function keyForArray(keyPath) { switch (keyPath) { case '@index': return index; case '@identity': case undefined: case null: return identity; default: return function (item) { return (0, _emberMetal.get)(item, keyPath); }; } } function index(_item, i) { return String(i); } function identity(item) { switch (typeof item) { case 'string': case 'number': return String(item); default: return (0, _emberUtils.guidFor)(item); } } function ensureUniqueKey(seen, key) { var seenCount = seen[key]; if (seenCount > 0) { seen[key]++; return '' + key + 'be277757-bbbe-4620-9fcb-213ef433cca2' + seenCount; } else { seen[key] = 1; } return key; } var ArrayIterator = function () { function ArrayIterator(array, length, keyFor) { this.array = array; this.length = length; this.keyFor = keyFor; this.position = 0; this.seen = Object.create(null); } ArrayIterator.from = function (array, keyFor) { var length = array.length; if (length > 0) { return new this(array, array.length, keyFor); } else { return EMPTY_ITERATOR; } }; ArrayIterator.prototype.isEmpty = function () { return false; }; ArrayIterator.prototype.getMemo = function (position) { return position; }; ArrayIterator.prototype.getValue = function (position) { return this.array[position]; }; ArrayIterator.prototype.next = function () { var length = this.length, keyFor = this.keyFor, position = this.position, seen = this.seen; if (position >= length) { return null; } var value = this.getValue(position); var memo = this.getMemo(position); var key = ensureUniqueKey(seen, keyFor(value, memo)); this.position++; return { key: key, value: value, memo: memo }; }; return ArrayIterator; }(); var EmberArrayIterator = function (_ArrayIterator) { (0, _emberBabel.inherits)(EmberArrayIterator, _ArrayIterator); EmberArrayIterator.from = function (array, keyFor) { var length = (0, _emberMetal.get)(array, 'length'); if (length > 0) { return new this(array, length, keyFor); } else { return EMPTY_ITERATOR; } }; function EmberArrayIterator(array, length, keyFor) { return (0, _emberBabel.possibleConstructorReturn)(this, _ArrayIterator.call(this, array, length, keyFor)); } EmberArrayIterator.prototype.getValue = function (position) { return (0, _emberRuntime.objectAt)(this.array, position); }; return EmberArrayIterator; }(ArrayIterator); var ObjectKeysIterator = function (_ArrayIterator2) { (0, _emberBabel.inherits)(ObjectKeysIterator, _ArrayIterator2); function ObjectKeysIterator(keys, values, length, keyFor) { var _this2 = (0, _emberBabel.possibleConstructorReturn)(this, _ArrayIterator2.call(this, values, length, keyFor)); _this2.keys = keys; return _this2; } ObjectKeysIterator.from = function (obj, keyFor) { var keys = Object.keys(obj); var length = keys.length; if (length > 0) { return new this(keys, keys.map(function (key) { return obj[key]; }), length, keyFor); } else { return EMPTY_ITERATOR; } }; ObjectKeysIterator.prototype.getMemo = function (position) { return this.keys[position]; }; return ObjectKeysIterator; }(ArrayIterator); var EmptyIterator = function () { function EmptyIterator() {} EmptyIterator.prototype.isEmpty = function () { return true; }; EmptyIterator.prototype.next = function () { throw new Error('Cannot call next() on an empty iterator'); }; return EmptyIterator; }(); var EMPTY_ITERATOR = new EmptyIterator(); var EachInIterable = function () { function EachInIterable(ref, keyFor) { this.ref = ref; this.keyFor = keyFor; var valueTag = this.valueTag = _reference.UpdatableTag.create(_reference.CONSTANT_TAG); this.tag = (0, _reference.combine)([ref.tag, valueTag]); } EachInIterable.prototype.iterate = function () { var ref = this.ref, keyFor = this.keyFor, valueTag = this.valueTag; var iterable = ref.value(); valueTag.inner.update((0, _emberMetal.tagFor)(iterable)); if ((0, _emberMetal.isProxy)(iterable)) { iterable = (0, _emberMetal.get)(iterable, 'content'); } var typeofIterable = typeof iterable; if (iterable !== null && (typeofIterable === 'object' || typeofIterable === 'function')) { return ObjectKeysIterator.from(iterable, keyFor); } else { return EMPTY_ITERATOR; } }; EachInIterable.prototype.valueReferenceFor = function (item) { return new _references.UpdatablePrimitiveReference(item.memo); }; EachInIterable.prototype.updateValueReference = function (reference, item) { reference.update(item.memo); }; EachInIterable.prototype.memoReferenceFor = function (item) { return new _references.UpdatableReference(item.value); }; EachInIterable.prototype.updateMemoReference = function (reference, item) { reference.update(item.value); }; return EachInIterable; }(); var ArrayIterable = function () { function ArrayIterable(ref, keyFor) { this.ref = ref; this.keyFor = keyFor; var valueTag = this.valueTag = _reference.UpdatableTag.create(_reference.CONSTANT_TAG); this.tag = (0, _reference.combine)([ref.tag, valueTag]); } ArrayIterable.prototype.iterate = function () { var ref = this.ref, keyFor = this.keyFor, valueTag = this.valueTag, array; var iterable = ref.value(); valueTag.inner.update((0, _emberMetal.tagForProperty)(iterable, '[]')); if (iterable === null || typeof iterable !== 'object') { return EMPTY_ITERATOR; } if (Array.isArray(iterable)) { return ArrayIterator.from(iterable, keyFor); } else if ((0, _emberRuntime.isEmberArray)(iterable)) { return EmberArrayIterator.from(iterable, keyFor); } else if (typeof iterable.forEach === 'function') { array = []; iterable.forEach(function (item) { return array.push(item); }); return ArrayIterator.from(array, keyFor); } else { return EMPTY_ITERATOR; } }; ArrayIterable.prototype.valueReferenceFor = function (item) { return new _references.UpdatableReference(item.value); }; ArrayIterable.prototype.updateValueReference = function (reference, item) { reference.update(item.value); }; ArrayIterable.prototype.memoReferenceFor = function (item) { return new _references.UpdatablePrimitiveReference(item.memo); }; ArrayIterable.prototype.updateMemoReference = function (reference, item) { reference.update(item.memo); }; return ArrayIterable; }(); }); enifed('ember-glimmer/utils/process-args', ['exports', 'ember-utils', 'ember-views', 'ember-glimmer/component', 'ember-glimmer/helpers/action', 'ember-glimmer/utils/references'], function (exports, _emberUtils, _emberViews, _component, _action, _references) { 'use strict'; exports.processComponentArgs = // ComponentArgs takes EvaluatedNamedArgs and converts them into the // inputs needed by CurlyComponents (attrs and props, with mutable // cells, etc). function (namedArgs) { var keys = namedArgs.names, i, name, ref, value; var attrs = namedArgs.value(); var props = Object.create(null); var args = Object.create(null); props[_component.ARGS] = args; for (i = 0; i < keys.length; i++) { name = keys[i]; ref = namedArgs.get(name); value = attrs[name]; if (typeof value === 'function' && value[_action.ACTION]) { attrs[name] = value; } else if (ref[_references.UPDATE]) { attrs[name] = new MutableCell(ref, value); } args[name] = ref; props[name] = value; } props.attrs = attrs; return props; }; var REF = (0, _emberUtils.symbol)('REF'); var MutableCell = function () { function MutableCell(ref, value) { this[_emberViews.MUTABLE_CELL] = true; this[REF] = ref; this.value = value; } MutableCell.prototype.update = function (val) { this[REF][_references.UPDATE](val); }; return MutableCell; }(); }); enifed('ember-glimmer/utils/references', ['exports', 'ember-babel', '@glimmer/reference', '@glimmer/runtime', 'ember-metal', 'ember-utils', 'ember-glimmer/helper', 'ember-glimmer/utils/to-bool'], function (exports, _emberBabel, _reference, _runtime, _emberMetal, _emberUtils, _helper, _toBool) { 'use strict'; exports.UnboundReference = exports.InternalHelperReference = exports.ClassBasedHelperReference = exports.SimpleHelperReference = exports.ConditionalReference = exports.UpdatablePrimitiveReference = exports.UpdatableReference = exports.NestedPropertyReference = exports.RootPropertyReference = exports.PropertyReference = exports.RootReference = exports.CachedReference = exports.UPDATE = undefined; var UPDATE = exports.UPDATE = (0, _emberUtils.symbol)('UPDATE'); // @abstract // @implements PathReference var EmberPathReference = function () { function EmberPathReference() {} EmberPathReference.prototype.get = function (key) { return PropertyReference.create(this, key); }; return EmberPathReference; }(); var CachedReference = exports.CachedReference = function (_EmberPathReference) { (0, _emberBabel.inherits)(CachedReference, _EmberPathReference); function CachedReference() { var _this = (0, _emberBabel.possibleConstructorReturn)(this, _EmberPathReference.call(this)); _this._lastRevision = null; _this._lastValue = null; return _this; } CachedReference.prototype.compute = function () {}; CachedReference.prototype.value = function () { var tag = this.tag, _lastRevision = this._lastRevision, _lastValue = this._lastValue; if (!_lastRevision || !tag.validate(_lastRevision)) { _lastValue = this._lastValue = this.compute(); this._lastRevision = tag.value(); } return _lastValue; }; return CachedReference; }(EmberPathReference); var RootReference = exports.RootReference = function (_ConstReference) { (0, _emberBabel.inherits)(RootReference, _ConstReference); function RootReference(value) { var _this2 = (0, _emberBabel.possibleConstructorReturn)(this, _ConstReference.call(this, value)); _this2.children = Object.create(null); return _this2; } RootReference.prototype.get = function (propertyKey) { var ref = this.children[propertyKey]; if (ref === undefined) { ref = this.children[propertyKey] = new RootPropertyReference(this.inner, propertyKey); } return ref; }; return RootReference; }(_reference.ConstReference); var PropertyReference = exports.PropertyReference = function (_CachedReference) { (0, _emberBabel.inherits)(PropertyReference, _CachedReference); function PropertyReference() { return (0, _emberBabel.possibleConstructorReturn)(this, _CachedReference.apply(this, arguments)); } PropertyReference.create = function (parentReference, propertyKey) { if ((0, _reference.isConst)(parentReference)) { return new RootPropertyReference(parentReference.value(), propertyKey); } else { return new NestedPropertyReference(parentReference, propertyKey); } }; PropertyReference.prototype.get = function (key) { return new NestedPropertyReference(this, key); }; return PropertyReference; }(CachedReference); var RootPropertyReference = exports.RootPropertyReference = function (_PropertyReference) { (0, _emberBabel.inherits)(RootPropertyReference, _PropertyReference); function RootPropertyReference(parentValue, propertyKey) { var _this4 = (0, _emberBabel.possibleConstructorReturn)(this, _PropertyReference.call(this)); _this4._parentValue = parentValue; _this4._propertyKey = propertyKey; _this4.tag = (0, _emberMetal.tagForProperty)(parentValue, propertyKey); return _this4; } RootPropertyReference.prototype.compute = function () { var _parentValue = this._parentValue, _propertyKey = this._propertyKey; return (0, _emberMetal.get)(_parentValue, _propertyKey); }; RootPropertyReference.prototype[UPDATE] = function (value) { (0, _emberMetal.set)(this._parentValue, this._propertyKey, value); }; return RootPropertyReference; }(PropertyReference); var NestedPropertyReference = exports.NestedPropertyReference = function (_PropertyReference2) { (0, _emberBabel.inherits)(NestedPropertyReference, _PropertyReference2); function NestedPropertyReference(parentReference, propertyKey) { var _this5 = (0, _emberBabel.possibleConstructorReturn)(this, _PropertyReference2.call(this)); var parentReferenceTag = parentReference.tag; var parentObjectTag = _reference.UpdatableTag.create(_reference.CONSTANT_TAG); _this5._parentReference = parentReference; _this5._parentObjectTag = parentObjectTag; _this5._propertyKey = propertyKey; _this5.tag = (0, _reference.combine)([parentReferenceTag, parentObjectTag]); return _this5; } NestedPropertyReference.prototype.compute = function () { var _parentReference = this._parentReference, _parentObjectTag = this._parentObjectTag, _propertyKey = this._propertyKey; var parentValue = _parentReference.value(); _parentObjectTag.inner.update((0, _emberMetal.tagForProperty)(parentValue, _propertyKey)); var parentValueType = typeof parentValue; if (parentValueType === 'string' && _propertyKey === 'length') { return parentValue.length; } if (parentValueType === 'object' && parentValue !== null || parentValueType === 'function') { return (0, _emberMetal.get)(parentValue, _propertyKey); } else { return undefined; } }; NestedPropertyReference.prototype[UPDATE] = function (value) { var parent = this._parentReference.value(); (0, _emberMetal.set)(parent, this._propertyKey, value); }; return NestedPropertyReference; }(PropertyReference); var UpdatableReference = exports.UpdatableReference = function (_EmberPathReference2) { (0, _emberBabel.inherits)(UpdatableReference, _EmberPathReference2); function UpdatableReference(value) { var _this6 = (0, _emberBabel.possibleConstructorReturn)(this, _EmberPathReference2.call(this)); _this6.tag = _reference.DirtyableTag.create(); _this6._value = value; return _this6; } UpdatableReference.prototype.value = function () { return this._value; }; UpdatableReference.prototype.update = function (value) { var _value = this._value; if (value !== _value) { this.tag.inner.dirty(); this._value = value; } }; return UpdatableReference; }(EmberPathReference); exports.UpdatablePrimitiveReference = function (_UpdatableReference) { (0, _emberBabel.inherits)(UpdatablePrimitiveReference, _UpdatableReference); function UpdatablePrimitiveReference() { return (0, _emberBabel.possibleConstructorReturn)(this, _UpdatableReference.apply(this, arguments)); } return UpdatablePrimitiveReference; }(UpdatableReference); exports.ConditionalReference = function (_GlimmerConditionalRe) { (0, _emberBabel.inherits)(ConditionalReference, _GlimmerConditionalRe); ConditionalReference.create = function (reference) { var value; if ((0, _reference.isConst)(reference)) { value = reference.value(); if ((0, _emberMetal.isProxy)(value)) { return new RootPropertyReference(value, 'isTruthy'); } else { return _runtime.PrimitiveReference.create((0, _toBool.default)(value)); } } return new ConditionalReference(reference); }; function ConditionalReference(reference) { var _this8 = (0, _emberBabel.possibleConstructorReturn)(this, _GlimmerConditionalRe.call(this, reference)); _this8.objectTag = _reference.UpdatableTag.create(_reference.CONSTANT_TAG); _this8.tag = (0, _reference.combine)([reference.tag, _this8.objectTag]); return _this8; } ConditionalReference.prototype.toBool = function (predicate) { if ((0, _emberMetal.isProxy)(predicate)) { this.objectTag.inner.update((0, _emberMetal.tagForProperty)(predicate, 'isTruthy')); return (0, _emberMetal.get)(predicate, 'isTruthy'); } else { this.objectTag.inner.update((0, _emberMetal.tagFor)(predicate)); return (0, _toBool.default)(predicate); } }; return ConditionalReference; }(_runtime.ConditionalReference); exports.SimpleHelperReference = function (_CachedReference2) { (0, _emberBabel.inherits)(SimpleHelperReference, _CachedReference2); SimpleHelperReference.create = function (Helper, _vm, args) { var helper = Helper.create(), positional, named, positionalValue, namedValue, result; if ((0, _reference.isConst)(args)) { positional = args.positional, named = args.named; positionalValue = positional.value(); namedValue = named.value(); result = helper.compute(positionalValue, namedValue); if (typeof result === 'object' && result !== null || typeof result === 'function') { return new RootReference(result); } else { return _runtime.PrimitiveReference.create(result); } } else { return new SimpleHelperReference(helper.compute, args); } }; function SimpleHelperReference(helper, args) { var _this9 = (0, _emberBabel.possibleConstructorReturn)(this, _CachedReference2.call(this)); _this9.tag = args.tag; _this9.helper = helper; _this9.args = args; return _this9; } SimpleHelperReference.prototype.compute = function () { var helper = this.helper, _args = this.args, positional = _args.positional, named = _args.named; var positionalValue = positional.value(); var namedValue = named.value(); return helper(positionalValue, namedValue); }; return SimpleHelperReference; }(CachedReference); exports.ClassBasedHelperReference = function (_CachedReference3) { (0, _emberBabel.inherits)(ClassBasedHelperReference, _CachedReference3); ClassBasedHelperReference.create = function (helperClass, vm, args) { var instance = helperClass.create(); vm.newDestroyable(instance); return new ClassBasedHelperReference(instance, args); }; function ClassBasedHelperReference(instance, args) { var _this10 = (0, _emberBabel.possibleConstructorReturn)(this, _CachedReference3.call(this)); _this10.tag = (0, _reference.combine)([instance[_helper.RECOMPUTE_TAG], args.tag]); _this10.instance = instance; _this10.args = args; return _this10; } ClassBasedHelperReference.prototype.compute = function () { var instance = this.instance, _args2 = this.args, positional = _args2.positional, named = _args2.named; var positionalValue = positional.value(); var namedValue = named.value(); return instance.compute(positionalValue, namedValue); }; return ClassBasedHelperReference; }(CachedReference); exports.InternalHelperReference = function (_CachedReference4) { (0, _emberBabel.inherits)(InternalHelperReference, _CachedReference4); function InternalHelperReference(helper, args) { var _this11 = (0, _emberBabel.possibleConstructorReturn)(this, _CachedReference4.call(this)); _this11.tag = args.tag; _this11.helper = helper; _this11.args = args; return _this11; } InternalHelperReference.prototype.compute = function () { var helper = this.helper, args = this.args; return helper(args); }; return InternalHelperReference; }(CachedReference); exports.UnboundReference = function (_ConstReference2) { (0, _emberBabel.inherits)(UnboundReference, _ConstReference2); function UnboundReference() { return (0, _emberBabel.possibleConstructorReturn)(this, _ConstReference2.apply(this, arguments)); } UnboundReference.create = function (value) { if (typeof value === 'object' && value !== null) { return new UnboundReference(value); } else { return _runtime.PrimitiveReference.create(value); } }; UnboundReference.prototype.get = function (key) { return new UnboundReference((0, _emberMetal.get)(this.inner, key)); }; return UnboundReference; }(_reference.ConstReference); }); enifed('ember-glimmer/utils/string', ['exports'], function (exports) { 'use strict'; exports.SafeString = undefined; exports.escapeExpression = function (string) { if (typeof string !== 'string') { // don't escape SafeStrings, since they're already safe if (string && string.toHTML) { return string.toHTML(); } else if (string === null || string === undefined) { return ''; } else if (!string) { return string + ''; } // Force a string conversion as this will be done by the append regardless and // the regex test will do this transparently behind the scenes, causing issues if // an object's to string has escaped characters in it. string = '' + string; } if (!possible.test(string)) { return string; } return string.replace(badChars, escapeChar); } /** Mark a string as safe for unescaped output with Ember templates. If you return HTML from a helper, use this function to ensure Ember's rendering layer does not escape the HTML. ```javascript import { htmlSafe } from '@ember/string'; htmlSafe('
    someString
    ') ``` @method htmlSafe @for @ember/template @static @return {Handlebars.SafeString} A string that will not be HTML escaped by Handlebars. @public */ ; exports.htmlSafe = function (str) { if (str === null || str === undefined) { str = ''; } else if (typeof str !== 'string') { str = '' + str; } return new SafeString(str); } /** Detects if a string was decorated using `htmlSafe`. ```javascript import { htmlSafe, isHTMLSafe } from '@ember/string'; var plainString = 'plain string', safeString = htmlSafe('
    someValue
    '); isHTMLSafe(plainString); // false isHTMLSafe(safeString); // true ``` @method isHTMLSafe @for @ember/template @static @return {Boolean} `true` if the string was decorated with `htmlSafe`, `false` otherwise. @public */ ; exports.isHTMLSafe = function (str) { return str !== null && typeof str === 'object' && typeof str.toHTML === 'function'; }; var SafeString = exports.SafeString = function () { function SafeString(string) { this.string = string; } SafeString.prototype.toString = function () { return '' + this.string; }; SafeString.prototype.toHTML = function () { return this.toString(); }; return SafeString; }(); var escape = { '&': '&', '<': '<', '>': '>', '"': '"', "'": ''', '`': '`', '=': '=' }; var possible = /[&<>"'`=]/; var badChars = /[&<>"'`=]/g; function escapeChar(chr) { return escape[chr]; } }); enifed('ember-glimmer/utils/to-bool', ['exports', 'ember-metal', 'ember-runtime'], function (exports, _emberMetal, _emberRuntime) { 'use strict'; exports.default = function (predicate) { if (!predicate) { return false; } if (predicate === true) { return true; } if ((0, _emberRuntime.isArray)(predicate)) { return (0, _emberMetal.get)(predicate, 'length') !== 0; } return true; }; }); enifed('ember-glimmer/views/outlet', ['exports', 'ember-babel', '@glimmer/reference', 'ember-environment', 'ember-metal', 'ember-utils'], function (exports, _emberBabel, _reference, _emberEnvironment, _emberMetal, _emberUtils) { 'use strict'; exports.RootOutletStateReference = undefined; var RootOutletStateReference = exports.RootOutletStateReference = function () { function RootOutletStateReference(outletView) { this.outletView = outletView; this.tag = outletView._tag; } RootOutletStateReference.prototype.get = function (key) { return new ChildOutletStateReference(this, key); }; RootOutletStateReference.prototype.value = function () { return this.outletView.outletState; }; RootOutletStateReference.prototype.getOrphan = function (name) { return new OrphanedOutletStateReference(this, name); }; RootOutletStateReference.prototype.update = function (state) { this.outletView.setOutletState(state); }; return RootOutletStateReference; }(); var OrphanedOutletStateReference = function (_RootOutletStateRefer) { (0, _emberBabel.inherits)(OrphanedOutletStateReference, _RootOutletStateRefer); function OrphanedOutletStateReference(root, name) { var _this = (0, _emberBabel.possibleConstructorReturn)(this, _RootOutletStateRefer.call(this, root.outletView)); _this.root = root; _this.name = name; return _this; } OrphanedOutletStateReference.prototype.value = function () { var rootState = this.root.value(); var orphans = rootState.outlets.main.outlets.__ember_orphans__; if (!orphans) { return null; } var matched = orphans.outlets[this.name]; if (!matched) { return null; } var state = Object.create(null); state[matched.render.outlet] = matched; matched.wasUsed = true; return { outlets: state, render: undefined }; }; return OrphanedOutletStateReference; }(RootOutletStateReference); var ChildOutletStateReference = function () { function ChildOutletStateReference(parent, key) { this.parent = parent; this.key = key; this.tag = parent.tag; } ChildOutletStateReference.prototype.get = function (key) { return new ChildOutletStateReference(this, key); }; ChildOutletStateReference.prototype.value = function () { var parent = this.parent.value(); return parent && parent[this.key]; }; return ChildOutletStateReference; }(); var OutletView = function () { OutletView.extend = function (injections) { return function (_OutletView) { (0, _emberBabel.inherits)(_class, _OutletView); function _class() { return (0, _emberBabel.possibleConstructorReturn)(this, _OutletView.apply(this, arguments)); } _class.create = function (options) { if (options) { return _OutletView.create.call(this, (0, _emberUtils.assign)({}, injections, options)); } else { return _OutletView.create.call(this, injections); } }; return _class; }(OutletView); }; OutletView.reopenClass = function (injections) { (0, _emberUtils.assign)(this, injections); }; OutletView.create = function (options) { var _environment = options._environment, renderer = options.renderer, template = options.template; var owner = options[_emberUtils.OWNER]; return new OutletView(_environment, renderer, owner, template); }; function OutletView(_environment, renderer, owner, template) { this._environment = _environment; this.renderer = renderer; this.owner = owner; this.template = template; this.outletState = null; this._tag = _reference.DirtyableTag.create(); } OutletView.prototype.appendTo = function (selector) { var env = this._environment || _emberEnvironment.environment; var target = void 0; if (env.hasDOM) { target = typeof selector === 'string' ? document.querySelector(selector) : selector; } else { target = selector; } _emberMetal.run.schedule('render', this.renderer, 'appendOutletView', this, target); }; OutletView.prototype.rerender = function () {}; OutletView.prototype.setOutletState = function (state) { this.outletState = { outlets: { main: state }, render: { owner: undefined, into: undefined, outlet: 'main', name: '-top-level', controller: undefined, template: undefined } }; this._tag.inner.dirty(); }; OutletView.prototype.toReference = function () { return new RootOutletStateReference(this); }; OutletView.prototype.destroy = function () {}; return OutletView; }(); exports.default = OutletView; }); enifed('ember-metal', ['exports', 'ember-environment', 'ember-utils', 'ember-debug', 'ember-babel', '@glimmer/reference', 'require', 'backburner', 'ember-console'], function (exports, emberEnvironment, emberUtils, emberDebug, emberBabel, reference, require, Backburner, Logger) { 'use strict'; require = require && require.hasOwnProperty('default') ? require['default'] : require; Backburner = Backburner && Backburner.hasOwnProperty('default') ? Backburner['default'] : Backburner; Logger = Logger && Logger.hasOwnProperty('default') ? Logger['default'] : Logger; /** @module ember */ /** This namespace contains all Ember methods and functions. Future versions of Ember may overwrite this namespace and therefore, you should avoid adding any new properties. At the heart of Ember is Ember-Runtime, a set of core functions that provide cross-platform compatibility and object property observing. Ember-Runtime is small and performance-focused so you can use it alongside other cross-platform libraries such as jQuery. For more details, see [Ember-Runtime](https://emberjs.com/api/modules/ember-runtime.html). @class Ember @static @public */ var Ember = typeof emberEnvironment.context.imports.Ember === 'object' && emberEnvironment.context.imports.Ember || {}; // Make sure these are set whether Ember was already defined or not Ember.isNamespace = true; Ember.toString = function () { return 'Ember'; }; /* When we render a rich template hierarchy, the set of events that *might* happen tends to be much larger than the set of events that actually happen. This implies that we should make listener creation & destruction cheap, even at the cost of making event dispatch more expensive. Thus we store a new listener with a single push and no new allocations, without even bothering to do deduplication -- we can save that for dispatch time, if an event actually happens. */ /* listener flags */ var ONCE = 1; var SUSPENDED = 2; var protoMethods = { addToListeners: function (eventName, target, method, flags) { if (this._listeners === undefined) { this._listeners = []; } this._listeners.push(eventName, target, method, flags); }, _finalizeListeners: function () { if (this._listenersFinalized) { return; } if (this._listeners === undefined) { this._listeners = []; } var pointer = this.parent, listeners; while (pointer !== undefined) { listeners = pointer._listeners; if (listeners !== undefined) { this._listeners = this._listeners.concat(listeners); } if (pointer._listenersFinalized) { break; } pointer = pointer.parent; } this._listenersFinalized = true; }, removeFromListeners: function (eventName, target, method, didRemove) { var pointer = this, listeners, index; while (pointer !== undefined) { listeners = pointer._listeners; if (listeners !== undefined) { for (index = listeners.length - 4; index >= 0; index -= 4) { if (listeners[index] === eventName && (!method || listeners[index + 1] === target && listeners[index + 2] === method)) { if (pointer === this) { // we are modifying our own list, so we edit directly if (typeof didRemove === 'function') { didRemove(eventName, target, listeners[index + 2]); } listeners.splice(index, 4); } else { // we are trying to remove an inherited listener, so we do // just-in-time copying to detach our own listeners from // our inheritance chain. this._finalizeListeners(); return this.removeFromListeners(eventName, target, method); } } } } if (pointer._listenersFinalized) { break; } pointer = pointer.parent; } }, matchingListeners: function (eventName) { var pointer = this, listeners, index, susIndex, resultIndex; var result = void 0; while (pointer !== undefined) { listeners = pointer._listeners; if (listeners !== undefined) { for (index = 0; index < listeners.length; index += 4) { if (listeners[index] === eventName) { result = result || []; pushUniqueListener(result, listeners, index); } } } if (pointer._listenersFinalized) { break; } pointer = pointer.parent; } var sus = this._suspendedListeners; if (sus !== undefined && result !== undefined) { for (susIndex = 0; susIndex < sus.length; susIndex += 3) { if (eventName === sus[susIndex]) { for (resultIndex = 0; resultIndex < result.length; resultIndex += 3) { if (result[resultIndex] === sus[susIndex + 1] && result[resultIndex + 1] === sus[susIndex + 2]) { result[resultIndex + 2] |= SUSPENDED; } } } } } return result; }, suspendListeners: function (eventNames, target, method, callback) { var sus = this._suspendedListeners, i, _i; if (sus === undefined) { sus = this._suspendedListeners = []; } for (i = 0; i < eventNames.length; i++) { sus.push(eventNames[i], target, method); } try { return callback.call(target); } finally { if (sus.length === eventNames.length) { this._suspendedListeners = undefined; } else { for (_i = sus.length - 3; _i >= 0; _i -= 3) { if (sus[_i + 1] === target && sus[_i + 2] === method && eventNames.indexOf(sus[_i]) !== -1) { sus.splice(_i, 3); } } } } }, watchedEvents: function () { var pointer = this, listeners, index; var names = {}; while (pointer !== undefined) { listeners = pointer._listeners; if (listeners !== undefined) { for (index = 0; index < listeners.length; index += 4) { names[listeners[index]] = true; } } if (pointer._listenersFinalized) { break; } pointer = pointer.parent; } return Object.keys(names); } }; function pushUniqueListener(destination, source, index) { var target = source[index + 1], destinationIndex; var method = source[index + 2]; for (destinationIndex = 0; destinationIndex < destination.length; destinationIndex += 3) { if (destination[destinationIndex] === target && destination[destinationIndex + 1] === method) { return; } } destination.push(target, method, source[index + 3]); } /** @module @ember/object */ /* The event system uses a series of nested hashes to store listeners on an object. When a listener is registered, or when an event arrives, these hashes are consulted to determine which target and action pair to invoke. The hashes are stored in the object's meta hash, and look like this: // Object's meta hash { listeners: { // variable name: `listenerSet` "foo:changed": [ // variable name: `actions` target, method, flags ] } } */ /** Add an event listener @method addListener @static @for @ember/object/events @param obj @param {String} eventName @param {Object|Function} target A target object or a function @param {Function|String} method A function or the name of a function to be called on `target` @param {Boolean} once A flag whether a function should only be called once @public */ function addListener(obj, eventName, target, method, once) { if (emberEnvironment.ENV._ENABLE_DID_INIT_ATTRS_SUPPORT === true) {} if (!method && 'function' === typeof target) { method = target; target = null; } var flags = 0; if (once) { flags |= ONCE; } meta(obj).addToListeners(eventName, target, method, flags); if ('function' === typeof obj.didAddListener) { obj.didAddListener(eventName, target, method); } } /** Remove an event listener Arguments should match those passed to `addListener`. @method removeListener @static @for @ember/object/events @param obj @param {String} eventName @param {Object|Function} target A target object or a function @param {Function|String} method A function or the name of a function to be called on `target` @public */ function removeListener(obj, eventName, target, method) { if (!method && 'function' === typeof target) { method = target; target = null; } var func = 'function' === typeof obj.didRemoveListener ? obj.didRemoveListener.bind(obj) : function () {}; meta(obj).removeFromListeners(eventName, target, method, func); } /** Suspend listener during callback. This should only be used by the target of the event listener when it is taking an action that would cause the event, e.g. an object might suspend its property change listener while it is setting that property. @method suspendListener @static @for @ember/object/events @private @param obj @param {String} eventName @param {Object|Function} target A target object or a function @param {Function|String} method A function or the name of a function to be called on `target` @param {Function} callback */ function suspendListener(obj, eventName, target, method, callback) { return suspendListeners(obj, [eventName], target, method, callback); } /** Suspends multiple listeners during a callback. @method suspendListeners @static @for @ember/object/events @private @param obj @param {Array} eventNames Array of event names @param {Object|Function} target A target object or a function @param {Function|String} method A function or the name of a function to be called on `target` @param {Function} callback */ function suspendListeners(obj, eventNames, target, method, callback) { if (!method && 'function' === typeof target) { method = target; target = null; } return meta(obj).suspendListeners(eventNames, target, method, callback); } /** Return a list of currently watched events @private @method watchedEvents @static @for @ember/object/events @param obj */ /** Send an event. The execution of suspended listeners is skipped, and once listeners are removed. A listener without a target is executed on the passed object. If an array of actions is not passed, the actions stored on the passed object are invoked. @method sendEvent @static @for @ember/object/events @param obj @param {String} eventName @param {Array} params Optional parameters for each listener. @param {Array} actions Optional array of actions (listeners). @param {Meta} meta Optional meta to lookup listeners @return true @public */ function sendEvent(obj, eventName, params, actions, _meta) { var meta$$1, i, target, method, flags; if (actions === undefined) { meta$$1 = _meta === undefined ? peekMeta(obj) : _meta; actions = typeof meta$$1 === 'object' && meta$$1 !== null && meta$$1.matchingListeners(eventName); } if (actions === undefined || actions.length === 0) { return false; } for (i = actions.length - 3; i >= 0; i -= 3) { // looping in reverse for once listeners target = actions[i]; method = actions[i + 1]; flags = actions[i + 2]; if (!method) { continue; } if (flags & SUSPENDED) { continue; } if (flags & ONCE) { removeListener(obj, eventName, target, method); } if (!target) { target = obj; } if ('string' === typeof method) { if (params) { emberUtils.applyStr(target, method, params); } else { target[method](); } } else { if (params) { method.apply(target, params); } else { method.call(target); } } } return true; } /** @private @method hasListeners @static @for @ember/object/events @param obj @param {String} eventName */ /** @private @method listenersFor @static @for @ember/object/events @param obj @param {String} eventName */ function listenersFor(obj, eventName) { var ret = [], i, target, method; var meta$$1 = peekMeta(obj); var actions = meta$$1 !== undefined ? meta$$1.matchingListeners(eventName) : undefined; if (actions === undefined) { return ret; } for (i = 0; i < actions.length; i += 3) { target = actions[i]; method = actions[i + 1]; ret.push([target, method]); } return ret; } /** Define a property as a function that should be executed when a specified event or events are triggered. ``` javascript import EmberObject from '@ember/object'; import { on } from '@ember/object/evented'; import { sendEvent } from '@ember/object/events'; let Job = EmberObject.extend({ logCompleted: on('completed', function() { console.log('Job completed!'); }) }); let job = Job.create(); sendEvent(job, 'completed'); // Logs 'Job completed!' ``` @method on @static @for @ember/object/evented @param {String} eventNames* @param {Function} func @return func @public */ var hasViews = function () { return false; }; function makeTag() { return new reference.DirtyableTag(); } function tagFor(object, _meta) { var meta$$1; if (typeof object === 'object' && object !== null) { meta$$1 = _meta === undefined ? meta(object) : _meta; return meta$$1.writableTag(makeTag); } else { return reference.CONSTANT_TAG; } } function markObjectAsDirty(meta$$1, propertyKey) { var objectTag = meta$$1.readableTag(); if (objectTag !== undefined) { objectTag.dirty(); } var tags = meta$$1.readableTags(); var propertyTag = tags !== undefined ? tags[propertyKey] : undefined; if (propertyTag !== undefined) { propertyTag.dirty(); } if (propertyKey === 'content' && meta$$1.isProxy()) { objectTag.contentDidChange(); } if (objectTag !== undefined || propertyTag !== undefined) { ensureRunloop(); } } var backburner = void 0; function ensureRunloop() { if (backburner === undefined) { backburner = require('ember-metal').run.backburner; } if (hasViews()) { backburner.ensureInstance(); } } /* this.observerSet = { [senderGuid]: { // variable name: `keySet` [keyName]: listIndex } }, this.observers = [ { sender: obj, keyName: keyName, eventName: eventName, listeners: [ [target, method, flags] ] }, ... ] */ var ObserverSet = function () { function ObserverSet() { this.clear(); } ObserverSet.prototype.add = function (sender, keyName, eventName) { var observerSet = this.observerSet; var observers = this.observers; var senderGuid = emberUtils.guidFor(sender); var keySet = observerSet[senderGuid]; if (keySet === undefined) { observerSet[senderGuid] = keySet = {}; } var index = keySet[keyName]; if (index === undefined) { index = observers.push({ sender: sender, keyName: keyName, eventName: eventName, listeners: [] }) - 1; keySet[keyName] = index; } return observers[index].listeners; }; ObserverSet.prototype.flush = function () { var observers = this.observers, i; var observer = void 0, sender = void 0; this.clear(); for (i = 0; i < observers.length; ++i) { observer = observers[i]; sender = observer.sender; if (sender.isDestroying || sender.isDestroyed) { continue; } sendEvent(sender, observer.eventName, [sender, observer.keyName], observer.listeners); } }; ObserverSet.prototype.clear = function () { this.observerSet = {}; this.observers = []; }; return ObserverSet; }(); exports.runInTransaction = void 0; // detect-backtracking-rerender by default is debug build only { // in production do nothing to detect reflushes exports.runInTransaction = function (context$$1, methodName) { context$$1[methodName](); return false; }; } function watchPath(obj, keyPath, meta$$1) { if (typeof obj !== 'object' || obj === null) { return; } var m = meta$$1 === undefined ? meta(obj) : meta$$1; var counter = m.peekWatching(keyPath) || 0; m.writeWatching(keyPath, counter + 1); if (counter === 0) { // activate watching first time m.writableChains(makeChainNode).add(keyPath); } } function unwatchPath(obj, keyPath, meta$$1) { if (typeof obj !== 'object' || obj === null) { return; } var m = meta$$1 === undefined ? peekMeta(obj) : meta$$1; if (m === undefined) { return; } var counter = m.peekWatching(keyPath) || 0; if (counter === 1) { m.writeWatching(keyPath, 0); m.writableChains(makeChainNode).remove(keyPath); } else if (counter > 1) { m.writeWatching(keyPath, counter - 1); } } /** @module ember */ /** Starts watching a property on an object. Whenever the property changes, invokes `Ember.propertyWillChange` and `Ember.propertyDidChange`. This is the primitive used by observers and dependent keys; usually you will never call this method directly but instead use higher level methods like `Ember.addObserver()` @private @method watch @for Ember @param obj @param {String} _keyPath */ function watch(obj, _keyPath, m) { if (isPath(_keyPath)) { watchPath(obj, _keyPath, m); } else { watchKey(obj, _keyPath, m); } } function watcherCount(obj, key) { var meta$$1 = peekMeta(obj); return meta$$1 !== undefined && meta$$1.peekWatching(key) || 0; } function unwatch(obj, _keyPath, m) { if (isPath(_keyPath)) { unwatchPath(obj, _keyPath, m); } else { unwatchKey(obj, _keyPath, m); } } /** @module @ember/object */ function changeEvent(keyName) { return keyName + ':change'; } function beforeEvent(keyName) { return keyName + ':before'; } /** @method addObserver @static @for @ember/object/observers @param obj @param {String} _path @param {Object|Function} target @param {Function|String} [method] @public */ function addObserver(obj, _path, target, method) { addListener(obj, changeEvent(_path), target, method); watch(obj, _path); return this; } /** @method removeObserver @static @for @ember/object/observers @param obj @param {String} path @param {Object|Function} target @param {Function|String} [method] @public */ function removeObserver(obj, path, target, method) { unwatch(obj, path); removeListener(obj, changeEvent(path), target, method); return this; } /** @method _addBeforeObserver @static @for @ember/object/observers @param obj @param {String} path @param {Object|Function} target @param {Function|String} [method] @deprecated @private */ function _addBeforeObserver(obj, path, target, method) { addListener(obj, beforeEvent(path), target, method); watch(obj, path); return this; } // Suspend observer during callback. // // This should only be used by the target of the observer // while it is setting the observed path. function _suspendObserver(obj, path, target, method, callback) { return suspendListener(obj, changeEvent(path), target, method, callback); } /** @method removeBeforeObserver @static @for @ember/object/observers @param obj @param {String} path @param {Object|Function} target @param {Function|String} [method] @deprecated @private */ function _removeBeforeObserver(obj, path, target, method) { unwatch(obj, path); removeListener(obj, beforeEvent(path), target, method); return this; } /** @module ember @private */ var PROPERTY_DID_CHANGE = emberUtils.symbol('PROPERTY_DID_CHANGE'); var beforeObserverSet = new ObserverSet(); var observerSet = new ObserverSet(); var deferred = 0; // .......................................................... // PROPERTY CHANGES // /** This function is called just before an object property is about to change. It will notify any before observers and prepare caches among other things. Normally you will not need to call this method directly but if for some reason you can't directly watch a property you can invoke this method manually along with `Ember.propertyDidChange()` which you should call just after the property value changes. @method propertyWillChange @for Ember @param {Object} obj The object with the property that will change @param {String} keyName The property key (or path) that will change. @return {void} @private */ function propertyWillChange(obj, keyName, _meta) { var meta$$1 = _meta === undefined ? peekMeta(obj) : _meta; if (meta$$1 !== undefined && !meta$$1.isInitialized(obj)) { return; } var watching = meta$$1 !== undefined && meta$$1.peekWatching(keyName) > 0; var possibleDesc = descriptorFor(obj, keyName, meta$$1); if (possibleDesc !== undefined && possibleDesc.willChange) { possibleDesc.willChange(obj, keyName); } if (watching) { dependentKeysWillChange(obj, keyName, meta$$1); chainsWillChange(obj, keyName, meta$$1); notifyBeforeObservers(obj, keyName, meta$$1); } } /** This function is called just after an object property has changed. It will notify any observers and clear caches among other things. Normally you will not need to call this method directly but if for some reason you can't directly watch a property you can invoke this method manually along with `Ember.propertyWillChange()` which you should call just before the property value changes. @method propertyDidChange @for Ember @param {Object} obj The object with the property that will change @param {String} keyName The property key (or path) that will change. @param {Meta} meta The objects meta. @return {void} @private */ function propertyDidChange(obj, keyName, _meta) { var meta$$1 = _meta === undefined ? peekMeta(obj) : _meta; var hasMeta = meta$$1 !== undefined; if (hasMeta && !meta$$1.isInitialized(obj)) { return; } var possibleDesc = descriptorFor(obj, keyName, meta$$1); // shouldn't this mean that we're watching this key? if (possibleDesc !== undefined && possibleDesc.didChange) { possibleDesc.didChange(obj, keyName); } if (hasMeta && meta$$1.peekWatching(keyName) > 0) { dependentKeysDidChange(obj, keyName, meta$$1); chainsDidChange(obj, keyName, meta$$1); notifyObservers(obj, keyName, meta$$1); } if (obj[PROPERTY_DID_CHANGE]) { obj[PROPERTY_DID_CHANGE](keyName); } if (hasMeta) { if (meta$$1.isSourceDestroying()) { return; } markObjectAsDirty(meta$$1, keyName); } } var WILL_SEEN = void 0; var DID_SEEN = void 0; // called whenever a property is about to change to clear the cache of any dependent keys (and notify those properties of changes, etc...) function dependentKeysWillChange(obj, depKey, meta$$1) { if (meta$$1.isSourceDestroying() || !meta$$1.hasDeps(depKey)) { return; } var seen = WILL_SEEN; var top = !seen; if (top) { seen = WILL_SEEN = {}; } iterDeps(propertyWillChange, obj, depKey, seen, meta$$1); if (top) { WILL_SEEN = null; } } // called whenever a property has just changed to update dependent keys function dependentKeysDidChange(obj, depKey, meta$$1) { if (meta$$1.isSourceDestroying() || !meta$$1.hasDeps(depKey)) { return; } var seen = DID_SEEN; var top = !seen; if (top) { seen = DID_SEEN = {}; } iterDeps(propertyDidChange, obj, depKey, seen, meta$$1); if (top) { DID_SEEN = null; } } function iterDeps(method, obj, depKey, seen, meta$$1) { var possibleDesc = void 0; var guid = emberUtils.guidFor(obj); var current = seen[guid]; if (!current) { current = seen[guid] = {}; } if (current[depKey]) { return; } current[depKey] = true; meta$$1.forEachInDeps(depKey, function (key, value) { if (!value) { return; } possibleDesc = descriptorFor(obj, key, meta$$1); if (possibleDesc !== undefined && possibleDesc._suspended === obj) { return; } method(obj, key, meta$$1); }); } function chainsWillChange(obj, keyName, meta$$1) { var chainWatchers = meta$$1.readableChainWatchers(); if (chainWatchers !== undefined) { chainWatchers.notify(keyName, false, propertyWillChange); } } function chainsDidChange(obj, keyName, meta$$1) { var chainWatchers = meta$$1.readableChainWatchers(); if (chainWatchers !== undefined) { chainWatchers.notify(keyName, true, propertyDidChange); } } function overrideChains(obj, keyName, meta$$1) { var chainWatchers = meta$$1.readableChainWatchers(); if (chainWatchers !== undefined) { chainWatchers.revalidate(keyName); } } /** @method beginPropertyChanges @chainable @private */ function beginPropertyChanges() { deferred++; } /** @method endPropertyChanges @private */ function endPropertyChanges() { deferred--; if (deferred <= 0) { beforeObserverSet.clear(); observerSet.flush(); } } /** Make a series of property changes together in an exception-safe way. ```javascript Ember.changeProperties(function() { obj1.set('foo', mayBlowUpWhenSet); obj2.set('bar', baz); }); ``` @method changeProperties @param {Function} callback @private */ function changeProperties(callback) { beginPropertyChanges(); try { callback(); } finally { endPropertyChanges(); } } function indexOf(array, target, method) { var index = -1, i; // hashes are added to the end of the event array // so it makes sense to start searching at the end // of the array and search in reverse for (i = array.length - 3; i >= 0; i -= 3) { if (target === array[i] && method === array[i + 1]) { index = i; break; } } return index; } function accumulateListeners(obj, eventName, otherActions, meta$$1) { var actions = meta$$1.matchingListeners(eventName), i, target, method, flags, actionIndex; if (actions === undefined) { return; } var newActions = []; for (i = actions.length - 3; i >= 0; i -= 3) { target = actions[i]; method = actions[i + 1]; flags = actions[i + 2]; actionIndex = indexOf(otherActions, target, method); if (actionIndex === -1) { otherActions.push(target, method, flags); newActions.push(target, method, flags); } } return newActions; } function notifyBeforeObservers(obj, keyName, meta$$1) { if (meta$$1.isSourceDestroying()) { return; } var eventName = beforeEvent(keyName); var listeners = void 0, added = void 0; if (deferred > 0) { listeners = beforeObserverSet.add(obj, keyName, eventName); added = accumulateListeners(obj, eventName, listeners, meta$$1); } sendEvent(obj, eventName, [obj, keyName], added); } function notifyObservers(obj, keyName, meta$$1) { if (meta$$1.isSourceDestroying()) { return; } var eventName = changeEvent(keyName); var listeners = void 0; if (deferred > 0) { listeners = observerSet.add(obj, keyName, eventName); accumulateListeners(obj, eventName, listeners, meta$$1); } else { sendEvent(obj, eventName, [obj, keyName]); } } /** @module @ember/object */ // .......................................................... // DESCRIPTOR // /** Objects of this type can implement an interface to respond to requests to get and set. The default implementation handles simple properties. @class Descriptor @private */ function Descriptor() { this.isDescriptor = true; } // .......................................................... // DEFINING PROPERTIES API // {} /** NOTE: This is a low-level method used by other parts of the API. You almost never want to call this method directly. Instead you should use `mixin()` to define new properties. Defines a property on an object. This method works much like the ES5 `Object.defineProperty()` method except that it can also accept computed properties and other special descriptors. Normally this method takes only three parameters. However if you pass an instance of `Descriptor` as the third param then you can pass an optional value as the fourth parameter. This is often more efficient than creating new descriptor hashes for each property. ## Examples ```javascript import { defineProperty, computed } from '@ember/object'; // ES5 compatible mode defineProperty(contact, 'firstName', { writable: true, configurable: false, enumerable: true, value: 'Charles' }); // define a simple property defineProperty(contact, 'lastName', undefined, 'Jolley'); // define a computed property defineProperty(contact, 'fullName', computed('firstName', 'lastName', function() { return this.firstName+' '+this.lastName; })); ``` @private @method defineProperty @for @ember/object @param {Object} obj the object to define this property on. This may be a prototype. @param {String} keyName the name of the property @param {Descriptor} [desc] an instance of `Descriptor` (typically a computed property) or an ES5 descriptor. You must provide this or `data` but not both. @param {*} [data] something other than a descriptor, that will become the explicit value of this property. */ function defineProperty(obj, keyName, desc, data, meta$$1) { if (meta$$1 === undefined) { meta$$1 = meta(obj); } var watchEntry = meta$$1.peekWatching(keyName); var watching = watchEntry !== undefined && watchEntry > 0; var previousDesc = descriptorFor(obj, keyName, meta$$1); var wasDescriptor = previousDesc !== undefined; if (wasDescriptor) { previousDesc.teardown(obj, keyName, meta$$1); } var value = void 0; if (desc instanceof Descriptor) { value = desc; { obj[keyName] = value; } didDefineComputedProperty(obj.constructor); if (typeof desc.setup === 'function') { desc.setup(obj, keyName); } } else if (desc === undefined || desc === null) { value = data; { obj[keyName] = data; } } else { value = desc; // fallback to ES5 Object.defineProperty(obj, keyName, desc); } // if key is being watched, override chains that // were initialized with the prototype if (watching) { overrideChains(obj, keyName, meta$$1); } // The `value` passed to the `didDefineProperty` hook is // either the descriptor or data, whichever was passed. if (typeof obj.didDefineProperty === 'function') { obj.didDefineProperty(obj, keyName, value); } return this; } var hasCachedComputedProperties = false; function didDefineComputedProperty(constructor) { if (hasCachedComputedProperties === false) { return; } var cache = meta(constructor).readableCache(); if (cache && cache._computedProperties !== undefined) { cache._computedProperties = undefined; } } function watchKey(obj, keyName, _meta) { if (typeof obj !== 'object' || obj === null) { return; } var meta$$1 = _meta === undefined ? meta(obj) : _meta, possibleDesc; var count = meta$$1.peekWatching(keyName) || 0; meta$$1.writeWatching(keyName, count + 1); if (count === 0) { // activate watching first time possibleDesc = descriptorFor(obj, keyName, meta$$1); if (possibleDesc !== undefined && possibleDesc.willWatch) { possibleDesc.willWatch(obj, keyName, meta$$1); } if (typeof obj.willWatchProperty === 'function') { obj.willWatchProperty(keyName); } } } function unwatchKey(obj, keyName, _meta) { if (typeof obj !== 'object' || obj === null) { return; } var meta$$1 = _meta === undefined ? peekMeta(obj) : _meta, possibleDesc, _isDescriptor; // do nothing of this object has already been destroyed if (meta$$1 === undefined || meta$$1.isSourceDestroyed()) { return; } var count = meta$$1.peekWatching(keyName); if (count === 1) { meta$$1.writeWatching(keyName, 0); possibleDesc = descriptorFor(obj, keyName, meta$$1); _isDescriptor = possibleDesc !== undefined; if (_isDescriptor && possibleDesc.didUnwatch) { possibleDesc.didUnwatch(obj, keyName, meta$$1); } if (typeof obj.didUnwatchProperty === 'function') { obj.didUnwatchProperty(keyName); } } else if (count > 1) { meta$$1.writeWatching(keyName, count - 1); } } var FIRST_KEY = /^([^\.]+)/; function firstKey(path) { return path.match(FIRST_KEY)[0]; } function isObject(obj) { return typeof obj === 'object' && obj !== null; } function isVolatile(obj, keyName, meta$$1) { var desc = descriptorFor(obj, keyName, meta$$1); return !(desc !== undefined && desc._volatile === false); } var ChainWatchers = function () { function ChainWatchers() { // chain nodes that reference a key in this obj by key // we only create ChainWatchers when we are going to add them // so create this upfront this.chains = Object.create(null); } ChainWatchers.prototype.add = function (key, node) { var nodes = this.chains[key]; if (nodes === undefined) { this.chains[key] = [node]; } else { nodes.push(node); } }; ChainWatchers.prototype.remove = function (key, node) { var nodes = this.chains[key], i; if (nodes !== undefined) { for (i = 0; i < nodes.length; i++) { if (nodes[i] === node) { nodes.splice(i, 1); break; } } } }; ChainWatchers.prototype.has = function (key, node) { var nodes = this.chains[key], i; if (nodes !== undefined) { for (i = 0; i < nodes.length; i++) { if (nodes[i] === node) { return true; } } } return false; }; ChainWatchers.prototype.revalidateAll = function () { for (var key in this.chains) { this.notify(key, true, undefined); } }; ChainWatchers.prototype.revalidate = function (key) { this.notify(key, true, undefined); }; // key: the string key that is part of a path changed // revalidate: boolean; the chains that are watching this value should revalidate // callback: function that will be called with the object and path that // will be/are invalidated by this key change, depending on // whether the revalidate flag is passed ChainWatchers.prototype.notify = function (key, revalidate, callback) { var nodes = this.chains[key], i, _i, obj, path; if (nodes === undefined || nodes.length === 0) { return; } var affected = void 0; if (callback) { affected = []; } for (i = 0; i < nodes.length; i++) { nodes[i].notify(revalidate, affected); } if (callback === undefined) { return; } // we gather callbacks so we don't notify them during revalidation for (_i = 0; _i < affected.length; _i += 2) { obj = affected[_i]; path = affected[_i + 1]; callback(obj, path); } }; return ChainWatchers; }(); function makeChainWatcher() { return new ChainWatchers(); } function makeChainNode(obj) { return new ChainNode(null, null, obj); } function addChainWatcher(obj, keyName, node) { var m = meta(obj); m.writableChainWatchers(makeChainWatcher).add(keyName, node); watchKey(obj, keyName, m); } function removeChainWatcher(obj, keyName, node, _meta) { if (!isObject(obj)) { return; } var meta$$1 = _meta === undefined ? peekMeta(obj) : _meta; if (meta$$1 === undefined || meta$$1.readableChainWatchers() === undefined) { return; } // make meta writable meta$$1 = meta(obj); meta$$1.readableChainWatchers().remove(keyName, node); unwatchKey(obj, keyName, meta$$1); } // A ChainNode watches a single key on an object. If you provide a starting // value for the key then the node won't actually watch it. For a root node // pass null for parent and key and object for value. var ChainNode = function () { function ChainNode(parent, key, value) { this._parent = parent; this._key = key; // _watching is true when calling get(this._parent, this._key) will // return the value of this node. // // It is false for the root of a chain (because we have no parent) // and for global paths (because the parent node is the object with // the observer on it) var isWatching = this._watching = value === undefined, obj; this._chains = undefined; this._object = undefined; this.count = 0; this._value = value; this._paths = undefined; if (isWatching) { obj = parent.value(); if (!isObject(obj)) { return; } this._object = obj; addChainWatcher(this._object, this._key, this); } } ChainNode.prototype.value = function () { var obj; if (this._value === undefined && this._watching) { obj = this._parent.value(); this._value = lazyGet(obj, this._key); } return this._value; }; ChainNode.prototype.destroy = function () { if (this._watching) { removeChainWatcher(this._object, this._key, this); this._watching = false; // so future calls do nothing } }; // copies a top level object only ChainNode.prototype.copy = function (obj) { var ret = makeChainNode(obj), path; var paths = this._paths; if (paths !== undefined) { path = void 0; for (path in paths) { if (paths[path] > 0) { ret.add(path); } } } return ret; }; // called on the root node of a chain to setup watchers on the specified // path. ChainNode.prototype.add = function (path) { var paths = this._paths || (this._paths = {}); paths[path] = (paths[path] || 0) + 1; var key = firstKey(path); var tail = path.slice(key.length + 1); this.chain(key, tail); }; // called on the root node of a chain to teardown watcher on the specified // path ChainNode.prototype.remove = function (path) { var paths = this._paths; if (paths === undefined) { return; } if (paths[path] > 0) { paths[path]--; } var key = firstKey(path); var tail = path.slice(key.length + 1); this.unchain(key, tail); }; ChainNode.prototype.chain = function (key, path) { var chains = this._chains; var node = void 0; if (chains === undefined) { chains = this._chains = Object.create(null); } else { node = chains[key]; } if (node === undefined) { node = chains[key] = new ChainNode(this, key, undefined); } node.count++; // count chains... // chain rest of path if there is one if (path) { key = firstKey(path); path = path.slice(key.length + 1); node.chain(key, path); } }; ChainNode.prototype.unchain = function (key, path) { var chains = this._chains, nextKey, nextPath; var node = chains[key]; // unchain rest of path first... if (path && path.length > 1) { nextKey = firstKey(path); nextPath = path.slice(nextKey.length + 1); node.unchain(nextKey, nextPath); } // delete node if needed. node.count--; if (node.count <= 0) { chains[node._key] = undefined; node.destroy(); } }; ChainNode.prototype.notify = function (revalidate, affected) { if (revalidate && this._watching) { parentValue = this._parent.value(); if (parentValue !== this._object) { removeChainWatcher(this._object, this._key, this); if (isObject(parentValue)) { this._object = parentValue; addChainWatcher(parentValue, this._key, this); } else { this._object = undefined; } } this._value = undefined; } // then notify chains... var chains = this._chains, parentValue, node; if (chains !== undefined) { node = void 0; for (var key in chains) { node = chains[key]; if (node !== undefined) { node.notify(revalidate, affected); } } } if (affected && this._parent) { this._parent.populateAffected(this._key, 1, affected); } }; ChainNode.prototype.populateAffected = function (path, depth, affected) { if (this._key) { path = this._key + '.' + path; } if (this._parent) { this._parent.populateAffected(path, depth + 1, affected); } else if (depth > 1) { affected.push(this.value(), path); } }; return ChainNode; }(); function lazyGet(obj, key) { if (!isObject(obj)) { return; } var meta$$1 = peekMeta(obj), cache; // check if object meant only to be a prototype if (meta$$1 !== undefined && meta$$1.proto === obj) { return; } // Use `get` if the return value is an EachProxy or an uncacheable value. if (isVolatile(obj, key, meta$$1)) { return get(obj, key); // Otherwise attempt to get the cached value of the computed property } else { cache = meta$$1.readableCache(); if (cache !== undefined) { return cacheFor.get(cache, key); } } } /** @module ember */ var UNDEFINED = emberUtils.symbol('undefined'); // FLAGS var SOURCE_DESTROYING = 1 << 1; var SOURCE_DESTROYED = 1 << 2; var META_DESTROYED = 1 << 3; var IS_PROXY = 1 << 4; var NODE_STACK = []; var Meta = function () { function Meta(obj, parentMeta) { this._cache = undefined; this._watching = undefined; this._mixins = undefined; this._bindings = undefined; this._values = undefined; this._deps = undefined; this._chainWatchers = undefined; this._chains = undefined; this._tag = undefined; this._tags = undefined; this._factory = undefined; // initial value for all flags right now is false // see FLAGS const for detailed list of flags used this._flags = 0; // used only internally this.source = obj; // when meta(obj).proto === obj, the object is intended to be only a // prototype and doesn't need to actually be observable itself this.proto = undefined; // The next meta in our inheritance chain. We (will) track this // explicitly instead of using prototypical inheritance because we // have detailed knowledge of how each property should really be // inherited, and we can optimize it much better than JS runtimes. this.parent = parentMeta; this._listeners = undefined; this._listenersFinalized = false; this._suspendedListeners = undefined; } Meta.prototype.isInitialized = function (obj) { return this.proto !== obj; }; Meta.prototype.destroy = function () { if (this.isMetaDestroyed()) { return; } // remove chainWatchers to remove circular references that would prevent GC var nodes = void 0, key = void 0, nodeObject = void 0, foreignMeta; var node = this.readableChains(); if (node !== undefined) { NODE_STACK.push(node); // process tree while (NODE_STACK.length > 0) { node = NODE_STACK.pop(); // push children nodes = node._chains; if (nodes !== undefined) { for (key in nodes) { if (nodes[key] !== undefined) { NODE_STACK.push(nodes[key]); } } } // remove chainWatcher in node object if (node._watching) { nodeObject = node._object; if (nodeObject !== undefined) { foreignMeta = peekMeta(nodeObject); // avoid cleaning up chain watchers when both current and // foreign objects are being destroyed // if both are being destroyed manual cleanup is not needed // as they will be GC'ed and no non-destroyed references will // be remaining if (foreignMeta && !foreignMeta.isSourceDestroying()) { removeChainWatcher(nodeObject, node._key, node, foreignMeta); } } } } } this.setMetaDestroyed(); }; Meta.prototype.isSourceDestroying = function () { return (this._flags & SOURCE_DESTROYING) !== 0; }; Meta.prototype.setSourceDestroying = function () { this._flags |= SOURCE_DESTROYING; }; Meta.prototype.isSourceDestroyed = function () { return (this._flags & SOURCE_DESTROYED) !== 0; }; Meta.prototype.setSourceDestroyed = function () { this._flags |= SOURCE_DESTROYED; }; Meta.prototype.isMetaDestroyed = function () { return (this._flags & META_DESTROYED) !== 0; }; Meta.prototype.setMetaDestroyed = function () { this._flags |= META_DESTROYED; }; Meta.prototype.isProxy = function () { return (this._flags & IS_PROXY) !== 0; }; Meta.prototype.setProxy = function () { this._flags |= IS_PROXY; }; Meta.prototype._getOrCreateOwnMap = function (key) { return this[key] || (this[key] = Object.create(null)); }; Meta.prototype._getInherited = function (key) { var pointer = this, map; while (pointer !== undefined) { map = pointer[key]; if (map !== undefined) { return map; } pointer = pointer.parent; } }; Meta.prototype._findInherited = function (key, subkey) { var pointer = this, map, value; while (pointer !== undefined) { map = pointer[key]; if (map !== undefined) { value = map[subkey]; if (value !== undefined) { return value; } } pointer = pointer.parent; } }; // Implements a member that provides a lazily created map of maps, // with inheritance at both levels. Meta.prototype.writeDeps = function (subkey, itemkey, value) { var outerMap = this._getOrCreateOwnMap('_deps'); var innerMap = outerMap[subkey]; if (innerMap === undefined) { innerMap = outerMap[subkey] = Object.create(null); } innerMap[itemkey] = value; }; Meta.prototype.peekDeps = function (subkey, itemkey) { var pointer = this, map, value, itemvalue; while (pointer !== undefined) { map = pointer._deps; if (map !== undefined) { value = map[subkey]; if (value !== undefined) { itemvalue = value[itemkey]; if (itemvalue !== undefined) { return itemvalue; } } } pointer = pointer.parent; } }; Meta.prototype.hasDeps = function (subkey) { var pointer = this, deps; while (pointer !== undefined) { deps = pointer._deps; if (deps !== undefined && deps[subkey] !== undefined) { return true; } pointer = pointer.parent; } return false; }; Meta.prototype.forEachInDeps = function (subkey, fn) { return this._forEachIn('_deps', subkey, fn); }; Meta.prototype._forEachIn = function (key, subkey, fn) { var pointer = this, map, innerMap, i; var seen = void 0; var calls = void 0; while (pointer !== undefined) { map = pointer[key]; if (map !== undefined) { innerMap = map[subkey]; if (innerMap !== undefined) { for (var innerKey in innerMap) { seen = seen === undefined ? new Set() : seen; if (!seen.has(innerKey)) { seen.add(innerKey); calls = calls || []; calls.push(innerKey, innerMap[innerKey]); } } } } pointer = pointer.parent; } if (calls !== undefined) { for (i = 0; i < calls.length; i += 2) { fn(calls[i], calls[i + 1]); } } }; Meta.prototype.writableCache = function () { return this._getOrCreateOwnMap('_cache'); }; Meta.prototype.readableCache = function () { return this._cache; }; Meta.prototype.writableTags = function () { return this._getOrCreateOwnMap('_tags'); }; Meta.prototype.readableTags = function () { return this._tags; }; Meta.prototype.writableTag = function (create) { var ret = this._tag; if (ret === undefined) { ret = this._tag = create(this.source); } return ret; }; Meta.prototype.readableTag = function () { return this._tag; }; Meta.prototype.writableChainWatchers = function (create) { var ret = this._chainWatchers; if (ret === undefined) { ret = this._chainWatchers = create(this.source); } return ret; }; Meta.prototype.readableChainWatchers = function () { return this._chainWatchers; }; Meta.prototype.writableChains = function (create) { var ret = this._chains; if (ret === undefined) { if (this.parent === undefined) { ret = create(this.source); } else { ret = this.parent.writableChains(create).copy(this.source); } this._chains = ret; } return ret; }; Meta.prototype.readableChains = function () { return this._getInherited('_chains'); }; Meta.prototype.writeWatching = function (subkey, value) { var map = this._getOrCreateOwnMap('_watching'); map[subkey] = value; }; Meta.prototype.peekWatching = function (subkey) { return this._findInherited('_watching', subkey); }; Meta.prototype.writeMixins = function (subkey, value) { var map = this._getOrCreateOwnMap('_mixins'); map[subkey] = value; }; Meta.prototype.peekMixins = function (subkey) { return this._findInherited('_mixins', subkey); }; Meta.prototype.forEachMixins = function (fn) { var pointer = this, map; var seen = void 0; while (pointer !== undefined) { map = pointer._mixins; if (map !== undefined) { for (var key in map) { seen = seen === undefined ? new Set() : seen; if (!seen.has(key)) { seen.add(key); fn(key, map[key]); } } } pointer = pointer.parent; } }; Meta.prototype.writeBindings = function (subkey, value) { var map = this._getOrCreateOwnMap('_bindings'); map[subkey] = value; }; Meta.prototype.peekBindings = function (subkey) { return this._findInherited('_bindings', subkey); }; Meta.prototype.forEachBindings = function (fn) { var pointer = this, map; var seen = void 0; while (pointer !== undefined) { map = pointer._bindings; if (map !== undefined) { for (var key in map) { seen = seen || Object.create(null); if (seen[key] === undefined) { seen[key] = true; fn(key, map[key]); } } } pointer = pointer.parent; } }; Meta.prototype.clearBindings = function () { this._bindings = undefined; }; Meta.prototype.writeValues = function (subkey, value) { var map = this._getOrCreateOwnMap('_values'); map[subkey] = value; }; Meta.prototype.peekValues = function (subkey) { return this._findInherited('_values', subkey); }; Meta.prototype.deleteFromValues = function (subkey) { delete this._getOrCreateOwnMap('_values')[subkey]; }; emberBabel.createClass(Meta, [{ key: 'factory', set: function (factory) { this._factory = factory; }, get: function () { return this._factory; } }]); return Meta; }(); for (var name in protoMethods) { Meta.prototype[name] = protoMethods[name]; } var getPrototypeOf = Object.getPrototypeOf; var metaStore = new WeakMap(); function setMeta(obj, meta) { metaStore.set(obj, meta); } function peekMeta(obj) { var pointer = obj; var meta = void 0; while (pointer !== undefined && pointer !== null) { meta = metaStore.get(pointer); // jshint loopfunc:true if (meta !== undefined) { return meta; } pointer = getPrototypeOf(pointer); } } /** Tears down the meta on an object so that it can be garbage collected. Multiple calls will have no effect. @method deleteMeta @for Ember @param {Object} obj the object to destroy @return {void} @private */ /** Retrieves the meta hash for an object. If `writable` is true ensures the hash is writable for this object as well. The meta object contains information about computed property descriptors as well as any watched properties and other information. You generally will not access this information directly but instead work with higher level methods that manipulate this hash indirectly. @method meta @for Ember @private @param {Object} obj The object to retrieve meta for @param {Boolean} [writable=true] Pass `false` if you do not intend to modify the meta hash, allowing the method to avoid making an unnecessary copy. @return {Object} the meta hash for an object */ function meta(obj) { var maybeMeta = peekMeta(obj); var parent = void 0; // remove this code, in-favor of explicit parent if (maybeMeta !== undefined) { if (maybeMeta.source === obj) { return maybeMeta; } parent = maybeMeta; } var newMeta = new Meta(obj, parent); setMeta(obj, newMeta); return newMeta; } // Using `symbol()` here causes some node test to fail, presumably // because we define the CP with one copy of Ember and boot the app // with a different copy, so the random key we generate do not line // up. Is that testing a legit scenario? /** Returns the CP descriptor assocaited with `obj` and `keyName`, if any. @method descriptorFor @param {Object} obj the object to check @param {String} keyName the key to check @return {Descriptor} @private */ function descriptorFor(obj, keyName) { var possibleDesc; { possibleDesc = obj[keyName]; { return isDescriptor(possibleDesc) ? possibleDesc : undefined; } } } /** Check whether a value is a CP descriptor. @method descriptorFor @param {any} possibleDesc the value to check @return {boolean} @private */ function isDescriptor(possibleDesc) { return possibleDesc !== null && typeof possibleDesc === 'object' && possibleDesc.isDescriptor; } var Cache = function () { function Cache(limit, func, key, store) { this.size = 0; this.misses = 0; this.hits = 0; this.limit = limit; this.func = func; this.key = key; this.store = store || new DefaultStore(); } Cache.prototype.get = function (obj) { var key = this.key === undefined ? obj : this.key(obj); var value = this.store.get(key); if (value === undefined) { this.misses++; value = this._set(key, this.func(obj)); } else if (value === UNDEFINED) { this.hits++; value = undefined; } else { this.hits++; // nothing to translate } return value; }; Cache.prototype.set = function (obj, value) { var key = this.key === undefined ? obj : this.key(obj); return this._set(key, value); }; Cache.prototype._set = function (key, value) { if (this.limit > this.size) { this.size++; if (value === undefined) { this.store.set(key, UNDEFINED); } else { this.store.set(key, value); } } return value; }; Cache.prototype.purge = function () { this.store.clear(); this.size = 0; this.hits = 0; this.misses = 0; }; return Cache; }(); var DefaultStore = function () { function DefaultStore() { this.data = Object.create(null); } DefaultStore.prototype.get = function (key) { return this.data[key]; }; DefaultStore.prototype.set = function (key, value) { this.data[key] = value; }; DefaultStore.prototype.clear = function () { this.data = Object.create(null); }; return DefaultStore; }(); var IS_GLOBAL_PATH = /^[A-Z$].*[\.]/; var isGlobalPathCache = new Cache(1000, function (key) { return IS_GLOBAL_PATH.test(key); }); var firstDotIndexCache = new Cache(1000, function (key) { return key.indexOf('.'); }); var firstKeyCache = new Cache(1000, function (path) { var index = firstDotIndexCache.get(path); return index === -1 ? path : path.slice(0, index); }); var tailPathCache = new Cache(1000, function (path) { var index = firstDotIndexCache.get(path); return index === -1 ? undefined : path.slice(index + 1); }); function isGlobalPath(path) { return isGlobalPathCache.get(path); } function isPath(path) { return firstDotIndexCache.get(path) !== -1; } function getFirstKey(path) { return firstKeyCache.get(path); } function getTailPath(path) { return tailPathCache.get(path); } /** @module @ember/object */ var ALLOWABLE_TYPES = { object: true, function: true, string: true }; // .......................................................... // GET AND SET // // If we are on a platform that supports accessors we can use those. // Otherwise simulate accessors by looking up the property directly on the // object. /** Gets the value of a property on an object. If the property is computed, the function will be invoked. If the property is not defined but the object implements the `unknownProperty` method then that will be invoked. ```javascript Ember.get(obj, "name"); ``` If you plan to run on IE8 and older browsers then you should use this method anytime you want to retrieve a property on an object that you don't know for sure is private. (Properties beginning with an underscore '_' are considered private.) On all newer browsers, you only need to use this method to retrieve properties if the property might not be defined on the object and you want to respect the `unknownProperty` handler. Otherwise you can ignore this method. Note that if the object itself is `undefined`, this method will throw an error. @method get @for @ember/object @static @param {Object} obj The object to retrieve from. @param {String} keyName The property key to retrieve @return {Object} the property value or `null`. @public */ function get(obj, keyName) { var type = typeof obj; var isObject = type === 'object'; var descriptor = undefined; var value = void 0; if (isObject || type === 'function') { { value = obj[keyName]; if (isDescriptor(value)) { descriptor = value; } } if (descriptor !== undefined) { return descriptor.get(obj, keyName); } } else { value = obj[keyName]; } if (isPath(keyName)) { return _getPath(obj, keyName); } else if (value === undefined && isObject && !(keyName in obj) && typeof obj.unknownProperty === 'function') { return obj.unknownProperty(keyName); } else { return value; } } function _getPath(root, path) { var obj = root, i; var parts = path.split('.'); for (i = 0; i < parts.length; i++) { if (!isGettable(obj)) { return undefined; } obj = get(obj, parts[i]); if (obj && obj.isDestroyed) { return undefined; } } return obj; } function isGettable(obj) { return obj !== undefined && obj !== null && ALLOWABLE_TYPES[typeof obj]; } /** Retrieves the value of a property from an Object, or a default value in the case that the property returns `undefined`. ```javascript Ember.getWithDefault(person, 'lastName', 'Doe'); ``` @method getWithDefault @for @ember/object @static @param {Object} obj The object to retrieve from. @param {String} keyName The name of the property to retrieve @param {Object} defaultValue The value to return if the property value is undefined @return {Object} The property value or the defaultValue. @public */ /** @module @ember/object */ /** Sets the value of a property on an object, respecting computed properties and notifying observers and other listeners of the change. If the property is not defined but the object implements the `setUnknownProperty` method then that will be invoked as well. ```javascript Ember.set(obj, "name", value); ``` @method set @static @for @ember/object @param {Object} obj The object to modify. @param {String} keyName The property key to set @param {Object} value The value to set @return {Object} the passed value. @public */ function set(obj, keyName, value, tolerant) { if (isPath(keyName)) { return setPath(obj, keyName, value, tolerant); } var currentValue = obj[keyName], meta$$1; if (isDescriptor(currentValue)) { /* computed property */ currentValue.set(obj, keyName, value); } else if (currentValue === undefined && 'object' === typeof obj && !(keyName in obj) && typeof obj.setUnknownProperty === 'function') { /* unknown property */ obj.setUnknownProperty(keyName, value); } else if (!(currentValue === value)) { meta$$1 = peekMeta(obj); propertyWillChange(obj, keyName, meta$$1); { obj[keyName] = value; } propertyDidChange(obj, keyName, meta$$1); } return value; } function setPath(root, path, value, tolerant) { var parts = path.split('.'); var keyName = parts.pop(); var newPath = parts.join('.'); var newRoot = _getPath(root, newPath); if (newRoot) { return set(newRoot, keyName, value); } else if (!tolerant) { throw new emberDebug.Error('Property set failed: object in path "' + newPath + '" could not be found or was destroyed.'); } } /** Error-tolerant form of `Ember.set`. Will not blow up if any part of the chain is `undefined`, `null`, or destroyed. This is primarily used when syncing bindings, which may try to update after an object has been destroyed. @method trySet @static @for @ember/object @param {Object} root The object to modify. @param {String} path The property path to set @param {Object} value The value to set @public */ function trySet(root, path, value) { return set(root, path, value, true); } /** @module @ember/object */ var END_WITH_EACH_REGEX = /\.@each$/; /** Expands `pattern`, invoking `callback` for each expansion. The only pattern supported is brace-expansion, anything else will be passed once to `callback` directly. Example ```js import { expandProperties } from '@ember/object/computed'; function echo(arg){ console.log(arg); } expandProperties('foo.bar', echo); //=> 'foo.bar' expandProperties('{foo,bar}', echo); //=> 'foo', 'bar' expandProperties('foo.{bar,baz}', echo); //=> 'foo.bar', 'foo.baz' expandProperties('{foo,bar}.baz', echo); //=> 'foo.baz', 'bar.baz' expandProperties('foo.{bar,baz}.[]', echo) //=> 'foo.bar.[]', 'foo.baz.[]' expandProperties('{foo,bar}.{spam,eggs}', echo) //=> 'foo.spam', 'foo.eggs', 'bar.spam', 'bar.eggs' expandProperties('{foo}.bar.{baz}') //=> 'foo.bar.baz' ``` @method expandProperties @static @for @ember/object @public @param {String} pattern The property pattern to expand. @param {Function} callback The callback to invoke. It is invoked once per expansion, and is passed the expansion. */ function expandProperties(pattern, callback) { var start = pattern.indexOf('{'); if (start < 0) { callback(pattern.replace(END_WITH_EACH_REGEX, '.[]')); } else { dive('', pattern, start, callback); } } function dive(prefix, pattern, start, callback) { var end = pattern.indexOf('}'), i = 0, newStart = void 0, arrayLength = void 0; var tempArr = pattern.substring(start + 1, end).split(','); var after = pattern.substring(end + 1); prefix = prefix + pattern.substring(0, start); arrayLength = tempArr.length; while (i < arrayLength) { newStart = after.indexOf('{'); if (newStart < 0) { callback((prefix + tempArr[i++] + after).replace(END_WITH_EACH_REGEX, '.[]')); } else { dive(prefix + tempArr[i++], after, newStart, callback); } } } // .......................................................... // DEPENDENT KEYS // function addDependentKeys(desc, obj, keyName, meta) { // the descriptor has a list of dependent keys, so // add all of its dependent keys. var depKeys = desc._dependentKeys, idx, depKey; if (depKeys === null || depKeys === undefined) { return; } for (idx = 0; idx < depKeys.length; idx++) { depKey = depKeys[idx]; // Increment the number of times depKey depends on keyName. meta.writeDeps(depKey, keyName, (meta.peekDeps(depKey, keyName) || 0) + 1); // Watch the depKey watch(obj, depKey, meta); } } function removeDependentKeys(desc, obj, keyName, meta) { // the descriptor has a list of dependent keys, so // remove all of its dependent keys. var depKeys = desc._dependentKeys, idx, depKey; if (depKeys === null || depKeys === undefined) { return; } for (idx = 0; idx < depKeys.length; idx++) { depKey = depKeys[idx]; // Decrement the number of times depKey depends on keyName. meta.writeDeps(depKey, keyName, (meta.peekDeps(depKey, keyName) || 0) - 1); // Unwatch the depKey unwatch(obj, depKey, meta); } } /** A computed property transforms an object literal with object's accessor function(s) into a property. By default the function backing the computed property will only be called once and the result will be cached. You can specify various properties that your computed property depends on. This will force the cached result to be recomputed if the dependencies are modified. In the following example we declare a computed property - `fullName` - by calling `computed` with property dependencies (`firstName` and `lastName`) as leading arguments and getter accessor function. The `fullName` getter function will be called once (regardless of how many times it is accessed) as long as its dependencies have not changed. Once `firstName` or `lastName` are updated any future calls (or anything bound) to `fullName` will incorporate the new values. ```javascript import EmberObject, { computed } from '@ember/object'; let Person = EmberObject.extend({ // these will be supplied by `create` firstName: null, lastName: null, fullName: computed('firstName', 'lastName', function() { let firstName = this.get('firstName'), lastName = this.get('lastName'); return `${firstName} ${lastName}`; }) }); let tom = Person.create({ firstName: 'Tom', lastName: 'Dale' }); tom.get('fullName') // 'Tom Dale' ``` You can also define what Ember should do when setting a computed property by providing additional function (`set`) in hash argument. If you try to set a computed property, it will try to invoke setter accessor function with the key and value you want to set it to as arguments. ```javascript import EmberObject, { computed } from '@ember/object'; let Person = EmberObject.extend({ // these will be supplied by `create` firstName: null, lastName: null, fullName: computed('firstName', 'lastName', { get(key) { let firstName = this.get('firstName'), lastName = this.get('lastName'); return firstName + ' ' + lastName; }, set(key, value) { let [firstName, lastName] = value.split(' '); this.set('firstName', firstName); this.set('lastName', lastName); return value; } }) }); let person = Person.create(); person.set('fullName', 'Peter Wagenet'); person.get('firstName'); // 'Peter' person.get('lastName'); // 'Wagenet' ``` You can overwrite computed property with normal property (no longer computed), that won't change if dependencies change, if you set computed property and it won't have setter accessor function defined. You can also mark computed property as `.readOnly()` and block all attempts to set it. ```javascript import EmberObject, { computed } from '@ember/object'; let Person = EmberObject.extend({ // these will be supplied by `create` firstName: null, lastName: null, fullName: computed('firstName', 'lastName', { get(key) { let firstName = this.get('firstName'); let lastName = this.get('lastName'); return firstName + ' ' + lastName; } }).readOnly() }); let person = Person.create(); person.set('fullName', 'Peter Wagenet'); // Uncaught Error: Cannot set read-only property "fullName" on object: <(...):emberXXX> ``` Additional resources: - [New CP syntax RFC](https://github.com/emberjs/rfcs/blob/master/text/0011-improved-cp-syntax.md) - [New computed syntax explained in "Ember 1.12 released" ](https://emberjs.com/blog/2015/05/13/ember-1-12-released.html#toc_new-computed-syntax) @class ComputedProperty @public */ function ComputedProperty(config, opts) { this.isDescriptor = true; var hasGetterOnly = typeof config === 'function'; if (hasGetterOnly) { this._getter = config; } else { this._getter = config.get; this._setter = config.set; } this._suspended = undefined; this._meta = undefined; this._volatile = false; this._dependentKeys = opts && opts.dependentKeys; this._readOnly = opts && hasGetterOnly && opts.readOnly === true; } ComputedProperty.prototype = new Descriptor(); ComputedProperty.prototype.constructor = ComputedProperty; var ComputedPropertyPrototype = ComputedProperty.prototype; /** Call on a computed property to set it into non-cached mode. When in this mode the computed property will not automatically cache the return value. It also does not automatically fire any change events. You must manually notify any changes if you want to observe this property. Dependency keys have no effect on volatile properties as they are for cache invalidation and notification when cached value is invalidated. ```javascript import EmberObject, { computed } from '@ember/object'; let outsideService = EmberObject.extend({ value: computed(function() { return OutsideService.getValue(); }).volatile() }).create(); ``` @method volatile @return {ComputedProperty} this @chainable @public */ ComputedPropertyPrototype.volatile = function () { this._volatile = true; return this; }; /** Call on a computed property to set it into read-only mode. When in this mode the computed property will throw an error when set. ```javascript import EmberObject, { computed } from '@ember/object'; let Person = EmberObject.extend({ guid: computed(function() { return 'guid-guid-guid'; }).readOnly() }); let person = Person.create(); person.set('guid', 'new-guid'); // will throw an exception ``` @method readOnly @return {ComputedProperty} this @chainable @public */ ComputedPropertyPrototype.readOnly = function () { this._readOnly = true; return this; }; /** Sets the dependent keys on this computed property. Pass any number of arguments containing key paths that this computed property depends on. ```javascript import EmberObject, { computed } from '@ember/object'; let President = EmberObject.extend({ fullName: computed('firstName', 'lastName', function() { return this.get('firstName') + ' ' + this.get('lastName'); // Tell Ember that this computed property depends on firstName // and lastName }) }); let president = President.create({ firstName: 'Barack', lastName: 'Obama' }); president.get('fullName'); // 'Barack Obama' ``` @method property @param {String} path* zero or more property paths @return {ComputedProperty} this @chainable @public */ ComputedPropertyPrototype.property = function () { var args = [], i; function addArg(property) { args.push(property); } for (i = 0; i < arguments.length; i++) { expandProperties(arguments[i], addArg); } this._dependentKeys = args; return this; }; /** In some cases, you may want to annotate computed properties with additional metadata about how they function or what values they operate on. For example, computed property functions may close over variables that are then no longer available for introspection. You can pass a hash of these values to a computed property like this: ``` import { computed } from '@ember/object'; import Person from 'my-app/utils/person'; person: computed(function() { let personId = this.get('personId'); return Person.create({ id: personId }); }).meta({ type: Person }) ``` The hash that you pass to the `meta()` function will be saved on the computed property descriptor under the `_meta` key. Ember runtime exposes a public API for retrieving these values from classes, via the `metaForProperty()` function. @method meta @param {Object} meta @chainable @public */ ComputedPropertyPrototype.meta = function (meta$$1) { if (arguments.length === 0) { return this._meta || {}; } else { this._meta = meta$$1; return this; } }; // invalidate cache when CP key changes ComputedPropertyPrototype.didChange = function (obj, keyName) { // _suspended is set via a CP.set to ensure we don't clear // the cached value set by the setter if (this._volatile || this._suspended === obj) { return; } // don't create objects just to invalidate var meta$$1 = peekMeta(obj); if (meta$$1 === undefined || meta$$1.source !== obj) { return; } var cache = meta$$1.readableCache(); if (cache !== undefined && cache[keyName] !== undefined) { cache[keyName] = undefined; removeDependentKeys(this, obj, keyName, meta$$1); } }; ComputedPropertyPrototype.get = function (obj, keyName) { if (this._volatile) { return this._getter.call(obj, keyName); } var meta$$1 = meta(obj); var cache = meta$$1.writableCache(); var result = cache[keyName]; if (result === UNDEFINED) { return undefined; } else if (result !== undefined) { return result; } var ret = this._getter.call(obj, keyName); cache[keyName] = ret === undefined ? UNDEFINED : ret; var chainWatchers = meta$$1.readableChainWatchers(); if (chainWatchers !== undefined) { chainWatchers.revalidate(keyName); } addDependentKeys(this, obj, keyName, meta$$1); return ret; }; ComputedPropertyPrototype.set = function (obj, keyName, value) { if (this._readOnly) { this._throwReadOnlyError(obj, keyName); } if (!this._setter) { return this.clobberSet(obj, keyName, value); } if (this._volatile) { return this.volatileSet(obj, keyName, value); } return this.setWithSuspend(obj, keyName, value); }; ComputedPropertyPrototype._throwReadOnlyError = function (obj, keyName) { throw new emberDebug.Error('Cannot set read-only property "' + keyName + '" on object: ' + emberUtils.inspect(obj)); }; ComputedPropertyPrototype.clobberSet = function (obj, keyName, value) { var cachedValue = cacheFor(obj, keyName); defineProperty(obj, keyName, null, cachedValue); set(obj, keyName, value); return value; }; ComputedPropertyPrototype.volatileSet = function (obj, keyName, value) { return this._setter.call(obj, keyName, value); }; ComputedPropertyPrototype.setWithSuspend = function (obj, keyName, value) { var oldSuspended = this._suspended; this._suspended = obj; try { return this._set(obj, keyName, value); } finally { this._suspended = oldSuspended; } }; ComputedPropertyPrototype._set = function (obj, keyName, value) { var meta$$1 = meta(obj); var cache = meta$$1.writableCache(); var val = cache[keyName]; var hadCachedValue = val !== undefined; var cachedValue = void 0; if (hadCachedValue && val !== UNDEFINED) { cachedValue = val; } var ret = this._setter.call(obj, keyName, value, cachedValue); // allows setter to return the same value that is cached already if (hadCachedValue && cachedValue === ret) { return ret; } propertyWillChange(obj, keyName, meta$$1); if (!hadCachedValue) { addDependentKeys(this, obj, keyName, meta$$1); } cache[keyName] = ret === undefined ? UNDEFINED : ret; propertyDidChange(obj, keyName, meta$$1); return ret; }; /* called before property is overridden */ ComputedPropertyPrototype.teardown = function (obj, keyName, meta$$1) { if (this._volatile) { return; } var cache = meta$$1.readableCache(); if (cache !== undefined && cache[keyName] !== undefined) { removeDependentKeys(this, obj, keyName, meta$$1); cache[keyName] = undefined; } }; /** This helper returns a new property descriptor that wraps the passed computed property function. You can use this helper to define properties with mixins or via `defineProperty()`. If you pass a function as an argument, it will be used as a getter. A computed property defined in this way might look like this: ```js import EmberObject, { computed } from '@ember/object'; let Person = EmberObject.extend({ init() { this._super(...arguments); this.firstName = 'Betty'; this.lastName = 'Jones'; }, fullName: computed('firstName', 'lastName', function() { return `${this.get('firstName')} ${this.get('lastName')}`; }) }); let client = Person.create(); client.get('fullName'); // 'Betty Jones' client.set('lastName', 'Fuller'); client.get('fullName'); // 'Betty Fuller' ``` You can pass a hash with two functions, `get` and `set`, as an argument to provide both a getter and setter: ```js import EmberObject, { computed } from '@ember/object'; let Person = EmberObject.extend({ init() { this._super(...arguments); this.firstName = 'Betty'; this.lastName = 'Jones'; }, fullName: computed('firstName', 'lastName', { get(key) { return `${this.get('firstName')} ${this.get('lastName')}`; }, set(key, value) { let [firstName, lastName] = value.split(/\s+/); this.setProperties({ firstName, lastName }); return value; } }) }); let client = Person.create(); client.get('firstName'); // 'Betty' client.set('fullName', 'Carroll Fuller'); client.get('firstName'); // 'Carroll' ``` The `set` function should accept two parameters, `key` and `value`. The value returned from `set` will be the new value of the property. _Note: This is the preferred way to define computed properties when writing third-party libraries that depend on or use Ember, since there is no guarantee that the user will have [prototype Extensions](https://emberjs.com/guides/configuring-ember/disabling-prototype-extensions/) enabled._ The alternative syntax, with prototype extensions, might look like: ```js fullName: function() { return this.get('firstName') + ' ' + this.get('lastName'); }.property('firstName', 'lastName') ``` @method computed @for @ember/object @static @param {String} [dependentKeys*] Optional dependent keys that trigger this computed property. @param {Function} func The computed property function. @return {ComputedProperty} property descriptor instance @public */ /** Returns the cached value for a property, if one exists. This can be useful for peeking at the value of a computed property that is generated lazily, without accidentally causing it to be created. @method cacheFor @static @for @ember/object/internals @param {Object} obj the object whose property you want to check @param {String} key the name of the property whose cached value you want to return @return {Object} the cached value @public */ function cacheFor(obj, key) { var meta$$1 = peekMeta(obj); var cache = meta$$1 !== undefined ? meta$$1.source === obj && meta$$1.readableCache() : undefined; var ret = cache !== undefined ? cache[key] : undefined; if (ret === UNDEFINED) { return undefined; } return ret; } cacheFor.set = function (cache, key, value) { if (value === undefined) { cache[key] = UNDEFINED; } else { cache[key] = value; } }; cacheFor.get = function (cache, key) { var ret = cache[key]; if (ret === UNDEFINED) { return undefined; } return ret; }; cacheFor.remove = function (cache, key) { cache[key] = undefined; }; var CONSUMED = {}; var AliasedProperty = function (_Descriptor) { emberBabel.inherits(AliasedProperty, _Descriptor); function AliasedProperty(altKey) { var _this = emberBabel.possibleConstructorReturn(this, _Descriptor.call(this)); _this.isDescriptor = true; _this.altKey = altKey; _this._dependentKeys = [altKey]; return _this; } AliasedProperty.prototype.setup = function (obj, keyName) { var meta$$1 = meta(obj); if (meta$$1.peekWatching(keyName)) { addDependentKeys(this, obj, keyName, meta$$1); } }; AliasedProperty.prototype.teardown = function (obj, keyName, meta$$1) { if (meta$$1.peekWatching(keyName)) { removeDependentKeys(this, obj, keyName, meta$$1); } }; AliasedProperty.prototype.willWatch = function (obj, keyName, meta$$1) { addDependentKeys(this, obj, keyName, meta$$1); }; AliasedProperty.prototype.didUnwatch = function (obj, keyName, meta$$1) { removeDependentKeys(this, obj, keyName, meta$$1); }; AliasedProperty.prototype.get = function (obj, keyName) { var ret = get(obj, this.altKey); var meta$$1 = meta(obj); var cache = meta$$1.writableCache(); if (cache[keyName] !== CONSUMED) { cache[keyName] = CONSUMED; addDependentKeys(this, obj, keyName, meta$$1); } return ret; }; AliasedProperty.prototype.set = function (obj, keyName, value) { return set(obj, this.altKey, value); }; AliasedProperty.prototype.readOnly = function () { this.set = AliasedProperty_readOnlySet; return this; }; AliasedProperty.prototype.oneWay = function () { this.set = AliasedProperty_oneWaySet; return this; }; return AliasedProperty; }(Descriptor); function AliasedProperty_readOnlySet(obj, keyName) { // eslint-disable-line no-unused-vars throw new emberDebug.Error('Cannot set read-only property \'' + keyName + '\' on object: ' + emberUtils.inspect(obj)); } function AliasedProperty_oneWaySet(obj, keyName, value) { defineProperty(obj, keyName, null); return set(obj, keyName, value); } // Backwards compatibility with Ember Data. AliasedProperty.prototype._meta = undefined; AliasedProperty.prototype.meta = ComputedProperty.prototype.meta; /** @module @ember/polyfills */ /** Merge the contents of two objects together into the first object. ```javascript import { merge } from '@ember/polyfills'; merge({ first: 'Tom' }, { last: 'Dale' }); // { first: 'Tom', last: 'Dale' } var a = { first: 'Yehuda' }; var b = { last: 'Katz' }; merge(a, b); // a == { first: 'Yehuda', last: 'Katz' }, b == { last: 'Katz' } ``` @method merge @static @for @ember/polyfills @param {Object} original The object to merge into @param {Object} updates The object to copy properties from @return {Object} @public */ /** @module ember */ /** Used internally to allow changing properties in a backwards compatible way, and print a helpful deprecation warning. @method deprecateProperty @param {Object} object The object to add the deprecated property to. @param {String} deprecatedKey The property to add (and print deprecation warnings upon accessing). @param {String} newKey The property that will be aliased. @private @since 1.7.0 */ /* eslint no-console:off */ /* global console */ /** @module @ember/instrumentation @private */ /** The purpose of the Ember Instrumentation module is to provide efficient, general-purpose instrumentation for Ember. Subscribe to a listener by using `subscribe`: ```javascript import { subscribe } from '@ember/instrumentation'; subscribe("render", { before(name, timestamp, payload) { }, after(name, timestamp, payload) { } }); ``` If you return a value from the `before` callback, that same value will be passed as a fourth parameter to the `after` callback. Instrument a block of code by using `instrument`: ```javascript import { instrument } from '@ember/instrumentation'; instrument("render.handlebars", payload, function() { // rendering logic }, binding); ``` Event names passed to `instrument` are namespaced by periods, from more general to more specific. Subscribers can listen for events by whatever level of granularity they are interested in. In the above example, the event is `render.handlebars`, and the subscriber listened for all events beginning with `render`. It would receive callbacks for events named `render`, `render.handlebars`, `render.container`, or even `render.handlebars.layout`. @class Instrumentation @static @private */ var subscribers = []; var cache = {}; function populateListeners(name) { var listeners = [], i; var subscriber = void 0; for (i = 0; i < subscribers.length; i++) { subscriber = subscribers[i]; if (subscriber.regex.test(name)) { listeners.push(subscriber.object); } } cache[name] = listeners; return listeners; } var time = function () { var perf = 'undefined' !== typeof window ? window.performance || {} : {}; var fn = perf.now || perf.mozNow || perf.webkitNow || perf.msNow || perf.oNow; // fn.bind will be available in all the browsers that support the advanced window.performance... ;-) return fn ? fn.bind(perf) : function () { return +new Date(); }; }(); /** Notifies event's subscribers, calls `before` and `after` hooks. @method instrument @for @ember/instrumentation @static @param {String} [name] Namespaced event name. @param {Object} _payload @param {Function} callback Function that you're instrumenting. @param {Object} binding Context that instrument function is called with. @private */ exports.flaggedInstrument = void 0; { exports.flaggedInstrument = function (name, payload, callback) { return callback(); }; } function withFinalizer(callback, finalizer, payload, binding) { var result = void 0; try { result = callback.call(binding); } catch (e) { payload.exception = e; result = payload; } finally { finalizer(); } return result; } function NOOP() {} // private for now function _instrumentStart(name, _payload, _payloadParam) { if (subscribers.length === 0) { return NOOP; } var listeners = cache[name]; if (!listeners) { listeners = populateListeners(name); } if (listeners.length === 0) { return NOOP; } var payload = _payload(_payloadParam); var STRUCTURED_PROFILE = emberEnvironment.ENV.STRUCTURED_PROFILE; var timeName = void 0; if (STRUCTURED_PROFILE) { timeName = name + ': ' + payload.object; console.time(timeName); } var beforeValues = new Array(listeners.length); var i = void 0, listener = void 0; var timestamp = time(); for (i = 0; i < listeners.length; i++) { listener = listeners[i]; beforeValues[i] = listener.before(name, timestamp, payload); } return function () { var i = void 0, listener = void 0; var timestamp = time(); for (i = 0; i < listeners.length; i++) { listener = listeners[i]; if (typeof listener.after === 'function') { listener.after(name, timestamp, payload, beforeValues[i]); } } if (STRUCTURED_PROFILE) { console.timeEnd(timeName); } }; } /** Subscribes to a particular event or instrumented block of code. @method subscribe @for @ember/instrumentation @static @param {String} [pattern] Namespaced event name. @param {Object} [object] Before and After hooks. @return {Subscriber} @private */ /** Unsubscribes from a particular event or instrumented block of code. @method unsubscribe @for @ember/instrumentation @static @param {Object} [subscriber] @private */ /** Resets `Instrumentation` by flushing list of subscribers. @method reset @for @ember/instrumentation @static @private */ var onerror = void 0; var onErrorTarget = { get onerror() { return onerror; } }; // Ember.onerror getter // Ember.onerror setter var dispatchOverride = void 0; // allows testing adapter to override dispatch /** @module @ember/utils */ /** Returns true if the passed value is null or undefined. This avoids errors from JSLint complaining about use of ==, which can be technically confusing. ```javascript isNone(); // true isNone(null); // true isNone(undefined); // true isNone(''); // false isNone([]); // false isNone(function() {}); // false ``` @method isNone @static @for @ember/utils @param {Object} obj Value to test @return {Boolean} @public */ function isNone(obj) { return obj === null || obj === undefined; } /** @module @ember/utils */ /** Verifies that a value is `null` or `undefined`, an empty string, or an empty array. Constrains the rules on `isNone` by returning true for empty strings and empty arrays. ```javascript isEmpty(); // true isEmpty(null); // true isEmpty(undefined); // true isEmpty(''); // true isEmpty([]); // true isEmpty({}); // false isEmpty('Adam Hawkins'); // false isEmpty([0,1,2]); // false isEmpty('\n\t'); // false isEmpty(' '); // false ``` @method isEmpty @static @for @ember/utils @param {Object} obj Value to test @return {Boolean} @public */ function isEmpty(obj) { var none = isNone(obj), size, length; if (none) { return none; } if (typeof obj.size === 'number') { return !obj.size; } var objectType = typeof obj; if (objectType === 'object') { size = get(obj, 'size'); if (typeof size === 'number') { return !size; } } if (typeof obj.length === 'number' && objectType !== 'function') { return !obj.length; } if (objectType === 'object') { length = get(obj, 'length'); if (typeof length === 'number') { return !length; } } return false; } /** @module @ember/utils */ /** A value is blank if it is empty or a whitespace string. ```javascript import { isBlank } from '@ember/utils'; isBlank(); // true isBlank(null); // true isBlank(undefined); // true isBlank(''); // true isBlank([]); // true isBlank('\n\t'); // true isBlank(' '); // true isBlank({}); // false isBlank('\n\t Hello'); // false isBlank('Hello world'); // false isBlank([1,2,3]); // false ``` @method isBlank @static @for @ember/utils @param {Object} obj Value to test @return {Boolean} @since 1.5.0 @public */ function isBlank(obj) { return isEmpty(obj) || typeof obj === 'string' && /\S/.test(obj) === false; } /** @module @ember/utils */ /** A value is present if it not `isBlank`. ```javascript isPresent(); // false isPresent(null); // false isPresent(undefined); // false isPresent(''); // false isPresent(' '); // false isPresent('\n\t'); // false isPresent([]); // false isPresent({ length: 0 }) // false isPresent(false); // true isPresent(true); // true isPresent('string'); // true isPresent(0); // true isPresent(function() {}) // true isPresent({}); // true isPresent(false); // true isPresent('\n\t Hello'); // true isPresent([1,2,3]); // true ``` @method isPresent @static @for @ember/utils @param {Object} obj Value to test @return {Boolean} @since 1.8.0 @public */ var backburner$1 = new Backburner(['sync', 'actions', 'destroy'], { sync: { before: beginPropertyChanges, after: endPropertyChanges }, defaultQueue: 'actions', onBegin: function (current) { run.currentRunLoop = current; }, onEnd: function (current, next) { run.currentRunLoop = next; }, onErrorTarget: onErrorTarget, onErrorMethod: 'onerror' }); /** @module @ember/runloop */ // .......................................................... // run - this is ideally the only public API the dev sees // /** Runs the passed target and method inside of a RunLoop, ensuring any deferred actions including bindings and views updates are flushed at the end. Normally you should not need to invoke this method yourself. However if you are implementing raw event handlers when interfacing with other libraries or plugins, you should probably wrap all of your code inside this call. ```javascript import { run } from '@ember/runloop'; run(function() { // code to be executed within a RunLoop }); ``` @method run @for @ember/runloop @static @param {Object} [target] target of method to call @param {Function|String} method Method to invoke. May be a function or a string. If you pass a string then it will be looked up on the passed target. @param {Object} [args*] Any additional arguments you wish to pass to the method. @return {Object} return value from invoking the passed function. @public */ function run() { return backburner$1.run.apply(backburner$1, arguments); } /** If no run-loop is present, it creates a new one. If a run loop is present it will queue itself to run on the existing run-loops action queue. Please note: This is not for normal usage, and should be used sparingly. If invoked when not within a run loop: ```javascript import { join } from '@ember/runloop'; join(function() { // creates a new run-loop }); ``` Alternatively, if called within an existing run loop: ```javascript import { run, join } from '@ember/runloop'; run(function() { // creates a new run-loop join(function() { // joins with the existing run-loop, and queues for invocation on // the existing run-loops action queue. }); }); ``` @method join @static @for @ember/runloop @param {Object} [target] target of method to call @param {Function|String} method Method to invoke. May be a function or a string. If you pass a string then it will be looked up on the passed target. @param {Object} [args*] Any additional arguments you wish to pass to the method. @return {Object} Return value from invoking the passed function. Please note, when called within an existing loop, no return value is possible. @public */ run.join = function () { return backburner$1.join.apply(backburner$1, arguments); }; /** Allows you to specify which context to call the specified function in while adding the execution of that function to the Ember run loop. This ability makes this method a great way to asynchronously integrate third-party libraries into your Ember application. `bind` takes two main arguments, the desired context and the function to invoke in that context. Any additional arguments will be supplied as arguments to the function that is passed in. Let's use the creation of a TinyMCE component as an example. Currently, TinyMCE provides a setup configuration option we can use to do some processing after the TinyMCE instance is initialized but before it is actually rendered. We can use that setup option to do some additional setup for our component. The component itself could look something like the following: ```app/components/rich-text-editor.js import Component from '@ember/component'; import { on } from '@ember/object/evented'; import { bind } from '@ember/runloop'; export default Component.extend({ initializeTinyMCE: on('didInsertElement', function() { tinymce.init({ selector: '#' + this.$().prop('id'), setup: Ember.run.bind(this, this.setupEditor) }); }), didInsertElement() { tinymce.init({ selector: '#' + this.$().prop('id'), setup: Ember.run.bind(this, this.setupEditor) }); } setupEditor(editor) { this.set('editor', editor); editor.on('change', function() { console.log('content changed!'); }); } }); ``` In this example, we use Ember.run.bind to bind the setupEditor method to the context of the RichTextEditor component and to have the invocation of that method be safely handled and executed by the Ember run loop. @method bind @static @for @ember/runloop @param {Object} [target] target of method to call @param {Function|String} method Method to invoke. May be a function or a string. If you pass a string then it will be looked up on the passed target. @param {Object} [args*] Any additional arguments you wish to pass to the method. @return {Function} returns a new function that will always have a particular context @since 1.4.0 @public */ run.bind = function () { var _len, curried, _key; for (_len = arguments.length, curried = Array(_len), _key = 0; _key < _len; _key++) { curried[_key] = arguments[_key]; } return function () { var _len2, args, _key2; for (_len2 = arguments.length, args = Array(_len2), _key2 = 0; _key2 < _len2; _key2++) { args[_key2] = arguments[_key2]; } return run.join.apply(run, curried.concat(args)); }; }; run.backburner = backburner$1; run.currentRunLoop = null; run.queues = backburner$1.queueNames; /** Begins a new RunLoop. Any deferred actions invoked after the begin will be buffered until you invoke a matching call to `run.end()`. This is a lower-level way to use a RunLoop instead of using `run()`. ```javascript import { begin, end } from '@ember/runloop'; begin(); // code to be executed within a RunLoop end(); ``` @method begin @static @for @ember/runloop @return {void} @public */ run.begin = function () { backburner$1.begin(); }; /** Ends a RunLoop. This must be called sometime after you call `run.begin()` to flush any deferred actions. This is a lower-level way to use a RunLoop instead of using `run()`. ```javascript import { begin, end } from '@ember/runloop'; begin(); // code to be executed within a RunLoop end(); ``` @method end @static @for @ember/runloop @return {void} @public */ run.end = function () { backburner$1.end(); }; /** Array of named queues. This array determines the order in which queues are flushed at the end of the RunLoop. You can define your own queues by simply adding the queue name to this array. Normally you should not need to inspect or modify this property. @property queues @type Array @default ['sync', 'actions', 'destroy'] @private */ /** Adds the passed target/method and any optional arguments to the named queue to be executed at the end of the RunLoop. If you have not already started a RunLoop when calling this method one will be started for you automatically. At the end of a RunLoop, any methods scheduled in this way will be invoked. Methods will be invoked in an order matching the named queues defined in the `run.queues` property. ```javascript import { schedule } from '@ember/runloop'; schedule('sync', this, function() { // this will be executed in the first RunLoop queue, when bindings are synced console.log('scheduled on sync queue'); }); schedule('actions', this, function() { // this will be executed in the 'actions' queue, after bindings have synced. console.log('scheduled on actions queue'); }); // Note the functions will be run in order based on the run queues order. // Output would be: // scheduled on sync queue // scheduled on actions queue ``` @method schedule @static @for @ember/runloop @param {String} queue The name of the queue to schedule against. Default queues are 'sync' and 'actions' @param {Object} [target] target object to use as the context when invoking a method. @param {String|Function} method The method to invoke. If you pass a string it will be resolved on the target object at the time the scheduled item is invoked allowing you to change the target function. @param {Object} [arguments*] Optional arguments to be passed to the queued method. @return {*} Timer information for use in canceling, see `run.cancel`. @public */ run.schedule = function () /* queue, target, method */{ return backburner$1.schedule.apply(backburner$1, arguments); }; // Used by global test teardown run.hasScheduledTimers = function () { return backburner$1.hasTimers(); }; // Used by global test teardown run.cancelTimers = function () { backburner$1.cancelTimers(); }; /** Immediately flushes any events scheduled in the 'sync' queue. Bindings use this queue so this method is a useful way to immediately force all bindings in the application to sync. You should call this method anytime you need any changed state to propagate throughout the app immediately without repainting the UI (which happens in the later 'render' queue added by the `ember-views` package). ```javascript run.sync(); ``` @method sync @static @for @ember/runloop @return {void} @private */ run.sync = function () { if (backburner$1.currentInstance) { backburner$1.currentInstance.queues.sync.flush(); } }; /** Invokes the passed target/method and optional arguments after a specified period of time. The last parameter of this method must always be a number of milliseconds. You should use this method whenever you need to run some action after a period of time instead of using `setTimeout()`. This method will ensure that items that expire during the same script execution cycle all execute together, which is often more efficient than using a real setTimeout. ```javascript import { later } from '@ember/runloop'; later(myContext, function() { // code here will execute within a RunLoop in about 500ms with this == myContext }, 500); ``` @method later @static @for @ember/runloop @param {Object} [target] target of method to invoke @param {Function|String} method The method to invoke. If you pass a string it will be resolved on the target at the time the method is invoked. @param {Object} [args*] Optional arguments to pass to the timeout. @param {Number} wait Number of milliseconds to wait. @return {*} Timer information for use in canceling, see `run.cancel`. @public */ run.later = function () /*target, method*/{ return backburner$1.later.apply(backburner$1, arguments); }; /** Schedule a function to run one time during the current RunLoop. This is equivalent to calling `scheduleOnce` with the "actions" queue. @method once @static @for @ember/runloop @param {Object} [target] The target of the method to invoke. @param {Function|String} method The method to invoke. If you pass a string it will be resolved on the target at the time the method is invoked. @param {Object} [args*] Optional arguments to pass to the timeout. @return {Object} Timer information for use in canceling, see `run.cancel`. @public */ run.once = function () { var _len3, args, _key3; for (_len3 = arguments.length, args = Array(_len3), _key3 = 0; _key3 < _len3; _key3++) { args[_key3] = arguments[_key3]; } args.unshift('actions'); return backburner$1.scheduleOnce.apply(backburner$1, args); }; /** Schedules a function to run one time in a given queue of the current RunLoop. Calling this method with the same queue/target/method combination will have no effect (past the initial call). Note that although you can pass optional arguments these will not be considered when looking for duplicates. New arguments will replace previous calls. ```javascript import { run, scheduleOnce } from '@ember/runloop'; function sayHi() { console.log('hi'); } run(function() { scheduleOnce('afterRender', myContext, sayHi); scheduleOnce('afterRender', myContext, sayHi); // sayHi will only be executed once, in the afterRender queue of the RunLoop }); ``` Also note that for `run.scheduleOnce` to prevent additional calls, you need to pass the same function instance. The following case works as expected: ```javascript function log() { console.log('Logging only once'); } function scheduleIt() { scheduleOnce('actions', myContext, log); } scheduleIt(); scheduleIt(); ``` But this other case will schedule the function multiple times: ```javascript import { scheduleOnce } from '@ember/runloop'; function scheduleIt() { scheduleOnce('actions', myContext, function() { console.log('Closure'); }); } scheduleIt(); scheduleIt(); // "Closure" will print twice, even though we're using `run.scheduleOnce`, // because the function we pass to it won't match the // previously scheduled operation. ``` Available queues, and their order, can be found at `run.queues` @method scheduleOnce @static @for @ember/runloop @param {String} [queue] The name of the queue to schedule against. Default queues are 'sync' and 'actions'. @param {Object} [target] The target of the method to invoke. @param {Function|String} method The method to invoke. If you pass a string it will be resolved on the target at the time the method is invoked. @param {Object} [args*] Optional arguments to pass to the timeout. @return {Object} Timer information for use in canceling, see `run.cancel`. @public */ run.scheduleOnce = function () /*queue, target, method*/{ return backburner$1.scheduleOnce.apply(backburner$1, arguments); }; /** Schedules an item to run from within a separate run loop, after control has been returned to the system. This is equivalent to calling `run.later` with a wait time of 1ms. ```javascript import { next } from '@ember/runloop'; next(myContext, function() { // code to be executed in the next run loop, // which will be scheduled after the current one }); ``` Multiple operations scheduled with `run.next` will coalesce into the same later run loop, along with any other operations scheduled by `run.later` that expire right around the same time that `run.next` operations will fire. Note that there are often alternatives to using `run.next`. For instance, if you'd like to schedule an operation to happen after all DOM element operations have completed within the current run loop, you can make use of the `afterRender` run loop queue (added by the `ember-views` package, along with the preceding `render` queue where all the DOM element operations happen). Example: ```app/components/my-component.js import Component from '@ember/component'; import { scheduleOnce } from '@ember/runloop'; export Component.extend({ didInsertElement() { this._super(...arguments); scheduleOnce('afterRender', this, 'processChildElements'); }, processChildElements() { // ... do something with component's child component // elements after they've finished rendering, which // can't be done within this component's // `didInsertElement` hook because that gets run // before the child elements have been added to the DOM. } }); ``` One benefit of the above approach compared to using `run.next` is that you will be able to perform DOM/CSS operations before unprocessed elements are rendered to the screen, which may prevent flickering or other artifacts caused by delaying processing until after rendering. The other major benefit to the above approach is that `run.next` introduces an element of non-determinism, which can make things much harder to test, due to its reliance on `setTimeout`; it's much harder to guarantee the order of scheduled operations when they are scheduled outside of the current run loop, i.e. with `run.next`. @method next @static @for @ember/runloop @param {Object} [target] target of method to invoke @param {Function|String} method The method to invoke. If you pass a string it will be resolved on the target at the time the method is invoked. @param {Object} [args*] Optional arguments to pass to the timeout. @return {Object} Timer information for use in canceling, see `run.cancel`. @public */ run.next = function () { var _len4, args, _key4; for (_len4 = arguments.length, args = Array(_len4), _key4 = 0; _key4 < _len4; _key4++) { args[_key4] = arguments[_key4]; } args.push(1); return backburner$1.later.apply(backburner$1, args); }; /** Cancels a scheduled item. Must be a value returned by `later()`, `once()`, `scheduleOnce()`, `next()`, `debounce()`, or `throttle()`. ```javascript import { next, cancel, later, scheduleOnce, once, throttle, debounce } from '@ember/runloop'; let runNext = next(myContext, function() { // will not be executed }); cancel(runNext); let runLater = later(myContext, function() { // will not be executed }, 500); cancel(runLater); let runScheduleOnce = scheduleOnce('afterRender', myContext, function() { // will not be executed }); cancel(runScheduleOnce); let runOnce = once(myContext, function() { // will not be executed }); cancel(runOnce); let throttle = throttle(myContext, function() { // will not be executed }, 1, false); cancel(throttle); let debounce = debounce(myContext, function() { // will not be executed }, 1); cancel(debounce); let debounceImmediate = debounce(myContext, function() { // will be executed since we passed in true (immediate) }, 100, true); // the 100ms delay until this method can be called again will be canceled cancel(debounceImmediate); ``` @method cancel @static @for @ember/runloop @param {Object} timer Timer object to cancel @return {Boolean} true if canceled or false/undefined if it wasn't found @public */ run.cancel = function (timer) { return backburner$1.cancel(timer); }; /** Delay calling the target method until the debounce period has elapsed with no additional debounce calls. If `debounce` is called again before the specified time has elapsed, the timer is reset and the entire period must pass again before the target method is called. This method should be used when an event may be called multiple times but the action should only be called once when the event is done firing. A common example is for scroll events where you only want updates to happen once scrolling has ceased. ```javascript import { debounce } from '@ember/runloop'; function whoRan() { console.log(this.name + ' ran.'); } let myContext = { name: 'debounce' }; debounce(myContext, whoRan, 150); // less than 150ms passes debounce(myContext, whoRan, 150); // 150ms passes // whoRan is invoked with context myContext // console logs 'debounce ran.' one time. ``` Immediate allows you to run the function immediately, but debounce other calls for this function until the wait time has elapsed. If `debounce` is called again before the specified time has elapsed, the timer is reset and the entire period must pass again before the method can be called again. ```javascript import { debounce } from '@ember/runloop'; function whoRan() { console.log(this.name + ' ran.'); } let myContext = { name: 'debounce' }; debounce(myContext, whoRan, 150, true); // console logs 'debounce ran.' one time immediately. // 100ms passes debounce(myContext, whoRan, 150, true); // 150ms passes and nothing else is logged to the console and // the debouncee is no longer being watched debounce(myContext, whoRan, 150, true); // console logs 'debounce ran.' one time immediately. // 150ms passes and nothing else is logged to the console and // the debouncee is no longer being watched ``` @method debounce @static @for @ember/runloop @param {Object} [target] target of method to invoke @param {Function|String} method The method to invoke. May be a function or a string. If you pass a string then it will be looked up on the passed target. @param {Object} [args*] Optional arguments to pass to the timeout. @param {Number} wait Number of milliseconds to wait. @param {Boolean} immediate Trigger the function on the leading instead of the trailing edge of the wait interval. Defaults to false. @return {Array} Timer information for use in canceling, see `run.cancel`. @public */ run.debounce = function () { return backburner$1.debounce.apply(backburner$1, arguments); }; /** Ensure that the target method is never called more frequently than the specified spacing period. The target method is called immediately. ```javascript import { throttle } from '@ember/runloop'; function whoRan() { console.log(this.name + ' ran.'); } let myContext = { name: 'throttle' }; throttle(myContext, whoRan, 150); // whoRan is invoked with context myContext // console logs 'throttle ran.' // 50ms passes throttle(myContext, whoRan, 150); // 50ms passes throttle(myContext, whoRan, 150); // 150ms passes throttle(myContext, whoRan, 150); // whoRan is invoked with context myContext // console logs 'throttle ran.' ``` @method throttle @static @for @ember/runloop @param {Object} [target] target of method to invoke @param {Function|String} method The method to invoke. May be a function or a string. If you pass a string then it will be looked up on the passed target. @param {Object} [args*] Optional arguments to pass to the timeout. @param {Number} spacing Number of milliseconds to space out requests. @param {Boolean} immediate Trigger the function on the leading instead of the trailing edge of the wait interval. Defaults to true. @return {Array} Timer information for use in canceling, see `run.cancel`. @public */ run.throttle = function () { return backburner$1.throttle.apply(backburner$1, arguments); }; /** Add a new named queue after the specified queue. The queue to add will only be added once. @method _addQueue @param {String} name the name of the queue to add. @param {String} after the name of the queue to add after. @private */ run._addQueue = function (name, after) { if (run.queues.indexOf(name) === -1) { run.queues.splice(run.queues.indexOf(after) + 1, 0, name); } }; /** @module ember */ /** Helper class that allows you to register your library with Ember. Singleton created at `Ember.libraries`. @class Libraries @constructor @private */ var Libraries = function () { function Libraries() { this._registry = []; this._coreLibIndex = 0; } Libraries.prototype._getLibraryByName = function (name) { var libs = this._registry, i; var count = libs.length; for (i = 0; i < count; i++) { if (libs[i].name === name) { return libs[i]; } } }; Libraries.prototype.register = function (name, version, isCoreLibrary) { var index = this._registry.length; if (!this._getLibraryByName(name)) { if (isCoreLibrary) { index = this._coreLibIndex++; } this._registry.splice(index, 0, { name: name, version: version }); } }; Libraries.prototype.registerCoreLibrary = function (name, version) { this.register(name, version, true); }; Libraries.prototype.deRegister = function (name) { var lib = this._getLibraryByName(name); var index = void 0; if (lib) { index = this._registry.indexOf(lib); this._registry.splice(index, 1); } }; return Libraries; }(); var libraries = new Libraries(); /** @module ember */ /* JavaScript (before ES6) does not have a Map implementation. Objects, which are often used as dictionaries, may only have Strings as keys. Because Ember has a way to get a unique identifier for every object via `guidFor`, we can implement a performant Map with arbitrary keys. Because it is commonly used in low-level bookkeeping, Map is implemented as a pure JavaScript object for performance. This implementation follows the current iteration of the ES6 proposal for maps (http://wiki.ecmascript.org/doku.php?id=harmony:simple_maps_and_sets), with one exception: as we do not have the luxury of in-VM iteration, we implement a forEach method for iteration. Map is mocked out to look like an Ember object, so you can do `EmberMap.create()` for symmetry with other Ember classes. */ function copyNull(obj) { var output = Object.create(null); for (var prop in obj) { // hasOwnPropery is not needed because obj is Object.create(null); output[prop] = obj[prop]; } return output; } function copyMap(original, newObject) { var keys = original._keys.copy(); var values = copyNull(original._values); newObject._keys = keys; newObject._values = values; newObject.size = original.size; return newObject; } /** This class is used internally by Ember and Ember Data. Please do not use it at this time. We plan to clean it up and add many tests soon. @class OrderedSet @namespace Ember @constructor @private */ var OrderedSet = function () { function OrderedSet() { this.clear(); } /** @method create @static @return {Ember.OrderedSet} @private */ OrderedSet.create = function () { var Constructor = this; return new Constructor(); }; /** @method clear @private */ OrderedSet.prototype.clear = function () { this.presenceSet = Object.create(null); this.list = []; this.size = 0; }; /** @method add @param obj @param guid (optional, and for internal use) @return {Ember.OrderedSet} @private */ OrderedSet.prototype.add = function (obj, _guid) { var guid = _guid || emberUtils.guidFor(obj); var presenceSet = this.presenceSet; var list = this.list; if (presenceSet[guid] !== true) { presenceSet[guid] = true; this.size = list.push(obj); } return this; }; /** @since 1.8.0 @method delete @param obj @param _guid (optional and for internal use only) @return {Boolean} @private */ OrderedSet.prototype.delete = function (obj, _guid) { var guid = _guid || emberUtils.guidFor(obj), index; var presenceSet = this.presenceSet; var list = this.list; if (presenceSet[guid] === true) { delete presenceSet[guid]; index = list.indexOf(obj); if (index > -1) { list.splice(index, 1); } this.size = list.length; return true; } else { return false; } }; /** @method isEmpty @return {Boolean} @private */ OrderedSet.prototype.isEmpty = function () { return this.size === 0; }; /** @method has @param obj @return {Boolean} @private */ OrderedSet.prototype.has = function (obj) { if (this.size === 0) { return false; } var guid = emberUtils.guidFor(obj); var presenceSet = this.presenceSet; return presenceSet[guid] === true; }; /** @method forEach @param {Function} fn @param self @private */ OrderedSet.prototype.forEach = function (fn /*, ...thisArg*/) { if (this.size === 0) { return; } var list = this.list, i, _i; if (arguments.length === 2) { for (i = 0; i < list.length; i++) { fn.call(arguments[1], list[i]); } } else { for (_i = 0; _i < list.length; _i++) { fn(list[_i]); } } }; /** @method toArray @return {Array} @private */ OrderedSet.prototype.toArray = function () { return this.list.slice(); }; /** @method copy @return {Ember.OrderedSet} @private */ OrderedSet.prototype.copy = function () { var Constructor = this.constructor; var set = new Constructor(); set.presenceSet = copyNull(this.presenceSet); set.list = this.toArray(); set.size = this.size; return set; }; return OrderedSet; }(); /** A Map stores values indexed by keys. Unlike JavaScript's default Objects, the keys of a Map can be any JavaScript object. Internally, a Map has two data structures: 1. `keys`: an OrderedSet of all of the existing keys 2. `values`: a JavaScript Object indexed by the `guidFor(key)` When a key/value pair is added for the first time, we add the key to the `keys` OrderedSet, and create or replace an entry in `values`. When an entry is deleted, we delete its entry in `keys` and `values`. @class Map @namespace Ember @private @constructor */ var Map = function () { function Map() { this._keys = new OrderedSet(); this._values = Object.create(null); this.size = 0; } /** @method create @static @private */ Map.create = function () { var Constructor = this; return new Constructor(); }; /** Retrieve the value associated with a given key. @method get @param {*} key @return {*} the value associated with the key, or `undefined` @private */ Map.prototype.get = function (key) { if (this.size === 0) { return; } var values = this._values; var guid = emberUtils.guidFor(key); return values[guid]; }; /** Adds a value to the map. If a value for the given key has already been provided, the new value will replace the old value. @method set @param {*} key @param {*} value @return {Ember.Map} @private */ Map.prototype.set = function (key, value) { var keys = this._keys; var values = this._values; var guid = emberUtils.guidFor(key); // ensure we don't store -0 var k = key === -0 ? 0 : key; keys.add(k, guid); values[guid] = value; this.size = keys.size; return this; }; /** Removes a value from the map for an associated key. @since 1.8.0 @method delete @param {*} key @return {Boolean} true if an item was removed, false otherwise @private */ Map.prototype.delete = function (key) { if (this.size === 0) { return false; } // don't use ES6 "delete" because it will be annoying // to use in browsers that are not ES6 friendly; var keys = this._keys; var values = this._values; var guid = emberUtils.guidFor(key); if (keys.delete(key, guid)) { delete values[guid]; this.size = keys.size; return true; } else { return false; } }; /** Check whether a key is present. @method has @param {*} key @return {Boolean} true if the item was present, false otherwise @private */ Map.prototype.has = function (key) { return this._keys.has(key); }; /** Iterate over all the keys and values. Calls the function once for each key, passing in value, key, and the map being iterated over, in that order. The keys are guaranteed to be iterated over in insertion order. @method forEach @param {Function} callback @param {*} self if passed, the `this` value inside the callback. By default, `this` is the map. @private */ Map.prototype.forEach = function (callback /*, ...thisArg*/) { if (this.size === 0) { return; } var map = this; var cb = void 0, thisArg = void 0; if (arguments.length === 2) { thisArg = arguments[1]; cb = function (key) { return callback.call(thisArg, map.get(key), key, map); }; } else { cb = function (key) { return callback(map.get(key), key, map); }; } this._keys.forEach(cb); }; /** @method clear @private */ Map.prototype.clear = function () { this._keys.clear(); this._values = Object.create(null); this.size = 0; }; /** @method copy @return {Ember.Map} @private */ Map.prototype.copy = function () { return copyMap(this, new Map()); }; return Map; }(); /** @class MapWithDefault @namespace Ember @extends Ember.Map @private @constructor @param [options] @param {*} [options.defaultValue] */ var MapWithDefault = function (_Map) { emberBabel.inherits(MapWithDefault, _Map); function MapWithDefault(options) { var _this = emberBabel.possibleConstructorReturn(this, _Map.call(this)); _this.defaultValue = options.defaultValue; return _this; } /** @method create @static @param [options] @param {*} [options.defaultValue] @return {Ember.MapWithDefault|Ember.Map} If options are passed, returns `MapWithDefault` otherwise returns `EmberMap` @private */ MapWithDefault.create = function (options) { if (options) { return new MapWithDefault(options); } else { return new Map(); } }; /** Retrieve the value associated with a given key. @method get @param {*} key @return {*} the value associated with the key, or the default value @private */ MapWithDefault.prototype.get = function (key) { var hasValue = this.has(key), defaultValue; if (hasValue) { return _Map.prototype.get.call(this, key); } else { defaultValue = this.defaultValue(key); this.set(key, defaultValue); return defaultValue; } }; /** @method copy @return {Ember.MapWithDefault} @private */ MapWithDefault.prototype.copy = function () { var Constructor = this.constructor; return copyMap(this, new Constructor({ defaultValue: this.defaultValue })); }; return MapWithDefault; }(Map); /** @module @ember/object */ /** To get multiple properties at once, call `getProperties` with an object followed by a list of strings or an array: ```javascript import { getProperties } from '@ember/object'; getProperties(record, 'firstName', 'lastName', 'zipCode'); // { firstName: 'John', lastName: 'Doe', zipCode: '10011' } ``` is equivalent to: ```javascript import { getProperties } from '@ember/object'; getProperties(record, ['firstName', 'lastName', 'zipCode']); // { firstName: 'John', lastName: 'Doe', zipCode: '10011' } ``` @method getProperties @static @for @ember/object @param {Object} obj @param {String...|Array} list of keys to get @return {Object} @public */ /** @module @ember/object */ /** Set a list of properties on an object. These properties are set inside a single `beginPropertyChanges` and `endPropertyChanges` batch, so observers will be buffered. ```javascript let anObject = Ember.Object.create(); anObject.setProperties({ firstName: 'Stanley', lastName: 'Stuart', age: 21 }); ``` @method setProperties @static @for @ember/object @param obj @param {Object} properties @return properties @public */ /** @module ember */ // .......................................................... // BINDING // var Binding = function () { function Binding(toPath, fromPath) { // Configuration this._from = fromPath; this._to = toPath; this._oneWay = undefined; // State this._direction = undefined; this._readyToSync = undefined; this._fromObj = undefined; this._fromPath = undefined; this._toObj = undefined; } /** @class Binding @namespace Ember @deprecated See https://emberjs.com/deprecations/v2.x#toc_ember-binding @public */ /** This copies the Binding so it can be connected to another object. @method copy @return {Ember.Binding} `this` @public */ Binding.prototype.copy = function () { var copy = new Binding(this._to, this._from); if (this._oneWay) { copy._oneWay = true; } return copy; }; // .......................................................... // CONFIG // /** This will set `from` property path to the specified value. It will not attempt to resolve this property path to an actual object until you connect the binding. The binding will search for the property path starting at the root object you pass when you `connect()` the binding. It follows the same rules as `get()` - see that method for more information. @method from @param {String} path The property path to connect to. @return {Ember.Binding} `this` @public */ Binding.prototype.from = function (path) { this._from = path; return this; }; /** This will set the `to` property path to the specified value. It will not attempt to resolve this property path to an actual object until you connect the binding. The binding will search for the property path starting at the root object you pass when you `connect()` the binding. It follows the same rules as `get()` - see that method for more information. @method to @param {String|Tuple} path A property path or tuple. @return {Ember.Binding} `this` @public */ Binding.prototype.to = function (path) { this._to = path; return this; }; /** Configures the binding as one way. A one-way binding will relay changes on the `from` side to the `to` side, but not the other way around. This means that if you change the `to` side directly, the `from` side may have a different value. @method oneWay @return {Ember.Binding} `this` @public */ Binding.prototype.oneWay = function () { this._oneWay = true; return this; }; /** @method toString @return {String} string representation of binding @public */ Binding.prototype.toString = function () { var oneWay = this._oneWay ? '[oneWay]' : ''; return 'Ember.Binding<' + emberUtils.guidFor(this) + '>(' + this._from + ' -> ' + this._to + ')' + oneWay; }; // .......................................................... // CONNECT AND SYNC // /** Attempts to connect this binding instance so that it can receive and relay changes. This method will raise an exception if you have not set the from/to properties yet. @method connect @param {Object} obj The root object for this binding. @return {Ember.Binding} `this` @public */ Binding.prototype.connect = function (obj) { var fromObj = void 0, fromPath = void 0, possibleGlobal = void 0, name; // If the binding's "from" path could be interpreted as a global, verify // whether the path refers to a global or not by consulting `Ember.lookup`. if (isGlobalPath(this._from)) { name = getFirstKey(this._from); possibleGlobal = emberEnvironment.context.lookup[name]; if (possibleGlobal) { fromObj = possibleGlobal; fromPath = getTailPath(this._from); } } if (fromObj === undefined) { fromObj = obj; fromPath = this._from; } trySet(obj, this._to, get(fromObj, fromPath)); // Add an observer on the object to be notified when the binding should be updated. addObserver(fromObj, fromPath, this, 'fromDidChange'); // If the binding is a two-way binding, also set up an observer on the target. if (!this._oneWay) { addObserver(obj, this._to, this, 'toDidChange'); } addListener(obj, 'willDestroy', this, 'disconnect'); fireDeprecations(obj, this._to, this._from, possibleGlobal, this._oneWay, !possibleGlobal && !this._oneWay); this._readyToSync = true; this._fromObj = fromObj; this._fromPath = fromPath; this._toObj = obj; return this; }; /** Disconnects the binding instance. Changes will no longer be relayed. You will not usually need to call this method. @method disconnect @return {Ember.Binding} `this` @public */ Binding.prototype.disconnect = function () { removeObserver(this._fromObj, this._fromPath, this, 'fromDidChange'); // If the binding is two-way, remove the observer from the target as well. if (!this._oneWay) { removeObserver(this._toObj, this._to, this, 'toDidChange'); } this._readyToSync = false; // Disable scheduled syncs... return this; }; // .......................................................... // PRIVATE // /* Called when the from side changes. */ Binding.prototype.fromDidChange = function () { // eslint-disable-line no-unused-vars this._scheduleSync('fwd'); }; /* Called when the to side changes. */ Binding.prototype.toDidChange = function () { // eslint-disable-line no-unused-vars this._scheduleSync('back'); }; Binding.prototype._scheduleSync = function (dir) { var existingDir = this._direction; // If we haven't scheduled the binding yet, schedule it. if (existingDir === undefined) { run.schedule('sync', this, '_sync'); this._direction = dir; } // If both a 'back' and 'fwd' sync have been scheduled on the same object, // default to a 'fwd' sync so that it remains deterministic. if (existingDir === 'back' && dir === 'fwd') { this._direction = 'fwd'; } }; Binding.prototype._sync = function () { var log = emberEnvironment.ENV.LOG_BINDINGS, fromValue, toValue; var toObj = this._toObj; // Don't synchronize destroyed objects or disconnected bindings. if (toObj.isDestroyed || !this._readyToSync) { return; } // Get the direction of the binding for the object we are // synchronizing from. var direction = this._direction; var fromObj = this._fromObj; var fromPath = this._fromPath; this._direction = undefined; // If we're synchronizing from the remote object... if (direction === 'fwd') { fromValue = get(fromObj, fromPath); if (log) { Logger.log(' ', this.toString(), '->', fromValue, fromObj); } if (this._oneWay) { trySet(toObj, this._to, fromValue); } else { _suspendObserver(toObj, this._to, this, 'toDidChange', function () { trySet(toObj, this._to, fromValue); }); } // If we're synchronizing *to* the remote object. } else if (direction === 'back') { toValue = get(toObj, this._to); if (log) { Logger.log(' ', this.toString(), '<-', toValue, toObj); } _suspendObserver(fromObj, fromPath, this, 'fromDidChange', function () { trySet(fromObj, fromPath, toValue); }); } }; return Binding; }(); function fireDeprecations() {} (function (to, from) { for (var key in from) { if (from.hasOwnProperty(key)) { to[key] = from[key]; } } })(Binding, { /* See `Ember.Binding.from`. @method from @static */ from: function (from) { var C = this; return new C(undefined, from); }, /* See `Ember.Binding.to`. @method to @static */ to: function (to) { var C = this; return new C(to, undefined); } }); /** An `Ember.Binding` connects the properties of two objects so that whenever the value of one property changes, the other property will be changed also. ## Automatic Creation of Bindings with `/^*Binding/`-named Properties. You do not usually create Binding objects directly but instead describe bindings in your class or object definition using automatic binding detection. Properties ending in a `Binding` suffix will be converted to `Ember.Binding` instances. The value of this property should be a string representing a path to another object or a custom binding instance created using Binding helpers (see "One Way Bindings"): ``` valueBinding: "MyApp.someController.title" ``` This will create a binding from `MyApp.someController.title` to the `value` property of your object instance automatically. Now the two values will be kept in sync. ## One Way Bindings One especially useful binding customization you can use is the `oneWay()` helper. This helper tells Ember that you are only interested in receiving changes on the object you are binding from. For example, if you are binding to a preference and you want to be notified if the preference has changed, but your object will not be changing the preference itself, you could do: ``` bigTitlesBinding: Ember.Binding.oneWay("MyApp.preferencesController.bigTitles") ``` This way if the value of `MyApp.preferencesController.bigTitles` changes the `bigTitles` property of your object will change also. However, if you change the value of your `bigTitles` property, it will not update the `preferencesController`. One way bindings are almost twice as fast to setup and twice as fast to execute because the binding only has to worry about changes to one side. You should consider using one way bindings anytime you have an object that may be created frequently and you do not intend to change a property; only to monitor it for changes (such as in the example above). ## Adding Bindings Manually All of the examples above show you how to configure a custom binding, but the result of these customizations will be a binding template, not a fully active Binding instance. The binding will actually become active only when you instantiate the object the binding belongs to. It is useful, however, to understand what actually happens when the binding is activated. For a binding to function it must have at least a `from` property and a `to` property. The `from` property path points to the object/key that you want to bind from while the `to` path points to the object/key you want to bind to. When you define a custom binding, you are usually describing the property you want to bind from (such as `MyApp.someController.value` in the examples above). When your object is created, it will automatically assign the value you want to bind `to` based on the name of your binding key. In the examples above, during init, Ember objects will effectively call something like this on your binding: ```javascript binding = Ember.Binding.from("valueBinding").to("value"); ``` This creates a new binding instance based on the template you provide, and sets the to path to the `value` property of the new object. Now that the binding is fully configured with a `from` and a `to`, it simply needs to be connected to become active. This is done through the `connect()` method: ```javascript binding.connect(this); ``` Note that when you connect a binding you pass the object you want it to be connected to. This object will be used as the root for both the from and to side of the binding when inspecting relative paths. This allows the binding to be automatically inherited by subclassed objects as well. This also allows you to bind between objects using the paths you declare in `from` and `to`: ```javascript // Example 1 binding = Ember.Binding.from("App.someObject.value").to("value"); binding.connect(this); // Example 2 binding = Ember.Binding.from("parentView.value").to("App.someObject.value"); binding.connect(this); ``` Now that the binding is connected, it will observe both the from and to side and relay changes. If you ever needed to do so (you almost never will, but it is useful to understand this anyway), you could manually create an active binding by using the `Ember.bind()` helper method. (This is the same method used by to setup your bindings on objects): ```javascript Ember.bind(MyApp.anotherObject, "value", "MyApp.someController.value"); ``` Both of these code fragments have the same effect as doing the most friendly form of binding creation like so: ```javascript MyApp.anotherObject = Ember.Object.create({ valueBinding: "MyApp.someController.value", // OTHER CODE FOR THIS OBJECT... }); ``` Ember's built in binding creation method makes it easy to automatically create bindings for you. You should always use the highest-level APIs available, even if you understand how it works underneath. @class Binding @namespace Ember @since Ember 0.9 @public */ // Ember.Binding = Binding; ES6TODO: where to put this? /** Global helper method to create a new binding. Just pass the root object along with a `to` and `from` path to create and connect the binding. @method bind @for Ember @param {Object} obj The root object of the transform. @param {String} to The path to the 'to' side of the binding. Must be relative to obj. @param {String} from The path to the 'from' side of the binding. Must be relative to obj or a global path. @return {Ember.Binding} binding instance @public */ var a_concat = Array.prototype.concat; var isArray = Array.isArray; function isMethod(obj) { return 'function' === typeof obj && obj.isMethod !== false && obj !== Boolean && obj !== Object && obj !== Number && obj !== Array && obj !== Date && obj !== String; } var CONTINUE = {}; function mixinProperties(mixinsMeta, mixin) { var guid = void 0; if (mixin instanceof Mixin) { guid = emberUtils.guidFor(mixin); if (mixinsMeta.peekMixins(guid)) { return CONTINUE; } mixinsMeta.writeMixins(guid, mixin); return mixin.properties; } else { return mixin; // apply anonymous mixin properties } } function concatenatedMixinProperties(concatProp, props, values, base) { // reset before adding each new mixin to pickup concats from previous var concats = values[concatProp] || base[concatProp]; if (props[concatProp]) { concats = concats ? a_concat.call(concats, props[concatProp]) : props[concatProp]; } return concats; } function giveDescriptorSuper(meta$$1, key, property, values, descs, base) { var superProperty = void 0; // Computed properties override methods, and do not call super to them if (values[key] === undefined) { // Find the original descriptor in a parent mixin superProperty = descs[key]; } // If we didn't find the original descriptor in a parent mixin, find // it on the original object. if (!superProperty) { superProperty = descriptorFor(base, key, meta$$1); } if (superProperty === undefined || !(superProperty instanceof ComputedProperty)) { return property; } // Since multiple mixins may inherit from the same parent, we need // to clone the computed property so that other mixins do not receive // the wrapped version. property = Object.create(property); property._getter = emberUtils.wrap(property._getter, superProperty._getter); if (superProperty._setter) { if (property._setter) { property._setter = emberUtils.wrap(property._setter, superProperty._setter); } else { property._setter = superProperty._setter; } } return property; } function giveMethodSuper(obj, key, method, values, descs) { // Methods overwrite computed properties, and do not call super to them. if (descs[key] !== undefined) { return method; } // Find the original method in a parent mixin var superMethod = values[key]; // If we didn't find the original value in a parent mixin, find it in // the original object if (superMethod === undefined && (!false || descriptorFor(obj, key) === undefined)) { superMethod = obj[key]; } // Only wrap the new method if the original method was a function if (typeof superMethod === 'function') { return emberUtils.wrap(method, superMethod); } return method; } function applyConcatenatedProperties(obj, key, value, values) { var baseValue = values[key] || obj[key]; var ret = void 0; if (baseValue === null || baseValue === undefined) { ret = emberUtils.makeArray(value); } else if (isArray(baseValue)) { if (value === null || value === undefined) { ret = baseValue; } else { ret = a_concat.call(baseValue, value); } } else { ret = a_concat.call(emberUtils.makeArray(baseValue), value); } return ret; } function applyMergedProperties(obj, key, value, values) { var baseValue = values[key] || obj[key], propValue; if (!baseValue) { return value; } var newBase = emberUtils.assign({}, baseValue); var hasFunction = false; for (var prop in value) { if (!value.hasOwnProperty(prop)) { continue; } propValue = value[prop]; if (isMethod(propValue)) { // TODO: support for Computed Properties, etc? hasFunction = true; newBase[prop] = giveMethodSuper(obj, prop, propValue, baseValue, {}); } else { newBase[prop] = propValue; } } if (hasFunction) { newBase._super = emberUtils.ROOT; } return newBase; } function addNormalizedProperty(base, key, value, meta$$1, descs, values, concats, mergings) { if (value instanceof Descriptor) { if (emberEnvironment.ENV._ENABLE_PROPERTY_REQUIRED_SUPPORT && value === REQUIRED && descs[key]) { return CONTINUE; } // Wrap descriptor function to implement // _super() if needed if (value._getter) { value = giveDescriptorSuper(meta$$1, key, value, values, descs, base); } descs[key] = value; values[key] = undefined; } else { if (concats && concats.indexOf(key) >= 0 || key === 'concatenatedProperties' || key === 'mergedProperties') { value = applyConcatenatedProperties(base, key, value, values); } else if (mergings && mergings.indexOf(key) > -1) { value = applyMergedProperties(base, key, value, values); } else if (isMethod(value)) { value = giveMethodSuper(base, key, value, values, descs); } descs[key] = undefined; values[key] = value; } } function mergeMixins(mixins, meta$$1, descs, values, base, keys) { var currentMixin = void 0, props = void 0, key = void 0, concats = void 0, mergings = void 0, i; function removeKeys(keyName) { delete descs[keyName]; delete values[keyName]; } for (i = 0; i < mixins.length; i++) { currentMixin = mixins[i]; props = mixinProperties(meta$$1, currentMixin); if (props === CONTINUE) { continue; } if (props) { // remove willMergeMixin after 3.4 as it was used for _actions if (base.willMergeMixin) { base.willMergeMixin(props); } concats = concatenatedMixinProperties('concatenatedProperties', props, values, base); mergings = concatenatedMixinProperties('mergedProperties', props, values, base); for (key in props) { if (!props.hasOwnProperty(key)) { continue; } keys.push(key); addNormalizedProperty(base, key, props[key], meta$$1, descs, values, concats, mergings); } // manually copy toString() because some JS engines do not enumerate it if (props.hasOwnProperty('toString')) { base.toString = props.toString; } } else if (currentMixin.mixins) { mergeMixins(currentMixin.mixins, meta$$1, descs, values, base, keys); if (currentMixin._without) { currentMixin._without.forEach(removeKeys); } } } } function detectBinding(key) { var length = key.length; return length > 7 && key.charCodeAt(length - 7) === 66 && key.indexOf('inding', length - 6) !== -1; } // warm both paths of above function detectBinding('notbound'); detectBinding('fooBinding'); function connectBindings(obj, meta$$1) { // TODO Mixin.apply(instance) should disconnect binding if exists meta$$1.forEachBindings(function (key, binding) { var to; if (binding) { to = key.slice(0, -7); // strip Binding off end if (binding instanceof Binding) { binding = binding.copy(); // copy prototypes' instance binding.to(to); } else { // binding is string path binding = new Binding(to, binding); } binding.connect(obj); obj[key] = binding; } }); // mark as applied meta$$1.clearBindings(); } function finishPartial(obj, meta$$1) { connectBindings(obj, meta$$1 === undefined ? meta(obj) : meta$$1); return obj; } function followAlias(obj, desc, descs, values) { var altKey = desc.methodName; var value = void 0; var possibleDesc = void 0; if (descs[altKey] || values[altKey]) { value = values[altKey]; desc = descs[altKey]; } else if ((possibleDesc = descriptorFor(obj, altKey)) !== undefined) { desc = possibleDesc; value = undefined; } else { desc = undefined; value = obj[altKey]; } return { desc: desc, value: value }; } function updateObserversAndListeners(obj, key, paths, updateMethod) { var i; if (paths) { for (i = 0; i < paths.length; i++) { updateMethod(obj, paths[i], null, key); } } } function replaceObserversAndListeners(obj, key, prev, next) { if (typeof prev === 'function') { updateObserversAndListeners(obj, key, prev.__ember_observesBefore__, _removeBeforeObserver); updateObserversAndListeners(obj, key, prev.__ember_observes__, removeObserver); updateObserversAndListeners(obj, key, prev.__ember_listens__, removeListener); } if (typeof next === 'function') { updateObserversAndListeners(obj, key, next.__ember_observesBefore__, _addBeforeObserver); updateObserversAndListeners(obj, key, next.__ember_observes__, addObserver); updateObserversAndListeners(obj, key, next.__ember_listens__, addListener); } } function applyMixin(obj, mixins, partial) { var descs = {}, i, followed; var values = {}; var meta$$1 = meta(obj); var keys = []; var key = void 0, value = void 0, desc = void 0; obj._super = emberUtils.ROOT; // Go through all mixins and hashes passed in, and: // // * Handle concatenated properties // * Handle merged properties // * Set up _super wrapping if necessary // * Set up computed property descriptors // * Copying `toString` in broken browsers mergeMixins(mixins, meta$$1, descs, values, obj, keys); for (i = 0; i < keys.length; i++) { key = keys[i]; if (key === 'constructor' || !values.hasOwnProperty(key)) { continue; } desc = descs[key]; value = values[key]; if (emberEnvironment.ENV._ENABLE_PROPERTY_REQUIRED_SUPPORT && desc === REQUIRED) { continue; } while (desc && desc instanceof Alias) { followed = followAlias(obj, desc, descs, values); desc = followed.desc; value = followed.value; } if (desc === undefined && value === undefined) { continue; } { replaceObserversAndListeners(obj, key, obj[key], value); } if (detectBinding(key)) { meta$$1.writeBindings(key, value); } defineProperty(obj, key, desc, value, meta$$1); } if (!partial) { // don't apply to prototype finishPartial(obj, meta$$1); } return obj; } /** @method mixin @param obj @param mixins* @return obj @private */ /** The `Mixin` class allows you to create mixins, whose properties can be added to other classes. For instance, ```javascript import Mixin from '@ember/object/mixin'; const EditableMixin = Mixin.create({ edit() { console.log('starting to edit'); this.set('isEditing', true); }, isEditing: false }); ``` ```javascript import EmberObject from '@ember/object'; import EditableMixin from '../mixins/editable'; // Mix mixins into classes by passing them as the first arguments to // `.extend.` const Comment = EmberObject.extend(EditableMixin, { post: null }); let comment = Comment.create({ post: somePost }); comment.edit(); // outputs 'starting to edit' ``` Note that Mixins are created with `Mixin.create`, not `Mixin.extend`. Note that mixins extend a constructor's prototype so arrays and object literals defined as properties will be shared amongst objects that implement the mixin. If you want to define a property in a mixin that is not shared, you can define it either as a computed property or have it be created on initialization of the object. ```javascript // filters array will be shared amongst any object implementing mixin import Mixin from '@ember/object/mixin'; import { A } from '@ember/array'; const FilterableMixin = Mixin.create({ filters: A() }); ``` ```javascript import Mixin from '@ember/object/mixin'; import { A } from '@ember/array'; import { computed } from '@ember/object'; // filters will be a separate array for every object implementing the mixin const FilterableMixin = Mixin.create({ filters: computed(function() { return A(); }) }); ``` ```javascript import Mixin from '@ember/object/mixin'; import { A } from '@ember/array'; // filters will be created as a separate array during the object's initialization const Filterable = Mixin.create({ filters: null, init() { this._super(...arguments); this.set("filters", A()); } }); ``` @class Mixin @public */ var Mixin = function () { function Mixin(mixins, properties) { this.properties = properties; var length = mixins && mixins.length, m, i, x; if (length > 0) { m = new Array(length); for (i = 0; i < length; i++) { x = mixins[i]; if (x instanceof Mixin) { m[i] = x; } else { m[i] = new Mixin(undefined, x); } } this.mixins = m; } else { this.mixins = undefined; } this.ownerConstructor = undefined; this._without = undefined; this[emberUtils.GUID_KEY] = null; this[emberUtils.NAME_KEY] = null; emberDebug.debugSeal(this); } Mixin.applyPartial = function (obj) { var _len2, args, _key2; for (_len2 = arguments.length, args = Array(_len2 > 1 ? _len2 - 1 : 0), _key2 = 1; _key2 < _len2; _key2++) { args[_key2 - 1] = arguments[_key2]; } return applyMixin(obj, args, true); }; /** @method create @for @ember/object/mixin @static @param arguments* @public */ Mixin.create = function () { // ES6TODO: this relies on a global state? unprocessedFlag = true; var M = this, _len3, args, _key3; for (_len3 = arguments.length, args = Array(_len3), _key3 = 0; _key3 < _len3; _key3++) { args[_key3] = arguments[_key3]; } return new M(args, undefined); }; // returns the mixins currently applied to the specified object // TODO: Make `mixin` Mixin.mixins = function (obj) { var meta$$1 = peekMeta(obj); var ret = []; if (meta$$1 === undefined) { return ret; } meta$$1.forEachMixins(function (key, currentMixin) { // skip primitive mixins since these are always anonymous if (!currentMixin.properties) { ret.push(currentMixin); } }); return ret; }; /** @method reopen @param arguments* @private */ Mixin.prototype.reopen = function () { var currentMixin = void 0; if (this.properties) { currentMixin = new Mixin(undefined, this.properties); this.properties = undefined; this.mixins = [currentMixin]; } else if (!this.mixins) { this.mixins = []; } var mixins = this.mixins; var idx = void 0; for (idx = 0; idx < arguments.length; idx++) { currentMixin = arguments[idx]; if (currentMixin instanceof Mixin) { mixins.push(currentMixin); } else { mixins.push(new Mixin(undefined, currentMixin)); } } return this; }; /** @method apply @param obj @return applied object @private */ Mixin.prototype.apply = function (obj) { return applyMixin(obj, [this], false); }; Mixin.prototype.applyPartial = function (obj) { return applyMixin(obj, [this], true); }; /** @method detect @param obj @return {Boolean} @private */ Mixin.prototype.detect = function (obj) { if (typeof obj !== 'object' || obj === null) { return false; } if (obj instanceof Mixin) { return _detect(obj, this, {}); } var meta$$1 = peekMeta(obj); if (meta$$1 === undefined) { return false; } return !!meta$$1.peekMixins(emberUtils.guidFor(this)); }; Mixin.prototype.without = function () { var ret = new Mixin([this]), _len4, args, _key4; for (_len4 = arguments.length, args = Array(_len4), _key4 = 0; _key4 < _len4; _key4++) { args[_key4] = arguments[_key4]; } ret._without = args; return ret; }; Mixin.prototype.keys = function () { var keys = {}; _keys(keys, this, {}); var ret = Object.keys(keys); return ret; }; return Mixin; }(); Mixin._apply = applyMixin; Mixin.finishPartial = finishPartial; var MixinPrototype = Mixin.prototype; MixinPrototype.toString = Object.toString; emberDebug.debugSeal(MixinPrototype); var unprocessedFlag = false; function _detect(curMixin, targetMixin, seen) { var guid = emberUtils.guidFor(curMixin); if (seen[guid]) { return false; } seen[guid] = true; if (curMixin === targetMixin) { return true; } var mixins = curMixin.mixins; var loc = mixins ? mixins.length : 0; while (--loc >= 0) { if (_detect(mixins[loc], targetMixin, seen)) { return true; } } return false; } function _keys(ret, mixin, seen) { var props, i, key; if (seen[emberUtils.guidFor(mixin)]) { return; } seen[emberUtils.guidFor(mixin)] = true; if (mixin.properties) { props = Object.keys(mixin.properties); for (i = 0; i < props.length; i++) { key = props[i]; ret[key] = true; } } else if (mixin.mixins) { mixin.mixins.forEach(function (x) { return _keys(ret, x, seen); }); } } var REQUIRED = new Descriptor(); REQUIRED.toString = function () { return '(Required Property)'; }; /** Denotes a required property for a mixin @method required @for Ember @private */ function Alias(methodName) { this.isDescriptor = true; this.methodName = methodName; } Alias.prototype = new Descriptor(); /** Makes a method available via an additional name. ```app/utils/person.js import EmberObject, { aliasMethod } from '@ember/object'; export default EmberObject.extend({ name() { return 'Tomhuda Katzdale'; }, moniker: aliasMethod('name') }); ``` ```javascript let goodGuy = Person.create(); goodGuy.name(); // 'Tomhuda Katzdale' goodGuy.moniker(); // 'Tomhuda Katzdale' ``` @method aliasMethod @static @for @ember/object @param {String} methodName name of the method to alias @public */ // .......................................................... // OBSERVER HELPER // /** Specify a method that observes property changes. ```javascript import EmberObject from '@ember/object'; import { observer } from '@ember/object'; export default EmberObject.extend({ valueObserver: observer('value', function() { // Executes whenever the "value" property changes }) }); ``` Also available as `Function.prototype.observes` if prototype extensions are enabled. @method observer @for @ember/object @param {String} propertyNames* @param {Function} func @return func @public @static */ /** When observers fire, they are called with the arguments `obj`, `keyName`. Note, `@each.property` observer is called per each add or replace of an element and it's not called with a specific enumeration item. A `_beforeObserver` fires before a property changes. @method beforeObserver @for Ember @param {String} propertyNames* @param {Function} func @return func @deprecated @private */ /** @module ember @private */ /** Read-only property that returns the result of a container lookup. @class InjectedProperty @namespace Ember @constructor @param {String} type The container type the property will lookup @param {String} name (optional) The name the property will lookup, defaults to the property's name @private */ function InjectedProperty(type, name) { this.type = type; this.name = name; this._super$Constructor(injectedPropertyGet); AliasedPropertyPrototype.oneWay.call(this); } function injectedPropertyGet(keyName) { var desc = descriptorFor(this, keyName); var owner = emberUtils.getOwner(this) || this.container; // fallback to `container` for backwards compat return owner.lookup(desc.type + ':' + (desc.name || keyName)); } InjectedProperty.prototype = Object.create(Descriptor.prototype); var InjectedPropertyPrototype = InjectedProperty.prototype; var ComputedPropertyPrototype$1 = ComputedProperty.prototype; var AliasedPropertyPrototype = AliasedProperty.prototype; InjectedPropertyPrototype._super$Constructor = ComputedProperty; InjectedPropertyPrototype.get = ComputedPropertyPrototype$1.get; InjectedPropertyPrototype.readOnly = ComputedPropertyPrototype$1.readOnly; InjectedPropertyPrototype.teardown = ComputedPropertyPrototype$1.teardown; var splice = Array.prototype.splice; /** A wrapper for a native ES5 descriptor. In an ideal world, we wouldn't need this at all, however, the way we currently flatten/merge our mixins require a special value to denote a descriptor. @class Descriptor @private */ var Descriptor$1 = function (_EmberDescriptor) { emberBabel.inherits(Descriptor$$1, _EmberDescriptor); function Descriptor$$1(desc) { var _this = emberBabel.possibleConstructorReturn(this, _EmberDescriptor.call(this)); _this.desc = desc; return _this; } Descriptor$$1.prototype.setup = function (obj, key) { Object.defineProperty(obj, key, this.desc); }; Descriptor$$1.prototype.get = function (obj, key) { return obj[key]; }; Descriptor$$1.prototype.set = function (obj, key, value) { return obj[key] = value; }; Descriptor$$1.prototype.teardown = function () {}; return Descriptor$$1; }(Descriptor); exports['default'] = Ember; exports.computed = function () { for (_len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } var func = args.pop(), _len, args, _key; var cp = new ComputedProperty(func); if (args.length > 0) { cp.property.apply(cp, args); } return cp; }; exports.cacheFor = cacheFor; exports.ComputedProperty = ComputedProperty; exports.alias = function (altKey) { return new AliasedProperty(altKey); }; exports.merge = function (original, updates) { if (updates === null || typeof updates !== 'object') { return original; } var props = Object.keys(updates), i; var prop = void 0; for (i = 0; i < props.length; i++) { prop = props[i]; original[prop] = updates[prop]; } return original; }; exports.deprecateProperty = function (object, deprecatedKey, newKey) { Object.defineProperty(object, deprecatedKey, { configurable: true, enumerable: false, set: function (value) { set(this, newKey, value); }, get: function () { return get(this, newKey); } }); }; exports.instrument = function (name, _payload, callback, binding) { if (arguments.length <= 3 && typeof _payload === 'function') { binding = callback; callback = _payload; _payload = undefined; } if (subscribers.length === 0) { return callback.call(binding); } var payload = _payload || {}; var finalizer = _instrumentStart(name, function () { return payload; }); if (finalizer) { return withFinalizer(callback, finalizer, payload, binding); } else { return callback.call(binding); } }; exports._instrumentStart = _instrumentStart; exports.instrumentationReset = function () { subscribers.length = 0; cache = {}; }; exports.instrumentationSubscribe = function (pattern, object) { var paths = pattern.split('.'), i; var path = void 0; var regex = []; for (i = 0; i < paths.length; i++) { path = paths[i]; if (path === '*') { regex.push('[^\\.]*'); } else { regex.push(path); } } regex = regex.join('\\.'); regex = regex + '(\\..*)?'; var subscriber = { pattern: pattern, regex: new RegExp('^' + regex + '$'), object: object }; subscribers.push(subscriber); cache = {}; return subscriber; }; exports.instrumentationUnsubscribe = function (subscriber) { var index = void 0, i; for (i = 0; i < subscribers.length; i++) { if (subscribers[i] === subscriber) { index = i; } } subscribers.splice(index, 1); cache = {}; }; exports.getOnerror = function () { return onerror; }; exports.setOnerror = function (handler) { onerror = handler; }; exports.setDispatchOverride = function (handler) { dispatchOverride = handler; }; exports.getDispatchOverride = function () { return dispatchOverride; }; exports.descriptorFor = descriptorFor; exports.meta = meta; exports.peekMeta = peekMeta; exports.deleteMeta = function (obj) { var meta = peekMeta(obj); if (meta !== undefined) { meta.destroy(); } }; exports.Cache = Cache; exports._getPath = _getPath; exports.get = get; exports.getWithDefault = function (root, key, defaultValue) { var value = get(root, key); if (value === undefined) { return defaultValue; } return value; }; exports.set = set; exports.trySet = trySet; exports.addListener = addListener; exports.hasListeners = function (obj, eventName) { var meta$$1 = peekMeta(obj); if (meta$$1 === undefined) { return false; } var matched = meta$$1.matchingListeners(eventName); return matched !== undefined && matched.length > 0; }; exports.listenersFor = listenersFor; exports.on = function () { for (_len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } var func = args.pop(), _len, args, _key; func.__ember_listens__ = args; return func; }; exports.removeListener = removeListener; exports.sendEvent = sendEvent; exports.suspendListener = suspendListener; exports.suspendListeners = suspendListeners; exports.watchedEvents = function (obj) { var meta$$1 = peekMeta(obj); return meta$$1 !== undefined ? meta$$1.watchedEvents() : []; }; exports.isNone = isNone; exports.isEmpty = isEmpty; exports.isBlank = isBlank; exports.isPresent = function (obj) { return !isBlank(obj); }; exports.run = run; exports.ObserverSet = ObserverSet; exports.beginPropertyChanges = beginPropertyChanges; exports.changeProperties = changeProperties; exports.endPropertyChanges = endPropertyChanges; exports.overrideChains = overrideChains; exports.propertyDidChange = propertyDidChange; exports.propertyWillChange = propertyWillChange; exports.PROPERTY_DID_CHANGE = PROPERTY_DID_CHANGE; exports.defineProperty = defineProperty; exports.Descriptor = Descriptor; exports._hasCachedComputedProperties = function () { hasCachedComputedProperties = true; }; exports.watchKey = watchKey; exports.unwatchKey = unwatchKey; exports.ChainNode = ChainNode; exports.finishChains = function (meta$$1) { // finish any current chains node watchers that reference obj var chainWatchers = meta$$1.readableChainWatchers(); if (chainWatchers !== undefined) { chainWatchers.revalidateAll(); } // ensure that if we have inherited any chains they have been // copied onto our own meta. if (meta$$1.readableChains() !== undefined) { meta$$1.writableChains(makeChainNode); } }; exports.removeChainWatcher = removeChainWatcher; exports.watchPath = watchPath; exports.unwatchPath = unwatchPath; exports.isWatching = function (obj, key) { return watcherCount(obj, key) > 0; }; exports.unwatch = unwatch; exports.watch = watch; exports.watcherCount = watcherCount; exports.libraries = libraries; exports.Libraries = Libraries; exports.Map = Map; exports.MapWithDefault = MapWithDefault; exports.OrderedSet = OrderedSet; exports.getProperties = function (obj) { var ret = {}; var propertyNames = arguments; var i = 1; if (arguments.length === 2 && Array.isArray(arguments[1])) { i = 0; propertyNames = arguments[1]; } for (; i < propertyNames.length; i++) { ret[propertyNames[i]] = get(obj, propertyNames[i]); } return ret; }; exports.setProperties = function (obj, properties) { if (properties === null || typeof properties !== 'object') { return properties; } changeProperties(function () { var props = Object.keys(properties), i; var propertyName = void 0; for (i = 0; i < props.length; i++) { propertyName = props[i]; set(obj, propertyName, properties[propertyName]); } }); return properties; }; exports.expandProperties = expandProperties; exports._suspendObserver = _suspendObserver; exports._suspendObservers = function (obj, paths, target, method, callback) { var events = paths.map(changeEvent); return suspendListeners(obj, events, target, method, callback); }; exports.addObserver = addObserver; exports.observersFor = function (obj, path) { return listenersFor(obj, changeEvent(path)); }; exports.removeObserver = removeObserver; exports._addBeforeObserver = _addBeforeObserver; exports._removeBeforeObserver = _removeBeforeObserver; exports.Mixin = Mixin; exports.aliasMethod = function (methodName) { return new Alias(methodName); }; exports._beforeObserver = function () { for (_len6 = arguments.length, args = Array(_len6), _key6 = 0; _key6 < _len6; _key6++) { args[_key6] = arguments[_key6]; } var func = args.pop(), _len6, args, _key6, i; var _paths = args; var paths = []; var addWatchedProperty = function (path) { paths.push(path); }; for (i = 0; i < _paths.length; ++i) { expandProperties(_paths[i], addWatchedProperty); } func.__ember_observesBefore__ = paths; return func; }; exports.mixin = function (obj) { var _len, args, _key; for (_len = arguments.length, args = Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { args[_key - 1] = arguments[_key]; } applyMixin(obj, args, false); return obj; }; exports.observer = function () { for (_len5 = arguments.length, args = Array(_len5), _key5 = 0; _key5 < _len5; _key5++) { args[_key5] = arguments[_key5]; } var func = args.pop(), _len5, args, _key5, i; var _paths = args; var paths = []; var addWatchedProperty = function (path) { return paths.push(path); }; for (i = 0; i < _paths.length; ++i) { expandProperties(_paths[i], addWatchedProperty); } func.__ember_observes__ = paths; return func; }; exports.required = function () { return REQUIRED; }; exports.REQUIRED = REQUIRED; exports.hasUnprocessedMixins = function () { return unprocessedFlag; }; exports.clearUnprocessedMixins = function () { unprocessedFlag = false; }; exports.detectBinding = detectBinding; exports.Binding = Binding; exports.bind = function (obj, to, from) { return new Binding(to, from).connect(obj); }; exports.isGlobalPath = isGlobalPath; exports.InjectedProperty = InjectedProperty; exports.setHasViews = function (fn) { hasViews = fn; }; exports.tagForProperty = function (object, propertyKey, _meta) { if (typeof object !== 'object' || object === null) { return reference.CONSTANT_TAG; } var meta$$1 = _meta === undefined ? meta(object) : _meta; if (meta$$1.isProxy()) { return tagFor(object, meta$$1); } var tags = meta$$1.writableTags(); var tag = tags[propertyKey]; if (tag) { return tag; } return tags[propertyKey] = makeTag(); }; exports.tagFor = tagFor; exports.markObjectAsDirty = markObjectAsDirty; exports.replace = function (array, idx, amt, objects) { var args = [].concat(objects); var ret = []; // https://code.google.com/p/chromium/issues/detail?id=56588 var size = 60000; var start = idx; var ends = amt; var count = void 0, chunk = void 0; while (args.length) { count = ends > size ? size : ends; if (count <= 0) { count = 0; } chunk = args.splice(0, size); chunk = [start, count].concat(chunk); start += size; ends -= count; ret = ret.concat(splice.apply(array, chunk)); } return ret; }; exports.didRender = void 0; exports.assertNotRendered = void 0; exports.isProxy = function (value) { var meta$$1; if (typeof value === 'object' && value !== null) { meta$$1 = peekMeta(value); return meta$$1 === undefined ? false : meta$$1.isProxy(); } return false; }; exports.descriptor = function (desc) { return new Descriptor$1(desc); }; Object.defineProperty(exports, '__esModule', { value: true }); }); enifed('ember-routing/ext/controller', ['exports', 'ember-metal', 'ember-runtime', 'ember-routing/utils'], function (exports, _emberMetal, _emberRuntime, _utils) { 'use strict'; /** @module ember */ _emberRuntime.ControllerMixin.reopen({ concatenatedProperties: ['queryParams'], /** Defines which query parameters the controller accepts. If you give the names `['category','page']` it will bind the values of these query parameters to the variables `this.category` and `this.page`. By default, Ember coerces query parameter values using `toggleProperty`. This behavior may lead to unexpected results. To explicitly configure a query parameter property so it coerces as expected, you must define a type property: ```javascript queryParams: [{ category: { type: 'boolean' } }] ``` @property queryParams @public */ queryParams: null, /** This property is updated to various different callback functions depending on the current "state" of the backing route. It is used by `Ember.Controller.prototype._qpChanged`. The methods backing each state can be found in the `Ember.Route.prototype._qp` computed property return value (the `.states` property). The current values are listed here for the sanity of future travelers: * `inactive` - This state is used when this controller instance is not part of the active route hierarchy. Set in `Ember.Route.prototype._reset` (a `router.js` microlib hook) and `Ember.Route.prototype.actions.finalizeQueryParamChange`. * `active` - This state is used when this controller instance is part of the active route hierarchy. Set in `Ember.Route.prototype.actions.finalizeQueryParamChange`. * `allowOverrides` - This state is used in `Ember.Route.prototype.setup` (`route.js` microlib hook). @method _qpDelegate @private */ _qpDelegate: null, _qpChanged: function (controller, _prop) { var prop = _prop.substr(0, _prop.length - 3); var delegate = controller._qpDelegate; var value = (0, _emberMetal.get)(controller, prop); delegate(prop, value); }, transitionToRoute: function () { // target may be either another controller or a router var target = (0, _emberMetal.get)(this, 'target'), _len, args, _key; var method = target.transitionToRoute || target.transitionTo; for (_len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } return method.apply(target, (0, _utils.prefixRouteNameArg)(this, args)); }, replaceRoute: function () { // target may be either another controller or a router var target = (0, _emberMetal.get)(this, 'target'), _len2, args, _key2; var method = target.replaceRoute || target.replaceWith; for (_len2 = arguments.length, args = Array(_len2), _key2 = 0; _key2 < _len2; _key2++) { args[_key2] = arguments[_key2]; } return method.apply(target, (0, _utils.prefixRouteNameArg)(this, args)); } }); exports.default = _emberRuntime.ControllerMixin; }); enifed('ember-routing/ext/run_loop', ['ember-metal'], function (_emberMetal) { 'use strict'; // Add a new named queue after the 'actions' queue (where RSVP promises // resolve), which is used in router transitions to prevent unnecessary // loading state entry if all context promises resolve on the // 'actions' queue first. _emberMetal.run._addQueue('routerTransitions', 'actions'); }); enifed('ember-routing/index', ['exports', 'ember-routing/location/api', 'ember-routing/location/none_location', 'ember-routing/location/hash_location', 'ember-routing/location/history_location', 'ember-routing/location/auto_location', 'ember-routing/system/generate_controller', 'ember-routing/system/controller_for', 'ember-routing/system/dsl', 'ember-routing/system/router', 'ember-routing/system/route', 'ember-routing/system/query_params', 'ember-routing/services/routing', 'ember-routing/services/router', 'ember-routing/system/cache', 'ember-routing/ext/run_loop', 'ember-routing/ext/controller'], function (exports, _api, _none_location, _hash_location, _history_location, _auto_location, _generate_controller, _controller_for, _dsl, _router, _route, _query_params, _routing, _router2, _cache) { 'use strict'; exports.BucketCache = exports.RouterService = exports.RoutingService = exports.QueryParams = exports.Route = exports.Router = exports.RouterDSL = exports.controllerFor = exports.generateControllerFactory = exports.generateController = exports.AutoLocation = exports.HistoryLocation = exports.HashLocation = exports.NoneLocation = exports.Location = undefined; Object.defineProperty(exports, 'Location', { enumerable: true, get: function () { return _api.default; } }); Object.defineProperty(exports, 'NoneLocation', { enumerable: true, get: function () { return _none_location.default; } }); Object.defineProperty(exports, 'HashLocation', { enumerable: true, get: function () { return _hash_location.default; } }); Object.defineProperty(exports, 'HistoryLocation', { enumerable: true, get: function () { return _history_location.default; } }); Object.defineProperty(exports, 'AutoLocation', { enumerable: true, get: function () { return _auto_location.default; } }); Object.defineProperty(exports, 'generateController', { enumerable: true, get: function () { return _generate_controller.default; } }); Object.defineProperty(exports, 'generateControllerFactory', { enumerable: true, get: function () { return _generate_controller.generateControllerFactory; } }); Object.defineProperty(exports, 'controllerFor', { enumerable: true, get: function () { return _controller_for.default; } }); Object.defineProperty(exports, 'RouterDSL', { enumerable: true, get: function () { return _dsl.default; } }); Object.defineProperty(exports, 'Router', { enumerable: true, get: function () { return _router.default; } }); Object.defineProperty(exports, 'Route', { enumerable: true, get: function () { return _route.default; } }); Object.defineProperty(exports, 'QueryParams', { enumerable: true, get: function () { return _query_params.default; } }); Object.defineProperty(exports, 'RoutingService', { enumerable: true, get: function () { return _routing.default; } }); Object.defineProperty(exports, 'RouterService', { enumerable: true, get: function () { return _router2.default; } }); Object.defineProperty(exports, 'BucketCache', { enumerable: true, get: function () { return _cache.default; } }); }); enifed('ember-routing/location/api', ['exports', 'ember-debug', 'ember-environment', 'ember-routing/location/util'], function (exports, _emberDebug, _emberEnvironment, _util) { 'use strict'; exports.default = { /** This is deprecated in favor of using the container to lookup the location implementation as desired. For example: ```javascript // Given a location registered as follows: container.register('location:history-test', HistoryTestLocation); // You could create a new instance via: container.lookup('location:history-test'); ``` @method create @param {Object} options @return {Object} an instance of an implementation of the `location` API @deprecated Use the container to lookup the location implementation that you need. @private */ create: function (options) { var implementation = options && options.implementation; false && !!!implementation && (0, _emberDebug.assert)('Ember.Location.create: you must specify a \'implementation\' option', !!implementation); var implementationClass = this.implementations[implementation]; false && !!!implementationClass && (0, _emberDebug.assert)('Ember.Location.create: ' + implementation + ' is not a valid implementation', !!implementationClass); return implementationClass.create.apply(implementationClass, arguments); }, implementations: {}, _location: _emberEnvironment.environment.location, /** Returns the current `location.hash` by parsing location.href since browsers inconsistently URL-decode `location.hash`. https://bugzilla.mozilla.org/show_bug.cgi?id=483304 @private @method getHash @since 1.4.0 */ _getHash: function () { return (0, _util.getHash)(this.location); } }; }); enifed('ember-routing/location/auto_location', ['exports', 'ember-utils', 'ember-metal', 'ember-debug', 'ember-runtime', 'ember-environment', 'ember-routing/location/util'], function (exports, _emberUtils, _emberMetal, _emberDebug, _emberRuntime, _emberEnvironment, _util) { 'use strict'; exports.getHistoryPath = getHistoryPath; exports.getHashPath = getHashPath; exports.default = _emberRuntime.Object.extend({ /** @private The browser's `location` object. This is typically equivalent to `window.location`, but may be overridden for testing. @property location @default environment.location */ location: _emberEnvironment.environment.location, /** @private The browser's `history` object. This is typically equivalent to `window.history`, but may be overridden for testing. @since 1.5.1 @property history @default environment.history */ history: _emberEnvironment.environment.history, /** @private The user agent's global variable. In browsers, this will be `window`. @since 1.11 @property global @default window */ global: _emberEnvironment.environment.window, /** @private The browser's `userAgent`. This is typically equivalent to `navigator.userAgent`, but may be overridden for testing. @since 1.5.1 @property userAgent @default environment.history */ userAgent: _emberEnvironment.environment.userAgent, /** @private This property is used by the router to know whether to cancel the routing setup process, which is needed while we redirect the browser. @since 1.5.1 @property cancelRouterSetup @default false */ cancelRouterSetup: false, /** @private Will be pre-pended to path upon state change. @since 1.5.1 @property rootURL @default '/' */ rootURL: '/', /** Called by the router to instruct the location to do any feature detection necessary. In the case of AutoLocation, we detect whether to use history or hash concrete implementations. @private */ detect: function () { var rootURL = this.rootURL; false && !(rootURL.charAt(rootURL.length - 1) === '/') && (0, _emberDebug.assert)('rootURL must end with a trailing forward slash e.g. "/app/"', rootURL.charAt(rootURL.length - 1) === '/'); var implementation = detectImplementation({ location: this.location, history: this.history, userAgent: this.userAgent, rootURL: rootURL, documentMode: this.documentMode, global: this.global }); if (implementation === false) { (0, _emberMetal.set)(this, 'cancelRouterSetup', true); implementation = 'none'; } var concrete = (0, _emberUtils.getOwner)(this).lookup('location:' + implementation); (0, _emberMetal.set)(concrete, 'rootURL', rootURL); false && !!!concrete && (0, _emberDebug.assert)('Could not find location \'' + implementation + '\'.', !!concrete); (0, _emberMetal.set)(this, 'concreteImplementation', concrete); }, initState: delegateToConcreteImplementation('initState'), getURL: delegateToConcreteImplementation('getURL'), setURL: delegateToConcreteImplementation('setURL'), replaceURL: delegateToConcreteImplementation('replaceURL'), onUpdateURL: delegateToConcreteImplementation('onUpdateURL'), formatURL: delegateToConcreteImplementation('formatURL'), willDestroy: function () { var concreteImplementation = (0, _emberMetal.get)(this, 'concreteImplementation'); if (concreteImplementation) { concreteImplementation.destroy(); } } }); function delegateToConcreteImplementation(methodName) { return function () { var concreteImplementation = (0, _emberMetal.get)(this, 'concreteImplementation'), _len, args, _key; false && !!!concreteImplementation && (0, _emberDebug.assert)('AutoLocation\'s detect() method should be called before calling any other hooks.', !!concreteImplementation); for (_len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } return (0, _emberUtils.tryInvoke)(concreteImplementation, methodName, args); }; } /* Given the browser's `location`, `history` and `userAgent`, and a configured root URL, this function detects whether the browser supports the [History API](https://developer.mozilla.org/en-US/docs/Web/API/History) and returns a string representing the Location object to use based on its determination. For example, if the page loads in an evergreen browser, this function would return the string "history", meaning the history API and thus HistoryLocation should be used. If the page is loaded in IE8, it will return the string "hash," indicating that the History API should be simulated by manipulating the hash portion of the location. */ function detectImplementation(options) { var location = options.location, historyPath, hashPath; var userAgent = options.userAgent; var history = options.history; var documentMode = options.documentMode; var global = options.global; var rootURL = options.rootURL; var implementation = 'none'; var cancelRouterSetup = false; var currentPath = (0, _util.getFullPath)(location); if ((0, _util.supportsHistory)(userAgent, history)) { historyPath = getHistoryPath(rootURL, location); // If the browser supports history and we have a history path, we can use // the history location with no redirects. if (currentPath === historyPath) { return 'history'; } else { if (currentPath.substr(0, 2) === '/#') { history.replaceState({ path: historyPath }, null, historyPath); implementation = 'history'; } else { cancelRouterSetup = true; (0, _util.replacePath)(location, historyPath); } } } else if ((0, _util.supportsHashChange)(documentMode, global)) { hashPath = getHashPath(rootURL, location); // Be sure we're using a hashed path, otherwise let's switch over it to so // we start off clean and consistent. We'll count an index path with no // hash as "good enough" as well. if (currentPath === hashPath || currentPath === '/' && hashPath === '/#/') { implementation = 'hash'; } else { // Our URL isn't in the expected hash-supported format, so we want to // cancel the router setup and replace the URL to start off clean cancelRouterSetup = true; (0, _util.replacePath)(location, hashPath); } } if (cancelRouterSetup) { return false; } return implementation; } /** @private Returns the current path as it should appear for HistoryLocation supported browsers. This may very well differ from the real current path (e.g. if it starts off as a hashed URL) */ function getHistoryPath(rootURL, location) { var path = (0, _util.getPath)(location); var hash = (0, _util.getHash)(location); var query = (0, _util.getQuery)(location); var rootURLIndex = path.indexOf(rootURL); var routeHash = void 0, hashParts = void 0; false && !(rootURLIndex === 0) && (0, _emberDebug.assert)('Path ' + path + ' does not start with the provided rootURL ' + rootURL, rootURLIndex === 0); // By convention, Ember.js routes using HashLocation are required to start // with `#/`. Anything else should NOT be considered a route and should // be passed straight through, without transformation. if (hash.substr(0, 2) === '#/') { // There could be extra hash segments after the route hashParts = hash.substr(1).split('#'); // The first one is always the route url routeHash = hashParts.shift(); // If the path already has a trailing slash, remove the one // from the hashed route so we don't double up. if (path.charAt(path.length - 1) === '/') { routeHash = routeHash.substr(1); } // This is the "expected" final order path += routeHash + query; if (hashParts.length) { path += '#' + hashParts.join('#'); } } else { path += query + hash; } return path; } /** @private Returns the current path as it should appear for HashLocation supported browsers. This may very well differ from the real current path. @method _getHashPath */ function getHashPath(rootURL, location) { var path = rootURL; var historyPath = getHistoryPath(rootURL, location); var routePath = historyPath.substr(rootURL.length); if (routePath !== '') { if (routePath[0] !== '/') { routePath = '/' + routePath; } path += '#' + routePath; } return path; } }); enifed('ember-routing/location/hash_location', ['exports', 'ember-metal', 'ember-runtime', 'ember-routing/location/api'], function (exports, _emberMetal, _emberRuntime, _api) { 'use strict'; exports.default = _emberRuntime.Object.extend({ implementation: 'hash', init: function () { (0, _emberMetal.set)(this, 'location', (0, _emberMetal.get)(this, '_location') || window.location); this._hashchangeHandler = undefined; }, /** @private Returns normalized location.hash @since 1.5.1 @method getHash */ getHash: _api.default._getHash, /** Returns the normalized URL, constructed from `location.hash`. e.g. `#/foo` => `/foo` as well as `#/foo#bar` => `/foo#bar`. By convention, hashed paths must begin with a forward slash, otherwise they are not treated as a path so we can distinguish intent. @private @method getURL */ getURL: function () { var originalPath = this.getHash().substr(1); var outPath = originalPath; if (outPath[0] !== '/') { outPath = '/'; // Only add the # if the path isn't empty. // We do NOT want `/#` since the ampersand // is only included (conventionally) when // the location.hash has a value if (originalPath) { outPath += '#' + originalPath; } } return outPath; }, /** Set the `location.hash` and remembers what was set. This prevents `onUpdateURL` callbacks from triggering when the hash was set by `HashLocation`. @private @method setURL @param path {String} */ setURL: function (path) { (0, _emberMetal.get)(this, 'location').hash = path; (0, _emberMetal.set)(this, 'lastSetURL', path); }, /** Uses location.replace to update the url without a page reload or history modification. @private @method replaceURL @param path {String} */ replaceURL: function (path) { (0, _emberMetal.get)(this, 'location').replace('#' + path); (0, _emberMetal.set)(this, 'lastSetURL', path); }, /** Register a callback to be invoked when the hash changes. These callbacks will execute when the user presses the back or forward button, but not after `setURL` is invoked. @private @method onUpdateURL @param callback {Function} */ onUpdateURL: function (callback) { this._removeEventListener(); this._hashchangeHandler = _emberMetal.run.bind(this, function () { var path = this.getURL(); if ((0, _emberMetal.get)(this, 'lastSetURL') === path) { return; } (0, _emberMetal.set)(this, 'lastSetURL', null); callback(path); }); window.addEventListener('hashchange', this._hashchangeHandler); }, /** Given a URL, formats it to be placed into the page as part of an element's `href` attribute. This is used, for example, when using the {{action}} helper to generate a URL based on an event. @private @method formatURL @param url {String} */ formatURL: function (url) { return '#' + url; }, /** Cleans up the HashLocation event listener. @private @method willDestroy */ willDestroy: function () { this._removeEventListener(); }, _removeEventListener: function () { if (this._hashchangeHandler) { window.removeEventListener('hashchange', this._hashchangeHandler); } } }); }); enifed('ember-routing/location/history_location', ['exports', 'ember-metal', 'ember-runtime', 'ember-routing/location/api'], function (exports, _emberMetal, _emberRuntime, _api) { 'use strict'; /** @module @ember/routing */ var popstateFired = false; function _uuid() { return 'xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'.replace(/[xy]/g, function (c) { var r, v; r = Math.random() * 16 | 0; v = c === 'x' ? r : r & 3 | 8; return v.toString(16); }); } /** Ember.HistoryLocation implements the location API using the browser's history.pushState API. Using `HistoryLocation` results in URLs that are indistinguishable from a standard URL. This relies upon the browser's `history` API. Example: ```app/router.js Router.map(function() { this.route('posts', function() { this.route('new'); }); }); Router.reopen({ location: 'history' }); ``` This will result in a posts.new url of `/posts/new`. Keep in mind that your server must serve the Ember app at all the routes you define. @class HistoryLocation @extends EmberObject @protected */ exports.default = _emberRuntime.Object.extend({ implementation: 'history', init: function () { this._super.apply(this, arguments); var base = document.querySelector('base'); var baseURL = ''; if (base) { baseURL = base.getAttribute('href'); } (0, _emberMetal.set)(this, 'baseURL', baseURL); (0, _emberMetal.set)(this, 'location', (0, _emberMetal.get)(this, 'location') || window.location); this._popstateHandler = undefined; }, /** Used to set state on first call to setURL @private @method initState */ initState: function () { var history = (0, _emberMetal.get)(this, 'history') || window.history; (0, _emberMetal.set)(this, 'history', history); if (history && 'state' in history) { this.supportsHistory = true; } var state = this.getState(); var path = this.formatURL(this.getURL()); if (state && state.path === path) { // preserve existing state // used for webkit workaround, since there will be no initial popstate event this._previousURL = this.getURL(); } else { this.replaceState(path); } }, /** Will be pre-pended to path upon state change @property rootURL @default '/' @private */ rootURL: '/', /** Returns the current `location.pathname` without `rootURL` or `baseURL` @private @method getURL @return url {String} */ getURL: function () { var location = (0, _emberMetal.get)(this, 'location'); var path = location.pathname; var rootURL = (0, _emberMetal.get)(this, 'rootURL'); var baseURL = (0, _emberMetal.get)(this, 'baseURL'); // remove trailing slashes if they exists rootURL = rootURL.replace(/\/$/, ''); baseURL = baseURL.replace(/\/$/, ''); // remove baseURL and rootURL from start of path var url = path.replace(new RegExp('^' + baseURL + '(?=/|$)'), '').replace(new RegExp('^' + rootURL + '(?=/|$)'), '').replace(/\/\/$/g, '/'); // remove extra slashes var search = location.search || ''; url += search + this.getHash(); return url; }, /** Uses `history.pushState` to update the url without a page reload. @private @method setURL @param path {String} */ setURL: function (path) { var state = this.getState(); path = this.formatURL(path); if (!state || state.path !== path) { this.pushState(path); } }, /** Uses `history.replaceState` to update the url without a page reload or history modification. @private @method replaceURL @param path {String} */ replaceURL: function (path) { var state = this.getState(); path = this.formatURL(path); if (!state || state.path !== path) { this.replaceState(path); } }, /** Get the current `history.state`. Checks for if a polyfill is required and if so fetches this._historyState. The state returned from getState may be null if an iframe has changed a window's history. The object returned will contain a `path` for the given state as well as a unique state `id`. The state index will allow the app to distinguish between two states with similar paths but should be unique from one another. @private @method getState @return state {Object} */ getState: function () { if (this.supportsHistory) { return (0, _emberMetal.get)(this, 'history').state; } return this._historyState; }, /** Pushes a new state. @private @method pushState @param path {String} */ pushState: function (path) { var state = { path: path, uuid: _uuid() }; (0, _emberMetal.get)(this, 'history').pushState(state, null, path); this._historyState = state; // used for webkit workaround this._previousURL = this.getURL(); }, /** Replaces the current state. @private @method replaceState @param path {String} */ replaceState: function (path) { var state = { path: path, uuid: _uuid() }; (0, _emberMetal.get)(this, 'history').replaceState(state, null, path); this._historyState = state; // used for webkit workaround this._previousURL = this.getURL(); }, /** Register a callback to be invoked whenever the browser history changes, including using forward and back buttons. @private @method onUpdateURL @param callback {Function} */ onUpdateURL: function (callback) { var _this = this; this._removeEventListener(); this._popstateHandler = function () { // Ignore initial page load popstate event in Chrome if (!popstateFired) { popstateFired = true; if (_this.getURL() === _this._previousURL) { return; } } callback(_this.getURL()); }; window.addEventListener('popstate', this._popstateHandler); }, /** Used when using `{{action}}` helper. The url is always appended to the rootURL. @private @method formatURL @param url {String} @return formatted url {String} */ formatURL: function (url) { var rootURL = (0, _emberMetal.get)(this, 'rootURL'); var baseURL = (0, _emberMetal.get)(this, 'baseURL'); if (url !== '') { // remove trailing slashes if they exists rootURL = rootURL.replace(/\/$/, ''); baseURL = baseURL.replace(/\/$/, ''); } else if (baseURL[0] === '/' && rootURL[0] === '/') { // if baseURL and rootURL both start with a slash // ... remove trailing slash from baseURL if it exists baseURL = baseURL.replace(/\/$/, ''); } return baseURL + rootURL + url; }, /** Cleans up the HistoryLocation event listener. @private @method willDestroy */ willDestroy: function () { this._removeEventListener(); }, /** @private Returns normalized location.hash @method getHash */ getHash: _api.default._getHash, _removeEventListener: function () { if (this._popstateHandler) { window.removeEventListener('popstate', this._popstateHandler); } } }); }); enifed('ember-routing/location/none_location', ['exports', 'ember-metal', 'ember-debug', 'ember-runtime'], function (exports, _emberMetal, _emberDebug, _emberRuntime) { 'use strict'; exports.default = _emberRuntime.Object.extend({ implementation: 'none', path: '', detect: function () { var rootURL = this.rootURL; false && !(rootURL.charAt(rootURL.length - 1) === '/') && (0, _emberDebug.assert)('rootURL must end with a trailing forward slash e.g. "/app/"', rootURL.charAt(rootURL.length - 1) === '/'); }, /** Will be pre-pended to path. @private @property rootURL @default '/' */ rootURL: '/', /** Returns the current path without `rootURL`. @private @method getURL @return {String} path */ getURL: function () { var path = (0, _emberMetal.get)(this, 'path'); var rootURL = (0, _emberMetal.get)(this, 'rootURL'); // remove trailing slashes if they exists rootURL = rootURL.replace(/\/$/, ''); // remove rootURL from url return path.replace(new RegExp('^' + rootURL + '(?=/|$)'), ''); }, /** Set the path and remembers what was set. Using this method to change the path will not invoke the `updateURL` callback. @private @method setURL @param path {String} */ setURL: function (path) { (0, _emberMetal.set)(this, 'path', path); }, /** Register a callback to be invoked when the path changes. These callbacks will execute when the user presses the back or forward button, but not after `setURL` is invoked. @private @method onUpdateURL @param callback {Function} */ onUpdateURL: function (callback) { this.updateCallback = callback; }, /** Sets the path and calls the `updateURL` callback. @private @method handleURL @param url {String} */ handleURL: function (url) { (0, _emberMetal.set)(this, 'path', url); this.updateCallback(url); }, /** Given a URL, formats it to be placed into the page as part of an element's `href` attribute. This is used, for example, when using the {{action}} helper to generate a URL based on an event. @private @method formatURL @param url {String} @return {String} url */ formatURL: function (url) { var rootURL = (0, _emberMetal.get)(this, 'rootURL'); if (url !== '') { // remove trailing slashes if they exists rootURL = rootURL.replace(/\/$/, ''); } return rootURL + url; } }); }); enifed('ember-routing/location/util', ['exports'], function (exports) { 'use strict'; exports.getPath = getPath; exports.getQuery = getQuery; exports.getHash = getHash; exports.getFullPath = function (location) { return getPath(location) + getQuery(location) + getHash(location); }; exports.getOrigin = getOrigin; exports.supportsHashChange = /* `documentMode` only exist in Internet Explorer, and it's tested because IE8 running in IE7 compatibility mode claims to support `onhashchange` but actually does not. `global` is an object that may have an `onhashchange` property. @private @function supportsHashChange */ function (documentMode, global) { return 'onhashchange' in global && (documentMode === undefined || documentMode > 7); } /* `userAgent` is a user agent string. We use user agent testing here, because the stock Android browser is known to have buggy versions of the History API, in some Android versions. @private @function supportsHistory */ ; exports.supportsHistory = function (userAgent, history) { // Boosted from Modernizr: https://github.com/Modernizr/Modernizr/blob/master/feature-detects/history.js // The stock browser on Android 2.2 & 2.3, and 4.0.x returns positive on history support // Unfortunately support is really buggy and there is no clean way to detect // these bugs, so we fall back to a user agent sniff :( // We only want Android 2 and 4.0, stock browser, and not Chrome which identifies // itself as 'Mobile Safari' as well, nor Windows Phone. if ((userAgent.indexOf('Android 2.') !== -1 || userAgent.indexOf('Android 4.0') !== -1) && userAgent.indexOf('Mobile Safari') !== -1 && userAgent.indexOf('Chrome') === -1 && userAgent.indexOf('Windows Phone') === -1) { return false; } return !!(history && 'pushState' in history); } /** Replaces the current location, making sure we explicitly include the origin to prevent redirecting to a different origin. @private */ ; exports.replacePath = function (location, path) { location.replace(getOrigin(location) + path); }; /** @private Returns the current `location.pathname`, normalized for IE inconsistencies. */ function getPath(location) { var pathname = location.pathname; // Various versions of IE/Opera don't always return a leading slash if (pathname[0] !== '/') { pathname = '/' + pathname; } return pathname; } /** @private Returns the current `location.search`. */ function getQuery(location) { return location.search; } /** @private Returns the current `location.hash` by parsing location.href since browsers inconsistently URL-decode `location.hash`. Should be passed the browser's `location` object as the first argument. https://bugzilla.mozilla.org/show_bug.cgi?id=483304 */ function getHash(location) { var href = location.href; var hashIndex = href.indexOf('#'); if (hashIndex === -1) { return ''; } else { return href.substr(hashIndex); } } function getOrigin(location) { var origin = location.origin; // Older browsers, especially IE, don't have origin if (!origin) { origin = location.protocol + '//' + location.hostname; if (location.port) { origin += ':' + location.port; } } return origin; } }); enifed('ember-routing/services/router', ['exports', 'ember-runtime', 'ember-routing/utils'], function (exports, _emberRuntime, _utils) { 'use strict'; /** The Router service is the public API that provides component/view layer access to the router. @public @class RouterService @category ember-routing-router-service */ /** @module ember */ var RouterService = _emberRuntime.Service.extend({ /** Name of the current route. This property represent the logical name of the route, which is comma separated. For the following router: ```app/router.js Router.map(function() { this.route('about); this.route('blog', function () { this.route('post', { path: ':post_id' }); }); }); ``` It will return: * `index` when you visit `/` * `about` when you visit `/about` * `blog.index` when you visit `/blog` * `blog.post` when you visit `/blog/some-post-id` @property currentRouteName @type String @public */ currentRouteName: (0, _emberRuntime.readOnly)('_router.currentRouteName'), /** Current URL for the application. This property represent the URL path for this route. For the following router: ```app/router.js Router.map(function() { this.route('about); this.route('blog', function () { this.route('post', { path: ':post_id' }); }); }); ``` It will return: * `/` when you visit `/` * `/about` when you visit `/about` * `/blog/index` when you visit `/blog` * `/blog/post` when you visit `/blog/some-post-id` @property currentURL @type String @public */ currentURL: (0, _emberRuntime.readOnly)('_router.currentURL'), /** The `location` property determines the type of URL's that your application will use. The following location types are currently available: * `auto` * `hash` * `history` * `none` @property location @default 'hash' @see {Ember.Location} @public */ location: (0, _emberRuntime.readOnly)('_router.location'), /** The `rootURL` property represents the URL of the root of the application, '/' by default. This prefix is assumed on all routes defined on this app. IF you change the `rootURL` in your environment configuration like so: ```config/environment.js 'use strict'; module.exports = function(environment) { let ENV = { modulePrefix: 'router-service', environment, rootURL: '/my-root', … } ] ``` This property will return `/my-root`. @property rootURL @default '/' @public */ rootURL: (0, _emberRuntime.readOnly)('_router.rootURL'), _router: null, transitionTo: function () { for (_len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } if ((0, _utils.resemblesURL)(args[0])) { return this._router._doURLTransition('transitionTo', args[0]); } var _extractRouteArgs = (0, _utils.extractRouteArgs)(args), routeName = _extractRouteArgs.routeName, models = _extractRouteArgs.models, queryParams = _extractRouteArgs.queryParams, _len, args, _key; var transition = this._router._doTransition(routeName, models, queryParams, true); transition._keepDefaultQueryParamValues = true; return transition; }, replaceWith: function () /* routeNameOrUrl, ...models, options */{ return this.transitionTo.apply(this, arguments).method('replace'); }, urlFor: function () /* routeName, ...models, options */{ var _router; return (_router = this._router).generate.apply(_router, arguments); }, isActive: function () { for (_len2 = arguments.length, args = Array(_len2), _key2 = 0; _key2 < _len2; _key2++) { args[_key2] = arguments[_key2]; } var _extractRouteArgs2 = (0, _utils.extractRouteArgs)(args), routeName = _extractRouteArgs2.routeName, models = _extractRouteArgs2.models, queryParams = _extractRouteArgs2.queryParams, _len2, args, _key2; var routerMicrolib = this._router._routerMicrolib; if (!routerMicrolib.isActiveIntent(routeName, models, null)) { return false; } var hasQueryParams = Object.keys(queryParams).length > 0; if (hasQueryParams) { this._router._prepareQueryParams(routeName, models, queryParams, true /* fromRouterService */); return (0, _utils.shallowEqual)(queryParams, routerMicrolib.state.queryParams); } return true; } }); exports.default = RouterService; }); enifed('ember-routing/services/routing', ['exports', 'ember-utils', 'ember-runtime', 'ember-metal'], function (exports, _emberUtils, _emberRuntime, _emberMetal) { 'use strict'; exports.default = _emberRuntime.Service.extend({ router: null, targetState: (0, _emberRuntime.readOnly)('router.targetState'), currentState: (0, _emberRuntime.readOnly)('router.currentState'), currentRouteName: (0, _emberRuntime.readOnly)('router.currentRouteName'), currentPath: (0, _emberRuntime.readOnly)('router.currentPath'), hasRoute: function (routeName) { return (0, _emberMetal.get)(this, 'router').hasRoute(routeName); }, transitionTo: function (routeName, models, queryParams, shouldReplace) { var router = (0, _emberMetal.get)(this, 'router'); var transition = router._doTransition(routeName, models, queryParams); if (shouldReplace) { transition.method('replace'); } return transition; }, normalizeQueryParams: function (routeName, models, queryParams) { (0, _emberMetal.get)(this, 'router')._prepareQueryParams(routeName, models, queryParams); }, generateURL: function (routeName, models, queryParams) { var router = (0, _emberMetal.get)(this, 'router'); // return early when the router microlib is not present, which is the case for {{link-to}} in integration tests if (!router._routerMicrolib) { return; } var visibleQueryParams = {}; if (queryParams) { (0, _emberUtils.assign)(visibleQueryParams, queryParams); this.normalizeQueryParams(routeName, models, visibleQueryParams); } return router.generate.apply(router, [routeName].concat(models, [{ queryParams: visibleQueryParams }])); }, isActiveForRoute: function (contexts, queryParams, routeName, routerState, isCurrentWhenSpecified) { var router = (0, _emberMetal.get)(this, 'router'); var handlers = router._routerMicrolib.recognizer.handlersFor(routeName); var leafName = handlers[handlers.length - 1].handler; var maximumContexts = numberOfContextsAcceptedByHandler(routeName, handlers); // NOTE: any ugliness in the calculation of activeness is largely // due to the fact that we support automatic normalizing of // `resource` -> `resource.index`, even though there might be // dynamic segments / query params defined on `resource.index` // which complicates (and makes somewhat ambiguous) the calculation // of activeness for links that link to `resource` instead of // directly to `resource.index`. // if we don't have enough contexts revert back to full route name // this is because the leaf route will use one of the contexts if (contexts.length > maximumContexts) { routeName = leafName; } return routerState.isActiveIntent(routeName, contexts, queryParams, !isCurrentWhenSpecified); } }); function numberOfContextsAcceptedByHandler(handler, handlerInfos) { var req = 0, i; for (i = 0; i < handlerInfos.length; i++) { req += handlerInfos[i].names.length; if (handlerInfos[i].handler === handler) { break; } } return req; } }); enifed('ember-routing/system/cache', ['exports', 'ember-runtime'], function (exports, _emberRuntime) { 'use strict'; exports.default = _emberRuntime.Object.extend({ init: function () { this.cache = Object.create(null); }, has: function (bucketKey) { return !!this.cache[bucketKey]; }, stash: function (bucketKey, key, value) { var bucket = this.cache[bucketKey]; if (!bucket) { bucket = this.cache[bucketKey] = Object.create(null); } bucket[key] = value; }, lookup: function (bucketKey, prop, defaultValue) { var cache = this.cache; if (!this.has(bucketKey)) { return defaultValue; } var bucket = cache[bucketKey]; if (prop in bucket && bucket[prop] !== undefined) { return bucket[prop]; } else { return defaultValue; } } }); }); enifed("ember-routing/system/controller_for", ["exports"], function (exports) { "use strict"; exports.default = /** @module ember */ /** Finds a controller instance. @for Ember @method controllerFor @private */ function (container, controllerName, lookupOptions) { return container.lookup("controller:" + controllerName, lookupOptions); }; }); enifed('ember-routing/system/dsl', ['exports', 'ember-utils', 'ember-debug'], function (exports, _emberUtils, _emberDebug) { 'use strict'; var uuid = 0; var DSL = function () { function DSL(name, options) { this.parent = name; this.enableLoadingSubstates = options && options.enableLoadingSubstates; this.matches = []; this.explicitIndex = undefined; this.options = options; } DSL.prototype.route = function (name) { var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}, fullName, dsl; var callback = arguments[2]; var dummyErrorRoute = '/_unused_dummy_error_path_route_' + name + '/:error'; if (arguments.length === 2 && typeof options === 'function') { callback = options; options = {}; } false && !function () { if (options.overrideNameAssertion === true) { return true; } return ['array', 'basic', 'object', 'application'].indexOf(name) === -1; }() && (0, _emberDebug.assert)('\'' + name + '\' cannot be used as a route name.', function () { if (options.overrideNameAssertion === true) { return true; }return ['array', 'basic', 'object', 'application'].indexOf(name) === -1; }()); if (this.enableLoadingSubstates) { createRoute(this, name + '_loading', { resetNamespace: options.resetNamespace }); createRoute(this, name + '_error', { resetNamespace: options.resetNamespace, path: dummyErrorRoute }); } if (callback) { fullName = getFullName(this, name, options.resetNamespace); dsl = new DSL(fullName, this.options); createRoute(dsl, 'loading'); createRoute(dsl, 'error', { path: dummyErrorRoute }); callback.call(dsl); createRoute(this, name, options, dsl.generate()); } else { createRoute(this, name, options); } }; DSL.prototype.push = function (url, name, callback, serialize) { var parts = name.split('.'), localFullName, routeInfo; if (this.options.engineInfo) { localFullName = name.slice(this.options.engineInfo.fullName.length + 1); routeInfo = (0, _emberUtils.assign)({ localFullName: localFullName }, this.options.engineInfo); if (serialize) { routeInfo.serializeMethod = serialize; } this.options.addRouteForEngine(name, routeInfo); } else if (serialize) { throw new Error('Defining a route serializer on route \'' + name + '\' outside an Engine is not allowed.'); } if (url === '' || url === '/' || parts[parts.length - 1] === 'index') { this.explicitIndex = true; } this.matches.push(url, name, callback); }; DSL.prototype.generate = function () { var dslMatches = this.matches; if (!this.explicitIndex) { this.route('index', { path: '/' }); } return function (match) { var i; for (i = 0; i < dslMatches.length; i += 3) { match(dslMatches[i]).to(dslMatches[i + 1], dslMatches[i + 2]); } }; }; DSL.prototype.mount = function (_name) { var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}, shouldResetEngineInfo, oldEngineInfo, optionsForChild, childDSL, substateName, _localFullName, _routeInfo; var engineRouteMap = this.options.resolveRouteMap(_name); var name = _name; if (options.as) { name = options.as; } var fullName = getFullName(this, name, options.resetNamespace); var engineInfo = { name: _name, instanceId: uuid++, mountPoint: fullName, fullName: fullName }; var path = options.path; if (typeof path !== 'string') { path = '/' + name; } var callback = void 0; var dummyErrorRoute = '/_unused_dummy_error_path_route_' + name + '/:error'; if (engineRouteMap) { shouldResetEngineInfo = false; oldEngineInfo = this.options.engineInfo; if (oldEngineInfo) { shouldResetEngineInfo = true; this.options.engineInfo = engineInfo; } optionsForChild = (0, _emberUtils.assign)({ engineInfo: engineInfo }, this.options); childDSL = new DSL(fullName, optionsForChild); createRoute(childDSL, 'loading'); createRoute(childDSL, 'error', { path: dummyErrorRoute }); engineRouteMap.class.call(childDSL); callback = childDSL.generate(); if (shouldResetEngineInfo) { this.options.engineInfo = oldEngineInfo; } } var routeInfo = (0, _emberUtils.assign)({ localFullName: 'application' }, engineInfo); if (this.enableLoadingSubstates) { // These values are important to register the loading routes under their // proper names for the Router and within the Engine's registry. substateName = name + '_loading'; _localFullName = 'application_loading'; _routeInfo = (0, _emberUtils.assign)({ localFullName: _localFullName }, engineInfo); createRoute(this, substateName, { resetNamespace: options.resetNamespace }); this.options.addRouteForEngine(substateName, _routeInfo); substateName = name + '_error'; _localFullName = 'application_error'; _routeInfo = (0, _emberUtils.assign)({ localFullName: _localFullName }, engineInfo); createRoute(this, substateName, { resetNamespace: options.resetNamespace, path: dummyErrorRoute }); this.options.addRouteForEngine(substateName, _routeInfo); } this.options.addRouteForEngine(fullName, routeInfo); this.push(path, fullName, callback); }; return DSL; }(); exports.default = DSL; function canNest(dsl) { return dsl.parent !== 'application'; } function getFullName(dsl, name, resetNamespace) { if (canNest(dsl) && resetNamespace !== true) { return dsl.parent + '.' + name; } else { return name; } } function createRoute(dsl, name) { var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {}; var callback = arguments[3]; var fullName = getFullName(dsl, name, options.resetNamespace); if (typeof options.path !== 'string') { options.path = '/' + name; } dsl.push(options.path, fullName, callback, options.serialize); } DSL.map = function (callback) { var dsl = new DSL(); callback.call(dsl); return dsl; }; }); enifed('ember-routing/system/generate_controller', ['exports', 'ember-metal', 'ember-debug'], function (exports) { 'use strict'; exports.generateControllerFactory = generateControllerFactory; exports.default = /** Generates and instantiates a controller extending from `controller:basic` if present, or `Ember.Controller` if not. @for Ember @method generateController @private @since 1.3.0 */ function (owner, controllerName) { generateControllerFactory(owner, controllerName); var instance = owner.lookup('controller:' + controllerName); return instance; }; /** @module ember */ /** Generates a controller factory @for Ember @method generateControllerFactory @private */ function generateControllerFactory(owner, controllerName) { var Factory = owner.factoryFor('controller:basic').class; Factory = Factory.extend({ toString: function () { return '(generated ' + controllerName + ' controller)'; } }); owner.register('controller:' + controllerName, Factory); return Factory; } }); enifed('ember-routing/system/query_params', ['exports', 'ember-runtime'], function (exports, _emberRuntime) { 'use strict'; exports.default = _emberRuntime.Object.extend({ isQueryParams: true, values: null }); }); enifed('ember-routing/system/route', ['exports', 'ember-utils', 'ember-metal', 'ember-debug', 'ember-runtime', 'ember-routing/system/generate_controller', 'ember-routing/utils'], function (exports, _emberUtils, _emberMetal, _emberDebug, _emberRuntime, _generate_controller, _utils) { 'use strict'; exports.defaultSerialize = defaultSerialize; exports.hasDefaultSerialize = function (route) { return !!route.serialize[DEFAULT_SERIALIZE]; } /** @module @ember/routing */ /** The `Ember.Route` class is used to define individual routes. Refer to the [routing guide](https://emberjs.com/guides/routing/) for documentation. @class Route @extends EmberObject @uses Ember.ActionHandler @uses Evented @since 1.0.0 @public */ ; function K() { return this; } function defaultSerialize(model, params) { if (params.length < 1 || !model) { return; } var object = {}, name; if (params.length === 1) { name = params[0]; if (name in model) { object[name] = (0, _emberMetal.get)(model, name); } else if (/_id$/.test(name)) { object[name] = (0, _emberMetal.get)(model, 'id'); } } else { object = (0, _emberMetal.getProperties)(model, params); } return object; } var DEFAULT_SERIALIZE = (0, _emberUtils.symbol)('DEFAULT_SERIALIZE'); defaultSerialize[DEFAULT_SERIALIZE] = true; var Route = _emberRuntime.Object.extend(_emberRuntime.ActionHandler, _emberRuntime.Evented, { /** Configuration hash for this route's queryParams. The possible configuration options and their defaults are as follows (assuming a query param whose controller property is `page`): ```javascript queryParams: { page: { // By default, controller query param properties don't // cause a full transition when they are changed, but // rather only cause the URL to update. Setting // `refreshModel` to true will cause an "in-place" // transition to occur, whereby the model hooks for // this route (and any child routes) will re-fire, allowing // you to reload models (e.g., from the server) using the // updated query param values. refreshModel: false, // By default, changes to controller query param properties // cause the URL to update via `pushState`, which means an // item will be added to the browser's history, allowing // you to use the back button to restore the app to the // previous state before the query param property was changed. // Setting `replace` to true will use `replaceState` (or its // hash location equivalent), which causes no browser history // item to be added. This options name and default value are // the same as the `link-to` helper's `replace` option. replace: false, // By default, the query param URL key is the same name as // the controller property name. Use `as` to specify a // different URL key. as: 'page' } } ``` @property queryParams @for Route @type Object @since 1.6.0 @public */ queryParams: {}, _setRouteName: function (name) { this.routeName = name; this.fullRouteName = getEngineRouteName((0, _emberUtils.getOwner)(this), name); }, /** @private @property _qp */ _qp: (0, _emberMetal.computed)(function () { var _this = this, controllerDefinedQueryParameterConfiguration, normalizedControllerQueryParameterConfiguration, desc, scope, parts, urlKey, defaultValue, type, defaultValueSerialized, scopedPropertyName, qp; var combinedQueryParameterConfiguration = void 0; var controllerName = this.controllerName || this.routeName; var owner = (0, _emberUtils.getOwner)(this); var controller = owner.lookup('controller:' + controllerName); var queryParameterConfiguraton = (0, _emberMetal.get)(this, 'queryParams'); var hasRouterDefinedQueryParams = Object.keys(queryParameterConfiguraton).length > 0; if (controller) { // the developer has authored a controller class in their application for // this route find its query params and normalize their object shape them // merge in the query params for the route. As a mergedProperty, // Route#queryParams is always at least `{}` controllerDefinedQueryParameterConfiguration = (0, _emberMetal.get)(controller, 'queryParams') || {}; normalizedControllerQueryParameterConfiguration = (0, _utils.normalizeControllerQueryParams)(controllerDefinedQueryParameterConfiguration); combinedQueryParameterConfiguration = mergeEachQueryParams(normalizedControllerQueryParameterConfiguration, queryParameterConfiguraton); } else if (hasRouterDefinedQueryParams) { // the developer has not defined a controller but *has* supplied route query params. // Generate a class for them so we can later insert default values controller = (0, _generate_controller.default)(owner, controllerName); combinedQueryParameterConfiguration = queryParameterConfiguraton; } var qps = []; var map = {}; var propertyNames = []; for (var propName in combinedQueryParameterConfiguration) { if (!combinedQueryParameterConfiguration.hasOwnProperty(propName)) { continue; } // to support the dubious feature of using unknownProperty // on queryParams configuration if (propName === 'unknownProperty' || propName === '_super') { // possible todo: issue deprecation warning? continue; } desc = combinedQueryParameterConfiguration[propName]; scope = desc.scope || 'model'; parts = void 0; if (scope === 'controller') { parts = []; } urlKey = desc.as || this.serializeQueryParamKey(propName); defaultValue = (0, _emberMetal.get)(controller, propName); if (Array.isArray(defaultValue)) { defaultValue = (0, _emberRuntime.A)(defaultValue.slice()); } type = desc.type || (0, _emberRuntime.typeOf)(defaultValue); defaultValueSerialized = this.serializeQueryParam(defaultValue, urlKey, type); scopedPropertyName = controllerName + ':' + propName; qp = { undecoratedDefaultValue: (0, _emberMetal.get)(controller, propName), defaultValue: defaultValue, serializedDefaultValue: defaultValueSerialized, serializedValue: defaultValueSerialized, type: type, urlKey: urlKey, prop: propName, scopedPropertyName: scopedPropertyName, controllerName: controllerName, route: this, parts: parts, // provided later when stashNames is called if 'model' scope values: null, // provided later when setup is called. no idea why. scope: scope }; map[propName] = map[urlKey] = map[scopedPropertyName] = qp; qps.push(qp); propertyNames.push(propName); } return { qps: qps, map: map, propertyNames: propertyNames, states: { /* Called when a query parameter changes in the URL, this route cares about that query parameter, but the route is not currently in the active route hierarchy. */ inactive: function (prop, value) { var qp = map[prop]; _this._qpChanged(prop, value, qp); }, /* Called when a query parameter changes in the URL, this route cares about that query parameter, and the route is currently in the active route hierarchy. */ active: function (prop, value) { var qp = map[prop]; _this._qpChanged(prop, value, qp); return _this._activeQPChanged(qp, value); }, /* Called when a value of a query parameter this route handles changes in a controller and the route is currently in the active route hierarchy. */ allowOverrides: function (prop, value) { var qp = map[prop]; _this._qpChanged(prop, value, qp); return _this._updatingQPChanged(qp); } } }; }), /** @private @property _names */ _names: null, _stashNames: function (handlerInfo, dynamicParent) { if (this._names) { return; } var names = this._names = handlerInfo._names, a, i, qp; if (!names.length) { handlerInfo = dynamicParent; names = handlerInfo && handlerInfo._names || []; } var qps = (0, _emberMetal.get)(this, '_qp.qps'); var namePaths = new Array(names.length); for (a = 0; a < names.length; ++a) { namePaths[a] = handlerInfo.name + '.' + names[a]; } for (i = 0; i < qps.length; ++i) { qp = qps[i]; if (qp.scope === 'model') { qp.parts = namePaths; } } }, _activeQPChanged: function (qp, value) { this.router._activeQPChanged(qp.scopedPropertyName, value); }, _updatingQPChanged: function (qp) { this.router._updatingQPChanged(qp.urlKey); }, mergedProperties: ['queryParams'], paramsFor: function (name) { var _this2 = this; var route = (0, _emberUtils.getOwner)(this).lookup('route:' + name); if (!route) { return {}; } var transition = this.router._routerMicrolib.activeTransition; var state = transition ? transition.state : this.router._routerMicrolib.state; var fullName = route.fullRouteName; var params = (0, _emberUtils.assign)({}, state.params[fullName]); var queryParams = getQueryParamsFor(route, state); return Object.keys(queryParams).reduce(function (params, key) { false && !!params[key] && (0, _emberDebug.assert)('The route \'' + _this2.routeName + '\' has both a dynamic segment and query param with name \'' + key + '\'. Please rename one to avoid collisions.', !params[key]); params[key] = queryParams[key]; return params; }, params); }, serializeQueryParamKey: function (controllerPropertyName) { return controllerPropertyName; }, serializeQueryParam: function (value, urlKey, defaultValueType) { // urlKey isn't used here, but anyone overriding // can use it to provide serialization specific // to a certain query param. return this.router._serializeQueryParam(value, defaultValueType); }, deserializeQueryParam: function (value, urlKey, defaultValueType) { // urlKey isn't used here, but anyone overriding // can use it to provide deserialization specific // to a certain query param. return this.router._deserializeQueryParam(value, defaultValueType); }, _optionsForQueryParam: function (qp) { return (0, _emberMetal.get)(this, 'queryParams.' + qp.urlKey) || (0, _emberMetal.get)(this, 'queryParams.' + qp.prop) || {}; }, /** A hook you can use to reset controller values either when the model changes or the route is exiting. ```app/routes/articles.js import Route from '@ember/routing/route'; export default Route.extend({ resetController(controller, isExiting, transition) { if (isExiting && transition.targetName !== 'error') { controller.set('page', 1); } } }); ``` @method resetController @param {Controller} controller instance @param {Boolean} isExiting @param {Object} transition @since 1.7.0 @public */ resetController: K, exit: function () { this.deactivate(); this.trigger('deactivate'); this.teardownViews(); }, _reset: function (isExiting, transition) { var controller = this.controller; controller._qpDelegate = (0, _emberMetal.get)(this, '_qp.states.inactive'); this.resetController(controller, isExiting, transition); }, enter: function () { this.connections = []; this.activate(); this.trigger('activate'); }, /** The name of the template to use by default when rendering this routes template. ```app/routes/posts/list.js import Route from '@ember/routing/route'; export default Route.extend({ templateName: 'posts/list' }); ``` ```app/routes/posts/index.js import PostsList from '../posts/list'; export default PostsList.extend(); ``` ```app/routes/posts/archived.js import PostsList from '../posts/list'; export default PostsList.extend(); ``` @property templateName @type String @default null @since 1.4.0 @public */ templateName: null, /** The name of the controller to associate with this route. By default, Ember will lookup a route's controller that matches the name of the route (i.e. `App.PostController` for `App.PostRoute`). However, if you would like to define a specific controller to use, you can do so using this property. This is useful in many ways, as the controller specified will be: * passed to the `setupController` method. * used as the controller for the template being rendered by the route. * returned from a call to `controllerFor` for the route. @property controllerName @type String @default null @since 1.4.0 @public */ controllerName: null, /** The `willTransition` action is fired at the beginning of any attempted transition with a `Transition` object as the sole argument. This action can be used for aborting, redirecting, or decorating the transition from the currently active routes. A good example is preventing navigation when a form is half-filled out: ```app/routes/contact-form.js import Route from '@ember/routing/route'; export default Route.extend({ actions: { willTransition(transition) { if (this.controller.get('userHasEnteredData')) { this.controller.displayNavigationConfirm(); transition.abort(); } } } }); ``` You can also redirect elsewhere by calling `this.transitionTo('elsewhere')` from within `willTransition`. Note that `willTransition` will not be fired for the redirecting `transitionTo`, since `willTransition` doesn't fire when there is already a transition underway. If you want subsequent `willTransition` actions to fire for the redirecting transition, you must first explicitly call `transition.abort()`. To allow the `willTransition` event to continue bubbling to the parent route, use `return true;`. When the `willTransition` method has a return value of `true` then the parent route's `willTransition` method will be fired, enabling "bubbling" behavior for the event. @event willTransition @param {Transition} transition @since 1.0.0 @public */ /** The `didTransition` action is fired after a transition has successfully been completed. This occurs after the normal model hooks (`beforeModel`, `model`, `afterModel`, `setupController`) have resolved. The `didTransition` action has no arguments, however, it can be useful for tracking page views or resetting state on the controller. ```app/routes/login.js import Route from '@ember/routing/route'; export default Route.extend({ actions: { didTransition() { this.controller.get('errors.base').clear(); return true; // Bubble the didTransition event } } }); ``` @event didTransition @since 1.2.0 @public */ /** The `loading` action is fired on the route when a route's `model` hook returns a promise that is not already resolved. The current `Transition` object is the first parameter and the route that triggered the loading event is the second parameter. ```app/routes/application.js import Route from '@ember/routing/route'; export default Route.extend({ actions: { loading(transition, route) { let controller = this.controllerFor('foo'); controller.set('currentlyLoading', true); transition.finally(function() { controller.set('currentlyLoading', false); }); } } }); ``` @event loading @param {Transition} transition @param {Route} route The route that triggered the loading event @since 1.2.0 @public */ /** When attempting to transition into a route, any of the hooks may return a promise that rejects, at which point an `error` action will be fired on the partially-entered routes, allowing for per-route error handling logic, or shared error handling logic defined on a parent route. Here is an example of an error handler that will be invoked for rejected promises from the various hooks on the route, as well as any unhandled errors from child routes: ```app/routes/admin.js import Route from '@ember/routing/route'; export default Route.extend({ beforeModel() { return Ember.RSVP.reject('bad things!'); }, actions: { error(error, transition) { // Assuming we got here due to the error in `beforeModel`, // we can expect that error === "bad things!", // but a promise model rejecting would also // call this hook, as would any errors encountered // in `afterModel`. // The `error` hook is also provided the failed // `transition`, which can be stored and later // `.retry()`d if desired. this.transitionTo('login'); } } }); ``` `error` actions that bubble up all the way to `ApplicationRoute` will fire a default error handler that logs the error. You can specify your own global default error handler by overriding the `error` handler on `ApplicationRoute`: ```app/routes/application.js import Route from '@ember/routing/route'; export default Route.extend({ actions: { error(error, transition) { this.controllerFor('banner').displayError(error.message); } } }); ``` @event error @param {Error} error @param {Transition} transition @since 1.0.0 @public */ /** This event is triggered when the router enters the route. It is not executed when the model for the route changes. ```app/routes/application.js import Route from '@ember/routing/route'; export default Route.extend({ collectAnalytics: Ember.on('activate', function(){ collectAnalytics(); }) }); ``` @event activate @since 1.9.0 @public */ /** This event is triggered when the router completely exits this route. It is not executed when the model for the route changes. ```app/routes/index.js import Route from '@ember/routing/route'; export default Route.extend({ trackPageLeaveAnalytics: Ember.on('deactivate', function(){ trackPageLeaveAnalytics(); }) }); ``` @event deactivate @since 1.9.0 @public */ /** The controller associated with this route. Example ```app/routes/form.js import Route from '@ember/routing/route'; export default Route.extend({ actions: { willTransition(transition) { if (this.controller.get('userHasEnteredData') && !confirm('Are you sure you want to abandon progress?')) { transition.abort(); } else { // Bubble the `willTransition` action so that // parent routes can decide whether or not to abort. return true; } } } }); ``` @property controller @type Controller @since 1.6.0 @public */ actions: { queryParamsDidChange: function (changed, totalPresent, removed) { var qpMap = (0, _emberMetal.get)(this, '_qp').map, i, qp; var totalChanged = Object.keys(changed).concat(Object.keys(removed)); for (i = 0; i < totalChanged.length; ++i) { qp = qpMap[totalChanged[i]]; if (qp && (0, _emberMetal.get)(this._optionsForQueryParam(qp), 'refreshModel') && this.router.currentState) { this.refresh(); break; } } return true; }, finalizeQueryParamChange: function (params, finalParams, transition) { if (this.fullRouteName !== 'application') { return true; } // Transition object is absent for intermediate transitions. if (!transition) { return; } var handlerInfos = transition.state.handlerInfos, i, qp, route, controller, presentKey, value, svalue, thisQueryParamChanged, options, replaceConfigValue, thisQueryParamHasDefaultValue; var router = this.router; var qpMeta = router._queryParamsFor(handlerInfos); var changes = router._qpUpdates; var replaceUrl = void 0; (0, _utils.stashParamNames)(router, handlerInfos); for (i = 0; i < qpMeta.qps.length; ++i) { qp = qpMeta.qps[i]; route = qp.route; controller = route.controller; presentKey = qp.urlKey in params && qp.urlKey; // Do a reverse lookup to see if the changed query // param URL key corresponds to a QP property on // this controller. value = void 0, svalue = void 0; if (changes && qp.urlKey in changes) { // Value updated in/before setupController value = (0, _emberMetal.get)(controller, qp.prop); svalue = route.serializeQueryParam(value, qp.urlKey, qp.type); } else { if (presentKey) { svalue = params[presentKey]; if (svalue !== undefined) { value = route.deserializeQueryParam(svalue, qp.urlKey, qp.type); } } else { // No QP provided; use default value. svalue = qp.serializedDefaultValue; value = copyDefaultValue(qp.defaultValue); } } controller._qpDelegate = (0, _emberMetal.get)(route, '_qp.states.inactive'); thisQueryParamChanged = svalue !== qp.serializedValue; if (thisQueryParamChanged) { if (transition.queryParamsOnly && replaceUrl !== false) { options = route._optionsForQueryParam(qp); replaceConfigValue = (0, _emberMetal.get)(options, 'replace'); if (replaceConfigValue) { replaceUrl = true; } else if (replaceConfigValue === false) { // Explicit pushState wins over any other replaceStates. replaceUrl = false; } } (0, _emberMetal.set)(controller, qp.prop, value); } // Stash current serialized value of controller. qp.serializedValue = svalue; thisQueryParamHasDefaultValue = qp.serializedDefaultValue === svalue; if (!thisQueryParamHasDefaultValue || transition._keepDefaultQueryParamValues) { finalParams.push({ value: svalue, visible: true, key: presentKey || qp.urlKey }); } } if (replaceUrl) { transition.method('replace'); } qpMeta.qps.forEach(function (qp) { var routeQpMeta = (0, _emberMetal.get)(qp.route, '_qp'); var finalizedController = qp.route.controller; finalizedController._qpDelegate = (0, _emberMetal.get)(routeQpMeta, 'states.active'); }); router._qpUpdates = null; } }, /** This hook is executed when the router completely exits this route. It is not executed when the model for the route changes. @method deactivate @since 1.0.0 @public */ deactivate: K, /** This hook is executed when the router enters the route. It is not executed when the model for the route changes. @method activate @since 1.0.0 @public */ activate: K, transitionTo: function () { var _router; // eslint-disable-line no-unused-vars return (_router = this.router).transitionTo.apply(_router, (0, _utils.prefixRouteNameArg)(this, arguments)); }, intermediateTransitionTo: function () { var _router2; (_router2 = this.router).intermediateTransitionTo.apply(_router2, (0, _utils.prefixRouteNameArg)(this, arguments)); }, refresh: function () { return this.router._routerMicrolib.refresh(this); }, replaceWith: function () { var _router3; return (_router3 = this.router).replaceWith.apply(_router3, (0, _utils.prefixRouteNameArg)(this, arguments)); }, send: function () { var _len, args, _key, _router4, name, action; for (_len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } if (this.router && this.router._routerMicrolib || !(0, _emberDebug.isTesting)()) { (_router4 = this.router).send.apply(_router4, args); } else { name = args.shift(); action = this.actions[name]; if (action) { return action.apply(this, args); } } }, setup: function (context, transition) { var controller = void 0, propNames, cache, params, allParams, qpValues; var controllerName = this.controllerName || this.routeName; var definedController = this.controllerFor(controllerName, true); if (definedController) { controller = definedController; } else { controller = this.generateController(controllerName); } // Assign the route's controller so that it can more easily be // referenced in action handlers. Side effects. Side effects everywhere. if (!this.controller) { propNames = (0, _emberMetal.get)(this, '_qp.propertyNames'); addQueryParamsObservers(controller, propNames); this.controller = controller; } var queryParams = (0, _emberMetal.get)(this, '_qp'); var states = queryParams.states; controller._qpDelegate = states.allowOverrides; if (transition) { // Update the model dep values used to calculate cache keys. (0, _utils.stashParamNames)(this.router, transition.state.handlerInfos); cache = this._bucketCache; params = transition.params; allParams = queryParams.propertyNames; allParams.forEach(function (prop) { var aQp = queryParams.map[prop]; aQp.values = params; var cacheKey = (0, _utils.calculateCacheKey)(aQp.route.fullRouteName, aQp.parts, aQp.values); var value = cache.lookup(cacheKey, prop, aQp.undecoratedDefaultValue); (0, _emberMetal.set)(controller, prop, value); }); qpValues = getQueryParamsFor(this, transition.state); (0, _emberMetal.setProperties)(controller, qpValues); } this.setupController(controller, context, transition); if (this._environment.options.shouldRender) { this.renderTemplate(controller, context); } }, _qpChanged: function (prop, value, qp) { if (!qp) { return; } // Update model-dep cache var cache = this._bucketCache; var cacheKey = (0, _utils.calculateCacheKey)(qp.route.fullRouteName, qp.parts, qp.values); cache.stash(cacheKey, prop, value); }, /** This hook is the first of the route entry validation hooks called when an attempt is made to transition into a route or one of its children. It is called before `model` and `afterModel`, and is appropriate for cases when: 1) A decision can be made to redirect elsewhere without needing to resolve the model first. 2) Any async operations need to occur first before the model is attempted to be resolved. This hook is provided the current `transition` attempt as a parameter, which can be used to `.abort()` the transition, save it for a later `.retry()`, or retrieve values set on it from a previous hook. You can also just call `this.transitionTo` to another route to implicitly abort the `transition`. You can return a promise from this hook to pause the transition until the promise resolves (or rejects). This could be useful, for instance, for retrieving async code from the server that is required to enter a route. @method beforeModel @param {Transition} transition @return {any | Promise} if the value returned from this hook is a promise, the transition will pause until the transition resolves. Otherwise, non-promise return values are not utilized in any way. @since 1.0.0 @public */ beforeModel: K, /** This hook is called after this route's model has resolved. It follows identical async/promise semantics to `beforeModel` but is provided the route's resolved model in addition to the `transition`, and is therefore suited to performing logic that can only take place after the model has already resolved. ```app/routes/posts.js import Route from '@ember/routing/route'; export default Route.extend({ afterModel(posts, transition) { if (posts.get('length') === 1) { this.transitionTo('post.show', posts.get('firstObject')); } } }); ``` Refer to documentation for `beforeModel` for a description of transition-pausing semantics when a promise is returned from this hook. @method afterModel @param {Object} resolvedModel the value returned from `model`, or its resolved value if it was a promise @param {Transition} transition @return {any | Promise} if the value returned from this hook is a promise, the transition will pause until the transition resolves. Otherwise, non-promise return values are not utilized in any way. @since 1.0.0 @public */ afterModel: K, /** A hook you can implement to optionally redirect to another route. If you call `this.transitionTo` from inside of this hook, this route will not be entered in favor of the other hook. `redirect` and `afterModel` behave very similarly and are called almost at the same time, but they have an important distinction in the case that, from one of these hooks, a redirect into a child route of this route occurs: redirects from `afterModel` essentially invalidate the current attempt to enter this route, and will result in this route's `beforeModel`, `model`, and `afterModel` hooks being fired again within the new, redirecting transition. Redirects that occur within the `redirect` hook, on the other hand, will _not_ cause these hooks to be fired again the second time around; in other words, by the time the `redirect` hook has been called, both the resolved model and attempted entry into this route are considered to be fully validated. @method redirect @param {Object} model the model for this route @param {Transition} transition the transition object associated with the current transition @since 1.0.0 @public */ redirect: K, contextDidChange: function () { this.currentModel = this.context; }, model: function (params, transition) { var name = void 0, sawParams = void 0, value = void 0, match; var queryParams = (0, _emberMetal.get)(this, '_qp.map'); for (var prop in params) { if (prop === 'queryParams' || queryParams && prop in queryParams) { continue; } match = prop.match(/^(.*)_id$/); if (match !== null) { name = match[1]; value = params[prop]; } sawParams = true; } if (!name) { if (sawParams) { return (0, _emberRuntime.copy)(params); } else { if (transition.resolveIndex < 1) { return; } return transition.state.handlerInfos[transition.resolveIndex - 1].context; } } return this.findModel(name, value); }, deserialize: function (params, transition) { return this.model(this.paramsFor(this.routeName), transition); }, findModel: function () { var _get; return (_get = (0, _emberMetal.get)(this, 'store')).find.apply(_get, arguments); }, /** Store property provides a hook for data persistence libraries to inject themselves. By default, this store property provides the exact same functionality previously in the model hook. Currently, the required interface is: `store.find(modelName, findArguments)` @method store @param {Object} store @private */ store: (0, _emberMetal.computed)(function () { var owner = (0, _emberUtils.getOwner)(this); var routeName = this.routeName; var namespace = (0, _emberMetal.get)(this, 'router.namespace'); return { find: function (name, value) { var modelClass = owner.factoryFor('model:' + name); false && !!!modelClass && (0, _emberDebug.assert)('You used the dynamic segment ' + name + '_id in your route ' + routeName + ', but ' + namespace + '.' + _emberRuntime.String.classify(name) + ' did not exist and you did not override your route\'s `model` hook.', !!modelClass); if (!modelClass) { return; } modelClass = modelClass.class; false && !(typeof modelClass.find === 'function') && (0, _emberDebug.assert)(_emberRuntime.String.classify(name) + ' has no method `find`.', typeof modelClass.find === 'function'); return modelClass.find(value); } }; }), /** A hook you can implement to convert the route's model into parameters for the URL. ```app/router.js // ... Router.map(function() { this.route('post', { path: '/posts/:post_id' }); }); ``` ```app/routes/post.js import Route from '@ember/routing/route'; export default Route.extend({ model(params) { // the server returns `{ id: 12 }` return Ember.$.getJSON('/posts/' + params.post_id); }, serialize(model) { // this will make the URL `/posts/12` return { post_id: model.id }; } }); ``` The default `serialize` method will insert the model's `id` into the route's dynamic segment (in this case, `:post_id`) if the segment contains '_id'. If the route has multiple dynamic segments or does not contain '_id', `serialize` will return `Ember.getProperties(model, params)` This method is called when `transitionTo` is called with a context in order to populate the URL. @method serialize @param {Object} model the routes model @param {Array} params an Array of parameter names for the current route (in the example, `['post_id']`. @return {Object} the serialized parameters @since 1.0.0 @public */ serialize: defaultSerialize, setupController: function (controller, context) { // eslint-disable-line no-unused-vars if (controller && context !== undefined) { (0, _emberMetal.set)(controller, 'model', context); } }, controllerFor: function (name, _skipAssert) { var owner = (0, _emberUtils.getOwner)(this); var route = owner.lookup('route:' + name); var controller = void 0; if (route && route.controllerName) { name = route.controllerName; } controller = owner.lookup('controller:' + name); // NOTE: We're specifically checking that skipAssert is true, because according // to the old API the second parameter was model. We do not want people who // passed a model to skip the assertion. false && !(controller || _skipAssert === true) && (0, _emberDebug.assert)('The controller named \'' + name + '\' could not be found. Make sure that this route exists and has already been entered at least once. If you are accessing a controller not associated with a route, make sure the controller class is explicitly defined.', controller || _skipAssert === true); return controller; }, generateController: function (name) { var owner = (0, _emberUtils.getOwner)(this); return (0, _generate_controller.default)(owner, name); }, modelFor: function (_name) { var name = void 0, modelLookupName; var owner = (0, _emberUtils.getOwner)(this); var transition = this.router ? this.router._routerMicrolib.activeTransition : null; // Only change the route name when there is an active transition. // Otherwise, use the passed in route name. if (owner.routable && transition !== null) { name = getEngineRouteName(owner, _name); } else { name = _name; } var route = owner.lookup('route:' + name); // If we are mid-transition, we want to try and look up // resolved parent contexts on the current transitionEvent. if (transition !== null) { modelLookupName = route && route.routeName || name; if (transition.resolvedModels.hasOwnProperty(modelLookupName)) { return transition.resolvedModels[modelLookupName]; } } return route && route.currentModel; }, renderTemplate: function () { // eslint-disable-line no-unused-vars this.render(); }, render: function (_name, options) { var name = void 0; var isDefaultRender = arguments.length === 0; if (!isDefaultRender) { if (typeof _name === 'object' && !options) { name = this.templateName || this.routeName; options = _name; } else { false && !!(0, _emberMetal.isEmpty)(_name) && (0, _emberDebug.assert)('The name in the given arguments is undefined or empty string', !(0, _emberMetal.isEmpty)(_name)); name = _name; } } var renderOptions = buildRenderOptions(this, isDefaultRender, name, options); this.connections.push(renderOptions); _emberMetal.run.once(this.router, '_setOutlets'); }, disconnectOutlet: function (options) { var outletName = void 0, i; var parentView = void 0; if (options) { if (typeof options === 'string') { outletName = options; } else { outletName = options.outlet; parentView = options.parentView ? options.parentView.replace(/\//g, '.') : undefined; false && !!('outlet' in options && options.outlet === undefined) && (0, _emberDebug.assert)('You passed undefined as the outlet name.', !('outlet' in options && options.outlet === undefined)); } } outletName = outletName || 'main'; this._disconnectOutlet(outletName, parentView); var handlerInfos = this.router._routerMicrolib.currentHandlerInfos; for (i = 0; i < handlerInfos.length; i++) { // This non-local state munging is sadly necessary to maintain // backward compatibility with our existing semantics, which allow // any route to disconnectOutlet things originally rendered by any // other route. This should all get cut in 2.0. handlerInfos[i].handler._disconnectOutlet(outletName, parentView); } }, _disconnectOutlet: function (outletName, parentView) { var parent = parentRoute(this), i, connection; if (parent && parentView === parent.routeName) { parentView = undefined; } for (i = 0; i < this.connections.length; i++) { connection = this.connections[i]; if (connection.outlet === outletName && connection.into === parentView) { // This neuters the disconnected outlet such that it doesn't // render anything, but it leaves an entry in the outlet // hierarchy so that any existing other renders that target it // don't suddenly blow up. They will still stick themselves // into its outlets, which won't render anywhere. All of this // statefulness should get the machete in 2.0. this.connections[i] = { owner: connection.owner, into: connection.into, outlet: connection.outlet, name: connection.name, controller: undefined, template: undefined }; _emberMetal.run.once(this.router, '_setOutlets'); } } }, willDestroy: function () { this.teardownViews(); }, teardownViews: function () { if (this.connections && this.connections.length > 0) { this.connections = []; _emberMetal.run.once(this.router, '_setOutlets'); } } }); Route.reopenClass({ isRouteFactory: true }); function parentRoute(route) { var handlerInfo = handlerInfoFor(route, route.router._routerMicrolib.state.handlerInfos, -1); return handlerInfo && handlerInfo.handler; } function handlerInfoFor(route, handlerInfos) { var offset = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : 0, i; if (!handlerInfos) { return; } var current = void 0; for (i = 0; i < handlerInfos.length; i++) { current = handlerInfos[i].handler; if (current === route) { return handlerInfos[i + offset]; } } } function buildRenderOptions(route, isDefaultRender, _name, options) { false && !(isDefaultRender || !(options && 'outlet' in options && options.outlet === undefined)) && (0, _emberDebug.assert)('You passed undefined as the outlet name.', isDefaultRender || !(options && 'outlet' in options && options.outlet === undefined)); var owner = (0, _emberUtils.getOwner)(route), controllerName; var name = void 0, templateName = void 0, into = void 0, outlet = void 0, controller = void 0, model = void 0; if (options) { into = options.into && options.into.replace(/\//g, '.'); outlet = options.outlet; controller = options.controller; model = options.model; } outlet = outlet || 'main'; if (isDefaultRender) { name = route.routeName; templateName = route.templateName || name; } else { name = _name.replace(/\//g, '.'); templateName = name; } if (!controller) { if (isDefaultRender) { controller = route.controllerName || owner.lookup('controller:' + name); } else { controller = owner.lookup('controller:' + name) || route.controllerName || route.routeName; } } if (typeof controller === 'string') { controllerName = controller; controller = owner.lookup('controller:' + controllerName); false && !(isDefaultRender || controller) && (0, _emberDebug.assert)('You passed `controller: \'' + controllerName + '\'` into the `render` method, but no such controller could be found.', isDefaultRender || controller); } if (model) { controller.set('model', model); } var template = owner.lookup('template:' + templateName); false && !(isDefaultRender || template) && (0, _emberDebug.assert)('Could not find "' + templateName + '" template, view, or component.', isDefaultRender || template); var parent = void 0; if (into && (parent = parentRoute(route)) && into === parent.routeName) { into = undefined; } var renderOptions = { owner: owner, into: into, outlet: outlet, name: name, controller: controller, template: template || route._topLevelViewTemplate }; return renderOptions; } function getFullQueryParams(router, state) { if (state.fullQueryParams) { return state.fullQueryParams; } state.fullQueryParams = {}; (0, _emberUtils.assign)(state.fullQueryParams, state.queryParams); router._deserializeQueryParams(state.handlerInfos, state.fullQueryParams); return state.fullQueryParams; } function getQueryParamsFor(route, state) { state.queryParamsFor = state.queryParamsFor || {}; var name = route.fullRouteName, i, qp, qpValueWasPassedIn; if (state.queryParamsFor[name]) { return state.queryParamsFor[name]; } var fullQueryParams = getFullQueryParams(route.router, state); var params = state.queryParamsFor[name] = {}; // Copy over all the query params for this route/controller into params hash. var qpMeta = (0, _emberMetal.get)(route, '_qp'); var qps = qpMeta.qps; for (i = 0; i < qps.length; ++i) { // Put deserialized qp on params hash. qp = qps[i]; qpValueWasPassedIn = qp.prop in fullQueryParams; params[qp.prop] = qpValueWasPassedIn ? fullQueryParams[qp.prop] : copyDefaultValue(qp.defaultValue); } return params; } function copyDefaultValue(value) { if (Array.isArray(value)) { return (0, _emberRuntime.A)(value.slice()); } return value; } /* Merges all query parameters from a controller with those from a route, returning a new object and avoiding any mutations to the existing objects. */ function mergeEachQueryParams(controllerQP, routeQP) { var qps = {}, newControllerParameterConfiguration, newRouteParameterConfiguration; var keysAlreadyMergedOrSkippable = { defaultValue: true, type: true, scope: true, as: true }; // first loop over all controller qps, merging them with any matching route qps // into a new empty object to avoid mutating. for (var cqpName in controllerQP) { if (!controllerQP.hasOwnProperty(cqpName)) { continue; } newControllerParameterConfiguration = {}; (0, _emberUtils.assign)(newControllerParameterConfiguration, controllerQP[cqpName], routeQP[cqpName]); qps[cqpName] = newControllerParameterConfiguration; // allows us to skip this QP when we check route QPs. keysAlreadyMergedOrSkippable[cqpName] = true; } // loop over all route qps, skipping those that were merged in the first pass // because they also appear in controller qps for (var rqpName in routeQP) { if (!routeQP.hasOwnProperty(rqpName) || keysAlreadyMergedOrSkippable[rqpName]) { continue; } newRouteParameterConfiguration = {}; (0, _emberUtils.assign)(newRouteParameterConfiguration, routeQP[rqpName], controllerQP[rqpName]); qps[rqpName] = newRouteParameterConfiguration; } return qps; } function addQueryParamsObservers(controller, propNames) { propNames.forEach(function (prop) { controller.addObserver(prop + '.[]', controller, controller._qpChanged); }); } function getEngineRouteName(engine, routeName) { var prefix; if (engine.routable) { prefix = engine.mountPoint; if (routeName === 'application') { return prefix; } else { return prefix + '.' + routeName; } } return routeName; } exports.default = Route; }); enifed('ember-routing/system/router', ['exports', 'ember-utils', 'ember-console', 'ember-metal', 'ember-debug', 'ember-runtime', 'ember-routing/system/route', 'ember-routing/system/dsl', 'ember-routing/location/api', 'ember-routing/utils', 'ember-routing/system/router_state', 'router'], function (exports, _emberUtils, _emberConsole, _emberMetal, _emberDebug, _emberRuntime, _route, _dsl, _api, _utils, _router_state, _router) { 'use strict'; exports.triggerEvent = triggerEvent; function K() { return this; } /** @module @ember/routing */ var slice = Array.prototype.slice; /** The `Ember.Router` class manages the application state and URLs. Refer to the [routing guide](https://emberjs.com/guides/routing/) for documentation. @class Router @extends EmberObject @uses Evented @public */ var EmberRouter = _emberRuntime.Object.extend(_emberRuntime.Evented, { /** The `location` property determines the type of URL's that your application will use. The following location types are currently available: * `history` - use the browser's history API to make the URLs look just like any standard URL * `hash` - use `#` to separate the server part of the URL from the Ember part: `/blog/#/posts/new` * `none` - do not store the Ember URL in the actual browser URL (mainly used for testing) * `auto` - use the best option based on browser capabilities: `history` if possible, then `hash` if possible, otherwise `none` This value is defaulted to `auto` by the `locationType` setting of `/config/environment.js` @property location @default 'hash' @see {Location} @public */ location: 'hash', /** Represents the URL of the root of the application, often '/'. This prefix is assumed on all routes defined on this router. @property rootURL @default '/' @public */ rootURL: '/', _initRouterJs: function () { var routerMicrolib = this._routerMicrolib = new _router.default(); routerMicrolib.triggerEvent = triggerEvent.bind(this); routerMicrolib._triggerWillChangeContext = K; routerMicrolib._triggerWillLeave = K; var dslCallbacks = this.constructor.dslCallbacks || [K]; var dsl = this._buildDSL(); dsl.route('application', { path: '/', resetNamespace: true, overrideNameAssertion: true }, function () { var i; for (i = 0; i < dslCallbacks.length; i++) { dslCallbacks[i].call(this); } }); routerMicrolib.map(dsl.generate()); }, _buildDSL: function () { var enableLoadingSubstates = this._hasModuleBasedResolver(); var options = { enableLoadingSubstates: enableLoadingSubstates }; var owner = (0, _emberUtils.getOwner)(this); var router = this; options.resolveRouteMap = function (name) { return owner.factoryFor('route-map:' + name); }; options.addRouteForEngine = function (name, engineInfo) { if (!router._engineInfoByRoute[name]) { router._engineInfoByRoute[name] = engineInfo; } }; return new _dsl.default(null, options); }, init: function () { this._super.apply(this, arguments); this.currentURL = null; this.currentRouteName = null; this.currentPath = null; this._qpCache = Object.create(null); this._resetQueuedQueryParameterChanges(); this._handledErrors = new Set(); this._engineInstances = Object.create(null); this._engineInfoByRoute = Object.create(null); }, _resetQueuedQueryParameterChanges: function () { this._queuedQPChanges = {}; }, /** Represents the current URL. @method url @return {String} The current URL. @private */ url: (0, _emberMetal.computed)(function () { return (0, _emberMetal.get)(this, 'location').getURL(); }), _hasModuleBasedResolver: function () { var owner = (0, _emberUtils.getOwner)(this); if (!owner) { return false; } var resolver = (0, _emberMetal.get)(owner, 'application.__registry__.resolver.moduleBasedResolver'); return !!resolver; }, startRouting: function () { var initialURL = (0, _emberMetal.get)(this, 'initialURL'), initialTransition; if (this.setupRouter()) { if (initialURL === undefined) { initialURL = (0, _emberMetal.get)(this, 'location').getURL(); } initialTransition = this.handleURL(initialURL); if (initialTransition && initialTransition.error) { throw initialTransition.error; } } }, setupRouter: function () { var _this = this; this._initRouterJs(); this._setupLocation(); var location = (0, _emberMetal.get)(this, 'location'); // Allow the Location class to cancel the router setup while it refreshes // the page if ((0, _emberMetal.get)(location, 'cancelRouterSetup')) { return false; } this._setupRouter(location); location.onUpdateURL(function (url) { _this.handleURL(url); }); return true; }, didTransition: function () { updatePaths(this); this._cancelSlowTransitionTimer(); this.notifyPropertyChange('url'); this.set('currentState', this.targetState); // Put this in the runloop so url will be accurate. Seems // less surprising than didTransition being out of sync. _emberMetal.run.once(this, this.trigger, 'didTransition'); }, _setOutlets: function () { // This is triggered async during Ember.Route#willDestroy. // If the router is also being destroyed we do not want to // to create another this._toplevelView (and leak the renderer) if (this.isDestroying || this.isDestroyed) { return; } var handlerInfos = this._routerMicrolib.currentHandlerInfos, i, connections, ownState, j, appended, owner, OutletView, instance; var route = void 0; var defaultParentState = void 0; var liveRoutes = null; if (!handlerInfos) { return; } for (i = 0; i < handlerInfos.length; i++) { route = handlerInfos[i].handler; connections = route.connections; ownState = void 0; for (j = 0; j < connections.length; j++) { appended = appendLiveRoute(liveRoutes, defaultParentState, connections[j]); liveRoutes = appended.liveRoutes; if (appended.ownState.render.name === route.routeName || appended.ownState.render.outlet === 'main') { ownState = appended.ownState; } } if (connections.length === 0) { ownState = representEmptyRoute(liveRoutes, defaultParentState, route); } defaultParentState = ownState; } // when a transitionTo happens after the validation phase // during the initial transition _setOutlets is called // when no routes are active. However, it will get called // again with the correct values during the next turn of // the runloop if (!liveRoutes) { return; } if (!this._toplevelView) { owner = (0, _emberUtils.getOwner)(this); OutletView = owner.factoryFor('view:-outlet'); this._toplevelView = OutletView.create(); this._toplevelView.setOutletState(liveRoutes); instance = owner.lookup('-application-instance:main'); instance.didCreateRootView(this._toplevelView); } else { this._toplevelView.setOutletState(liveRoutes); } }, willTransition: function (oldInfos, newInfos, transition) { _emberMetal.run.once(this, this.trigger, 'willTransition', transition); }, handleURL: function (url) { // Until we have an ember-idiomatic way of accessing #hashes, we need to // remove it because router.js doesn't know how to handle it. var _url = url.split(/#(.+)?/)[0]; return this._doURLTransition('handleURL', _url); }, _doURLTransition: function (routerJsMethod, url) { var transition = this._routerMicrolib[routerJsMethod](url || '/'); didBeginTransition(transition, this); return transition; }, transitionTo: function () { for (_len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } if ((0, _utils.resemblesURL)(args[0])) { return this._doURLTransition('transitionTo', args[0]); } var _extractRouteArgs = (0, _utils.extractRouteArgs)(args), routeName = _extractRouteArgs.routeName, models = _extractRouteArgs.models, queryParams = _extractRouteArgs.queryParams, _len, args, _key; return this._doTransition(routeName, models, queryParams); }, intermediateTransitionTo: function () { var _routerMicrolib; (_routerMicrolib = this._routerMicrolib).intermediateTransitionTo.apply(_routerMicrolib, arguments); updatePaths(this); }, replaceWith: function () { return this.transitionTo.apply(this, arguments).method('replace'); }, generate: function () { var _routerMicrolib2; var url = (_routerMicrolib2 = this._routerMicrolib).generate.apply(_routerMicrolib2, arguments); return this.location.formatURL(url); }, isActive: function () { var _routerMicrolib3; return (_routerMicrolib3 = this._routerMicrolib).isActive.apply(_routerMicrolib3, arguments); }, isActiveIntent: function (routeName, models, queryParams) { return this.currentState.isActiveIntent(routeName, models, queryParams); }, send: function () { var _routerMicrolib4; /*name, context*/ (_routerMicrolib4 = this._routerMicrolib).trigger.apply(_routerMicrolib4, arguments); }, hasRoute: function (route) { return this._routerMicrolib.hasRoute(route); }, reset: function () { if (this._routerMicrolib) { this._routerMicrolib.reset(); } }, willDestroy: function () { if (this._toplevelView) { this._toplevelView.destroy(); this._toplevelView = null; } this._super.apply(this, arguments); this.reset(); var instances = this._engineInstances; for (var name in instances) { for (var id in instances[name]) { (0, _emberMetal.run)(instances[name][id], 'destroy'); } } }, _activeQPChanged: function (queryParameterName, newValue) { this._queuedQPChanges[queryParameterName] = newValue; _emberMetal.run.once(this, this._fireQueryParamTransition); }, _updatingQPChanged: function (queryParameterName) { if (!this._qpUpdates) { this._qpUpdates = {}; } this._qpUpdates[queryParameterName] = true; }, _fireQueryParamTransition: function () { this.transitionTo({ queryParams: this._queuedQPChanges }); this._resetQueuedQueryParameterChanges(); }, _setupLocation: function () { var location = (0, _emberMetal.get)(this, 'location'), resolvedLocation, options; var rootURL = (0, _emberMetal.get)(this, 'rootURL'); var owner = (0, _emberUtils.getOwner)(this); if ('string' === typeof location && owner) { resolvedLocation = owner.lookup('location:' + location); if (resolvedLocation !== undefined) { location = (0, _emberMetal.set)(this, 'location', resolvedLocation); } else { // Allow for deprecated registration of custom location API's options = { implementation: location }; location = (0, _emberMetal.set)(this, 'location', _api.default.create(options)); } } if (location !== null && typeof location === 'object') { if (rootURL) { (0, _emberMetal.set)(location, 'rootURL', rootURL); } // Allow the location to do any feature detection, such as AutoLocation // detecting history support. This gives it a chance to set its // `cancelRouterSetup` property which aborts routing. if (typeof location.detect === 'function') { location.detect(); } // ensure that initState is called AFTER the rootURL is set on // the location instance if (typeof location.initState === 'function') { location.initState(); } } }, _getHandlerFunction: function () { var _this2 = this; var seen = Object.create(null); var owner = (0, _emberUtils.getOwner)(this); return function (name) { var routeName = name, engineInstance, DefaultRoute; var routeOwner = owner; var engineInfo = _this2._engineInfoByRoute[routeName]; if (engineInfo) { engineInstance = _this2._getEngineInstance(engineInfo); routeOwner = engineInstance; routeName = engineInfo.localFullName; } var fullRouteName = 'route:' + routeName; var handler = routeOwner.lookup(fullRouteName); if (seen[name]) { return handler; } seen[name] = true; if (!handler) { DefaultRoute = routeOwner.factoryFor('route:basic').class; routeOwner.register(fullRouteName, DefaultRoute.extend()); handler = routeOwner.lookup(fullRouteName); } handler._setRouteName(routeName); if (engineInfo && !(0, _route.hasDefaultSerialize)(handler)) { throw new Error('Defining a custom serialize method on an Engine route is not supported.'); } return handler; }; }, _getSerializerFunction: function () { var _this3 = this; return function (name) { var engineInfo = _this3._engineInfoByRoute[name]; // If this is not an Engine route, we fall back to the handler for serialization if (!engineInfo) { return; } return engineInfo.serializeMethod || _route.defaultSerialize; }; }, _setupRouter: function (location) { var _this4 = this, doReplaceURL; var lastURL = void 0; var routerMicrolib = this._routerMicrolib; routerMicrolib.getHandler = this._getHandlerFunction(); routerMicrolib.getSerializer = this._getSerializerFunction(); var doUpdateURL = function () { location.setURL(lastURL); (0, _emberMetal.set)(_this4, 'currentURL', lastURL); }; routerMicrolib.updateURL = function (path) { lastURL = path; _emberMetal.run.once(doUpdateURL); }; if (location.replaceURL) { doReplaceURL = function () { location.replaceURL(lastURL); (0, _emberMetal.set)(_this4, 'currentURL', lastURL); }; routerMicrolib.replaceURL = function (path) { lastURL = path; _emberMetal.run.once(doReplaceURL); }; } routerMicrolib.didTransition = function (infos) { _this4.didTransition(infos); }; routerMicrolib.willTransition = function (oldInfos, newInfos, transition) { _this4.willTransition(oldInfos, newInfos, transition); }; }, _serializeQueryParams: function (handlerInfos, queryParams) { var _this5 = this; forEachQueryParam(this, handlerInfos, queryParams, function (key, value, qp) { if (qp) { delete queryParams[key]; queryParams[qp.urlKey] = qp.route.serializeQueryParam(value, qp.urlKey, qp.type); } else if (value === undefined) {} else { queryParams[key] = _this5._serializeQueryParam(value, (0, _emberRuntime.typeOf)(value)); } }); }, _serializeQueryParam: function (value, type) { if (value === null || value === undefined) { return value; } else if (type === 'array') { return JSON.stringify(value); } return '' + value; }, _deserializeQueryParams: function (handlerInfos, queryParams) { forEachQueryParam(this, handlerInfos, queryParams, function (key, value, qp) { // If we don't have QP meta info for a given key, then we do nothing // because all values will be treated as strings if (qp) { delete queryParams[key]; queryParams[qp.prop] = qp.route.deserializeQueryParam(value, qp.urlKey, qp.type); } }); }, _deserializeQueryParam: function (value, defaultType) { if (value === null || value === undefined) { return value; } else if (defaultType === 'boolean') { return value === 'true'; } else if (defaultType === 'number') { return Number(value).valueOf(); } else if (defaultType === 'array') { return (0, _emberRuntime.A)(JSON.parse(value)); } return value; }, _pruneDefaultQueryParamValues: function (handlerInfos, queryParams) { var qps = this._queryParamsFor(handlerInfos), qp; for (var key in queryParams) { qp = qps.map[key]; if (qp && qp.serializedDefaultValue === queryParams[key]) { delete queryParams[key]; } } }, _doTransition: function (_targetRouteName, models, _queryParams, _keepDefaultQueryParamValues) { var _routerMicrolib5; var targetRouteName = _targetRouteName || (0, _utils.getActiveTargetName)(this._routerMicrolib); false && !(targetRouteName && this._routerMicrolib.hasRoute(targetRouteName)) && (0, _emberDebug.assert)('The route ' + targetRouteName + ' was not found', targetRouteName && this._routerMicrolib.hasRoute(targetRouteName)); var queryParams = {}; this._processActiveTransitionQueryParams(targetRouteName, models, queryParams, _queryParams); (0, _emberUtils.assign)(queryParams, _queryParams); this._prepareQueryParams(targetRouteName, models, queryParams, _keepDefaultQueryParamValues); var transition = (_routerMicrolib5 = this._routerMicrolib).transitionTo.apply(_routerMicrolib5, [targetRouteName].concat(models, [{ queryParams: queryParams }])); didBeginTransition(transition, this); return transition; }, _processActiveTransitionQueryParams: function (targetRouteName, models, queryParams, _queryParams) { // merge in any queryParams from the active transition which could include // queryParams from the url on initial load. if (!this._routerMicrolib.activeTransition) { return; } var unchangedQPs = {}; var qpUpdates = this._qpUpdates || {}; var params = this._routerMicrolib.activeTransition.queryParams; for (var key in params) { if (!qpUpdates[key]) { unchangedQPs[key] = params[key]; } } // We need to fully scope queryParams so that we can create one object // that represents both passed-in queryParams and ones that aren't changed // from the active transition. this._fullyScopeQueryParams(targetRouteName, models, _queryParams); this._fullyScopeQueryParams(targetRouteName, models, unchangedQPs); (0, _emberUtils.assign)(queryParams, unchangedQPs); }, _prepareQueryParams: function (targetRouteName, models, queryParams, _fromRouterService) { var state = calculatePostTransitionState(this, targetRouteName, models); this._hydrateUnsuppliedQueryParams(state, queryParams, _fromRouterService); this._serializeQueryParams(state.handlerInfos, queryParams); if (!_fromRouterService) { this._pruneDefaultQueryParamValues(state.handlerInfos, queryParams); } }, _getQPMeta: function (handlerInfo) { var route = handlerInfo.handler; return route && (0, _emberMetal.get)(route, '_qp'); }, _queryParamsFor: function (handlerInfos) { var handlerInfoLength = handlerInfos.length, i, qpMeta, _i, qp, urlKey, qpOther, otherQP; var leafRouteName = handlerInfos[handlerInfoLength - 1].name; var cached = this._qpCache[leafRouteName]; if (cached) { return cached; } var shouldCache = true; var qpsByUrlKey = {}; var map = {}; var qps = []; for (i = 0; i < handlerInfoLength; ++i) { qpMeta = this._getQPMeta(handlerInfos[i]); if (!qpMeta) { shouldCache = false; continue; } // Loop over each QP to make sure we don't have any collisions by urlKey for (_i = 0; _i < qpMeta.qps.length; _i++) { qp = qpMeta.qps[_i]; urlKey = qp.urlKey; qpOther = qpsByUrlKey[urlKey]; if (qpOther && qpOther.controllerName !== qp.controllerName) { otherQP = qpsByUrlKey[urlKey]; false && !false && (0, _emberDebug.assert)('You\'re not allowed to have more than one controller property map to the same query param key, but both `' + otherQP.scopedPropertyName + '` and `' + qp.scopedPropertyName + '` map to `' + urlKey + '`. You can fix this by mapping one of the controller properties to a different query param key via the `as` config option, e.g. `' + otherQP.prop + ': { as: \'other-' + otherQP.prop + '\' }`', false); } qpsByUrlKey[urlKey] = qp; qps.push(qp); } (0, _emberUtils.assign)(map, qpMeta.map); } var finalQPMeta = { qps: qps, map: map }; if (shouldCache) { this._qpCache[leafRouteName] = finalQPMeta; } return finalQPMeta; }, _fullyScopeQueryParams: function (leafRouteName, contexts, queryParams) { var state = calculatePostTransitionState(this, leafRouteName, contexts), i, len, qpMeta, j, qpLen, qp, presentProp; var handlerInfos = state.handlerInfos; for (i = 0, len = handlerInfos.length; i < len; ++i) { qpMeta = this._getQPMeta(handlerInfos[i]); if (!qpMeta) { continue; } for (j = 0, qpLen = qpMeta.qps.length; j < qpLen; ++j) { qp = qpMeta.qps[j]; presentProp = qp.prop in queryParams && qp.prop || qp.scopedPropertyName in queryParams && qp.scopedPropertyName || qp.urlKey in queryParams && qp.urlKey; if (presentProp) { if (presentProp !== qp.scopedPropertyName) { queryParams[qp.scopedPropertyName] = queryParams[presentProp]; delete queryParams[presentProp]; } } } } }, _hydrateUnsuppliedQueryParams: function (state, queryParams, _fromRouterService) { var handlerInfos = state.handlerInfos, i, qpMeta, j, qpLen, qp, presentProp, cacheKey; var appCache = this._bucketCache; for (i = 0; i < handlerInfos.length; ++i) { qpMeta = this._getQPMeta(handlerInfos[i]); if (!qpMeta) { continue; } for (j = 0, qpLen = qpMeta.qps.length; j < qpLen; ++j) { qp = qpMeta.qps[j]; presentProp = qp.prop in queryParams && qp.prop || qp.scopedPropertyName in queryParams && qp.scopedPropertyName || qp.urlKey in queryParams && qp.urlKey; false && !function () { if (qp.urlKey === presentProp) { return true; } if (_fromRouterService && presentProp !== false) { return false; } return true; }() && (0, _emberDebug.assert)('You passed the `' + presentProp + '` query parameter during a transition into ' + qp.route.routeName + ', please update to ' + qp.urlKey, function () { if (qp.urlKey === presentProp) { return true; }if (_fromRouterService && presentProp !== false) { return false; }return true; }()); if (presentProp) { if (presentProp !== qp.scopedPropertyName) { queryParams[qp.scopedPropertyName] = queryParams[presentProp]; delete queryParams[presentProp]; } } else { cacheKey = (0, _utils.calculateCacheKey)(qp.route.fullRouteName, qp.parts, state.params); queryParams[qp.scopedPropertyName] = appCache.lookup(cacheKey, qp.prop, qp.defaultValue); } } } }, _scheduleLoadingEvent: function (transition, originRoute) { this._cancelSlowTransitionTimer(); this._slowTransitionTimer = _emberMetal.run.scheduleOnce('routerTransitions', this, '_handleSlowTransition', transition, originRoute); }, currentState: null, targetState: null, _handleSlowTransition: function (transition, originRoute) { if (!this._routerMicrolib.activeTransition) { // Don't fire an event if we've since moved on from // the transition that put us in a loading state. return; } this.set('targetState', _router_state.default.create({ emberRouter: this, routerJs: this._routerMicrolib, routerJsState: this._routerMicrolib.activeTransition.state })); transition.trigger(true, 'loading', transition, originRoute); }, _cancelSlowTransitionTimer: function () { if (this._slowTransitionTimer) { _emberMetal.run.cancel(this._slowTransitionTimer); } this._slowTransitionTimer = null; }, _markErrorAsHandled: function (error) { this._handledErrors.add(error); }, _isErrorHandled: function (error) { return this._handledErrors.has(error); }, _clearHandledError: function (error) { this._handledErrors.delete(error); }, _getEngineInstance: function (_ref) { var name = _ref.name, instanceId = _ref.instanceId, mountPoint = _ref.mountPoint, owner; var engineInstances = this._engineInstances; if (!engineInstances[name]) { engineInstances[name] = Object.create(null); } var engineInstance = engineInstances[name][instanceId]; if (!engineInstance) { owner = (0, _emberUtils.getOwner)(this); false && !owner.hasRegistration('engine:' + name) && (0, _emberDebug.assert)('You attempted to mount the engine \'' + name + '\' in your router map, but the engine can not be found.', owner.hasRegistration('engine:' + name)); engineInstance = owner.buildChildEngineInstance(name, { routable: true, mountPoint: mountPoint }); engineInstance.boot(); engineInstances[name][instanceId] = engineInstance; } return engineInstance; } }); /* Helper function for iterating over routes in a set of handlerInfos that are at or above the given origin route. Example: if `originRoute` === 'foo.bar' and the handlerInfos given were for 'foo.bar.baz', then the given callback will be invoked with the routes for 'foo.bar', 'foo', and 'application' individually. If the callback returns anything other than `true`, then iteration will stop. @private @param {Route} originRoute @param {Array} handlerInfos @param {Function} callback @return {Void} */ function forEachRouteAbove(handlerInfos, callback) { var i, handlerInfo, route; for (i = handlerInfos.length - 1; i >= 0; --i) { handlerInfo = handlerInfos[i]; route = handlerInfo.handler; // handlerInfo.handler being `undefined` generally means either: // // 1. an error occurred during creation of the route in question // 2. the route is across an async boundary (e.g. within an engine) // // In both of these cases, we cannot invoke the callback on that specific // route, because it just doesn't exist... if (route === undefined) { continue; } if (callback(route, handlerInfo) !== true) { return; } } } // These get invoked when an action bubbles above ApplicationRoute // and are not meant to be overridable. var defaultActionHandlers = { willResolveModel: function (handlerInfos, transition, originRoute) { this._scheduleLoadingEvent(transition, originRoute); }, error: function (handlerInfos, error, transition) { var router = this; var handlerInfoWithError = handlerInfos[handlerInfos.length - 1]; forEachRouteAbove(handlerInfos, function (route, handlerInfo) { // We don't check the leaf most handlerInfo since that would // technically be below where we're at in the route hierarchy. if (handlerInfo !== handlerInfoWithError) { // Check for the existence of an 'error' route. errorRouteName = findRouteStateName(route, 'error'); if (errorRouteName) { router._markErrorAsHandled(error); router.intermediateTransitionTo(errorRouteName, error); return false; } } // Check for an 'error' substate route var errorSubstateName = findRouteSubstateName(route, 'error'), errorRouteName; if (errorSubstateName) { router._markErrorAsHandled(error); router.intermediateTransitionTo(errorSubstateName, error); return false; } return true; }); logError(error, 'Error while processing route: ' + transition.targetName); }, loading: function (handlerInfos, transition) { var router = this; var handlerInfoWithSlowLoading = handlerInfos[handlerInfos.length - 1]; forEachRouteAbove(handlerInfos, function (route, handlerInfo) { // We don't check the leaf most handlerInfo since that would // technically be below where we're at in the route hierarchy. if (handlerInfo !== handlerInfoWithSlowLoading) { // Check for the existence of a 'loading' route. loadingRouteName = findRouteStateName(route, 'loading'); if (loadingRouteName) { router.intermediateTransitionTo(loadingRouteName); return false; } } // Check for loading substate var loadingSubstateName = findRouteSubstateName(route, 'loading'), loadingRouteName; if (loadingSubstateName) { router.intermediateTransitionTo(loadingSubstateName); return false; } // Don't bubble above pivot route. return transition.pivotHandler !== route; }); } }; function logError(_error, initialMessage) { var errorArgs = []; var error = void 0; if (_error && typeof _error === 'object' && typeof _error.errorThrown === 'object') { error = _error.errorThrown; } else { error = _error; } if (initialMessage) { errorArgs.push(initialMessage); } if (error) { if (error.message) { errorArgs.push(error.message); } if (error.stack) { errorArgs.push(error.stack); } if (typeof error === 'string') { errorArgs.push(error); } } _emberConsole.default.error.apply(this, errorArgs); } /** Finds the name of the substate route if it exists for the given route. A substate route is of the form `route_state`, such as `foo_loading`. @private @param {Route} route @param {String} state @return {String} */ function findRouteSubstateName(route, state) { var owner = (0, _emberUtils.getOwner)(route); var routeName = route.routeName, fullRouteName = route.fullRouteName, router = route.router; var substateNameFull = fullRouteName + '_' + state; return routeHasBeenDefined(owner, router, routeName + '_' + state, substateNameFull) ? substateNameFull : ''; } /** Finds the name of the state route if it exists for the given route. A state route is of the form `route.state`, such as `foo.loading`. Properly Handles `application` named routes. @private @param {Route} route @param {String} state @return {String} */ function findRouteStateName(route, state) { var owner = (0, _emberUtils.getOwner)(route); var routeName = route.routeName, fullRouteName = route.fullRouteName, router = route.router; var stateName = routeName === 'application' ? state : routeName + '.' + state; var stateNameFull = fullRouteName === 'application' ? state : fullRouteName + '.' + state; return routeHasBeenDefined(owner, router, stateName, stateNameFull) ? stateNameFull : ''; } /** Determines whether or not a route has been defined by checking that the route is in the Router's map and the owner has a registration for that route. @private @param {Owner} owner @param {Router} router @param {String} localName @param {String} fullName @return {Boolean} */ function routeHasBeenDefined(owner, router, localName, fullName) { var routerHasRoute = router.hasRoute(fullName); var ownerHasRoute = owner.hasRegistration('template:' + localName) || owner.hasRegistration('route:' + localName); return routerHasRoute && ownerHasRoute; } function triggerEvent(handlerInfos, ignoreFailure, args) { var name = args.shift(), i; if (!handlerInfos) { if (ignoreFailure) { return; } throw new _emberDebug.Error('Can\'t trigger action \'' + name + '\' because your app hasn\'t finished transitioning into its first route. To trigger an action on destination routes during a transition, you can call `.send()` on the `Transition` object passed to the `model/beforeModel/afterModel` hooks.'); } var eventWasHandled = false; var handlerInfo = void 0, handler = void 0, actionHandler = void 0; for (i = handlerInfos.length - 1; i >= 0; i--) { handlerInfo = handlerInfos[i]; handler = handlerInfo.handler; actionHandler = handler && handler.actions && handler.actions[name]; if (actionHandler) { if (actionHandler.apply(handler, args) === true) { eventWasHandled = true; } else { // Should only hit here if a non-bubbling error action is triggered on a route. if (name === 'error') { handler.router._markErrorAsHandled(args[0]); } return; } } } var defaultHandler = defaultActionHandlers[name]; if (defaultHandler) { defaultHandler.apply(this, [handlerInfos].concat(args)); return; } if (!eventWasHandled && !ignoreFailure) { throw new _emberDebug.Error('Nothing handled the action \'' + name + '\'. If you did handle the action, this error can be caused by returning true from an action handler in a controller, causing the action to bubble.'); } } function calculatePostTransitionState(emberRouter, leafRouteName, contexts) { var state = emberRouter._routerMicrolib.applyIntent(leafRouteName, contexts), i, handlerInfo; var handlerInfos = state.handlerInfos, params = state.params; for (i = 0; i < handlerInfos.length; ++i) { handlerInfo = handlerInfos[i]; // If the handlerInfo is not resolved, we serialize the context into params if (!handlerInfo.isResolved) { params[handlerInfo.name] = handlerInfo.serialize(handlerInfo.context); } else { params[handlerInfo.name] = handlerInfo.params; } } return state; } function updatePaths(router) { var infos = router._routerMicrolib.currentHandlerInfos; if (infos.length === 0) { return; } var path = EmberRouter._routePath(infos); var currentRouteName = infos[infos.length - 1].name; var currentURL = router.get('location').getURL(); (0, _emberMetal.set)(router, 'currentPath', path); (0, _emberMetal.set)(router, 'currentRouteName', currentRouteName); (0, _emberMetal.set)(router, 'currentURL', currentURL); var appController = (0, _emberUtils.getOwner)(router).lookup('controller:application'); if (!appController) { // appController might not exist when top-level loading/error // substates have been entered since ApplicationRoute hasn't // actually been entered at that point. return; } if (!('currentPath' in appController)) { (0, _emberMetal.defineProperty)(appController, 'currentPath'); } (0, _emberMetal.set)(appController, 'currentPath', path); if (!('currentRouteName' in appController)) { (0, _emberMetal.defineProperty)(appController, 'currentRouteName'); } (0, _emberMetal.set)(appController, 'currentRouteName', currentRouteName); } EmberRouter.reopenClass({ map: function (callback) { if (!this.dslCallbacks) { this.dslCallbacks = []; this.reopenClass({ dslCallbacks: this.dslCallbacks }); } this.dslCallbacks.push(callback); return this; }, _routePath: function (handlerInfos) { var path = [], i; // We have to handle coalescing resource names that // are prefixed with their parent's names, e.g. // ['foo', 'foo.bar.baz'] => 'foo.bar.baz', not 'foo.foo.bar.baz' function intersectionMatches(a1, a2) { var i; for (i = 0; i < a1.length; ++i) { if (a1[i] !== a2[i]) { return false; } } return true; } var name = void 0, nameParts = void 0, oldNameParts = void 0; for (i = 1; i < handlerInfos.length; i++) { name = handlerInfos[i].name; nameParts = name.split('.'); oldNameParts = slice.call(path); while (oldNameParts.length) { if (intersectionMatches(oldNameParts, nameParts)) { break; } oldNameParts.shift(); } path.push.apply(path, nameParts.slice(oldNameParts.length)); } return path.join('.'); } }); function didBeginTransition(transition, router) { var routerState = _router_state.default.create({ emberRouter: router, routerJs: router._routerMicrolib, routerJsState: transition.state }); if (!router.currentState) { router.set('currentState', routerState); } router.set('targetState', routerState); transition.promise = transition.catch(function (error) { if (router._isErrorHandled(error)) { router._clearHandledError(error); } else { throw error; } }); } function forEachQueryParam(router, handlerInfos, queryParams, callback) { var qpCache = router._queryParamsFor(handlerInfos), value, qp; for (var key in queryParams) { if (!queryParams.hasOwnProperty(key)) { continue; } value = queryParams[key]; qp = qpCache.map[key]; callback(key, value, qp); } } function findLiveRoute(liveRoutes, name) { if (!liveRoutes) { return; } var stack = [liveRoutes], test, outlets; while (stack.length > 0) { test = stack.shift(); if (test.render.name === name) { return test; } outlets = test.outlets; for (var outletName in outlets) { stack.push(outlets[outletName]); } } } function appendLiveRoute(liveRoutes, defaultParentState, renderOptions) { var target = void 0; var myState = { render: renderOptions, outlets: Object.create(null), wasUsed: false }; if (renderOptions.into) { target = findLiveRoute(liveRoutes, renderOptions.into); } else { target = defaultParentState; } if (target) { (0, _emberMetal.set)(target.outlets, renderOptions.outlet, myState); } else { if (renderOptions.into) { false && !false && (0, _emberDebug.deprecate)('Rendering into a {{render}} helper that resolves to an {{outlet}} is deprecated.', false, { id: 'ember-routing.top-level-render-helper', until: '3.0.0', url: 'https://emberjs.com/deprecations/v2.x/#toc_rendering-into-a-render-helper-that-resolves-to-an-outlet' }); // Megahax time. Post-3.0-breaking-changes, we will just assert // right here that the user tried to target a nonexistent // thing. But for now we still need to support the `render` // helper, and people are allowed to target templates rendered // by the render helper. So instead we defer doing anyting with // these orphan renders until afterRender. appendOrphan(liveRoutes, renderOptions.into, myState); } else { liveRoutes = myState; } } return { liveRoutes: liveRoutes, ownState: myState }; } function appendOrphan(liveRoutes, into, myState) { if (!liveRoutes.outlets.__ember_orphans__) { liveRoutes.outlets.__ember_orphans__ = { render: { name: '__ember_orphans__' }, outlets: Object.create(null) }; } liveRoutes.outlets.__ember_orphans__.outlets[into] = myState; _emberMetal.run.schedule('afterRender', function () { false && !liveRoutes.outlets.__ember_orphans__.outlets[into].wasUsed && (0, _emberDebug.assert)('You attempted to render into \'' + into + '\' but it was not found', liveRoutes.outlets.__ember_orphans__.outlets[into].wasUsed); }); } function representEmptyRoute(liveRoutes, defaultParentState, route) { // the route didn't render anything var alreadyAppended = findLiveRoute(liveRoutes, route.routeName); if (alreadyAppended) { // But some other route has already rendered our default // template, so that becomes the default target for any // children we may have. return alreadyAppended; } else { // Create an entry to represent our default template name, // just so other routes can target it and inherit its place // in the outlet hierarchy. defaultParentState.outlets.main = { render: { name: route.routeName, outlet: 'main' }, outlets: {} }; return defaultParentState; } } exports.default = EmberRouter; }); enifed('ember-routing/system/router_state', ['exports', 'ember-utils', 'ember-routing/utils', 'ember-runtime'], function (exports, _emberUtils, _utils, _emberRuntime) { 'use strict'; exports.default = _emberRuntime.Object.extend({ emberRouter: null, routerJs: null, routerJsState: null, isActiveIntent: function (routeName, models, queryParams, queryParamsMustMatch) { var state = this.routerJsState, visibleQueryParams; if (!this.routerJs.isActiveIntent(routeName, models, null, state)) { return false; } if (queryParamsMustMatch && Object.keys(queryParams).length > 0) { visibleQueryParams = (0, _emberUtils.assign)({}, queryParams); this.emberRouter._prepareQueryParams(routeName, models, visibleQueryParams); return (0, _utils.shallowEqual)(visibleQueryParams, state.queryParams); } return true; } }); }); enifed('ember-routing/utils', ['exports', 'ember-utils', 'ember-metal', 'ember-debug'], function (exports, _emberUtils, _emberMetal, _emberDebug) { 'use strict'; exports.extractRouteArgs = function (args) { args = args.slice(); var possibleQueryParams = args[args.length - 1]; var queryParams = void 0; if (possibleQueryParams && possibleQueryParams.hasOwnProperty('queryParams')) { queryParams = args.pop().queryParams; } else { queryParams = {}; } var routeName = args.shift(); return { routeName: routeName, models: args, queryParams: queryParams }; }; exports.getActiveTargetName = function (router) { var handlerInfos = router.activeTransition ? router.activeTransition.state.handlerInfos : router.state.handlerInfos; return handlerInfos[handlerInfos.length - 1].name; }; exports.stashParamNames = function (router, handlerInfos) { if (handlerInfos._namesStashed) { return; } // This helper exists because router.js/route-recognizer.js awkwardly // keeps separate a handlerInfo's list of parameter names depending // on whether a URL transition or named transition is happening. // Hopefully we can remove this in the future. var targetRouteName = handlerInfos[handlerInfos.length - 1].name, i, handlerInfo, names, route; var recogHandlers = router._routerMicrolib.recognizer.handlersFor(targetRouteName); var dynamicParent = null; for (i = 0; i < handlerInfos.length; ++i) { handlerInfo = handlerInfos[i]; names = recogHandlers[i].names; if (names.length) { dynamicParent = handlerInfo; } handlerInfo._names = names; route = handlerInfo.handler; route._stashNames(handlerInfo, dynamicParent); } handlerInfos._namesStashed = true; }; exports.calculateCacheKey = /* Stolen from Controller */ function (prefix) { var parts = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : [], i, part, cacheValuePrefix, value, partRemovedPrefix; var values = arguments[2]; var suffixes = ''; for (i = 0; i < parts.length; ++i) { part = parts[i]; cacheValuePrefix = _calculateCacheValuePrefix(prefix, part); value = void 0; if (values) { if (cacheValuePrefix && cacheValuePrefix in values) { partRemovedPrefix = part.indexOf(cacheValuePrefix) === 0 ? part.substr(cacheValuePrefix.length + 1) : part; value = (0, _emberMetal.get)(values[cacheValuePrefix], partRemovedPrefix); } else { value = (0, _emberMetal.get)(values, part); } } suffixes += '::' + part + ':' + value; } return prefix + suffixes.replace(ALL_PERIODS_REGEX, '-'); } /* Controller-defined query parameters can come in three shapes: Array queryParams: ['foo', 'bar'] Array of simple objects where value is an alias queryParams: [ { 'foo': 'rename_foo_to_this' }, { 'bar': 'call_bar_this_instead' } ] Array of fully defined objects queryParams: [ { 'foo': { as: 'rename_foo_to_this' }, } { 'bar': { as: 'call_bar_this_instead', scope: 'controller' } } ] This helper normalizes all three possible styles into the 'Array of fully defined objects' style. */ ; exports.normalizeControllerQueryParams = function (queryParams) { var qpMap = {}, i; for (i = 0; i < queryParams.length; ++i) { accumulateQueryParamDescriptors(queryParams[i], qpMap); } return qpMap; }; exports.resemblesURL = resemblesURL; exports.prefixRouteNameArg = /* Returns an arguments array where the route name arg is prefixed based on the mount point @private */ function (route, args) { var routeName = args[0]; var owner = (0, _emberUtils.getOwner)(route); var prefix = owner.mountPoint; // only alter the routeName if it's actually referencing a route. if (owner.routable && typeof routeName === 'string') { if (resemblesURL(routeName)) { throw new _emberDebug.Error('Programmatic transitions by URL cannot be used within an Engine. Please use the route name instead.'); } else { routeName = prefix + '.' + routeName; args[0] = routeName; } } return args; }; exports.shallowEqual = function (a, b) { var k = void 0; var aCount = 0; var bCount = 0; for (k in a) { if (a.hasOwnProperty(k)) { if (a[k] !== b[k]) { return false; } aCount++; } } for (k in b) { if (b.hasOwnProperty(k)) { bCount++; } } return aCount === bCount; }; var ALL_PERIODS_REGEX = /\./g; function _calculateCacheValuePrefix(prefix, part) { // calculates the dot separated sections from prefix that are also // at the start of part - which gives us the route name // given : prefix = site.article.comments, part = site.article.id // - returns: site.article (use get(values[site.article], 'id') to get the dynamic part - used below) // given : prefix = site.article, part = site.article.id // - returns: site.article. (use get(values[site.article], 'id') to get the dynamic part - used below) var prefixParts = prefix.split('.'), i, currPart; var currPrefix = ''; for (i = 0; i < prefixParts.length; i++) { currPart = prefixParts.slice(0, i + 1).join('.'); if (part.indexOf(currPart) !== 0) { break; } currPrefix = currPart; } return currPrefix; } function accumulateQueryParamDescriptors(_desc, accum) { var desc = _desc, singleDesc; var tmp = void 0; if (typeof desc === 'string') { tmp = {}; tmp[desc] = { as: null }; desc = tmp; } for (var key in desc) { if (!desc.hasOwnProperty(key)) { return; } singleDesc = desc[key]; if (typeof singleDesc === 'string') { singleDesc = { as: singleDesc }; } tmp = accum[key] || { as: null, scope: 'model' }; (0, _emberUtils.assign)(tmp, singleDesc); accum[key] = tmp; } } /* Check if a routeName resembles a url instead @private */ function resemblesURL(str) { return typeof str === 'string' && (str === '' || str[0] === '/'); } }); enifed('ember-runtime/compare', ['exports', 'ember-runtime/utils', 'ember-runtime/mixins/comparable'], function (exports, _utils, _comparable) { 'use strict'; exports.default = compare; var TYPE_ORDER = { 'undefined': 0, 'null': 1, 'boolean': 2, 'number': 3, 'string': 4, 'array': 5, 'object': 6, 'instance': 7, 'function': 8, 'class': 9, 'date': 10 }; // // the spaceship operator // // `. ___ // __,' __`. _..----....____ // __...--.'``;. ,. ;``--..__ .' ,-._ _.-' // _..-''-------' `' `' `' O ``-''._ (,;') _,' // ,'________________ \`-._`-',' // `._ ```````````------...___ '-.._'-: // ```--.._ ,. ````--...__\-. // `.--. `-` "INFINITY IS LESS ____ | |` // `. `. THAN BEYOND" ,'`````. ; ;` // `._`. __________ `. \'__/` // `-:._____/______/___/____`. \ ` // | `._ `. \ // `._________`-. `. `.___ // SSt `------'` function spaceship(a, b) { var diff = a - b; return (diff > 0) - (diff < 0); } /** Compares two javascript values and returns: - -1 if the first is smaller than the second, - 0 if both are equal, - 1 if the first is greater than the second. ```javascript Ember.compare('hello', 'hello'); // 0 Ember.compare('abc', 'dfg'); // -1 Ember.compare(2, 1); // 1 ``` If the types of the two objects are different precedence occurs in the following order, with types earlier in the list considered `<` types later in the list: - undefined - null - boolean - number - string - array - object - instance - function - class - date ```javascript Ember.compare('hello', 50); // 1 Ember.compare(50, 'hello'); // -1 ``` @method compare @for Ember @param {Object} v First value to compare @param {Object} w Second value to compare @return {Number} -1 if v < w, 0 if v = w and 1 if v > w. @public */ function compare(v, w) { if (v === w) { return 0; } var type1 = (0, _utils.typeOf)(v), vLen, wLen, len, i, r; var type2 = (0, _utils.typeOf)(w); if (_comparable.default) { if (type1 === 'instance' && _comparable.default.detect(v) && v.constructor.compare) { return v.constructor.compare(v, w); } if (type2 === 'instance' && _comparable.default.detect(w) && w.constructor.compare) { return w.constructor.compare(w, v) * -1; } } var res = spaceship(TYPE_ORDER[type1], TYPE_ORDER[type2]); if (res !== 0) { return res; } // types are equal - so we have to check values now switch (type1) { case 'boolean': case 'number': return spaceship(v, w); case 'string': return spaceship(v.localeCompare(w), 0); case 'array': { vLen = v.length; wLen = w.length; len = Math.min(vLen, wLen); for (i = 0; i < len; i++) { r = compare(v[i], w[i]); if (r !== 0) { return r; } } // all elements are equal now // shorter array should be ordered first return spaceship(vLen, wLen); } case 'instance': if (_comparable.default && _comparable.default.detect(v)) { return v.compare(v, w); } return 0; case 'date': return spaceship(v.getTime(), w.getTime()); default: return 0; } } }); enifed('ember-runtime/computed/computed_macros', ['exports', 'ember-metal', 'ember-debug'], function (exports, _emberMetal, _emberDebug) { 'use strict'; exports.or = exports.and = undefined; exports.empty = /** A computed property that returns true if the value of the dependent property is null, an empty string, empty array, or empty function. Example ```javascript let ToDoList = Ember.Object.extend({ isDone: Ember.computed.empty('todos') }); let todoList = ToDoList.create({ todos: ['Unit Test', 'Documentation', 'Release'] }); todoList.get('isDone'); // false todoList.get('todos').clear(); todoList.get('isDone'); // true ``` @since 1.6.0 @method empty @static @for @ember/object/computed @param {String} dependentKey @return {ComputedProperty} computed property which returns true if the value of the dependent property is null, an empty string, empty array, or empty function and false if the underlying value is not empty. @public */ function (dependentKey) { return (0, _emberMetal.computed)(dependentKey + '.length', function () { return (0, _emberMetal.isEmpty)((0, _emberMetal.get)(this, dependentKey)); }); } /** A computed property that returns true if the value of the dependent property is NOT null, an empty string, empty array, or empty function. Example ```javascript let Hamster = Ember.Object.extend({ hasStuff: Ember.computed.notEmpty('backpack') }); let hamster = Hamster.create({ backpack: ['Food', 'Sleeping Bag', 'Tent'] }); hamster.get('hasStuff'); // true hamster.get('backpack').clear(); // [] hamster.get('hasStuff'); // false ``` @method notEmpty @static @for @ember/object/computed @param {String} dependentKey @return {ComputedProperty} computed property which returns true if original value for property is not empty. @public */ ; exports.notEmpty = function (dependentKey) { return (0, _emberMetal.computed)(dependentKey + '.length', function () { return !(0, _emberMetal.isEmpty)((0, _emberMetal.get)(this, dependentKey)); }); } /** A computed property that returns true if the value of the dependent property is null or undefined. This avoids errors from JSLint complaining about use of ==, which can be technically confusing. Example ```javascript let Hamster = Ember.Object.extend({ isHungry: Ember.computed.none('food') }); let hamster = Hamster.create(); hamster.get('isHungry'); // true hamster.set('food', 'Banana'); hamster.get('isHungry'); // false hamster.set('food', null); hamster.get('isHungry'); // true ``` @method none @static @for @ember/object/computed @param {String} dependentKey @return {ComputedProperty} computed property which returns true if original value for property is null or undefined. @public */ ; exports.none = function (dependentKey) { return (0, _emberMetal.computed)(dependentKey, function () { return (0, _emberMetal.isNone)((0, _emberMetal.get)(this, dependentKey)); }); } /** A computed property that returns the inverse boolean value of the original value for the dependent property. Example ```javascript let User = Ember.Object.extend({ isAnonymous: Ember.computed.not('loggedIn') }); let user = User.create({loggedIn: false}); user.get('isAnonymous'); // true user.set('loggedIn', true); user.get('isAnonymous'); // false ``` @method not @static @for @ember/object/computed @param {String} dependentKey @return {ComputedProperty} computed property which returns inverse of the original value for property @public */ ; exports.not = function (dependentKey) { return (0, _emberMetal.computed)(dependentKey, function () { return !(0, _emberMetal.get)(this, dependentKey); }); } /** A computed property that converts the provided dependent property into a boolean value. ```javascript let Hamster = Ember.Object.extend({ hasBananas: Ember.computed.bool('numBananas') }); let hamster = Hamster.create(); hamster.get('hasBananas'); // false hamster.set('numBananas', 0); hamster.get('hasBananas'); // false hamster.set('numBananas', 1); hamster.get('hasBananas'); // true hamster.set('numBananas', null); hamster.get('hasBananas'); // false ``` @method bool @static @for @ember/object/computed @param {String} dependentKey @return {ComputedProperty} computed property which converts to boolean the original value for property @public */ ; exports.bool = function (dependentKey) { return (0, _emberMetal.computed)(dependentKey, function () { return !!(0, _emberMetal.get)(this, dependentKey); }); } /** A computed property which matches the original value for the dependent property against a given RegExp, returning `true` if the value matches the RegExp and `false` if it does not. Example ```javascript let User = Ember.Object.extend({ hasValidEmail: Ember.computed.match('email', /^.+@.+\..+$/) }); let user = User.create({loggedIn: false}); user.get('hasValidEmail'); // false user.set('email', ''); user.get('hasValidEmail'); // false user.set('email', 'ember_hamster@example.com'); user.get('hasValidEmail'); // true ``` @method match @static @for @ember/object/computed @param {String} dependentKey @param {RegExp} regexp @return {ComputedProperty} computed property which match the original value for property against a given RegExp @public */ ; exports.match = function (dependentKey, regexp) { return (0, _emberMetal.computed)(dependentKey, function () { var value = (0, _emberMetal.get)(this, dependentKey); return regexp.test(value); }); } /** A computed property that returns true if the provided dependent property is equal to the given value. Example ```javascript let Hamster = Ember.Object.extend({ satisfied: Ember.computed.equal('percentCarrotsEaten', 100) }); let hamster = Hamster.create(); hamster.get('satisfied'); // false hamster.set('percentCarrotsEaten', 100); hamster.get('satisfied'); // true hamster.set('percentCarrotsEaten', 50); hamster.get('satisfied'); // false ``` @method equal @static @for @ember/object/computed @param {String} dependentKey @param {String|Number|Object} value @return {ComputedProperty} computed property which returns true if the original value for property is equal to the given value. @public */ ; exports.equal = function (dependentKey, value) { return (0, _emberMetal.computed)(dependentKey, function () { return (0, _emberMetal.get)(this, dependentKey) === value; }); } /** A computed property that returns true if the provided dependent property is greater than the provided value. Example ```javascript let Hamster = Ember.Object.extend({ hasTooManyBananas: Ember.computed.gt('numBananas', 10) }); let hamster = Hamster.create(); hamster.get('hasTooManyBananas'); // false hamster.set('numBananas', 3); hamster.get('hasTooManyBananas'); // false hamster.set('numBananas', 11); hamster.get('hasTooManyBananas'); // true ``` @method gt @static @for @ember/object/computed @param {String} dependentKey @param {Number} value @return {ComputedProperty} computed property which returns true if the original value for property is greater than given value. @public */ ; exports.gt = function (dependentKey, value) { return (0, _emberMetal.computed)(dependentKey, function () { return (0, _emberMetal.get)(this, dependentKey) > value; }); } /** A computed property that returns true if the provided dependent property is greater than or equal to the provided value. Example ```javascript let Hamster = Ember.Object.extend({ hasTooManyBananas: Ember.computed.gte('numBananas', 10) }); let hamster = Hamster.create(); hamster.get('hasTooManyBananas'); // false hamster.set('numBananas', 3); hamster.get('hasTooManyBananas'); // false hamster.set('numBananas', 10); hamster.get('hasTooManyBananas'); // true ``` @method gte @static @for @ember/object/computed @param {String} dependentKey @param {Number} value @return {ComputedProperty} computed property which returns true if the original value for property is greater or equal then given value. @public */ ; exports.gte = function (dependentKey, value) { return (0, _emberMetal.computed)(dependentKey, function () { return (0, _emberMetal.get)(this, dependentKey) >= value; }); } /** A computed property that returns true if the provided dependent property is less than the provided value. Example ```javascript let Hamster = Ember.Object.extend({ needsMoreBananas: Ember.computed.lt('numBananas', 3) }); let hamster = Hamster.create(); hamster.get('needsMoreBananas'); // true hamster.set('numBananas', 3); hamster.get('needsMoreBananas'); // false hamster.set('numBananas', 2); hamster.get('needsMoreBananas'); // true ``` @method lt @static @for @ember/object/computed @param {String} dependentKey @param {Number} value @return {ComputedProperty} computed property which returns true if the original value for property is less then given value. @public */ ; exports.lt = function (dependentKey, value) { return (0, _emberMetal.computed)(dependentKey, function () { return (0, _emberMetal.get)(this, dependentKey) < value; }); } /** A computed property that returns true if the provided dependent property is less than or equal to the provided value. Example ```javascript let Hamster = Ember.Object.extend({ needsMoreBananas: Ember.computed.lte('numBananas', 3) }); let hamster = Hamster.create(); hamster.get('needsMoreBananas'); // true hamster.set('numBananas', 5); hamster.get('needsMoreBananas'); // false hamster.set('numBananas', 3); hamster.get('needsMoreBananas'); // true ``` @method lte @static @for @ember/object/computed @param {String} dependentKey @param {Number} value @return {ComputedProperty} computed property which returns true if the original value for property is less or equal than given value. @public */ ; exports.lte = function (dependentKey, value) { return (0, _emberMetal.computed)(dependentKey, function () { return (0, _emberMetal.get)(this, dependentKey) <= value; }); } /** A computed property that performs a logical `and` on the original values for the provided dependent properties. You may pass in more than two properties and even use property brace expansion. The computed property will return the first falsy value or last truthy value just like JavaScript's `&&` operator. Example ```javascript let Hamster = Ember.Object.extend({ readyForCamp: Ember.computed.and('hasTent', 'hasBackpack'), readyForHike: Ember.computed.and('hasWalkingStick', 'hasBackpack') }); let tomster = Hamster.create(); tomster.get('readyForCamp'); // false tomster.set('hasTent', true); tomster.get('readyForCamp'); // false tomster.set('hasBackpack', true); tomster.get('readyForCamp'); // true tomster.set('hasBackpack', 'Yes'); tomster.get('readyForCamp'); // 'Yes' tomster.set('hasWalkingStick', null); tomster.get('readyForHike'); // null ``` @method and @static @for @ember/object/computed @param {String} dependentKey* @return {ComputedProperty} computed property which performs a logical `and` on the values of all the original values for properties. @public */ ; exports.oneWay = /** Creates a new property that is an alias for another property on an object. Calls to `get` or `set` this property behave as though they were called on the original property. ```javascript let Person = Ember.Object.extend({ name: 'Alex Matchneer', nomen: Ember.computed.alias('name') }); let alex = Person.create(); alex.get('nomen'); // 'Alex Matchneer' alex.get('name'); // 'Alex Matchneer' alex.set('nomen', '@machty'); alex.get('name'); // '@machty' ``` @method alias @static @for @ember/object/computed @param {String} dependentKey @return {ComputedProperty} computed property which creates an alias to the original value for property. @public */ /** Where `computed.alias` aliases `get` and `set`, and allows for bidirectional data flow, `computed.oneWay` only provides an aliased `get`. The `set` will not mutate the upstream property, rather causes the current property to become the value set. This causes the downstream property to permanently diverge from the upstream property. Example ```javascript let User = Ember.Object.extend({ firstName: null, lastName: null, nickName: Ember.computed.oneWay('firstName') }); let teddy = User.create({ firstName: 'Teddy', lastName: 'Zeenny' }); teddy.get('nickName'); // 'Teddy' teddy.set('nickName', 'TeddyBear'); // 'TeddyBear' teddy.get('firstName'); // 'Teddy' ``` @method oneWay @static @for @ember/object/computed @param {String} dependentKey @return {ComputedProperty} computed property which creates a one way computed property to the original value for property. @public */ function (dependentKey) { return (0, _emberMetal.alias)(dependentKey).oneWay(); } /** This is a more semantically meaningful alias of `computed.oneWay`, whose name is somewhat ambiguous as to which direction the data flows. @method reads @static @for @ember/object/computed @param {String} dependentKey @return {ComputedProperty} computed property which creates a one way computed property to the original value for property. @public */ /** Where `computed.oneWay` provides oneWay bindings, `computed.readOnly` provides a readOnly one way binding. Very often when using `computed.oneWay` one does not also want changes to propagate back up, as they will replace the value. This prevents the reverse flow, and also throws an exception when it occurs. Example ```javascript let User = Ember.Object.extend({ firstName: null, lastName: null, nickName: Ember.computed.readOnly('firstName') }); let teddy = User.create({ firstName: 'Teddy', lastName: 'Zeenny' }); teddy.get('nickName'); // 'Teddy' teddy.set('nickName', 'TeddyBear'); // throws Exception // throw new Ember.Error('Cannot Set: nickName on: ' );` teddy.get('firstName'); // 'Teddy' ``` @method readOnly @static @for @ember/object/computed @param {String} dependentKey @return {ComputedProperty} computed property which creates a one way computed property to the original value for property. @since 1.5.0 @public */ ; exports.readOnly = function (dependentKey) { return (0, _emberMetal.alias)(dependentKey).readOnly(); } /** Creates a new property that is an alias for another property on an object. Calls to `get` or `set` this property behave as though they were called on the original property, but also print a deprecation warning. ```javascript let Hamster = Ember.Object.extend({ bananaCount: Ember.computed.deprecatingAlias('cavendishCount', { id: 'hamster.deprecate-banana', until: '3.0.0' }) }); let hamster = Hamster.create(); hamster.set('bananaCount', 5); // Prints a deprecation warning. hamster.get('cavendishCount'); // 5 ``` @method deprecatingAlias @static @for @ember/object/computed @param {String} dependentKey @param {Object} options Options for `Ember.deprecate`. @return {ComputedProperty} computed property which creates an alias with a deprecation to the original value for property. @since 1.7.0 @public */ ; exports.deprecatingAlias = function (dependentKey, options) { return (0, _emberMetal.computed)(dependentKey, { get: function (key) { false && !false && (0, _emberDebug.deprecate)('Usage of `' + key + '` is deprecated, use `' + dependentKey + '` instead.', false, options); return (0, _emberMetal.get)(this, dependentKey); }, set: function (key, value) { false && !false && (0, _emberDebug.deprecate)('Usage of `' + key + '` is deprecated, use `' + dependentKey + '` instead.', false, options); (0, _emberMetal.set)(this, dependentKey, value); return value; } }); }; /** @module @ember/object */ function expandPropertiesToArray(predicateName, properties) { var expandedProperties = [], i, property; function extractProperty(entry) { expandedProperties.push(entry); } for (i = 0; i < properties.length; i++) { property = properties[i]; false && !(property.indexOf(' ') < 0) && (0, _emberDebug.assert)('Dependent keys passed to Ember.computed.' + predicateName + '() can\'t have spaces.', property.indexOf(' ') < 0); (0, _emberMetal.expandProperties)(property, extractProperty); } return expandedProperties; } function generateComputedWithPredicate(name, predicate) { return function () { for (_len = arguments.length, properties = Array(_len), _key = 0; _key < _len; _key++) { properties[_key] = arguments[_key]; } var dependentKeys = expandPropertiesToArray(name, properties), _len, properties, _key; var computedFunc = new _emberMetal.ComputedProperty(function () { var lastIdx = dependentKeys.length - 1, i, value; for (i = 0; i < lastIdx; i++) { value = (0, _emberMetal.get)(this, dependentKeys[i]); if (!predicate(value)) { return value; } } return (0, _emberMetal.get)(this, dependentKeys[lastIdx]); }, { dependentKeys: dependentKeys }); return computedFunc; }; }exports.and = generateComputedWithPredicate('and', function (value) { return value; }); /** A computed property which performs a logical `or` on the original values for the provided dependent properties. You may pass in more than two properties and even use property brace expansion. The computed property will return the first truthy value or last falsy value just like JavaScript's `||` operator. Example ```javascript let Hamster = Ember.Object.extend({ readyForRain: Ember.computed.or('hasJacket', 'hasUmbrella'), readyForBeach: Ember.computed.or('{hasSunscreen,hasUmbrella}') }); let tomster = Hamster.create(); tomster.get('readyForRain'); // undefined tomster.set('hasUmbrella', true); tomster.get('readyForRain'); // true tomster.set('hasJacket', 'Yes'); tomster.get('readyForRain'); // 'Yes' tomster.set('hasSunscreen', 'Check'); tomster.get('readyForBeach'); // 'Check' ``` @method or @static @for @ember/object/computed @param {String} dependentKey* @return {ComputedProperty} computed property which performs a logical `or` on the values of all the original values for properties. @public */ exports.or = generateComputedWithPredicate('or', function (value) { return !value; }); }); enifed('ember-runtime/computed/reduce_computed_macros', ['exports', 'ember-debug', 'ember-metal', 'ember-runtime/compare', 'ember-runtime/utils', 'ember-runtime/system/native_array'], function (exports, _emberDebug, _emberMetal, _compare, _utils, _native_array) { 'use strict'; exports.union = undefined; exports.sum = /** A computed property that returns the sum of the values in the dependent array. @method sum @for @ember/object/computed @static @param {String} dependentKey @return {Ember.ComputedProperty} computes the sum of all values in the dependentKey's array @since 1.4.0 @public */ function (dependentKey) { return reduceMacro(dependentKey, function (sum, item) { return sum + item; }, 0, 'sum'); } /** A computed property that calculates the maximum value in the dependent array. This will return `-Infinity` when the dependent array is empty. ```javascript let Person = Ember.Object.extend({ childAges: Ember.computed.mapBy('children', 'age'), maxChildAge: Ember.computed.max('childAges') }); let lordByron = Person.create({ children: [] }); lordByron.get('maxChildAge'); // -Infinity lordByron.get('children').pushObject({ name: 'Augusta Ada Byron', age: 7 }); lordByron.get('maxChildAge'); // 7 lordByron.get('children').pushObjects([{ name: 'Allegra Byron', age: 5 }, { name: 'Elizabeth Medora Leigh', age: 8 }]); lordByron.get('maxChildAge'); // 8 ``` If the types of the arguments are not numbers, they will be converted to numbers and the type of the return value will always be `Number`. For example, the max of a list of Date objects will be the highest timestamp as a `Number`. This behavior is consistent with `Math.max`. @method max @for @ember/object/computed @static @param {String} dependentKey @return {Ember.ComputedProperty} computes the largest value in the dependentKey's array @public */ ; exports.max = function (dependentKey) { return reduceMacro(dependentKey, function (max, item) { return Math.max(max, item); }, -Infinity, 'max'); } /** A computed property that calculates the minimum value in the dependent array. This will return `Infinity` when the dependent array is empty. ```javascript let Person = Ember.Object.extend({ childAges: Ember.computed.mapBy('children', 'age'), minChildAge: Ember.computed.min('childAges') }); let lordByron = Person.create({ children: [] }); lordByron.get('minChildAge'); // Infinity lordByron.get('children').pushObject({ name: 'Augusta Ada Byron', age: 7 }); lordByron.get('minChildAge'); // 7 lordByron.get('children').pushObjects([{ name: 'Allegra Byron', age: 5 }, { name: 'Elizabeth Medora Leigh', age: 8 }]); lordByron.get('minChildAge'); // 5 ``` If the types of the arguments are not numbers, they will be converted to numbers and the type of the return value will always be `Number`. For example, the min of a list of Date objects will be the lowest timestamp as a `Number`. This behavior is consistent with `Math.min`. @method min @for @ember/object/computed @static @param {String} dependentKey @return {Ember.ComputedProperty} computes the smallest value in the dependentKey's array @public */ ; exports.min = function (dependentKey) { return reduceMacro(dependentKey, function (min, item) { return Math.min(min, item); }, Infinity, 'min'); } /** Returns an array mapped via the callback The callback method you provide should have the following signature. `item` is the current item in the iteration. `index` is the integer index of the current item in the iteration. ```javascript function(item, index); ``` Example ```javascript let Hamster = Ember.Object.extend({ excitingChores: Ember.computed.map('chores', function(chore, index) { return chore.toUpperCase() + '!'; }) }); let hamster = Hamster.create({ chores: ['clean', 'write more unit tests'] }); hamster.get('excitingChores'); // ['CLEAN!', 'WRITE MORE UNIT TESTS!'] ``` @method map @for @ember/object/computed @static @param {String} dependentKey @param {Function} callback @return {Ember.ComputedProperty} an array mapped via the callback @public */ ; exports.map = map; exports.mapBy = /** Returns an array mapped to the specified key. ```javascript let Person = Ember.Object.extend({ childAges: Ember.computed.mapBy('children', 'age') }); let lordByron = Person.create({ children: [] }); lordByron.get('childAges'); // [] lordByron.get('children').pushObject({ name: 'Augusta Ada Byron', age: 7 }); lordByron.get('childAges'); // [7] lordByron.get('children').pushObjects([{ name: 'Allegra Byron', age: 5 }, { name: 'Elizabeth Medora Leigh', age: 8 }]); lordByron.get('childAges'); // [7, 5, 8] ``` @method mapBy @for @ember/object/computed @static @param {String} dependentKey @param {String} propertyKey @return {Ember.ComputedProperty} an array mapped to the specified key @public */ function (dependentKey, propertyKey) { false && !(typeof propertyKey === 'string') && (0, _emberDebug.assert)('\`Ember.computed.mapBy\` expects a property string for its second argument, ' + 'perhaps you meant to use "map"', typeof propertyKey === 'string'); false && !!/[\[\]\{\}]/g.test(dependentKey) && (0, _emberDebug.assert)('Dependent key passed to `Ember.computed.mapBy` shouldn\'t contain brace expanding pattern.', !/[\[\]\{\}]/g.test(dependentKey)); return map(dependentKey + '.@each.' + propertyKey, function (item) { return (0, _emberMetal.get)(item, propertyKey); }); } /** Filters the array by the callback. The callback method you provide should have the following signature. `item` is the current item in the iteration. `index` is the integer index of the current item in the iteration. `array` is the dependant array itself. ```javascript function(item, index, array); ``` ```javascript let Hamster = Ember.Object.extend({ remainingChores: Ember.computed.filter('chores', function(chore, index, array) { return !chore.done; }) }); let hamster = Hamster.create({ chores: [ { name: 'cook', done: true }, { name: 'clean', done: true }, { name: 'write more unit tests', done: false } ] }); hamster.get('remainingChores'); // [{name: 'write more unit tests', done: false}] ``` You can also use `@each.property` in your dependent key, the callback will still use the underlying array: ```javascript let Hamster = Ember.Object.extend({ remainingChores: Ember.computed.filter('chores.@each.done', function(chore, index, array) { return !chore.get('done'); }) }); let hamster = Hamster.create({ chores: Ember.A([ Ember.Object.create({ name: 'cook', done: true }), Ember.Object.create({ name: 'clean', done: true }), Ember.Object.create({ name: 'write more unit tests', done: false }) ]) }); hamster.get('remainingChores'); // [{name: 'write more unit tests', done: false}] hamster.get('chores').objectAt(2).set('done', true); hamster.get('remainingChores'); // [] ``` @method filter @for @ember/object/computed @static @param {String} dependentKey @param {Function} callback @return {Ember.ComputedProperty} the filtered array @public */ ; exports.filter = filter; exports.filterBy = /** Filters the array by the property and value ```javascript let Hamster = Ember.Object.extend({ remainingChores: Ember.computed.filterBy('chores', 'done', false) }); let hamster = Hamster.create({ chores: [ { name: 'cook', done: true }, { name: 'clean', done: true }, { name: 'write more unit tests', done: false } ] }); hamster.get('remainingChores'); // [{ name: 'write more unit tests', done: false }] ``` @method filterBy @for @ember/object/computed @static @param {String} dependentKey @param {String} propertyKey @param {*} value @return {Ember.ComputedProperty} the filtered array @public */ function (dependentKey, propertyKey, value) { false && !!/[\[\]\{\}]/g.test(dependentKey) && (0, _emberDebug.assert)('Dependent key passed to `Ember.computed.filterBy` shouldn\'t contain brace expanding pattern.', !/[\[\]\{\}]/g.test(dependentKey)); var callback = void 0; if (arguments.length === 2) { callback = function (item) { return (0, _emberMetal.get)(item, propertyKey); }; } else { callback = function (item) { return (0, _emberMetal.get)(item, propertyKey) === value; }; } return filter(dependentKey + '.@each.' + propertyKey, callback); } /** A computed property which returns a new array with all the unique elements from one or more dependent arrays. Example ```javascript let Hamster = Ember.Object.extend({ uniqueFruits: Ember.computed.uniq('fruits') }); let hamster = Hamster.create({ fruits: [ 'banana', 'grape', 'kale', 'banana' ] }); hamster.get('uniqueFruits'); // ['banana', 'grape', 'kale'] ``` @method uniq @for @ember/object/computed @static @param {String} propertyKey* @return {Ember.ComputedProperty} computes a new array with all the unique elements from the dependent array @public */ ; exports.uniq = uniq; exports.uniqBy = /** A computed property which returns a new array with all the unique elements from an array, with uniqueness determined by specific key. Example ```javascript let Hamster = Ember.Object.extend({ uniqueFruits: Ember.computed.uniqBy('fruits', 'id') }); let hamster = Hamster.create({ fruits: [ { id: 1, 'banana' }, { id: 2, 'grape' }, { id: 3, 'peach' }, { id: 1, 'banana' } ] }); hamster.get('uniqueFruits'); // [ { id: 1, 'banana' }, { id: 2, 'grape' }, { id: 3, 'peach' }] ``` @method uniqBy @for @ember/object/computed @static @param {String} dependentKey @param {String} propertyKey @return {Ember.ComputedProperty} computes a new array with all the unique elements from the dependent array @public */ function (dependentKey, propertyKey) { false && !!/[\[\]\{\}]/g.test(dependentKey) && (0, _emberDebug.assert)('Dependent key passed to `Ember.computed.uniqBy` shouldn\'t contain brace expanding pattern.', !/[\[\]\{\}]/g.test(dependentKey)); var cp = new _emberMetal.ComputedProperty(function () { var uniq = (0, _native_array.A)(), seen; var list = (0, _emberMetal.get)(this, dependentKey); if ((0, _utils.isArray)(list)) { seen = new Set(); list.forEach(function (item) { var val = (0, _emberMetal.get)(item, propertyKey); if (!seen.has(val)) { seen.add(val); uniq.push(item); } }); } return uniq; }, { dependentKeys: [dependentKey + '.[]'], readOnly: true }); return cp; } /** A computed property which returns a new array with all the unique elements from one or more dependent arrays. Example ```javascript let Hamster = Ember.Object.extend({ uniqueFruits: Ember.computed.union('fruits', 'vegetables') }); let hamster = Hamster.create({ fruits: [ 'banana', 'grape', 'kale', 'banana', 'tomato' ], vegetables: [ 'tomato', 'carrot', 'lettuce' ] }); hamster.get('uniqueFruits'); // ['banana', 'grape', 'kale', 'tomato', 'carrot', 'lettuce'] ``` @method union @for @ember/object/computed @static @param {String} propertyKey* @return {Ember.ComputedProperty} computes a new array with all the unique elements from the dependent array @public */ ; exports.intersect = /** A computed property which returns a new array with all the elements two or more dependent arrays have in common. Example ```javascript let obj = Ember.Object.extend({ friendsInCommon: Ember.computed.intersect('adaFriends', 'charlesFriends') }).create({ adaFriends: ['Charles Babbage', 'John Hobhouse', 'William King', 'Mary Somerville'], charlesFriends: ['William King', 'Mary Somerville', 'Ada Lovelace', 'George Peacock'] }); obj.get('friendsInCommon'); // ['William King', 'Mary Somerville'] ``` @method intersect @for @ember/object/computed @static @param {String} propertyKey* @return {Ember.ComputedProperty} computes a new array with all the duplicated elements from the dependent arrays @public */ function () { var _len2, args, _key2; for (_len2 = arguments.length, args = Array(_len2), _key2 = 0; _key2 < _len2; _key2++) { args[_key2] = arguments[_key2]; } return multiArrayMacro(args, function (dependentKeys) { var _this2 = this; var arrays = dependentKeys.map(function (dependentKey) { var array = (0, _emberMetal.get)(_this2, dependentKey); return (0, _utils.isArray)(array) ? array : []; }); var results = arrays.pop().filter(function (candidate) { var i, found, array, j; for (i = 0; i < arrays.length; i++) { found = false; array = arrays[i]; for (j = 0; j < array.length; j++) { if (array[j] === candidate) { found = true; break; } } if (found === false) { return false; } } return true; }, 'intersect'); return (0, _native_array.A)(results); }); } /** A computed property which returns a new array with all the properties from the first dependent array that are not in the second dependent array. Example ```javascript let Hamster = Ember.Object.extend({ likes: ['banana', 'grape', 'kale'], wants: Ember.computed.setDiff('likes', 'fruits') }); let hamster = Hamster.create({ fruits: [ 'grape', 'kale', ] }); hamster.get('wants'); // ['banana'] ``` @method setDiff @for @ember/object/computed @static @param {String} setAProperty @param {String} setBProperty @return {Ember.ComputedProperty} computes a new array with all the items from the first dependent array that are not in the second dependent array @public */ ; exports.setDiff = function (setAProperty, setBProperty) { false && !(arguments.length === 2) && (0, _emberDebug.assert)('\`Ember.computed.setDiff\` requires exactly two dependent arrays.', arguments.length === 2); false && !(!/[\[\]\{\}]/g.test(setAProperty) && !/[\[\]\{\}]/g.test(setBProperty)) && (0, _emberDebug.assert)('Dependent keys passed to `Ember.computed.setDiff` shouldn\'t contain brace expanding pattern.', !/[\[\]\{\}]/g.test(setAProperty) && !/[\[\]\{\}]/g.test(setBProperty)); var cp = new _emberMetal.ComputedProperty(function () { var setA = this.get(setAProperty); var setB = this.get(setBProperty); if (!(0, _utils.isArray)(setA)) { return (0, _native_array.A)(); } if (!(0, _utils.isArray)(setB)) { return (0, _native_array.A)(setA); } return setA.filter(function (x) { return setB.indexOf(x) === -1; }); }, { dependentKeys: [setAProperty + '.[]', setBProperty + '.[]'], readOnly: true }); return cp; } /** A computed property that returns the array of values for the provided dependent properties. Example ```javascript let Hamster = Ember.Object.extend({ clothes: Ember.computed.collect('hat', 'shirt') }); let hamster = Hamster.create(); hamster.get('clothes'); // [null, null] hamster.set('hat', 'Camp Hat'); hamster.set('shirt', 'Camp Shirt'); hamster.get('clothes'); // ['Camp Hat', 'Camp Shirt'] ``` @method collect @for @ember/object/computed @static @param {String} dependentKey* @return {Ember.ComputedProperty} computed property which maps values of all passed in properties to an array. @public */ ; exports.collect = function () { var _len3, dependentKeys, _key3; for (_len3 = arguments.length, dependentKeys = Array(_len3), _key3 = 0; _key3 < _len3; _key3++) { dependentKeys[_key3] = arguments[_key3]; } return multiArrayMacro(dependentKeys, function () { var properties = (0, _emberMetal.getProperties)(this, dependentKeys); var res = (0, _native_array.A)(); for (var key in properties) { if (properties.hasOwnProperty(key)) { if (properties[key] === undefined) { res.push(null); } else { res.push(properties[key]); } } } return res; }, 'collect'); } /** A computed property which returns a new array with all the properties from the first dependent array sorted based on a property or sort function. The callback method you provide should have the following signature: ```javascript function(itemA, itemB); ``` - `itemA` the first item to compare. - `itemB` the second item to compare. This function should return negative number (e.g. `-1`) when `itemA` should come before `itemB`. It should return positive number (e.g. `1`) when `itemA` should come after `itemB`. If the `itemA` and `itemB` are equal this function should return `0`. Therefore, if this function is comparing some numeric values, simple `itemA - itemB` or `itemA.get( 'foo' ) - itemB.get( 'foo' )` can be used instead of series of `if`. Example ```javascript let ToDoList = Ember.Object.extend({ // using standard ascending sort todosSorting: ['name'], sortedTodos: Ember.computed.sort('todos', 'todosSorting'), // using descending sort todosSortingDesc: ['name:desc'], sortedTodosDesc: Ember.computed.sort('todos', 'todosSortingDesc'), // using a custom sort function priorityTodos: Ember.computed.sort('todos', function(a, b){ if (a.priority > b.priority) { return 1; } else if (a.priority < b.priority) { return -1; } return 0; }) }); let todoList = ToDoList.create({todos: [ { name: 'Unit Test', priority: 2 }, { name: 'Documentation', priority: 3 }, { name: 'Release', priority: 1 } ]}); todoList.get('sortedTodos'); // [{ name:'Documentation', priority:3 }, { name:'Release', priority:1 }, { name:'Unit Test', priority:2 }] todoList.get('sortedTodosDesc'); // [{ name:'Unit Test', priority:2 }, { name:'Release', priority:1 }, { name:'Documentation', priority:3 }] todoList.get('priorityTodos'); // [{ name:'Release', priority:1 }, { name:'Unit Test', priority:2 }, { name:'Documentation', priority:3 }] ``` @method sort @for @ember/object/computed @static @param {String} itemsKey @param {String or Function} sortDefinition a dependent key to an array of sort properties (add `:desc` to the arrays sort properties to sort descending) or a function to use when sorting @return {Ember.ComputedProperty} computes a new sorted array based on the sort property array or callback function @public */ ; exports.sort = function (itemsKey, sortDefinition) { false && !(arguments.length === 2) && (0, _emberDebug.assert)('\`Ember.computed.sort\` requires two arguments: an array key to sort and ' + 'either a sort properties key or sort function', arguments.length === 2); if (typeof sortDefinition === 'function') { return customSort(itemsKey, sortDefinition); } else { return propertySort(itemsKey, sortDefinition); } }; function reduceMacro(dependentKey, callback, initialValue, name) { false && !!/[\[\]\{\}]/g.test(dependentKey) && (0, _emberDebug.assert)('Dependent key passed to `Ember.computed.' + name + '` shouldn\'t contain brace expanding pattern.', !/[\[\]\{\}]/g.test(dependentKey)); var cp = new _emberMetal.ComputedProperty(function () { var arr = (0, _emberMetal.get)(this, dependentKey); if (arr === null || typeof arr !== 'object') { return initialValue; } return arr.reduce(callback, initialValue, this); }, { dependentKeys: [dependentKey + '.[]'], readOnly: true }); return cp; } /** @module @ember/object */ function arrayMacro(dependentKey, callback) { // This is a bit ugly var propertyName = void 0; if (/@each/.test(dependentKey)) { propertyName = dependentKey.replace(/\.@each.*$/, ''); } else { propertyName = dependentKey; dependentKey += '.[]'; } var cp = new _emberMetal.ComputedProperty(function () { var value = (0, _emberMetal.get)(this, propertyName); if ((0, _utils.isArray)(value)) { return (0, _native_array.A)(callback.call(this, value)); } else { return (0, _native_array.A)(); } }, { readOnly: true }); cp.property(dependentKey); // this forces to expand properties GH #15855 return cp; } function multiArrayMacro(_dependentKeys, callback, name) { false && !_dependentKeys.every(function (dependentKey) { return !/[\[\]\{\}]/g.test(dependentKey); }) && (0, _emberDebug.assert)('Dependent keys passed to `Ember.computed.' + name + '` shouldn\'t contain brace expanding pattern.', _dependentKeys.every(function (dependentKey) { return !/[\[\]\{\}]/g.test(dependentKey); })); var dependentKeys = _dependentKeys.map(function (key) { return key + '.[]'; }); var cp = new _emberMetal.ComputedProperty(function () { return (0, _native_array.A)(callback.call(this, _dependentKeys)); }, { dependentKeys: dependentKeys, readOnly: true }); return cp; }function map(dependentKey, callback) { return arrayMacro(dependentKey, function (value) { return value.map(callback, this); }); }function filter(dependentKey, callback) { return arrayMacro(dependentKey, function (value) { return value.filter(callback, this); }); }function uniq() { var _len, args, _key; for (_len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } return multiArrayMacro(args, function (dependentKeys) { var _this = this; var uniq = (0, _native_array.A)(); var seen = new Set(); dependentKeys.forEach(function (dependentKey) { var value = (0, _emberMetal.get)(_this, dependentKey); if ((0, _utils.isArray)(value)) { value.forEach(function (item) { if (!seen.has(item)) { seen.add(item); uniq.push(item); } }); } }); return uniq; }, 'uniq'); }exports.union = uniq; function customSort(itemsKey, comparator) { return arrayMacro(itemsKey, function (value) { var _this3 = this; return value.slice().sort(function (x, y) { return comparator.call(_this3, x, y); }); }); } // This one needs to dynamically set up and tear down observers on the itemsKey // depending on the sortProperties function propertySort(itemsKey, sortPropertiesKey) { var cp = new _emberMetal.ComputedProperty(function (key) { var _this4 = this; var sortProperties = (0, _emberMetal.get)(this, sortPropertiesKey); false && !((0, _utils.isArray)(sortProperties) && sortProperties.every(function (s) { return typeof s === 'string'; })) && (0, _emberDebug.assert)('The sort definition for \'' + key + '\' on ' + this + ' must be a function or an array of strings', (0, _utils.isArray)(sortProperties) && sortProperties.every(function (s) { return typeof s === 'string'; })); // Add/remove property observers as required. var activeObserversMap = cp._activeObserverMap || (cp._activeObserverMap = new WeakMap()); var activeObservers = activeObserversMap.get(this); if (activeObservers !== undefined) { activeObservers.forEach(function (args) { return _emberMetal.removeObserver.apply(undefined, args); }); } function sortPropertyDidChange() { this.notifyPropertyChange(key); } var itemsKeyIsAtThis = itemsKey === '@this'; var normalizedSortProperties = normalizeSortProperties(sortProperties); activeObservers = normalizedSortProperties.map(function (_ref) { var prop = _ref[0]; var path = itemsKeyIsAtThis ? '@each.' + prop : itemsKey + '.@each.' + prop; (0, _emberMetal.addObserver)(_this4, path, sortPropertyDidChange); return [_this4, path, sortPropertyDidChange]; }); activeObserversMap.set(this, activeObservers); var items = itemsKeyIsAtThis ? this : (0, _emberMetal.get)(this, itemsKey); if (!(0, _utils.isArray)(items)) { return (0, _native_array.A)(); } return sortByNormalizedSortProperties(items, normalizedSortProperties); }, { dependentKeys: [sortPropertiesKey + '.[]'], readOnly: true }); cp._activeObserverMap = undefined; return cp; } function normalizeSortProperties(sortProperties) { return sortProperties.map(function (p) { var _p$split = p.split(':'), prop = _p$split[0], direction = _p$split[1]; direction = direction || 'asc'; return [prop, direction]; }); } function sortByNormalizedSortProperties(items, normalizedSortProperties) { return (0, _native_array.A)(items.slice().sort(function (itemA, itemB) { var i, _normalizedSortProper, prop, direction, result; for (i = 0; i < normalizedSortProperties.length; i++) { _normalizedSortProper = normalizedSortProperties[i], prop = _normalizedSortProper[0], direction = _normalizedSortProper[1]; result = (0, _compare.default)((0, _emberMetal.get)(itemA, prop), (0, _emberMetal.get)(itemB, prop)); if (result !== 0) { return direction === 'desc' ? -1 * result : result; } } return 0; })); } }); enifed('ember-runtime/controllers/controller', ['exports', 'ember-debug', 'ember-runtime/system/object', 'ember-runtime/mixins/controller', 'ember-runtime/inject'], function (exports, _emberDebug, _object, _controller, _inject) { 'use strict'; /** @module @ember/controller */ /** @class Controller @extends EmberObject @uses Ember.ControllerMixin @public */ var Controller = _object.default.extend(_controller.default); /** Creates a property that lazily looks up another controller in the container. Can only be used when defining another controller. Example: ```app/controllers/post.js import Controller, { inject as controller } from '@ember/controller'; export default Controller.extend({ posts: controller() }); ``` This example will create a `posts` property on the `post` controller that looks up the `posts` controller in the container, making it easy to reference other controllers. @method inject @static @for @ember/controller @since 1.10.0 @param {String} name (optional) name of the controller to inject, defaults to the property's name @return {Ember.InjectedProperty} injection descriptor instance @public */ (0, _inject.createInjectionHelper)('controller', function (factory) { false && !_controller.default.detect(factory.PrototypeMixin) && (0, _emberDebug.assert)('Defining an injected controller property on a ' + 'non-controller is not allowed.', _controller.default.detect(factory.PrototypeMixin)); }); exports.default = Controller; }); enifed('ember-runtime/copy', ['exports', 'ember-debug', 'ember-runtime/system/object', 'ember-runtime/mixins/copyable'], function (exports, _emberDebug, _object, _copyable) { 'use strict'; exports.default = /** Creates a shallow copy of the passed object. A deep copy of the object is returned if the optional `deep` argument is `true`. If the passed object implements the `Ember.Copyable` interface, then this function will delegate to the object's `copy()` method and return the result. See `Ember.Copyable` for further details. For primitive values (which are immutable in JavaScript), the passed object is simply returned. @method copy @static @for @ember/object/internals @param {Object} obj The object to clone @param {Boolean} [deep=false] If true, a deep copy of the object is made. @return {Object} The copied object @public */ function (obj, deep) { // fast paths if ('object' !== typeof obj || obj === null) { return obj; // can't copy primitives } if (_copyable.default && _copyable.default.detect(obj)) { return obj.copy(deep); } return _copy(obj, deep, deep ? [] : null, deep ? [] : null); }; /** @module @ember/object */ function _copy(obj, deep, seen, copies) { var ret = void 0, loc = void 0, key = void 0; // primitive data types are immutable, just return them. if (typeof obj !== 'object' || obj === null) { return obj; } // avoid cyclical loops if (deep && (loc = seen.indexOf(obj)) >= 0) { return copies[loc]; } false && !(!(obj instanceof _object.default) || _copyable.default && _copyable.default.detect(obj)) && (0, _emberDebug.assert)('Cannot clone an Ember.Object that does not implement Ember.Copyable', !(obj instanceof _object.default) || _copyable.default && _copyable.default.detect(obj)); // IMPORTANT: this specific test will detect a native array only. Any other // object will need to implement Copyable. if (Array.isArray(obj)) { ret = obj.slice(); if (deep) { loc = ret.length; while (--loc >= 0) { ret[loc] = _copy(ret[loc], deep, seen, copies); } } } else if (_copyable.default && _copyable.default.detect(obj)) { ret = obj.copy(deep, seen, copies); } else if (obj instanceof Date) { ret = new Date(obj.getTime()); } else { ret = {}; for (key in obj) { // support Null prototype if (!Object.prototype.hasOwnProperty.call(obj, key)) { continue; } // Prevents browsers that don't respect non-enumerability from // copying internal Ember properties if (key.substring(0, 2) === '__') { continue; } ret[key] = deep ? _copy(obj[key], deep, seen, copies) : obj[key]; } } if (deep) { seen.push(obj); copies.push(ret); } return ret; } }); enifed('ember-runtime/ext/function', ['ember-environment', 'ember-metal', 'ember-debug'], function (_emberEnvironment, _emberMetal, _emberDebug) { 'use strict'; var FunctionPrototype = Function.prototype; /** @module ember */ if (_emberEnvironment.ENV.EXTEND_PROTOTYPES.Function) { /** The `property` extension of Javascript's Function prototype is available when `EmberENV.EXTEND_PROTOTYPES` or `EmberENV.EXTEND_PROTOTYPES.Function` is `true`, which is the default. Computed properties allow you to treat a function like a property: ```app/utils/president.js import EmberObject from '@ember/object'; export default EmberObject.extend({ firstName: '', lastName: '', fullName: function() { return this.get('firstName') + ' ' + this.get('lastName'); }.property() // Call this flag to mark the function as a property }); ``` ```javascript let president = President.create({ firstName: 'Barack', lastName: 'Obama' }); president.get('fullName'); // 'Barack Obama' ``` Treating a function like a property is useful because they can work with bindings, just like any other property. Many computed properties have dependencies on other properties. For example, in the above example, the `fullName` property depends on `firstName` and `lastName` to determine its value. You can tell Ember about these dependencies like this: ```app/utils/president.js import EmberObject from '@ember/object'; export default EmberObject.extend({ firstName: '', lastName: '', fullName: function() { return this.get('firstName') + ' ' + this.get('lastName'); // Tell Ember.js that this computed property depends on firstName // and lastName }.property('firstName', 'lastName') }); ``` Make sure you list these dependencies so Ember knows when to update bindings that connect to a computed property. Changing a dependency will not immediately trigger an update of the computed property, but will instead clear the cache so that it is updated when the next `get` is called on the property. See [Ember.ComputedProperty](/api/classes/Ember.ComputedProperty.html), [Ember.computed](/api/classes/Ember.computed.html). @method property @for Function @public */ FunctionPrototype.property = function () { return _emberMetal.computed.apply(undefined, Array.prototype.slice.call(arguments).concat([this])); }; /** The `observes` extension of Javascript's Function prototype is available when `EmberENV.EXTEND_PROTOTYPES` or `EmberENV.EXTEND_PROTOTYPES.Function` is true, which is the default. You can observe property changes simply by adding the `observes` call to the end of your method declarations in classes that you write. For example: ```javascript import EmberObject from '@ember/object'; EmberObject.extend({ valueObserver: function() { // Executes whenever the "value" property changes }.observes('value') }); ``` In the future this method may become asynchronous. See `observer`. @method observes @for Function @public */ FunctionPrototype.observes = function () { return _emberMetal.observer.apply(undefined, Array.prototype.slice.call(arguments).concat([this])); }; FunctionPrototype._observesImmediately = function () { false && !function () { var i; for (i = 0; i < arguments.length; i++) { if (arguments[i].indexOf('.') !== -1) { return false; } } return true; } && (0, _emberDebug.assert)('Immediate observers must observe internal properties only, ' + 'not properties on other objects.', function () { var i; for (i = 0; i < arguments.length; i++) { if (arguments[i].indexOf('.') !== -1) { return false; } }return true; }); // observes handles property expansion return this.observes.apply(this, arguments); }; /** The `on` extension of Javascript's Function prototype is available when `EmberENV.EXTEND_PROTOTYPES` or `EmberENV.EXTEND_PROTOTYPES.Function` is true, which is the default. You can listen for events simply by adding the `on` call to the end of your method declarations in classes or mixins that you write. For example: ```javascript import Mixin from '@ember/mixin'; Mixin.create({ doSomethingWithElement: function() { // Executes whenever the "didInsertElement" event fires }.on('didInsertElement') }); ``` See `Ember.on`. @method on @for Function @public */ FunctionPrototype.on = function () { return _emberMetal.on.apply(undefined, Array.prototype.slice.call(arguments).concat([this])); }; } }); enifed('ember-runtime/ext/rsvp', ['exports', 'rsvp', 'ember-metal', 'ember-debug'], function (exports, _rsvp, _emberMetal, _emberDebug) { 'use strict'; exports.onerrorDefault = onerrorDefault; var backburner = _emberMetal.run.backburner; _emberMetal.run._addQueue('rsvpAfter', 'destroy'); _rsvp.configure('async', function (callback, promise) { backburner.schedule('actions', null, callback, promise); }); _rsvp.configure('after', function (cb) { backburner.schedule('rsvpAfter', null, cb); }); _rsvp.on('error', onerrorDefault); function onerrorDefault(reason) { var error = errorFor(reason), overrideDispatch; if (error) { overrideDispatch = (0, _emberMetal.getDispatchOverride)(); if (overrideDispatch) { overrideDispatch(error); } else { throw error; } } } function errorFor(reason) { if (!reason) return; if (reason.errorThrown) { return unwrapErrorThrown(reason); } if (reason.name === 'UnrecognizedURLError') { false && !false && (0, _emberDebug.assert)('The URL \'' + reason.message + '\' did not match any routes in your application', false); return; } if (reason.name === 'TransitionAborted') { return; } return reason; } function unwrapErrorThrown(reason) { var error = reason.errorThrown; if (typeof error === 'string') { error = new Error(error); } Object.defineProperty(error, '__reason_with_error_thrown__', { value: reason, enumerable: false }); return error; } exports.default = _rsvp; }); enifed('ember-runtime/ext/string', ['ember-environment', 'ember-runtime/system/string'], function (_emberEnvironment, _string) { 'use strict'; /** @module @ember/string */ var StringPrototype = String.prototype; if (_emberEnvironment.ENV.EXTEND_PROTOTYPES.String) { /** See [Ember.String.w](/api/classes/Ember.String.html#method_w). @method w @for @ember/string @static @private */ StringPrototype.w = function () { return (0, _string.w)(this); }; /** See [Ember.String.loc](/api/classes/Ember.String.html#method_loc). @method loc @for @ember/string @static @private */ StringPrototype.loc = function () { var _len, args, _key; for (_len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } return (0, _string.loc)(this, args); }; /** See [Ember.String.camelize](/api/classes/Ember.String.html#method_camelize). @method camelize @for @ember/string @static @private */ StringPrototype.camelize = function () { return (0, _string.camelize)(this); }; /** See [Ember.String.decamelize](/api/classes/Ember.String.html#method_decamelize). @method decamelize @for @ember/string @static @private */ StringPrototype.decamelize = function () { return (0, _string.decamelize)(this); }; /** See [Ember.String.dasherize](/api/classes/Ember.String.html#method_dasherize). @method dasherize @for @ember/string @static @private */ StringPrototype.dasherize = function () { return (0, _string.dasherize)(this); }; /** See [Ember.String.underscore](/api/classes/Ember.String.html#method_underscore). @method underscore @for @ember/string @static @private */ StringPrototype.underscore = function () { return (0, _string.underscore)(this); }; /** See [Ember.String.classify](/api/classes/Ember.String.html#method_classify). @method classify @for @ember/string @static @private */ StringPrototype.classify = function () { return (0, _string.classify)(this); }; /** See [Ember.String.capitalize](/api/classes/Ember.String.html#method_capitalize). @method capitalize @for @ember/string @static @private */ StringPrototype.capitalize = function () { return (0, _string.capitalize)(this); }; } }); enifed('ember-runtime/index', ['exports', 'ember-runtime/system/object', 'ember-runtime/system/string', 'ember-runtime/mixins/registry_proxy', 'ember-runtime/mixins/container_proxy', 'ember-runtime/copy', 'ember-runtime/inject', 'ember-runtime/compare', 'ember-runtime/is-equal', 'ember-runtime/mixins/array', 'ember-runtime/mixins/comparable', 'ember-runtime/system/namespace', 'ember-runtime/system/array_proxy', 'ember-runtime/system/object_proxy', 'ember-runtime/system/core_object', 'ember-runtime/system/native_array', 'ember-runtime/mixins/action_handler', 'ember-runtime/mixins/copyable', 'ember-runtime/mixins/enumerable', 'ember-runtime/mixins/-proxy', 'ember-runtime/system/lazy_load', 'ember-runtime/mixins/observable', 'ember-runtime/mixins/mutable_enumerable', 'ember-runtime/mixins/mutable_array', 'ember-runtime/mixins/target_action_support', 'ember-runtime/mixins/evented', 'ember-runtime/mixins/promise_proxy', 'ember-runtime/computed/computed_macros', 'ember-runtime/computed/reduce_computed_macros', 'ember-runtime/controllers/controller', 'ember-runtime/mixins/controller', 'ember-runtime/system/service', 'ember-runtime/ext/rsvp', 'ember-runtime/utils', 'ember-runtime/string_registry', 'ember-runtime/ext/string', 'ember-runtime/ext/function'], function (exports, _object, _string, _registry_proxy, _container_proxy, _copy, _inject, _compare, _isEqual, _array, _comparable, _namespace, _array_proxy, _object_proxy, _core_object, _native_array, _action_handler, _copyable, _enumerable, _proxy, _lazy_load, _observable, _mutable_enumerable, _mutable_array, _target_action_support, _evented, _promise_proxy, _computed_macros, _reduce_computed_macros, _controller, _controller2, _service, _rsvp, _utils, _string_registry) { 'use strict'; exports.setStrings = exports.getStrings = exports.typeOf = exports.isArray = exports.onerrorDefault = exports.RSVP = exports.Service = exports.ControllerMixin = exports.Controller = exports.collect = exports.intersect = exports.union = exports.uniqBy = exports.uniq = exports.filterBy = exports.filter = exports.mapBy = exports.setDiff = exports.sort = exports.map = exports.max = exports.min = exports.sum = exports.or = exports.and = exports.deprecatingAlias = exports.readOnly = exports.oneWay = exports.lte = exports.lt = exports.gte = exports.gt = exports.equal = exports.match = exports.bool = exports.not = exports.none = exports.notEmpty = exports.empty = exports.PromiseProxyMixin = exports.Evented = exports.TargetActionSupport = exports.removeAt = exports.MutableArray = exports.MutableEnumerable = exports.Observable = exports._loaded = exports.runLoadHooks = exports.onLoad = exports._ProxyMixin = exports.Enumerable = exports.Copyable = exports.ActionHandler = exports.A = exports.NativeArray = exports.CoreObject = exports.ObjectProxy = exports.ArrayProxy = exports.setNamespaceSearchDisabled = exports.isNamespaceSearchDisabled = exports.Namespace = exports.Comparable = exports.removeArrayObserver = exports.addArrayObserver = exports.isEmberArray = exports.objectAt = exports.Array = exports.isEqual = exports.compare = exports.inject = exports.copy = exports.ContainerProxyMixin = exports.RegistryProxyMixin = exports.String = exports.FrameworkObject = exports.Object = undefined; Object.defineProperty(exports, 'Object', { enumerable: true, get: function () { return _object.default; } }); Object.defineProperty(exports, 'FrameworkObject', { enumerable: true, get: function () { return _object.FrameworkObject; } }); Object.defineProperty(exports, 'String', { enumerable: true, get: function () { return _string.default; } }); Object.defineProperty(exports, 'RegistryProxyMixin', { enumerable: true, get: function () { return _registry_proxy.default; } }); Object.defineProperty(exports, 'ContainerProxyMixin', { enumerable: true, get: function () { return _container_proxy.default; } }); Object.defineProperty(exports, 'copy', { enumerable: true, get: function () { return _copy.default; } }); Object.defineProperty(exports, 'inject', { enumerable: true, get: function () { return _inject.default; } }); Object.defineProperty(exports, 'compare', { enumerable: true, get: function () { return _compare.default; } }); Object.defineProperty(exports, 'isEqual', { enumerable: true, get: function () { return _isEqual.default; } }); Object.defineProperty(exports, 'Array', { enumerable: true, get: function () { return _array.default; } }); Object.defineProperty(exports, 'objectAt', { enumerable: true, get: function () { return _array.objectAt; } }); Object.defineProperty(exports, 'isEmberArray', { enumerable: true, get: function () { return _array.isEmberArray; } }); Object.defineProperty(exports, 'addArrayObserver', { enumerable: true, get: function () { return _array.addArrayObserver; } }); Object.defineProperty(exports, 'removeArrayObserver', { enumerable: true, get: function () { return _array.removeArrayObserver; } }); Object.defineProperty(exports, 'Comparable', { enumerable: true, get: function () { return _comparable.default; } }); Object.defineProperty(exports, 'Namespace', { enumerable: true, get: function () { return _namespace.default; } }); Object.defineProperty(exports, 'isNamespaceSearchDisabled', { enumerable: true, get: function () { return _namespace.isSearchDisabled; } }); Object.defineProperty(exports, 'setNamespaceSearchDisabled', { enumerable: true, get: function () { return _namespace.setSearchDisabled; } }); Object.defineProperty(exports, 'ArrayProxy', { enumerable: true, get: function () { return _array_proxy.default; } }); Object.defineProperty(exports, 'ObjectProxy', { enumerable: true, get: function () { return _object_proxy.default; } }); Object.defineProperty(exports, 'CoreObject', { enumerable: true, get: function () { return _core_object.default; } }); Object.defineProperty(exports, 'NativeArray', { enumerable: true, get: function () { return _native_array.default; } }); Object.defineProperty(exports, 'A', { enumerable: true, get: function () { return _native_array.A; } }); Object.defineProperty(exports, 'ActionHandler', { enumerable: true, get: function () { return _action_handler.default; } }); Object.defineProperty(exports, 'Copyable', { enumerable: true, get: function () { return _copyable.default; } }); Object.defineProperty(exports, 'Enumerable', { enumerable: true, get: function () { return _enumerable.default; } }); Object.defineProperty(exports, '_ProxyMixin', { enumerable: true, get: function () { return _proxy.default; } }); Object.defineProperty(exports, 'onLoad', { enumerable: true, get: function () { return _lazy_load.onLoad; } }); Object.defineProperty(exports, 'runLoadHooks', { enumerable: true, get: function () { return _lazy_load.runLoadHooks; } }); Object.defineProperty(exports, '_loaded', { enumerable: true, get: function () { return _lazy_load._loaded; } }); Object.defineProperty(exports, 'Observable', { enumerable: true, get: function () { return _observable.default; } }); Object.defineProperty(exports, 'MutableEnumerable', { enumerable: true, get: function () { return _mutable_enumerable.default; } }); Object.defineProperty(exports, 'MutableArray', { enumerable: true, get: function () { return _mutable_array.default; } }); Object.defineProperty(exports, 'removeAt', { enumerable: true, get: function () { return _mutable_array.removeAt; } }); Object.defineProperty(exports, 'TargetActionSupport', { enumerable: true, get: function () { return _target_action_support.default; } }); Object.defineProperty(exports, 'Evented', { enumerable: true, get: function () { return _evented.default; } }); Object.defineProperty(exports, 'PromiseProxyMixin', { enumerable: true, get: function () { return _promise_proxy.default; } }); Object.defineProperty(exports, 'empty', { enumerable: true, get: function () { return _computed_macros.empty; } }); Object.defineProperty(exports, 'notEmpty', { enumerable: true, get: function () { return _computed_macros.notEmpty; } }); Object.defineProperty(exports, 'none', { enumerable: true, get: function () { return _computed_macros.none; } }); Object.defineProperty(exports, 'not', { enumerable: true, get: function () { return _computed_macros.not; } }); Object.defineProperty(exports, 'bool', { enumerable: true, get: function () { return _computed_macros.bool; } }); Object.defineProperty(exports, 'match', { enumerable: true, get: function () { return _computed_macros.match; } }); Object.defineProperty(exports, 'equal', { enumerable: true, get: function () { return _computed_macros.equal; } }); Object.defineProperty(exports, 'gt', { enumerable: true, get: function () { return _computed_macros.gt; } }); Object.defineProperty(exports, 'gte', { enumerable: true, get: function () { return _computed_macros.gte; } }); Object.defineProperty(exports, 'lt', { enumerable: true, get: function () { return _computed_macros.lt; } }); Object.defineProperty(exports, 'lte', { enumerable: true, get: function () { return _computed_macros.lte; } }); Object.defineProperty(exports, 'oneWay', { enumerable: true, get: function () { return _computed_macros.oneWay; } }); Object.defineProperty(exports, 'readOnly', { enumerable: true, get: function () { return _computed_macros.readOnly; } }); Object.defineProperty(exports, 'deprecatingAlias', { enumerable: true, get: function () { return _computed_macros.deprecatingAlias; } }); Object.defineProperty(exports, 'and', { enumerable: true, get: function () { return _computed_macros.and; } }); Object.defineProperty(exports, 'or', { enumerable: true, get: function () { return _computed_macros.or; } }); Object.defineProperty(exports, 'sum', { enumerable: true, get: function () { return _reduce_computed_macros.sum; } }); Object.defineProperty(exports, 'min', { enumerable: true, get: function () { return _reduce_computed_macros.min; } }); Object.defineProperty(exports, 'max', { enumerable: true, get: function () { return _reduce_computed_macros.max; } }); Object.defineProperty(exports, 'map', { enumerable: true, get: function () { return _reduce_computed_macros.map; } }); Object.defineProperty(exports, 'sort', { enumerable: true, get: function () { return _reduce_computed_macros.sort; } }); Object.defineProperty(exports, 'setDiff', { enumerable: true, get: function () { return _reduce_computed_macros.setDiff; } }); Object.defineProperty(exports, 'mapBy', { enumerable: true, get: function () { return _reduce_computed_macros.mapBy; } }); Object.defineProperty(exports, 'filter', { enumerable: true, get: function () { return _reduce_computed_macros.filter; } }); Object.defineProperty(exports, 'filterBy', { enumerable: true, get: function () { return _reduce_computed_macros.filterBy; } }); Object.defineProperty(exports, 'uniq', { enumerable: true, get: function () { return _reduce_computed_macros.uniq; } }); Object.defineProperty(exports, 'uniqBy', { enumerable: true, get: function () { return _reduce_computed_macros.uniqBy; } }); Object.defineProperty(exports, 'union', { enumerable: true, get: function () { return _reduce_computed_macros.union; } }); Object.defineProperty(exports, 'intersect', { enumerable: true, get: function () { return _reduce_computed_macros.intersect; } }); Object.defineProperty(exports, 'collect', { enumerable: true, get: function () { return _reduce_computed_macros.collect; } }); Object.defineProperty(exports, 'Controller', { enumerable: true, get: function () { return _controller.default; } }); Object.defineProperty(exports, 'ControllerMixin', { enumerable: true, get: function () { return _controller2.default; } }); Object.defineProperty(exports, 'Service', { enumerable: true, get: function () { return _service.default; } }); Object.defineProperty(exports, 'RSVP', { enumerable: true, get: function () { return _rsvp.default; } }); Object.defineProperty(exports, 'onerrorDefault', { enumerable: true, get: function () { return _rsvp.onerrorDefault; } }); Object.defineProperty(exports, 'isArray', { enumerable: true, get: function () { return _utils.isArray; } }); Object.defineProperty(exports, 'typeOf', { enumerable: true, get: function () { return _utils.typeOf; } }); Object.defineProperty(exports, 'getStrings', { enumerable: true, get: function () { return _string_registry.getStrings; } }); Object.defineProperty(exports, 'setStrings', { enumerable: true, get: function () { return _string_registry.setStrings; } }); }); enifed('ember-runtime/inject', ['exports', 'ember-metal', 'ember-debug'], function (exports, _emberMetal, _emberDebug) { 'use strict'; exports.default = inject; exports.createInjectionHelper = /** This method allows other Ember modules to register injection helpers for a given container type. Helpers are exported to the `inject` namespace as the container type itself. @private @method createInjectionHelper @since 1.10.0 @for Ember @param {String} type The container type the helper will inject @param {Function} validator A validation callback that is executed at mixin-time */ function (type, validator) { typeValidators[type] = validator; inject[type] = function (name) { return new _emberMetal.InjectedProperty(type, name); }; } /** Validation function that runs per-type validation functions once for each injected type encountered. @private @method validatePropertyInjections @since 1.10.0 @for Ember @param {Object} factory The factory object */ ; exports.validatePropertyInjections = function (factory) { var proto = factory.proto(), desc, i, validator; var types = []; for (var key in proto) { desc = (0, _emberMetal.descriptorFor)(proto, key); if (desc instanceof _emberMetal.InjectedProperty && types.indexOf(desc.type) === -1) { types.push(desc.type); } } if (types.length) { for (i = 0; i < types.length; i++) { validator = typeValidators[types[i]]; if (typeof validator === 'function') { validator(factory); } } } return true; }; /** Namespace for injection helper methods. @class inject @namespace Ember @static @public */ function inject() { false && !false && (0, _emberDebug.assert)('Injected properties must be created through helpers, see \'' + Object.keys(inject).map(function (k) { return '\'inject.' + k + '\''; }).join(' or ') + '\''); } // Dictionary of injection validations by type, added to by `createInjectionHelper` var typeValidators = {}; }); enifed('ember-runtime/is-equal', ['exports'], function (exports) { 'use strict'; exports.default = /** Compares two objects, returning true if they are equal. ```javascript Ember.isEqual('hello', 'hello'); // true Ember.isEqual(1, 2); // false ``` `isEqual` is a more specific comparison than a triple equal comparison. It will call the `isEqual` instance method on the objects being compared, allowing finer control over when objects should be considered equal to each other. ```javascript let Person = Ember.Object.extend({ isEqual(other) { return this.ssn == other.ssn; } }); let personA = Person.create({name: 'Muhammad Ali', ssn: '123-45-6789'}); let personB = Person.create({name: 'Cassius Clay', ssn: '123-45-6789'}); Ember.isEqual(personA, personB); // true ``` Due to the expense of array comparisons, collections will never be equal to each other even if each of their items are equal to each other. ```javascript Ember.isEqual([4, 2], [4, 2]); // false ``` @method isEqual @for Ember @param {Object} a first object to compare @param {Object} b second object to compare @return {Boolean} @public */ function (a, b) { if (a && typeof a.isEqual === 'function') { return a.isEqual(b); } if (a instanceof Date && b instanceof Date) { return a.getTime() === b.getTime(); } return a === b; }; }); enifed('ember-runtime/mixins/-proxy', ['exports', 'ember-babel', '@glimmer/reference', 'ember-metal', 'ember-debug', 'ember-runtime/computed/computed_macros'], function (exports, _emberBabel, _reference, _emberMetal, _emberDebug, _computed_macros) { 'use strict'; /** @module ember */ function contentPropertyWillChange(content, contentKey) { var key = contentKey.slice(8); // remove "content." if (key in this) { return; } // if shadowed in proxy (0, _emberMetal.propertyWillChange)(this, key); } function contentPropertyDidChange(content, contentKey) { var key = contentKey.slice(8); // remove "content." if (key in this) { return; } // if shadowed in proxy (0, _emberMetal.propertyDidChange)(this, key); } var ProxyTag = function (_CachedTag) { (0, _emberBabel.inherits)(ProxyTag, _CachedTag); function ProxyTag(proxy) { var _this = (0, _emberBabel.possibleConstructorReturn)(this, _CachedTag.call(this)); var content = (0, _emberMetal.get)(proxy, 'content'); _this.proxy = proxy; _this.proxyWrapperTag = new _reference.DirtyableTag(); _this.proxyContentTag = new _reference.UpdatableTag((0, _emberMetal.tagFor)(content)); return _this; } ProxyTag.prototype.compute = function () { return Math.max(this.proxyWrapperTag.value(), this.proxyContentTag.value()); }; ProxyTag.prototype.dirty = function () { this.proxyWrapperTag.dirty(); }; ProxyTag.prototype.contentDidChange = function () { var content = (0, _emberMetal.get)(this.proxy, 'content'); this.proxyContentTag.update((0, _emberMetal.tagFor)(content)); }; return ProxyTag; }(_reference.CachedTag); exports.default = _emberMetal.Mixin.create({ /** The object whose properties will be forwarded. @property content @type Ember.Object @default null @private */ content: null, init: function () { this._super.apply(this, arguments); var m = (0, _emberMetal.meta)(this); m.setProxy(); m.writableTag(function (source) { return new ProxyTag(source); }); }, isTruthy: (0, _computed_macros.bool)('content'), willWatchProperty: function (key) { var contentKey = 'content.' + key; (0, _emberMetal._addBeforeObserver)(this, contentKey, null, contentPropertyWillChange); (0, _emberMetal.addObserver)(this, contentKey, null, contentPropertyDidChange); }, didUnwatchProperty: function (key) { var contentKey = 'content.' + key; (0, _emberMetal._removeBeforeObserver)(this, contentKey, null, contentPropertyWillChange); (0, _emberMetal.removeObserver)(this, contentKey, null, contentPropertyDidChange); }, unknownProperty: function (key) { var content = (0, _emberMetal.get)(this, 'content'); if (content) { return (0, _emberMetal.get)(content, key); } }, setUnknownProperty: function (key, value) { var m = (0, _emberMetal.meta)(this); if (m.proto === this) { // if marked as prototype then just defineProperty // rather than delegate (0, _emberMetal.defineProperty)(this, key, null, value); return value; } var content = (0, _emberMetal.get)(this, 'content'); false && !content && (0, _emberDebug.assert)('Cannot delegate set(\'' + key + '\', ' + value + ') to the \'content\' property of object proxy ' + this + ': its \'content\' is undefined.', content); return (0, _emberMetal.set)(content, key, value); } }); }); enifed('ember-runtime/mixins/action_handler', ['exports', 'ember-metal', 'ember-debug'], function (exports, _emberMetal, _emberDebug) { 'use strict'; /** `Ember.ActionHandler` is available on some familiar classes including `Ember.Route`, `Ember.Component`, and `Ember.Controller`. (Internally the mixin is used by `Ember.CoreView`, `Ember.ControllerMixin`, and `Ember.Route` and available to the above classes through inheritance.) @class ActionHandler @namespace Ember @private */ /** @module ember */ var ActionHandler = _emberMetal.Mixin.create({ mergedProperties: ['actions'], send: function (actionName) { for (_len = arguments.length, args = Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { args[_key - 1] = arguments[_key]; } if (this.actions && this.actions[actionName]) { shouldBubble = this.actions[actionName].apply(this, args) === true; if (!shouldBubble) { return; } } var target = (0, _emberMetal.get)(this, 'target'), _len, args, _key, shouldBubble; if (target) { false && !(typeof target.send === 'function') && (0, _emberDebug.assert)('The `target` for ' + this + ' (' + target + ') does not have a `send` method', typeof target.send === 'function'); target.send.apply(target, arguments); } } }); exports.default = ActionHandler; }); enifed('ember-runtime/mixins/array', ['exports', 'ember-utils', 'ember-metal', 'ember-debug', 'ember-runtime/mixins/enumerable'], function (exports, _emberUtils, _emberMetal, _emberDebug, _enumerable) { 'use strict'; exports.addArrayObserver = addArrayObserver; exports.removeArrayObserver = removeArrayObserver; exports.objectAt = objectAt; exports.arrayContentWillChange = arrayContentWillChange; exports.arrayContentDidChange = arrayContentDidChange; exports.isEmberArray = function (obj) { return obj && obj[EMBER_ARRAY]; } // .......................................................... // ARRAY // /** This mixin implements Observer-friendly Array-like behavior. It is not a concrete implementation, but it can be used up by other classes that want to appear like arrays. For example, ArrayProxy is a concrete classes that can be instantiated to implement array-like behavior. Both of these classes use the Array Mixin by way of the MutableArray mixin, which allows observable changes to be made to the underlying array. Unlike `Ember.Enumerable,` this mixin defines methods specifically for collections that provide index-ordered access to their contents. When you are designing code that needs to accept any kind of Array-like object, you should use these methods instead of Array primitives because these will properly notify observers of changes to the array. Although these methods are efficient, they do add a layer of indirection to your application so it is a good idea to use them only when you need the flexibility of using both true JavaScript arrays and "virtual" arrays such as controllers and collections. You can use the methods defined in this module to access and modify array contents in a KVO-friendly way. You can also be notified whenever the membership of an array changes by using `.observes('myArray.[]')`. To support `EmberArray` in your own class, you must override two primitives to use it: `length()` and `objectAt()`. Note that the EmberArray mixin also incorporates the `Ember.Enumerable` mixin. All `EmberArray`-like objects are also enumerable. @class EmberArray @uses Enumerable @since Ember 0.9.0 @public */ ; var _Mixin$create; function arrayObserversHelper(obj, target, opts, operation, notify) { var willChange = opts && opts.willChange || 'arrayWillChange'; var didChange = opts && opts.didChange || 'arrayDidChange'; var hasObservers = (0, _emberMetal.get)(obj, 'hasArrayObservers'); if (hasObservers === notify) { (0, _emberMetal.propertyWillChange)(obj, 'hasArrayObservers'); } operation(obj, '@array:before', target, willChange); operation(obj, '@array:change', target, didChange); if (hasObservers === notify) { (0, _emberMetal.propertyDidChange)(obj, 'hasArrayObservers'); } return obj; } function addArrayObserver(array, target, opts) { return arrayObserversHelper(array, target, opts, _emberMetal.addListener, false); } function removeArrayObserver(array, target, opts) { return arrayObserversHelper(array, target, opts, _emberMetal.removeListener, true); } function objectAt(content, idx) { return typeof content.objectAt === 'function' ? content.objectAt(idx) : content[idx]; } function arrayContentWillChange(array, startIdx, removeAmt, addAmt) { var removing = void 0, lim = void 0, idx; // if no args are passed assume everything changes if (startIdx === undefined) { startIdx = 0; removeAmt = addAmt = -1; } else { if (removeAmt === undefined) { removeAmt = -1; } if (addAmt === undefined) { addAmt = -1; } } if (array.__each) { array.__each.arrayWillChange(array, startIdx, removeAmt, addAmt); } (0, _emberMetal.sendEvent)(array, '@array:before', [array, startIdx, removeAmt, addAmt]); if (startIdx >= 0 && removeAmt >= 0 && (0, _emberMetal.get)(array, 'hasEnumerableObservers')) { removing = []; lim = startIdx + removeAmt; for (idx = startIdx; idx < lim; idx++) { removing.push(objectAt(array, idx)); } } else { removing = removeAmt; } array.enumerableContentWillChange(removing, addAmt); return array; } function arrayContentDidChange(array, startIdx, removeAmt, addAmt) { // if no args are passed assume everything changes if (startIdx === undefined) { startIdx = 0; removeAmt = addAmt = -1; } else { if (removeAmt === undefined) { removeAmt = -1; } if (addAmt === undefined) { addAmt = -1; } } var adding = void 0, lim, idx, length, addedAmount, removedAmount, previousLength, normalStartIdx; if (startIdx >= 0 && addAmt >= 0 && (0, _emberMetal.get)(array, 'hasEnumerableObservers')) { adding = []; lim = startIdx + addAmt; for (idx = startIdx; idx < lim; idx++) { adding.push(objectAt(array, idx)); } } else { adding = addAmt; } array.enumerableContentDidChange(removeAmt, adding); if (array.__each) { array.__each.arrayDidChange(array, startIdx, removeAmt, addAmt); } (0, _emberMetal.sendEvent)(array, '@array:change', [array, startIdx, removeAmt, addAmt]); var meta = (0, _emberMetal.peekMeta)(array); var cache = meta !== undefined ? meta.readableCache() : undefined; if (cache !== undefined) { length = (0, _emberMetal.get)(array, 'length'); addedAmount = addAmt === -1 ? 0 : addAmt; removedAmount = removeAmt === -1 ? 0 : removeAmt; previousLength = length - (addedAmount - removedAmount); normalStartIdx = startIdx < 0 ? previousLength + startIdx : startIdx; if (cache.firstObject !== undefined && normalStartIdx === 0) { (0, _emberMetal.propertyWillChange)(array, 'firstObject', meta); (0, _emberMetal.propertyDidChange)(array, 'firstObject', meta); } if (cache.lastObject !== undefined) { if (previousLength - 1 < normalStartIdx + removedAmount) { (0, _emberMetal.propertyWillChange)(array, 'lastObject', meta); (0, _emberMetal.propertyDidChange)(array, 'lastObject', meta); } } } return array; } var EMBER_ARRAY = (0, _emberUtils.symbol)('EMBER_ARRAY'); var ArrayMixin = _emberMetal.Mixin.create(_enumerable.default, (_Mixin$create = {}, _Mixin$create[EMBER_ARRAY] = true, _Mixin$create.length = null, _Mixin$create.objectAt = function (idx) { if (idx < 0 || idx >= (0, _emberMetal.get)(this, 'length')) { return undefined; } return (0, _emberMetal.get)(this, idx); }, _Mixin$create.objectsAt = function (indexes) { var _this = this; return indexes.map(function (idx) { return objectAt(_this, idx); }); }, _Mixin$create.nextObject = function (idx) { return objectAt(this, idx); }, _Mixin$create['[]'] = (0, _emberMetal.computed)({ get: function () { // eslint-disable-line no-unused-vars return this; }, set: function (key, value) { this.replace(0, (0, _emberMetal.get)(this, 'length'), value); return this; } }), _Mixin$create.firstObject = (0, _emberMetal.computed)(function () { return objectAt(this, 0); }).readOnly(), _Mixin$create.lastObject = (0, _emberMetal.computed)(function () { return objectAt(this, (0, _emberMetal.get)(this, 'length') - 1); }).readOnly(), _Mixin$create.slice = function (beginIndex, endIndex) { var ret = _emberMetal.default.A(); var length = (0, _emberMetal.get)(this, 'length'); if ((0, _emberMetal.isNone)(beginIndex)) { beginIndex = 0; } else if (beginIndex < 0) { beginIndex = length + beginIndex; } if ((0, _emberMetal.isNone)(endIndex) || endIndex > length) { endIndex = length; } else if (endIndex < 0) { endIndex = length + endIndex; } while (beginIndex < endIndex) { ret[ret.length] = objectAt(this, beginIndex++); } return ret; }, _Mixin$create.indexOf = function (object, startAt) { var len = (0, _emberMetal.get)(this, 'length'), idx; if (startAt === undefined) { startAt = 0; } if (startAt < 0) { startAt += len; } for (idx = startAt; idx < len; idx++) { if (objectAt(this, idx) === object) { return idx; } } return -1; }, _Mixin$create.lastIndexOf = function (object, startAt) { var len = (0, _emberMetal.get)(this, 'length'), idx; if (startAt === undefined || startAt >= len) { startAt = len - 1; } if (startAt < 0) { startAt += len; } for (idx = startAt; idx >= 0; idx--) { if (objectAt(this, idx) === object) { return idx; } } return -1; }, _Mixin$create.addArrayObserver = function (target, opts) { return addArrayObserver(this, target, opts); }, _Mixin$create.removeArrayObserver = function (target, opts) { return removeArrayObserver(this, target, opts); }, _Mixin$create.hasArrayObservers = (0, _emberMetal.computed)(function () { return (0, _emberMetal.hasListeners)(this, '@array:change') || (0, _emberMetal.hasListeners)(this, '@array:before'); }), _Mixin$create.arrayContentWillChange = function (startIdx, removeAmt, addAmt) { return arrayContentWillChange(this, startIdx, removeAmt, addAmt); }, _Mixin$create.arrayContentDidChange = function (startIdx, removeAmt, addAmt) { return arrayContentDidChange(this, startIdx, removeAmt, addAmt); }, _Mixin$create.includes = function (obj, startAt) { var len = (0, _emberMetal.get)(this, 'length'), idx, currentObj; if (startAt === undefined) { startAt = 0; } if (startAt < 0) { startAt += len; } for (idx = startAt; idx < len; idx++) { currentObj = objectAt(this, idx); // SameValueZero comparison (NaN !== NaN) if (obj === currentObj || obj !== obj && currentObj !== currentObj) { return true; } } return false; }, _Mixin$create['@each'] = (0, _emberMetal.computed)(function () { // TODO use Symbol or add to meta if (!this.__each) { this.__each = new EachProxy(this); } return this.__each; }).volatile().readOnly(), _Mixin$create)); /** This is the object instance returned when you get the `@each` property on an array. It uses the unknownProperty handler to automatically create EachArray instances for property names. @class EachProxy @private */ function EachProxy(content) { this._content = content; this._keys = undefined; (0, _emberMetal.meta)(this); } EachProxy.prototype = { __defineNonEnumerable: function (property) { this[property.name] = property.descriptor.value; }, arrayWillChange: function (content, idx, removedCnt) { // eslint-disable-line no-unused-vars var keys = this._keys; var lim = removedCnt > 0 ? idx + removedCnt : -1; var meta = (0, _emberMetal.peekMeta)(this); for (var key in keys) { if (lim > 0) { removeObserverForContentKey(content, key, this, idx, lim); } (0, _emberMetal.propertyWillChange)(this, key, meta); } }, arrayDidChange: function (content, idx, removedCnt, addedCnt) { var keys = this._keys; var lim = addedCnt > 0 ? idx + addedCnt : -1; var meta = (0, _emberMetal.peekMeta)(this); for (var key in keys) { if (lim > 0) { addObserverForContentKey(content, key, this, idx, lim); } (0, _emberMetal.propertyDidChange)(this, key, meta); } }, willWatchProperty: function (property) { this.beginObservingContentKey(property); }, didUnwatchProperty: function (property) { this.stopObservingContentKey(property); }, beginObservingContentKey: function (keyName) { var keys = this._keys, content, len; if (!keys) { keys = this._keys = Object.create(null); } if (!keys[keyName]) { keys[keyName] = 1; content = this._content; len = (0, _emberMetal.get)(content, 'length'); addObserverForContentKey(content, keyName, this, 0, len); } else { keys[keyName]++; } }, stopObservingContentKey: function (keyName) { var keys = this._keys, content, len; if (keys && keys[keyName] > 0 && --keys[keyName] <= 0) { content = this._content; len = (0, _emberMetal.get)(content, 'length'); removeObserverForContentKey(content, keyName, this, 0, len); } }, contentKeyWillChange: function (obj, keyName) { (0, _emberMetal.propertyWillChange)(this, keyName); }, contentKeyDidChange: function (obj, keyName) { (0, _emberMetal.propertyDidChange)(this, keyName); } }; function addObserverForContentKey(content, keyName, proxy, idx, loc) { var item; while (--loc >= idx) { item = objectAt(content, loc); if (item) { false && !(typeof item === 'object') && (0, _emberDebug.assert)('When using @each to observe the array `' + (0, _emberUtils.toString)(content) + '`, the array must return an object', typeof item === 'object'); (0, _emberMetal._addBeforeObserver)(item, keyName, proxy, 'contentKeyWillChange'); (0, _emberMetal.addObserver)(item, keyName, proxy, 'contentKeyDidChange'); } } } function removeObserverForContentKey(content, keyName, proxy, idx, loc) { var item; while (--loc >= idx) { item = objectAt(content, loc); if (item) { (0, _emberMetal._removeBeforeObserver)(item, keyName, proxy, 'contentKeyWillChange'); (0, _emberMetal.removeObserver)(item, keyName, proxy, 'contentKeyDidChange'); } } } exports.default = ArrayMixin; }); enifed('ember-runtime/mixins/comparable', ['exports', 'ember-metal'], function (exports, _emberMetal) { 'use strict'; exports.default = _emberMetal.Mixin.create({ /** __Required.__ You must implement this method to apply this mixin. Override to return the result of the comparison of the two parameters. The compare method should return: - `-1` if `a < b` - `0` if `a == b` - `1` if `a > b` Default implementation raises an exception. @method compare @param a {Object} the first object to compare @param b {Object} the second object to compare @return {Number} the result of the comparison @private */ compare: null }); }); enifed('ember-runtime/mixins/container_proxy', ['exports', 'ember-metal'], function (exports, _emberMetal) { 'use strict'; /** ContainerProxyMixin is used to provide public access to specific container functionality. @class ContainerProxyMixin @private */ /** @module ember */ exports.default = _emberMetal.Mixin.create({ /** The container stores state. @private @property {Ember.Container} __container__ */ __container__: null, ownerInjection: function () { return this.__container__.ownerInjection(); }, lookup: function (fullName, options) { return this.__container__.lookup(fullName, options); }, _resolveLocalLookupName: function (name, source) { return this.__container__.registry.expandLocalLookup('component:' + name, { source: source }); }, willDestroy: function () { this._super.apply(this, arguments); if (this.__container__) { (0, _emberMetal.run)(this.__container__, 'destroy'); } }, factoryFor: function (fullName) { var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}; return this.__container__.factoryFor(fullName, options); } }); }); enifed('ember-runtime/mixins/controller', ['exports', 'ember-metal', 'ember-runtime/computed/computed_macros', 'ember-runtime/mixins/action_handler'], function (exports, _emberMetal, _computed_macros, _action_handler) { 'use strict'; exports.default = _emberMetal.Mixin.create(_action_handler.default, { /* ducktype as a controller */ isController: true, /** The object to which actions from the view should be sent. For example, when a Handlebars template uses the `{{action}}` helper, it will attempt to send the action to the view's controller's `target`. By default, the value of the target property is set to the router, and is injected when a controller is instantiated. This injection is applied as part of the application's initialization process. In most cases the `target` property will automatically be set to the logical consumer of actions for the controller. @property target @default null @public */ target: null, store: null, /** The controller's current model. When retrieving or modifying a controller's model, this property should be used instead of the `content` property. @property model @public */ model: null, /** @private */ content: (0, _computed_macros.deprecatingAlias)('model', { id: 'ember-runtime.controller.content-alias', until: '2.17.0', url: 'https://emberjs.com/deprecations/v2.x/#toc_controller-content-alias' }) }); }); enifed('ember-runtime/mixins/copyable', ['exports', 'ember-metal'], function (exports, _emberMetal) { 'use strict'; exports.default = _emberMetal.Mixin.create({ /** __Required.__ You must implement this method to apply this mixin. Override to return a copy of the receiver. Default implementation raises an exception. @method copy @param {Boolean} deep if `true`, a deep copy of the object should be made @return {Object} copy of receiver @private */ copy: null }); }); enifed('ember-runtime/mixins/enumerable', ['exports', 'ember-metal', 'ember-debug', 'ember-runtime/compare', 'require'], function (exports, _emberMetal, _emberDebug, _compare, _require2) { 'use strict'; /** @module @ember/enumerable @private */ // .......................................................... // HELPERS // var _emberA = void 0; function emberA() { if (_emberA === undefined) { _emberA = (0, _require2.default)('ember-runtime/system/native_array').A; } return _emberA(); } var contexts = []; function popCtx() { return contexts.length === 0 ? {} : contexts.pop(); } function pushCtx(ctx) { contexts.push(ctx); return null; } function iter(key, value) { var valueProvided = arguments.length === 2; return valueProvided ? function (item) { return value === (0, _emberMetal.get)(item, key); } : function (item) { return !!(0, _emberMetal.get)(item, key); }; } /** This mixin defines the common interface implemented by enumerable objects in Ember. Most of these methods follow the standard Array iteration API defined up to JavaScript 1.8 (excluding language-specific features that cannot be emulated in older versions of JavaScript). This mixin is applied automatically to the Array class on page load, so you can use any of these methods on simple arrays. If Array already implements one of these methods, the mixin will not override them. ## Writing Your Own Enumerable To make your own custom class enumerable, you need two items: 1. You must have a length property. This property should change whenever the number of items in your enumerable object changes. If you use this with an `Ember.Object` subclass, you should be sure to change the length property using `set().` 2. You must implement `nextObject().` See documentation. Once you have these two methods implemented, apply the `Ember.Enumerable` mixin to your class and you will be able to enumerate the contents of your object like any other collection. ## Using Ember Enumeration with Other Libraries Many other libraries provide some kind of iterator or enumeration like facility. This is often where the most common API conflicts occur. Ember's API is designed to be as friendly as possible with other libraries by implementing only methods that mostly correspond to the JavaScript 1.8 API. @class Enumerable @since Ember 0.9 @private */ var Enumerable = _emberMetal.Mixin.create({ /** __Required.__ You must implement this method to apply this mixin. Implement this method to make your class enumerable. This method will be called repeatedly during enumeration. The index value will always begin with 0 and increment monotonically. You don't have to rely on the index value to determine what object to return, but you should always check the value and start from the beginning when you see the requested index is 0. The `previousObject` is the object that was returned from the last call to `nextObject` for the current iteration. This is a useful way to manage iteration if you are tracing a linked list, for example. Finally the context parameter will always contain a hash you can use as a "scratchpad" to maintain any other state you need in order to iterate properly. The context object is reused and is not reset between iterations so make sure you setup the context with a fresh state whenever the index parameter is 0. Generally iterators will continue to call `nextObject` until the index reaches the current length-1. If you run out of data before this time for some reason, you should simply return undefined. The default implementation of this method simply looks up the index. This works great on any Array-like objects. @method nextObject @param {Number} index the current index of the iteration @param {Object} previousObject the value returned by the last call to `nextObject`. @param {Object} context a context object you can use to maintain state. @return {Object} the next object in the iteration or undefined @private */ nextObject: null, /** Helper method returns the first object from a collection. This is usually used by bindings and other parts of the framework to extract a single object if the enumerable contains only one item. If you override this method, you should implement it so that it will always return the same value each time it is called. If your enumerable contains only one object, this method should always return that object. If your enumerable is empty, this method should return `undefined`. ```javascript let arr = ['a', 'b', 'c']; arr.get('firstObject'); // 'a' let arr = []; arr.get('firstObject'); // undefined ``` @property firstObject @return {Object} the object or undefined @readOnly @public */ firstObject: (0, _emberMetal.computed)('[]', function () { if ((0, _emberMetal.get)(this, 'length') === 0) { return undefined; } // handle generic enumerables var context = popCtx(); var ret = this.nextObject(0, null, context); pushCtx(context); return ret; }).readOnly(), /** Helper method returns the last object from a collection. If your enumerable contains only one object, this method should always return that object. If your enumerable is empty, this method should return `undefined`. ```javascript let arr = ['a', 'b', 'c']; arr.get('lastObject'); // 'c' let arr = []; arr.get('lastObject'); // undefined ``` @property lastObject @return {Object} the last object or undefined @readOnly @public */ lastObject: (0, _emberMetal.computed)('[]', function () { var len = (0, _emberMetal.get)(this, 'length'); if (len === 0) { return undefined; } var context = popCtx(); var idx = 0; var last = null; var cur = void 0; do { last = cur; cur = this.nextObject(idx++, last, context); } while (cur !== undefined); pushCtx(context); return last; }).readOnly(), forEach: function (callback, target) { false && !(typeof callback === 'function') && (0, _emberDebug.assert)('Enumerable#forEach expects a function as first argument.', typeof callback === 'function'); var context = popCtx(), idx, next; var len = (0, _emberMetal.get)(this, 'length'); var last = null; if (target === undefined) { target = null; } for (idx = 0; idx < len; idx++) { next = this.nextObject(idx, last, context); callback.call(target, next, idx, this); last = next; } last = null; context = pushCtx(context); return this; }, /** Alias for `mapBy` @method getEach @param {String} key name of the property @return {Array} The mapped array. @public */ getEach: (0, _emberMetal.aliasMethod)('mapBy'), setEach: function (key, value) { return this.forEach(function (item) { return (0, _emberMetal.set)(item, key, value); }); }, map: function (callback, target) { false && !(typeof callback === 'function') && (0, _emberDebug.assert)('Enumerable#map expects a function as first argument.', typeof callback === 'function'); var ret = emberA(); this.forEach(function (x, idx, i) { return ret[idx] = callback.call(target, x, idx, i); }); return ret; }, mapBy: function (key) { return this.map(function (next) { return (0, _emberMetal.get)(next, key); }); }, filter: function (callback, target) { false && !(typeof callback === 'function') && (0, _emberDebug.assert)('Enumerable#filter expects a function as first argument.', typeof callback === 'function'); var ret = emberA(); this.forEach(function (x, idx, i) { if (callback.call(target, x, idx, i)) { ret.push(x); } }); return ret; }, reject: function (callback, target) { false && !(typeof callback === 'function') && (0, _emberDebug.assert)('Enumerable#reject expects a function as first argument.', typeof callback === 'function'); return this.filter(function () { return !callback.apply(target, arguments); }); }, filterBy: function () { // eslint-disable-line no-unused-vars return this.filter(iter.apply(this, arguments)); }, rejectBy: function (key, value) { var use = arguments.length === 2 ? function (item) { return (0, _emberMetal.get)(item, key) === value; } : function (item) { return !!(0, _emberMetal.get)(item, key); }; return this.reject(use); }, find: function (callback, target) { false && !(typeof callback === 'function') && (0, _emberDebug.assert)('Enumerable#find expects a function as first argument.', typeof callback === 'function'); var len = (0, _emberMetal.get)(this, 'length'), idx; if (target === undefined) { target = null; } var context = popCtx(); var found = false; var last = null; var next = void 0, ret = void 0; for (idx = 0; idx < len && !found; idx++) { next = this.nextObject(idx, last, context); found = callback.call(target, next, idx, this); if (found) { ret = next; } last = next; } next = last = null; context = pushCtx(context); return ret; }, findBy: function () { // eslint-disable-line no-unused-vars return this.find(iter.apply(this, arguments)); }, every: function (callback, target) { false && !(typeof callback === 'function') && (0, _emberDebug.assert)('Enumerable#every expects a function as first argument.', typeof callback === 'function'); return !this.find(function (x, idx, i) { return !callback.call(target, x, idx, i); }); }, isEvery: function () { // eslint-disable-line no-unused-vars return this.every(iter.apply(this, arguments)); }, any: function (callback, target) { false && !(typeof callback === 'function') && (0, _emberDebug.assert)('Enumerable#any expects a function as first argument.', typeof callback === 'function'); var len = (0, _emberMetal.get)(this, 'length'), idx; var context = popCtx(); var found = false; var last = null; var next = void 0; if (target === undefined) { target = null; } for (idx = 0; idx < len && !found; idx++) { next = this.nextObject(idx, last, context); found = callback.call(target, next, idx, this); last = next; } next = last = null; context = pushCtx(context); return found; }, isAny: function () { // eslint-disable-line no-unused-vars return this.any(iter.apply(this, arguments)); }, reduce: function (callback, initialValue, reducerProperty) { false && !(typeof callback === 'function') && (0, _emberDebug.assert)('Enumerable#reduce expects a function as first argument.', typeof callback === 'function'); var ret = initialValue; this.forEach(function (item, i) { ret = callback(ret, item, i, this, reducerProperty); }, this); return ret; }, invoke: function (methodName) { for (_len = arguments.length, args = Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { args[_key - 1] = arguments[_key]; } var ret = emberA(), _len, args, _key; this.forEach(function (x, idx) { var method = x && x[methodName]; if ('function' === typeof method) { ret[idx] = args.length ? method.apply(x, args) : x[methodName](); } }, this); return ret; }, toArray: function () { var ret = emberA(); this.forEach(function (o, idx) { return ret[idx] = o; }); return ret; }, compact: function () { return this.filter(function (value) { return value != null; }); }, without: function (value) { if (!this.includes(value)) { return this; // nothing to do } var ret = emberA(); this.forEach(function (k) { // SameValueZero comparison (NaN !== NaN) if (!(k === value || k !== k && value !== value)) { ret[ret.length] = k; } }); return ret; }, uniq: function () { var ret = emberA(); var seen = new Set(); this.forEach(function (item) { if (!seen.has(item)) { seen.add(item); ret.push(item); } }); return ret; }, /** This property will trigger anytime the enumerable's content changes. You can observe this property to be notified of changes to the enumerable's content. For plain enumerables, this property is read only. `Array` overrides this method. @property [] @type Array @return this @private */ '[]': (0, _emberMetal.computed)({ get: function () { return this; } // eslint-disable-line no-unused-vars }), addEnumerableObserver: function (target, opts) { var willChange = opts && opts.willChange || 'enumerableWillChange'; var didChange = opts && opts.didChange || 'enumerableDidChange'; var hasObservers = (0, _emberMetal.get)(this, 'hasEnumerableObservers'); if (!hasObservers) { (0, _emberMetal.propertyWillChange)(this, 'hasEnumerableObservers'); } (0, _emberMetal.addListener)(this, '@enumerable:before', target, willChange); (0, _emberMetal.addListener)(this, '@enumerable:change', target, didChange); if (!hasObservers) { (0, _emberMetal.propertyDidChange)(this, 'hasEnumerableObservers'); } return this; }, removeEnumerableObserver: function (target, opts) { var willChange = opts && opts.willChange || 'enumerableWillChange'; var didChange = opts && opts.didChange || 'enumerableDidChange'; var hasObservers = (0, _emberMetal.get)(this, 'hasEnumerableObservers'); if (hasObservers) { (0, _emberMetal.propertyWillChange)(this, 'hasEnumerableObservers'); } (0, _emberMetal.removeListener)(this, '@enumerable:before', target, willChange); (0, _emberMetal.removeListener)(this, '@enumerable:change', target, didChange); if (hasObservers) { (0, _emberMetal.propertyDidChange)(this, 'hasEnumerableObservers'); } return this; }, /** Becomes true whenever the array currently has observers watching changes on the array. @property hasEnumerableObservers @type Boolean @private */ hasEnumerableObservers: (0, _emberMetal.computed)(function () { return (0, _emberMetal.hasListeners)(this, '@enumerable:change') || (0, _emberMetal.hasListeners)(this, '@enumerable:before'); }), enumerableContentWillChange: function (removing, adding) { var removeCnt = void 0, addCnt = void 0, hasDelta = void 0; if ('number' === typeof removing) { removeCnt = removing; } else if (removing) { removeCnt = (0, _emberMetal.get)(removing, 'length'); } else { removeCnt = removing = -1; } if ('number' === typeof adding) { addCnt = adding; } else if (adding) { addCnt = (0, _emberMetal.get)(adding, 'length'); } else { addCnt = adding = -1; } hasDelta = addCnt < 0 || removeCnt < 0 || addCnt - removeCnt !== 0; if (removing === -1) { removing = null; } if (adding === -1) { adding = null; } (0, _emberMetal.propertyWillChange)(this, '[]'); if (hasDelta) { (0, _emberMetal.propertyWillChange)(this, 'length'); } (0, _emberMetal.sendEvent)(this, '@enumerable:before', [this, removing, adding]); return this; }, enumerableContentDidChange: function (removing, adding) { var removeCnt = void 0, addCnt = void 0, hasDelta = void 0; if ('number' === typeof removing) { removeCnt = removing; } else if (removing) { removeCnt = (0, _emberMetal.get)(removing, 'length'); } else { removeCnt = removing = -1; } if ('number' === typeof adding) { addCnt = adding; } else if (adding) { addCnt = (0, _emberMetal.get)(adding, 'length'); } else { addCnt = adding = -1; } hasDelta = addCnt < 0 || removeCnt < 0 || addCnt - removeCnt !== 0; if (removing === -1) { removing = null; } if (adding === -1) { adding = null; } (0, _emberMetal.sendEvent)(this, '@enumerable:change', [this, removing, adding]); if (hasDelta) { (0, _emberMetal.propertyDidChange)(this, 'length'); } (0, _emberMetal.propertyDidChange)(this, '[]'); return this; }, sortBy: function () { var sortKeys = arguments; return this.toArray().sort(function (a, b) { var i, key, propA, propB, compareValue; for (i = 0; i < sortKeys.length; i++) { key = sortKeys[i]; propA = (0, _emberMetal.get)(a, key); propB = (0, _emberMetal.get)(b, key); // return 1 or -1 else continue to the next sortKey compareValue = (0, _compare.default)(propA, propB); if (compareValue) { return compareValue; } } return 0; }); }, uniqBy: function (key) { var ret = emberA(); var seen = new Set(); this.forEach(function (item) { var val = (0, _emberMetal.get)(item, key); if (!seen.has(val)) { seen.add(val); ret.push(item); } }); return ret; }, includes: function (obj) { false && !(arguments.length === 1) && (0, _emberDebug.assert)('Enumerable#includes cannot accept a second argument "startAt" as enumerable items are unordered.', arguments.length === 1); var len = (0, _emberMetal.get)(this, 'length'); var idx = void 0, next = void 0; var last = null; var found = false; var context = popCtx(); for (idx = 0; idx < len && !found; idx++) { next = this.nextObject(idx, last, context); found = obj === next || obj !== obj && next !== next; last = next; } next = last = null; context = pushCtx(context); return found; } }); exports.default = Enumerable; }); enifed('ember-runtime/mixins/evented', ['exports', 'ember-metal'], function (exports, _emberMetal) { 'use strict'; exports.default = _emberMetal.Mixin.create({ /** Subscribes to a named event with given function. ```javascript person.on('didLoad', function() { // fired once the person has loaded }); ``` An optional target can be passed in as the 2nd argument that will be set as the "this" for the callback. This is a good way to give your function access to the object triggering the event. When the target parameter is used the callback becomes the third argument. @method on @param {String} name The name of the event @param {Object} [target] The "this" binding for the callback @param {Function} method The callback to execute @return this @public */ on: function (name, target, method) { (0, _emberMetal.addListener)(this, name, target, method); return this; }, /** Subscribes a function to a named event and then cancels the subscription after the first time the event is triggered. It is good to use ``one`` when you only care about the first time an event has taken place. This function takes an optional 2nd argument that will become the "this" value for the callback. If this argument is passed then the 3rd argument becomes the function. @method one @param {String} name The name of the event @param {Object} [target] The "this" binding for the callback @param {Function} method The callback to execute @return this @public */ one: function (name, target, method) { if (!method) { method = target; target = null; } (0, _emberMetal.addListener)(this, name, target, method, true); return this; }, /** Triggers a named event for the object. Any additional arguments will be passed as parameters to the functions that are subscribed to the event. ```javascript person.on('didEat', function(food) { console.log('person ate some ' + food); }); person.trigger('didEat', 'broccoli'); // outputs: person ate some broccoli ``` @method trigger @param {String} name The name of the event @param {Object...} args Optional arguments to pass on @public */ trigger: function (name) { var _len, args, _key; for (_len = arguments.length, args = Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { args[_key - 1] = arguments[_key]; } (0, _emberMetal.sendEvent)(this, name, args); }, /** Cancels subscription for given name, target, and method. @method off @param {String} name The name of the event @param {Object} target The target of the subscription @param {Function} method The function of the subscription @return this @public */ off: function (name, target, method) { (0, _emberMetal.removeListener)(this, name, target, method); return this; }, /** Checks to see if object has any subscriptions for named event. @method has @param {String} name The name of the event @return {Boolean} does the object have a subscription for event @public */ has: function (name) { return (0, _emberMetal.hasListeners)(this, name); } }); }); enifed('ember-runtime/mixins/mutable_array', ['exports', 'ember-metal', 'ember-runtime/mixins/array', 'ember-runtime/mixins/mutable_enumerable', 'ember-runtime/mixins/enumerable', 'ember-debug'], function (exports, _emberMetal, _array, _mutable_enumerable, _enumerable, _emberDebug) { 'use strict'; exports.removeAt = removeAt; /** @module @ember/array */ var OUT_OF_RANGE_EXCEPTION = 'Index out of range'; var EMPTY = []; // .......................................................... // HELPERS // function removeAt(array, start, len) { if ('number' === typeof start) { if (start < 0 || start >= (0, _emberMetal.get)(array, 'length')) { throw new _emberDebug.Error(OUT_OF_RANGE_EXCEPTION); } // fast case if (len === undefined) { len = 1; } array.replace(start, len, EMPTY); } return array; } /** This mixin defines the API for modifying array-like objects. These methods can be applied only to a collection that keeps its items in an ordered set. It builds upon the Array mixin and adds methods to modify the array. One concrete implementations of this class include ArrayProxy. It is important to use the methods in this class to modify arrays so that changes are observable. This allows the binding system in Ember to function correctly. Note that an Array can change even if it does not implement this mixin. For example, one might implement a SparseArray that cannot be directly modified, but if its underlying enumerable changes, it will change also. @class MutableArray @uses EmberArray @uses Ember.MutableEnumerable @public */ exports.default = _emberMetal.Mixin.create(_array.default, _mutable_enumerable.default, { /** __Required.__ You must implement this method to apply this mixin. This is one of the primitives you must implement to support `Ember.Array`. You should replace amt objects started at idx with the objects in the passed array. You should also call `this.enumerableContentDidChange()` @method replace @param {Number} idx Starting index in the array to replace. If idx >= length, then append to the end of the array. @param {Number} amt Number of elements that should be removed from the array, starting at *idx*. @param {EmberArray} objects An array of zero or more objects that should be inserted into the array at *idx* @public */ replace: null, /** Remove all elements from the array. This is useful if you want to reuse an existing array without having to recreate it. ```javascript let colors = ['red', 'green', 'blue']; colors.length; // 3 colors.clear(); // [] colors.length; // 0 ``` @method clear @return {Ember.Array} An empty Array. @public */ clear: function () { var len = (0, _emberMetal.get)(this, 'length'); if (len === 0) { return this; } this.replace(0, len, EMPTY); return this; }, /** This will use the primitive `replace()` method to insert an object at the specified index. ```javascript let colors = ['red', 'green', 'blue']; colors.insertAt(2, 'yellow'); // ['red', 'green', 'yellow', 'blue'] colors.insertAt(5, 'orange'); // Error: Index out of range ``` @method insertAt @param {Number} idx index of insert the object at. @param {Object} object object to insert @return {EmberArray} receiver @public */ insertAt: function (idx, object) { if (idx > (0, _emberMetal.get)(this, 'length')) { throw new _emberDebug.Error(OUT_OF_RANGE_EXCEPTION); } this.replace(idx, 0, [object]); return this; }, /** Remove an object at the specified index using the `replace()` primitive method. You can pass either a single index, or a start and a length. If you pass a start and length that is beyond the length this method will throw an `OUT_OF_RANGE_EXCEPTION`. ```javascript let colors = ['red', 'green', 'blue', 'yellow', 'orange']; colors.removeAt(0); // ['green', 'blue', 'yellow', 'orange'] colors.removeAt(2, 2); // ['green', 'blue'] colors.removeAt(4, 2); // Error: Index out of range ``` @method removeAt @param {Number} start index, start of range @param {Number} len length of passing range @return {EmberArray} receiver @public */ removeAt: function (start, len) { return removeAt(this, start, len); }, /** Push the object onto the end of the array. Works just like `push()` but it is KVO-compliant. ```javascript let colors = ['red', 'green']; colors.pushObject('black'); // ['red', 'green', 'black'] colors.pushObject(['yellow']); // ['red', 'green', ['yellow']] ``` @method pushObject @param {*} obj object to push @return object same object passed as a param @public */ pushObject: function (obj) { this.insertAt((0, _emberMetal.get)(this, 'length'), obj); return obj; }, /** Add the objects in the passed numerable to the end of the array. Defers notifying observers of the change until all objects are added. ```javascript let colors = ['red']; colors.pushObjects(['yellow', 'orange']); // ['red', 'yellow', 'orange'] ``` @method pushObjects @param {Enumerable} objects the objects to add @return {EmberArray} receiver @public */ pushObjects: function (objects) { if (!(_enumerable.default.detect(objects) || Array.isArray(objects))) { throw new TypeError('Must pass Ember.Enumerable to Ember.MutableArray#pushObjects'); } this.replace((0, _emberMetal.get)(this, 'length'), 0, objects); return this; }, /** Pop object from array or nil if none are left. Works just like `pop()` but it is KVO-compliant. ```javascript let colors = ['red', 'green', 'blue']; colors.popObject(); // 'blue' console.log(colors); // ['red', 'green'] ``` @method popObject @return object @public */ popObject: function () { var len = (0, _emberMetal.get)(this, 'length'); if (len === 0) { return null; } var ret = (0, _array.objectAt)(this, len - 1); this.removeAt(len - 1, 1); return ret; }, /** Shift an object from start of array or nil if none are left. Works just like `shift()` but it is KVO-compliant. ```javascript let colors = ['red', 'green', 'blue']; colors.shiftObject(); // 'red' console.log(colors); // ['green', 'blue'] ``` @method shiftObject @return object @public */ shiftObject: function () { if ((0, _emberMetal.get)(this, 'length') === 0) { return null; } var ret = (0, _array.objectAt)(this, 0); this.removeAt(0); return ret; }, /** Unshift an object to start of array. Works just like `unshift()` but it is KVO-compliant. ```javascript let colors = ['red']; colors.unshiftObject('yellow'); // ['yellow', 'red'] colors.unshiftObject(['black']); // [['black'], 'yellow', 'red'] ``` @method unshiftObject @param {*} obj object to unshift @return object same object passed as a param @public */ unshiftObject: function (obj) { this.insertAt(0, obj); return obj; }, /** Adds the named objects to the beginning of the array. Defers notifying observers until all objects have been added. ```javascript let colors = ['red']; colors.unshiftObjects(['black', 'white']); // ['black', 'white', 'red'] colors.unshiftObjects('yellow'); // Type Error: 'undefined' is not a function ``` @method unshiftObjects @param {Enumberable} objects the objects to add @return {EmberArray} receiver @public */ unshiftObjects: function (objects) { this.replace(0, 0, objects); return this; }, /** Reverse objects in the array. Works just like `reverse()` but it is KVO-compliant. @method reverseObjects @return {EmberArray} receiver @public */ reverseObjects: function () { var len = (0, _emberMetal.get)(this, 'length'); if (len === 0) { return this; } var objects = this.toArray().reverse(); this.replace(0, len, objects); return this; }, /** Replace all the receiver's content with content of the argument. If argument is an empty array receiver will be cleared. ```javascript let colors = ['red', 'green', 'blue']; colors.setObjects(['black', 'white']); // ['black', 'white'] colors.setObjects([]); // [] ``` @method setObjects @param {EmberArray} objects array whose content will be used for replacing the content of the receiver @return {EmberArray} receiver with the new content @public */ setObjects: function (objects) { if (objects.length === 0) { return this.clear(); } var len = (0, _emberMetal.get)(this, 'length'); this.replace(0, len, objects); return this; }, // .......................................................... // IMPLEMENT Ember.MutableEnumerable // /** Remove all occurrences of an object in the array. ```javascript let cities = ['Chicago', 'Berlin', 'Lima', 'Chicago']; cities.removeObject('Chicago'); // ['Berlin', 'Lima'] cities.removeObject('Lima'); // ['Berlin'] cities.removeObject('Tokyo') // ['Berlin'] ``` @method removeObject @param {*} obj object to remove @return {EmberArray} receiver @public */ removeObject: function (obj) { var loc = (0, _emberMetal.get)(this, 'length') || 0, curObject; while (--loc >= 0) { curObject = (0, _array.objectAt)(this, loc); if (curObject === obj) { this.removeAt(loc); } } return this; }, /** Push the object onto the end of the array if it is not already present in the array. ```javascript let cities = ['Chicago', 'Berlin']; cities.addObject('Lima'); // ['Chicago', 'Berlin', 'Lima'] cities.addObject('Berlin'); // ['Chicago', 'Berlin', 'Lima'] ``` @method addObject @param {*} obj object to add, if not already present @return {EmberArray} receiver @public */ addObject: function (obj) { var included = this.includes(obj); if (!included) { this.pushObject(obj); } return this; } }); }); enifed('ember-runtime/mixins/mutable_enumerable', ['exports', 'ember-runtime/mixins/enumerable', 'ember-metal'], function (exports, _enumerable, _emberMetal) { 'use strict'; exports.default = _emberMetal.Mixin.create(_enumerable.default, { /** __Required.__ You must implement this method to apply this mixin. Attempts to add the passed object to the receiver if the object is not already present in the collection. If the object is present, this method has no effect. If the passed object is of a type not supported by the receiver, then this method should raise an exception. @method addObject @param {Object} object The object to add to the enumerable. @return {Object} the passed object @public */ addObject: null, /** Adds each object in the passed enumerable to the receiver. @method addObjects @param {Ember.Enumerable} objects the objects to add. @return {Object} receiver @public */ addObjects: function (objects) { var _this = this; (0, _emberMetal.beginPropertyChanges)(this); objects.forEach(function (obj) { return _this.addObject(obj); }); (0, _emberMetal.endPropertyChanges)(this); return this; }, /** __Required.__ You must implement this method to apply this mixin. Attempts to remove the passed object from the receiver collection if the object is present in the collection. If the object is not present, this method has no effect. If the passed object is of a type not supported by the receiver, then this method should raise an exception. @method removeObject @param {Object} object The object to remove from the enumerable. @return {Object} the passed object @public */ removeObject: null, /** Removes each object in the passed enumerable from the receiver. @method removeObjects @param {Ember.Enumerable} objects the objects to remove @return {Object} receiver @public */ removeObjects: function (objects) { var i; (0, _emberMetal.beginPropertyChanges)(this); for (i = objects.length - 1; i >= 0; i--) { this.removeObject(objects[i]); } (0, _emberMetal.endPropertyChanges)(this); return this; } }); }); enifed('ember-runtime/mixins/observable', ['exports', 'ember-metal', 'ember-debug'], function (exports, _emberMetal, _emberDebug) { 'use strict'; exports.default = _emberMetal.Mixin.create({ /** Retrieves the value of a property from the object. This method is usually similar to using `object[keyName]` or `object.keyName`, however it supports both computed properties and the unknownProperty handler. Because `get` unifies the syntax for accessing all these kinds of properties, it can make many refactorings easier, such as replacing a simple property with a computed property, or vice versa. ### Computed Properties Computed properties are methods defined with the `property` modifier declared at the end, such as: ```javascript fullName: Ember.computed('firstName', 'lastName', function() { return this.get('firstName') + ' ' + this.get('lastName'); }) ``` When you call `get` on a computed property, the function will be called and the return value will be returned instead of the function itself. ### Unknown Properties Likewise, if you try to call `get` on a property whose value is `undefined`, the `unknownProperty()` method will be called on the object. If this method returns any value other than `undefined`, it will be returned instead. This allows you to implement "virtual" properties that are not defined upfront. @method get @param {String} keyName The property to retrieve @return {Object} The property value or undefined. @public */ get: function (keyName) { return (0, _emberMetal.get)(this, keyName); }, /** To get the values of multiple properties at once, call `getProperties` with a list of strings or an array: ```javascript record.getProperties('firstName', 'lastName', 'zipCode'); // { firstName: 'John', lastName: 'Doe', zipCode: '10011' } ``` is equivalent to: ```javascript record.getProperties(['firstName', 'lastName', 'zipCode']); // { firstName: 'John', lastName: 'Doe', zipCode: '10011' } ``` @method getProperties @param {String...|Array} list of keys to get @return {Object} @public */ getProperties: function () { var _len, args, _key; for (_len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } return _emberMetal.getProperties.apply(undefined, [this].concat(args)); }, /** Sets the provided key or path to the value. ```javascript record.set("key", value); ``` This method is generally very similar to calling `object["key"] = value` or `object.key = value`, except that it provides support for computed properties, the `setUnknownProperty()` method and property observers. ### Computed Properties If you try to set a value on a key that has a computed property handler defined (see the `get()` method for an example), then `set()` will call that method, passing both the value and key instead of simply changing the value itself. This is useful for those times when you need to implement a property that is composed of one or more member properties. ### Unknown Properties If you try to set a value on a key that is undefined in the target object, then the `setUnknownProperty()` handler will be called instead. This gives you an opportunity to implement complex "virtual" properties that are not predefined on the object. If `setUnknownProperty()` returns undefined, then `set()` will simply set the value on the object. ### Property Observers In addition to changing the property, `set()` will also register a property change with the object. Unless you have placed this call inside of a `beginPropertyChanges()` and `endPropertyChanges(),` any "local" observers (i.e. observer methods declared on the same object), will be called immediately. Any "remote" observers (i.e. observer methods declared on another object) will be placed in a queue and called at a later time in a coalesced manner. @method set @param {String} keyName The property to set @param {Object} value The value to set or `null`. @return {Object} The passed value @public */ set: function (keyName, value) { return (0, _emberMetal.set)(this, keyName, value); }, /** Sets a list of properties at once. These properties are set inside a single `beginPropertyChanges` and `endPropertyChanges` batch, so observers will be buffered. ```javascript record.setProperties({ firstName: 'Charles', lastName: 'Jolley' }); ``` @method setProperties @param {Object} hash the hash of keys and values to set @return {Object} The passed in hash @public */ setProperties: function (hash) { return (0, _emberMetal.setProperties)(this, hash); }, /** Begins a grouping of property changes. You can use this method to group property changes so that notifications will not be sent until the changes are finished. If you plan to make a large number of changes to an object at one time, you should call this method at the beginning of the changes to begin deferring change notifications. When you are done making changes, call `endPropertyChanges()` to deliver the deferred change notifications and end deferring. @method beginPropertyChanges @return {Observable} @private */ beginPropertyChanges: function () { (0, _emberMetal.beginPropertyChanges)(); return this; }, /** Ends a grouping of property changes. You can use this method to group property changes so that notifications will not be sent until the changes are finished. If you plan to make a large number of changes to an object at one time, you should call `beginPropertyChanges()` at the beginning of the changes to defer change notifications. When you are done making changes, call this method to deliver the deferred change notifications and end deferring. @method endPropertyChanges @return {Observable} @private */ endPropertyChanges: function () { (0, _emberMetal.endPropertyChanges)(); return this; }, /** Notify the observer system that a property is about to change. Sometimes you need to change a value directly or indirectly without actually calling `get()` or `set()` on it. In this case, you can use this method and `propertyDidChange()` instead. Calling these two methods together will notify all observers that the property has potentially changed value. Note that you must always call `propertyWillChange` and `propertyDidChange` as a pair. If you do not, it may get the property change groups out of order and cause notifications to be delivered more often than you would like. @method propertyWillChange @param {String} keyName The property key that is about to change. @return {Observable} @private */ propertyWillChange: function (keyName) { (0, _emberMetal.propertyWillChange)(this, keyName); return this; }, /** Notify the observer system that a property has just changed. Sometimes you need to change a value directly or indirectly without actually calling `get()` or `set()` on it. In this case, you can use this method and `propertyWillChange()` instead. Calling these two methods together will notify all observers that the property has potentially changed value. Note that you must always call `propertyWillChange` and `propertyDidChange` as a pair. If you do not, it may get the property change groups out of order and cause notifications to be delivered more often than you would like. @method propertyDidChange @param {String} keyName The property key that has just changed. @return {Observable} @private */ propertyDidChange: function (keyName) { (0, _emberMetal.propertyDidChange)(this, keyName); return this; }, /** Convenience method to call `propertyWillChange` and `propertyDidChange` in succession. @method notifyPropertyChange @param {String} keyName The property key to be notified about. @return {Observable} @public */ notifyPropertyChange: function (keyName) { this.propertyWillChange(keyName); this.propertyDidChange(keyName); return this; }, /** Adds an observer on a property. This is the core method used to register an observer for a property. Once you call this method, any time the key's value is set, your observer will be notified. Note that the observers are triggered any time the value is set, regardless of whether it has actually changed. Your observer should be prepared to handle that. ### Observer Methods Observer methods have the following signature: ```app/components/my-component.js import Component from '@ember/component'; export default Component.extend({ init() { this._super(...arguments); this.addObserver('foo', this, 'fooDidChange'); }, fooDidChange(sender, key, value, rev) { // your code } }); ``` The `sender` is the object that changed. The `key` is the property that changes. The `value` property is currently reserved and unused. The `rev` is the last property revision of the object when it changed, which you can use to detect if the key value has really changed or not. Usually you will not need the value or revision parameters at the end. In this case, it is common to write observer methods that take only a sender and key value as parameters or, if you aren't interested in any of these values, to write an observer that has no parameters at all. @method addObserver @param {String} key The key to observe @param {Object} target The target object to invoke @param {String|Function} method The method to invoke @return {Ember.Observable} @public */ addObserver: function (key, target, method) { (0, _emberMetal.addObserver)(this, key, target, method); return this; }, /** Remove an observer you have previously registered on this object. Pass the same key, target, and method you passed to `addObserver()` and your target will no longer receive notifications. @method removeObserver @param {String} key The key to observe @param {Object} target The target object to invoke @param {String|Function} method The method to invoke @return {Ember.Observable} @public */ removeObserver: function (key, target, method) { (0, _emberMetal.removeObserver)(this, key, target, method); return this; }, /** Returns `true` if the object currently has observers registered for a particular key. You can use this method to potentially defer performing an expensive action until someone begins observing a particular property on the object. @method hasObserverFor @param {String} key Key to check @return {Boolean} @private */ hasObserverFor: function (key) { return (0, _emberMetal.hasListeners)(this, key + ':change'); }, /** Retrieves the value of a property, or a default value in the case that the property returns `undefined`. ```javascript person.getWithDefault('lastName', 'Doe'); ``` @method getWithDefault @param {String} keyName The name of the property to retrieve @param {Object} defaultValue The value to return if the property value is undefined @return {Object} The property value or the defaultValue. @public */ getWithDefault: function (keyName, defaultValue) { return (0, _emberMetal.getWithDefault)(this, keyName, defaultValue); }, /** Set the value of a property to the current value plus some amount. ```javascript person.incrementProperty('age'); team.incrementProperty('score', 2); ``` @method incrementProperty @param {String} keyName The name of the property to increment @param {Number} increment The amount to increment by. Defaults to 1 @return {Number} The new property value @public */ incrementProperty: function (keyName, increment) { if ((0, _emberMetal.isNone)(increment)) { increment = 1; } false && !(!isNaN(parseFloat(increment)) && isFinite(increment)) && (0, _emberDebug.assert)('Must pass a numeric value to incrementProperty', !isNaN(parseFloat(increment)) && isFinite(increment)); return (0, _emberMetal.set)(this, keyName, (parseFloat((0, _emberMetal.get)(this, keyName)) || 0) + increment); }, /** Set the value of a property to the current value minus some amount. ```javascript player.decrementProperty('lives'); orc.decrementProperty('health', 5); ``` @method decrementProperty @param {String} keyName The name of the property to decrement @param {Number} decrement The amount to decrement by. Defaults to 1 @return {Number} The new property value @public */ decrementProperty: function (keyName, decrement) { if ((0, _emberMetal.isNone)(decrement)) { decrement = 1; } false && !(!isNaN(parseFloat(decrement)) && isFinite(decrement)) && (0, _emberDebug.assert)('Must pass a numeric value to decrementProperty', !isNaN(parseFloat(decrement)) && isFinite(decrement)); return (0, _emberMetal.set)(this, keyName, ((0, _emberMetal.get)(this, keyName) || 0) - decrement); }, /** Set the value of a boolean property to the opposite of its current value. ```javascript starship.toggleProperty('warpDriveEngaged'); ``` @method toggleProperty @param {String} keyName The name of the property to toggle @return {Boolean} The new property value @public */ toggleProperty: function (keyName) { return (0, _emberMetal.set)(this, keyName, !(0, _emberMetal.get)(this, keyName)); }, /** Returns the cached value of a computed property, if it exists. This allows you to inspect the value of a computed property without accidentally invoking it if it is intended to be generated lazily. @method cacheFor @param {String} keyName @return {Object} The cached value of the computed property, if any @public */ cacheFor: function (keyName) { return (0, _emberMetal.cacheFor)(this, keyName); }, // intended for debugging purposes observersForKey: function (keyName) { return (0, _emberMetal.observersFor)(this, keyName); } }); }); enifed('ember-runtime/mixins/promise_proxy', ['exports', 'ember-metal', 'ember-debug', 'ember-runtime/computed/computed_macros'], function (exports, _emberMetal, _emberDebug, _computed_macros) { 'use strict'; /** @module @ember/object */ function tap(proxy, promise) { (0, _emberMetal.setProperties)(proxy, { isFulfilled: false, isRejected: false }); return promise.then(function (value) { if (!proxy.isDestroyed && !proxy.isDestroying) { (0, _emberMetal.setProperties)(proxy, { content: value, isFulfilled: true }); } return value; }, function (reason) { if (!proxy.isDestroyed && !proxy.isDestroying) { (0, _emberMetal.setProperties)(proxy, { reason: reason, isRejected: true }); } throw reason; }, 'Ember: PromiseProxy'); } /** A low level mixin making ObjectProxy promise-aware. ```javascript let ObjectPromiseProxy = Ember.ObjectProxy.extend(Ember.PromiseProxyMixin); let proxy = ObjectPromiseProxy.create({ promise: Ember.RSVP.resolve($.getJSON('/some/remote/data.json')) }); proxy.then(function(json){ // the json }, function(reason) { // the reason why you have no json }); ``` the proxy has bindable attributes which track the promises life cycle ```javascript proxy.get('isPending') //=> true proxy.get('isSettled') //=> false proxy.get('isRejected') //=> false proxy.get('isFulfilled') //=> false ``` When the $.getJSON completes, and the promise is fulfilled with json, the life cycle attributes will update accordingly. Note that $.getJSON doesn't return an ECMA specified promise, it is useful to wrap this with an `RSVP.resolve` so that it behaves as a spec compliant promise. ```javascript proxy.get('isPending') //=> false proxy.get('isSettled') //=> true proxy.get('isRejected') //=> false proxy.get('isFulfilled') //=> true ``` As the proxy is an ObjectProxy, and the json now its content, all the json properties will be available directly from the proxy. ```javascript // Assuming the following json: { firstName: 'Stefan', lastName: 'Penner' } // both properties will accessible on the proxy proxy.get('firstName') //=> 'Stefan' proxy.get('lastName') //=> 'Penner' ``` @class PromiseProxyMixin @public */ exports.default = _emberMetal.Mixin.create({ /** If the proxied promise is rejected this will contain the reason provided. @property reason @default null @public */ reason: null, /** Once the proxied promise has settled this will become `false`. @property isPending @default true @public */ isPending: (0, _computed_macros.not)('isSettled').readOnly(), /** Once the proxied promise has settled this will become `true`. @property isSettled @default false @public */ isSettled: (0, _computed_macros.or)('isRejected', 'isFulfilled').readOnly(), /** Will become `true` if the proxied promise is rejected. @property isRejected @default false @public */ isRejected: false, /** Will become `true` if the proxied promise is fulfilled. @property isFulfilled @default false @public */ isFulfilled: false, /** The promise whose fulfillment value is being proxied by this object. This property must be specified upon creation, and should not be changed once created. Example: ```javascript Ember.ObjectProxy.extend(Ember.PromiseProxyMixin).create({ promise: }); ``` @property promise @public */ promise: (0, _emberMetal.computed)({ get: function () { throw new _emberDebug.Error('PromiseProxy\'s promise must be set'); }, set: function (key, promise) { return tap(this, promise); } }), /** An alias to the proxied promise's `then`. See RSVP.Promise.then. @method then @param {Function} callback @return {RSVP.Promise} @public */ then: promiseAlias('then'), /** An alias to the proxied promise's `catch`. See RSVP.Promise.catch. @method catch @param {Function} callback @return {RSVP.Promise} @since 1.3.0 @public */ 'catch': promiseAlias('catch'), /** An alias to the proxied promise's `finally`. See RSVP.Promise.finally. @method finally @param {Function} callback @return {RSVP.Promise} @since 1.3.0 @public */ 'finally': promiseAlias('finally') }); function promiseAlias(name) { return function () { var promise = (0, _emberMetal.get)(this, 'promise'); return promise[name].apply(promise, arguments); }; } }); enifed('ember-runtime/mixins/registry_proxy', ['exports', 'ember-metal'], function (exports, _emberMetal) { 'use strict'; exports.default = _emberMetal.Mixin.create({ __registry__: null, /** Given a fullName return the corresponding factory. @public @method resolveRegistration @param {String} fullName @return {Function} fullName's factory */ resolveRegistration: registryAlias('resolve'), /** Registers a factory that can be used for dependency injection (with `inject`) or for service lookup. Each factory is registered with a full name including two parts: `type:name`. A simple example: ```javascript let App = Ember.Application.create(); App.Orange = Ember.Object.extend(); App.register('fruit:favorite', App.Orange); ``` Ember will resolve factories from the `App` namespace automatically. For example `App.CarsController` will be discovered and returned if an application requests `controller:cars`. An example of registering a controller with a non-standard name: ```javascript let App = Ember.Application.create(); let Session = Ember.Controller.extend(); App.register('controller:session', Session); // The Session controller can now be treated like a normal controller, // despite its non-standard name. App.ApplicationController = Ember.Controller.extend({ needs: ['session'] }); ``` Registered factories are **instantiated** by having `create` called on them. Additionally they are **singletons**, each time they are looked up they return the same instance. Some examples modifying that default behavior: ```javascript let App = Ember.Application.create(); App.Person = Ember.Object.extend(); App.Orange = Ember.Object.extend(); App.Email = Ember.Object.extend(); App.session = Ember.Object.create(); App.register('model:user', App.Person, { singleton: false }); App.register('fruit:favorite', App.Orange); App.register('communication:main', App.Email, { singleton: false }); App.register('session', App.session, { instantiate: false }); ``` @method register @param fullName {String} type:name (e.g., 'model:user') @param factory {Function} (e.g., App.Person) @param options {Object} (optional) disable instantiation or singleton usage @public */ register: registryAlias('register'), /** Unregister a factory. ```javascript let App = Ember.Application.create(); let User = Ember.Object.extend(); App.register('model:user', User); App.resolveRegistration('model:user').create() instanceof User //=> true App.unregister('model:user') App.resolveRegistration('model:user') === undefined //=> true ``` @public @method unregister @param {String} fullName */ unregister: registryAlias('unregister'), /** Check if a factory is registered. @public @method hasRegistration @param {String} fullName @return {Boolean} */ hasRegistration: registryAlias('has'), /** Return a specific registered option for a particular factory. @public @method registeredOption @param {String} fullName @param {String} optionName @return {Object} options */ registeredOption: registryAlias('getOption'), /** Register options for a particular factory. @public @method registerOptions @param {String} fullName @param {Object} options */ registerOptions: registryAlias('options'), /** Return registered options for a particular factory. @public @method registeredOptions @param {String} fullName @return {Object} options */ registeredOptions: registryAlias('getOptions'), /** Allow registering options for all factories of a type. ```javascript let App = Ember.Application.create(); let appInstance = App.buildInstance(); // if all of type `connection` must not be singletons appInstance.registerOptionsForType('connection', { singleton: false }); appInstance.register('connection:twitter', TwitterConnection); appInstance.register('connection:facebook', FacebookConnection); let twitter = appInstance.lookup('connection:twitter'); let twitter2 = appInstance.lookup('connection:twitter'); twitter === twitter2; // => false let facebook = appInstance.lookup('connection:facebook'); let facebook2 = appInstance.lookup('connection:facebook'); facebook === facebook2; // => false ``` @public @method registerOptionsForType @param {String} type @param {Object} options */ registerOptionsForType: registryAlias('optionsForType'), /** Return the registered options for all factories of a type. @public @method registeredOptionsForType @param {String} type @return {Object} options */ registeredOptionsForType: registryAlias('getOptionsForType'), /** Define a dependency injection onto a specific factory or all factories of a type. When Ember instantiates a controller, view, or other framework component it can attach a dependency to that component. This is often used to provide services to a set of framework components. An example of providing a session object to all controllers: ```javascript let App = Ember.Application.create(); let Session = Ember.Object.extend({ isAuthenticated: false }); // A factory must be registered before it can be injected App.register('session:main', Session); // Inject 'session:main' onto all factories of the type 'controller' // with the name 'session' App.inject('controller', 'session', 'session:main'); App.IndexController = Ember.Controller.extend({ isLoggedIn: Ember.computed.alias('session.isAuthenticated') }); ``` Injections can also be performed on specific factories. ```javascript App.inject(, , ) App.inject('route', 'source', 'source:main') App.inject('route:application', 'email', 'model:email') ``` It is important to note that injections can only be performed on classes that are instantiated by Ember itself. Instantiating a class directly (via `create` or `new`) bypasses the dependency injection system. @public @method inject @param factoryNameOrType {String} @param property {String} @param injectionName {String} **/ inject: registryAlias('injection') }); function registryAlias(name) { return function () { var _registry__; return (_registry__ = this.__registry__)[name].apply(_registry__, arguments); }; } }); enifed('ember-runtime/mixins/target_action_support', ['exports', 'ember-environment', 'ember-metal', 'ember-debug'], function (exports, _emberEnvironment, _emberMetal, _emberDebug) { 'use strict'; exports.default = _emberMetal.Mixin.create({ target: null, targetObject: (0, _emberMetal.descriptor)({ configurable: true, enumerable: false, get: function () { var message = this + ' Usage of `targetObject` is deprecated. Please use `target` instead.'; false && !false && (0, _emberDebug.deprecate)(message, false, { id: 'ember-runtime.using-targetObject', until: '3.5.0' }); return this._targetObject; }, set: function (value) { var message = this + ' Usage of `targetObject` is deprecated. Please use `target` instead.'; false && !false && (0, _emberDebug.deprecate)(message, false, { id: 'ember-runtime.using-targetObject', until: '3.5.0' }); this._targetObject = value; } }), action: null, actionContext: null, actionContextObject: (0, _emberMetal.computed)('actionContext', function () { var actionContext = (0, _emberMetal.get)(this, 'actionContext'), value; if (typeof actionContext === 'string') { value = (0, _emberMetal.get)(this, actionContext); if (value === undefined) { value = (0, _emberMetal.get)(_emberEnvironment.context.lookup, actionContext); } return value; } else { return actionContext; } }), /** Send an `action` with an `actionContext` to a `target`. The action, actionContext and target will be retrieved from properties of the object. For example: ```javascript App.SaveButtonView = Ember.View.extend(Ember.TargetActionSupport, { target: Ember.computed.alias('controller'), action: 'save', actionContext: Ember.computed.alias('context'), click() { this.triggerAction(); // Sends the `save` action, along with the current context // to the current controller } }); ``` The `target`, `action`, and `actionContext` can be provided as properties of an optional object argument to `triggerAction` as well. ```javascript App.SaveButtonView = Ember.View.extend(Ember.TargetActionSupport, { click() { this.triggerAction({ action: 'save', target: this.get('controller'), actionContext: this.get('context') }); // Sends the `save` action, along with the current context // to the current controller } }); ``` The `actionContext` defaults to the object you are mixing `TargetActionSupport` into. But `target` and `action` must be specified either as properties or with the argument to `triggerAction`, or a combination: ```javascript App.SaveButtonView = Ember.View.extend(Ember.TargetActionSupport, { target: Ember.computed.alias('controller'), click() { this.triggerAction({ action: 'save' }); // Sends the `save` action, along with a reference to `this`, // to the current controller } }); ``` @method triggerAction @param opts {Object} (optional, with the optional keys action, target and/or actionContext) @return {Boolean} true if the action was sent successfully and did not return false @private */ triggerAction: function () { var opts = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : {}, ret, _target, _target2; var action = opts.action, target = opts.target, actionContext = opts.actionContext; action = action || (0, _emberMetal.get)(this, 'action'); target = target || getTarget(this); if (actionContext === undefined) { actionContext = (0, _emberMetal.get)(this, 'actionContextObject') || this; } if (target && action) { ret = void 0; if (target.send) { ret = (_target = target).send.apply(_target, [action].concat(actionContext)); } else { false && !(typeof target[action] === 'function') && (0, _emberDebug.assert)('The action \'' + action + '\' did not exist on ' + target, typeof target[action] === 'function'); ret = (_target2 = target)[action].apply(_target2, [].concat(actionContext)); } if (ret !== false) { return true; } } return false; } }); function getTarget(instance) { var target = (0, _emberMetal.get)(instance, 'target'), value; if (target) { if (typeof target === 'string') { value = (0, _emberMetal.get)(instance, target); if (value === undefined) { value = (0, _emberMetal.get)(_emberEnvironment.context.lookup, target); } return value; } else { return target; } } // if a `targetObject` CP was provided, use it if (target) { return target; } // if _targetObject use it if (instance._targetObject) { return instance._targetObject; } return null; } }); enifed("ember-runtime/string_registry", ["exports"], function (exports) { "use strict"; exports.setStrings = function (strings) { STRINGS = strings; }; exports.getStrings = function () { return STRINGS; }; exports.get = function (name) { return STRINGS[name]; }; // STATE within a module is frowned upon, this exists // to support Ember.STRINGS but shield ember internals from this legacy global // API. var STRINGS = {}; }); enifed('ember-runtime/system/application', ['exports', 'ember-runtime/system/namespace'], function (exports, _namespace) { 'use strict'; exports.default = _namespace.default.extend(); }); enifed('ember-runtime/system/array_proxy', ['exports', 'ember-metal', 'ember-runtime/utils', 'ember-runtime/system/object', 'ember-runtime/mixins/mutable_array', 'ember-runtime/mixins/enumerable', 'ember-runtime/mixins/array', 'ember-debug'], function (exports, _emberMetal, _utils, _object, _mutable_array, _enumerable, _array, _emberDebug) { 'use strict'; /** @module @ember/array */ var OUT_OF_RANGE_EXCEPTION = 'Index out of range'; var EMPTY = []; function K() { return this; } /** An ArrayProxy wraps any other object that implements `Ember.Array` and/or `Ember.MutableArray,` forwarding all requests. This makes it very useful for a number of binding use cases or other cases where being able to swap out the underlying array is useful. A simple example of usage: ```javascript let pets = ['dog', 'cat', 'fish']; let ap = Ember.ArrayProxy.create({ content: Ember.A(pets) }); ap.get('firstObject'); // 'dog' ap.set('content', ['amoeba', 'paramecium']); ap.get('firstObject'); // 'amoeba' ``` This class can also be useful as a layer to transform the contents of an array, as they are accessed. This can be done by overriding `objectAtContent`: ```javascript let pets = ['dog', 'cat', 'fish']; let ap = Ember.ArrayProxy.create({ content: Ember.A(pets), objectAtContent: function(idx) { return this.get('content').objectAt(idx).toUpperCase(); } }); ap.get('firstObject'); // . 'DOG' ``` @class ArrayProxy @extends EmberObject @uses MutableArray @public */ exports.default = _object.default.extend(_mutable_array.default, { /** The content array. Must be an object that implements `Ember.Array` and/or `Ember.MutableArray.` @property content @type EmberArray @private */ content: null, /** The array that the proxy pretends to be. In the default `ArrayProxy` implementation, this and `content` are the same. Subclasses of `ArrayProxy` can override this property to provide things like sorting and filtering. @property arrangedContent @private */ arrangedContent: (0, _emberMetal.alias)('content'), /** Should actually retrieve the object at the specified index from the content. You can override this method in subclasses to transform the content item to something new. This method will only be called if content is non-`null`. @method objectAtContent @param {Number} idx The index to retrieve. @return {Object} the value or undefined if none found @public */ objectAtContent: function (idx) { return (0, _array.objectAt)((0, _emberMetal.get)(this, 'arrangedContent'), idx); }, /** Should actually replace the specified objects on the content array. You can override this method in subclasses to transform the content item into something new. This method will only be called if content is non-`null`. @method replaceContent @param {Number} idx The starting index @param {Number} amt The number of items to remove from the content. @param {EmberArray} objects Optional array of objects to insert or null if no objects. @return {void} @private */ replaceContent: function (idx, amt, objects) { (0, _emberMetal.get)(this, 'content').replace(idx, amt, objects); }, /** Invoked when the content property is about to change. Notifies observers that the entire array content will change. @private @method _contentWillChange */ _contentWillChange: (0, _emberMetal._beforeObserver)('content', function () { this._teardownContent(); }), _teardownContent: function () { var content = (0, _emberMetal.get)(this, 'content'); if (content) { (0, _array.removeArrayObserver)(content, this, { willChange: 'contentArrayWillChange', didChange: 'contentArrayDidChange' }); } }, /** Override to implement content array `willChange` observer. @method contentArrayWillChange @param {EmberArray} contentArray the content array @param {Number} start starting index of the change @param {Number} removeCount count of items removed @param {Number} addCount count of items added @private */ contentArrayWillChange: K, /** Override to implement content array `didChange` observer. @method contentArrayDidChange @param {EmberArray} contentArray the content array @param {Number} start starting index of the change @param {Number} removeCount count of items removed @param {Number} addCount count of items added @private */ contentArrayDidChange: K, /** Invoked when the content property changes. Notifies observers that the entire array content has changed. @private @method _contentDidChange */ _contentDidChange: (0, _emberMetal.observer)('content', function () { var content = (0, _emberMetal.get)(this, 'content'); false && !(content !== this) && (0, _emberDebug.assert)('Can\'t set ArrayProxy\'s content to itself', content !== this); this._setupContent(); }), _setupContent: function () { var content = (0, _emberMetal.get)(this, 'content'); if (content) { false && !((0, _utils.isArray)(content) || content.isDestroyed) && (0, _emberDebug.assert)('ArrayProxy expects an Array or Ember.ArrayProxy, but you passed ' + typeof content, (0, _utils.isArray)(content) || content.isDestroyed); (0, _array.addArrayObserver)(content, this, { willChange: 'contentArrayWillChange', didChange: 'contentArrayDidChange' }); } }, _arrangedContentWillChange: (0, _emberMetal._beforeObserver)('arrangedContent', function () { var arrangedContent = (0, _emberMetal.get)(this, 'arrangedContent'); var len = arrangedContent ? (0, _emberMetal.get)(arrangedContent, 'length') : 0; this.arrangedContentArrayWillChange(this, 0, len, undefined); this.arrangedContentWillChange(this); this._teardownArrangedContent(arrangedContent); }), _arrangedContentDidChange: (0, _emberMetal.observer)('arrangedContent', function () { var arrangedContent = (0, _emberMetal.get)(this, 'arrangedContent'); var len = arrangedContent ? (0, _emberMetal.get)(arrangedContent, 'length') : 0; false && !(arrangedContent !== this) && (0, _emberDebug.assert)('Can\'t set ArrayProxy\'s content to itself', arrangedContent !== this); this._setupArrangedContent(); this.arrangedContentDidChange(this); this.arrangedContentArrayDidChange(this, 0, undefined, len); }), _setupArrangedContent: function () { var arrangedContent = (0, _emberMetal.get)(this, 'arrangedContent'); if (arrangedContent) { false && !((0, _utils.isArray)(arrangedContent) || arrangedContent.isDestroyed) && (0, _emberDebug.assert)('ArrayProxy expects an Array or Ember.ArrayProxy, but you passed ' + typeof arrangedContent, (0, _utils.isArray)(arrangedContent) || arrangedContent.isDestroyed); (0, _array.addArrayObserver)(arrangedContent, this, { willChange: 'arrangedContentArrayWillChange', didChange: 'arrangedContentArrayDidChange' }); } }, _teardownArrangedContent: function () { var arrangedContent = (0, _emberMetal.get)(this, 'arrangedContent'); if (arrangedContent) { (0, _array.removeArrayObserver)(arrangedContent, this, { willChange: 'arrangedContentArrayWillChange', didChange: 'arrangedContentArrayDidChange' }); } }, arrangedContentWillChange: K, arrangedContentDidChange: K, objectAt: function (idx) { return (0, _emberMetal.get)(this, 'content') && this.objectAtContent(idx); }, length: (0, _emberMetal.computed)(function () { var arrangedContent = (0, _emberMetal.get)(this, 'arrangedContent'); return arrangedContent ? (0, _emberMetal.get)(arrangedContent, 'length') : 0; // No dependencies since Enumerable notifies length of change }), _replace: function (idx, amt, objects) { var content = (0, _emberMetal.get)(this, 'content'); false && !content && (0, _emberDebug.assert)('The content property of ' + this.constructor + ' should be set before modifying it', content); if (content) { this.replaceContent(idx, amt, objects); } return this; }, replace: function () { if ((0, _emberMetal.get)(this, 'arrangedContent') === (0, _emberMetal.get)(this, 'content')) { this._replace.apply(this, arguments); } else { throw new _emberDebug.Error('Using replace on an arranged ArrayProxy is not allowed.'); } }, _insertAt: function (idx, object) { if (idx > (0, _emberMetal.get)(this, 'content.length')) { throw new _emberDebug.Error(OUT_OF_RANGE_EXCEPTION); } this._replace(idx, 0, [object]); return this; }, insertAt: function (idx, object) { if ((0, _emberMetal.get)(this, 'arrangedContent') === (0, _emberMetal.get)(this, 'content')) { return this._insertAt(idx, object); } else { throw new _emberDebug.Error('Using insertAt on an arranged ArrayProxy is not allowed.'); } }, removeAt: function (start, len) { var content, arrangedContent, indices, i, _i; if ('number' === typeof start) { content = (0, _emberMetal.get)(this, 'content'); arrangedContent = (0, _emberMetal.get)(this, 'arrangedContent'); indices = []; if (start < 0 || start >= (0, _emberMetal.get)(this, 'length')) { throw new _emberDebug.Error(OUT_OF_RANGE_EXCEPTION); } if (len === undefined) { len = 1; } // Get a list of indices in original content to remove for (i = start; i < start + len; i++) { // Use arrangedContent here so we avoid confusion with objects transformed by objectAtContent indices.push(content.indexOf((0, _array.objectAt)(arrangedContent, i))); } // Replace in reverse order since indices will change indices.sort(function (a, b) { return b - a; }); (0, _emberMetal.beginPropertyChanges)(); for (_i = 0; _i < indices.length; _i++) { this._replace(indices[_i], 1, EMPTY); } (0, _emberMetal.endPropertyChanges)(); } return this; }, pushObject: function (obj) { this._insertAt((0, _emberMetal.get)(this, 'content.length'), obj); return obj; }, pushObjects: function (objects) { if (!(_enumerable.default.detect(objects) || (0, _utils.isArray)(objects))) { throw new TypeError('Must pass Ember.Enumerable to Ember.MutableArray#pushObjects'); } this._replace((0, _emberMetal.get)(this, 'length'), 0, objects); return this; }, setObjects: function (objects) { if (objects.length === 0) { return this.clear(); } var len = (0, _emberMetal.get)(this, 'length'); this._replace(0, len, objects); return this; }, unshiftObject: function (obj) { this._insertAt(0, obj); return obj; }, unshiftObjects: function (objects) { this._replace(0, 0, objects); return this; }, slice: function () { var arr = this.toArray(); return arr.slice.apply(arr, arguments); }, arrangedContentArrayWillChange: function (item, idx, removedCnt, addedCnt) { this.arrayContentWillChange(idx, removedCnt, addedCnt); }, arrangedContentArrayDidChange: function (item, idx, removedCnt, addedCnt) { this.arrayContentDidChange(idx, removedCnt, addedCnt); }, init: function () { this._super.apply(this, arguments); this._setupContent(); this._setupArrangedContent(); }, willDestroy: function () { this._teardownArrangedContent(); this._teardownContent(); } }); }); enifed('ember-runtime/system/core_object', ['exports', 'ember-utils', 'ember-metal', 'ember-runtime/mixins/action_handler', 'ember-runtime/inject', 'ember-debug', 'ember-environment'], function (exports, _emberUtils, _emberMetal, _action_handler, _inject, _emberDebug, _emberEnvironment) { 'use strict'; exports.POST_INIT = undefined; var _Mixin$create, _ClassMixinProps; var schedule = _emberMetal.run.schedule; var applyMixin = _emberMetal.Mixin._apply; var finishPartial = _emberMetal.Mixin.finishPartial; var reopen = _emberMetal.Mixin.prototype.reopen; var POST_INIT = exports.POST_INIT = (0, _emberUtils.symbol)('POST_INIT'); function makeCtor() { // Note: avoid accessing any properties on the object since it makes the // method a lot faster. This is glue code so we want it to be as fast as // possible. var wasApplied = false; var initProperties = void 0, initFactory = void 0; var Class = function () { function Class() { if (!wasApplied) { Class.proto(); // prepare prototype... } if (arguments.length > 0) { initProperties = [arguments[0]]; } this.__defineNonEnumerable(_emberUtils.GUID_KEY_PROPERTY); var m = (0, _emberMetal.meta)(this), props, concatenatedProperties, mergedProperties, hasConcatenatedProps, hasMergedProps, i, properties, keyNames, j, keyName, value, possibleDesc, isDescriptor, baseValue; var proto = m.proto; m.proto = this; if (initFactory) { m.factory = initFactory; initFactory = null; } if (initProperties) { // capture locally so we can clear the closed over variable props = initProperties; initProperties = null; concatenatedProperties = this.concatenatedProperties; mergedProperties = this.mergedProperties; hasConcatenatedProps = concatenatedProperties && concatenatedProperties.length > 0; hasMergedProps = mergedProperties && mergedProperties.length > 0; for (i = 0; i < props.length; i++) { properties = props[i]; false && !(typeof properties === 'object' || properties === undefined) && (0, _emberDebug.assert)('Ember.Object.create only accepts objects.', typeof properties === 'object' || properties === undefined); false && !!(properties instanceof _emberMetal.Mixin) && (0, _emberDebug.assert)('Ember.Object.create no longer supports mixing in other ' + 'definitions, use .extend & .create separately instead.', !(properties instanceof _emberMetal.Mixin)); if (!properties) { continue; } keyNames = Object.keys(properties); for (j = 0; j < keyNames.length; j++) { keyName = keyNames[j]; value = properties[keyName]; if ((0, _emberMetal.detectBinding)(keyName)) { m.writeBindings(keyName, value); } false && !!(value instanceof _emberMetal.ComputedProperty) && (0, _emberDebug.assert)('Ember.Object.create no longer supports defining computed ' + 'properties. Define computed properties using extend() or reopen() ' + 'before calling create().', !(value instanceof _emberMetal.ComputedProperty)); false && !!(typeof value === 'function' && value.toString().indexOf('._super') !== -1) && (0, _emberDebug.assert)('Ember.Object.create no longer supports defining methods that call _super.', !(typeof value === 'function' && value.toString().indexOf('._super') !== -1)); false && !!(keyName === 'actions' && _action_handler.default.detect(this)) && (0, _emberDebug.assert)('`actions` must be provided at extend time, not at create time, ' + 'when Ember.ActionHandler is used (i.e. views, controllers & routes).', !(keyName === 'actions' && _action_handler.default.detect(this))); possibleDesc = (0, _emberMetal.descriptorFor)(this, keyName, m); isDescriptor = possibleDesc !== undefined; if (!isDescriptor) { baseValue = this[keyName]; if (hasConcatenatedProps && concatenatedProperties.indexOf(keyName) > -1) { if (baseValue) { value = (0, _emberUtils.makeArray)(baseValue).concat(value); } else { value = (0, _emberUtils.makeArray)(value); } } if (hasMergedProps && mergedProperties.indexOf(keyName) > -1) { value = (0, _emberUtils.assign)({}, baseValue, value); } } if (isDescriptor) { possibleDesc.set(this, keyName, value); } else if (typeof this.setUnknownProperty === 'function' && !(keyName in this)) { this.setUnknownProperty(keyName, value); } else { this[keyName] = value; } } } } finishPartial(this, m); this.init.apply(this, arguments); this[POST_INIT](); m.proto = proto; (0, _emberMetal.finishChains)(m); (0, _emberMetal.sendEvent)(this, 'init', undefined, undefined, undefined, m); } Class.willReopen = function () { if (wasApplied) { Class.PrototypeMixin = _emberMetal.Mixin.create(Class.PrototypeMixin); } wasApplied = false; }; Class._initProperties = function (args) { initProperties = args; }; Class._initFactory = function (factory) { initFactory = factory; }; Class.proto = function () { var superclass = Class.superclass; if (superclass) { superclass.proto(); } if (!wasApplied) { wasApplied = true; Class.PrototypeMixin.applyPartial(Class.prototype); } return this.prototype; }; return Class; }(); Class.toString = _emberMetal.Mixin.prototype.toString; return Class; } var IS_DESTROYED = (0, _emberMetal.descriptor)({ configurable: true, enumerable: false, get: function () { return (0, _emberMetal.peekMeta)(this).isSourceDestroyed(); }, set: function (value) { false && !(value === IS_DESTROYED) && (0, _emberDebug.assert)('You cannot set `' + this + '.isDestroyed` directly, please use `.destroy()`.', value === IS_DESTROYED); } }); var IS_DESTROYING = (0, _emberMetal.descriptor)({ configurable: true, enumerable: false, get: function () { return (0, _emberMetal.peekMeta)(this).isSourceDestroying(); }, set: function (value) { false && !(value === IS_DESTROYING) && (0, _emberDebug.assert)('You cannot set `' + this + '.isDestroying` directly, please use `.destroy()`.', value === IS_DESTROYING); } }); /** @class CoreObject @public */ var CoreObject = makeCtor(); CoreObject.toString = function () { return 'Ember.CoreObject'; }; CoreObject.PrototypeMixin = _emberMetal.Mixin.create((_Mixin$create = { reopen: function () { var _len, args, _key; for (_len = arguments.length, args = Array(_len), _key = 0; _key < _len; _key++) { args[_key] = arguments[_key]; } applyMixin(this, args, true); return this; }, init: function () {} }, _Mixin$create[POST_INIT] = function () {}, _Mixin$create.__defineNonEnumerable = function (property) { Object.defineProperty(this, property.name, property.descriptor); //this[property.name] = property.descriptor.value; }, _Mixin$create.concatenatedProperties = null, _Mixin$create.mergedProperties = null, _Mixin$create.isDestroyed = IS_DESTROYED, _Mixin$create.isDestroying = IS_DESTROYING, _Mixin$create.destroy = function () { var m = (0, _emberMetal.peekMeta)(this); if (m.isSourceDestroying()) { return; } m.setSourceDestroying(); schedule('actions', this, this.willDestroy); schedule('destroy', this, this._scheduledDestroy, m); return this; }, _Mixin$create.willDestroy = function () {}, _Mixin$create._scheduledDestroy = function (m) { if (m.isSourceDestroyed()) { return; } (0, _emberMetal.deleteMeta)(this); m.setSourceDestroyed(); }, _Mixin$create.bind = function (to, from) { if (!(from instanceof _emberMetal.Binding)) { from = _emberMetal.Binding.from(from); } from.to(to).connect(this); return from; }, _Mixin$create.toString = function () { var hasToStringExtension = typeof this.toStringExtension === 'function'; var extension = hasToStringExtension ? ':' + this.toStringExtension() : ''; var ret = '<' + (this[_emberUtils.NAME_KEY] || (0, _emberMetal.peekMeta)(this).factory || this.constructor.toString()) + ':' + (0, _emberUtils.guidFor)(this) + extension + '>'; return ret; }, _Mixin$create)); CoreObject.PrototypeMixin.ownerConstructor = CoreObject; CoreObject.__super__ = null; var ClassMixinProps = (_ClassMixinProps = { isClass: true, isMethod: false }, _ClassMixinProps[_emberUtils.NAME_KEY] = null, _ClassMixinProps[_emberUtils.GUID_KEY] = null, _ClassMixinProps.extend = function () { var Class = makeCtor(); var proto = void 0; Class.ClassMixin = _emberMetal.Mixin.create(this.ClassMixin); Class.PrototypeMixin = _emberMetal.Mixin.create(this.PrototypeMixin); Class.ClassMixin.ownerConstructor = Class; Class.PrototypeMixin.ownerConstructor = Class; reopen.apply(Class.PrototypeMixin, arguments); Class.superclass = this; Class.__super__ = this.prototype; proto = Class.prototype = Object.create(this.prototype); proto.constructor = Class; (0, _emberUtils.generateGuid)(proto); (0, _emberMetal.meta)(proto).proto = proto; // this will disable observers on prototype Class.ClassMixin.apply(Class); return Class; }, _ClassMixinProps.create = function () { var C = this, _len2, args, _key2; for (_len2 = arguments.length, args = Array(_len2), _key2 = 0; _key2 < _len2; _key2++) { args[_key2] = arguments[_key2]; } if (args.length > 0) { this._initProperties(args); } return new C(); }, _ClassMixinProps.reopen = function () { this.willReopen(); reopen.apply(this.PrototypeMixin, arguments); return this; }, _ClassMixinProps.reopenClass = function () { reopen.apply(this.ClassMixin, arguments); applyMixin(this, arguments, false); return this; }, _ClassMixinProps.detect = function (obj) { if ('function' !== typeof obj) { return false; } while (obj) { if (obj === this) { return true; } obj = obj.superclass; } return false; }, _ClassMixinProps.detectInstance = function (obj) { return obj instanceof this; }, _ClassMixinProps.metaForProperty = function (key) { var proto = this.proto(); var possibleDesc = (0, _emberMetal.descriptorFor)(proto, key); false && !(possibleDesc !== undefined) && (0, _emberDebug.assert)('metaForProperty() could not find a computed property with key \'' + key + '\'.', possibleDesc !== undefined); return possibleDesc._meta || {}; }, _ClassMixinProps._computedProperties = (0, _emberMetal.computed)(function () { (0, _emberMetal._hasCachedComputedProperties)(); var proto = this.proto(); var possibleDesc = void 0; var properties = []; for (var name in proto) { possibleDesc = (0, _emberMetal.descriptorFor)(proto, name); if (possibleDesc !== undefined) { properties.push({ name: name, meta: possibleDesc._meta }); } } return properties; }).readOnly(), _ClassMixinProps.eachComputedProperty = function (callback, binding) { var property = void 0, i; var empty = {}; var properties = (0, _emberMetal.get)(this, '_computedProperties'); for (i = 0; i < properties.length; i++) { property = properties[i]; callback.call(binding || this, property.name, property.meta || empty); } }, _ClassMixinProps); if (_emberEnvironment.ENV._ENABLE_PROPERTY_REQUIRED_SUPPORT) { ClassMixinProps.ClassMixin = _emberMetal.REQUIRED; ClassMixinProps.PrototypeMixin = _emberMetal.REQUIRED; } var ClassMixin = _emberMetal.Mixin.create(ClassMixinProps); ClassMixin.ownerConstructor = CoreObject; CoreObject.ClassMixin = ClassMixin; ClassMixin.apply(CoreObject); exports.default = CoreObject; }); enifed('ember-runtime/system/lazy_load', ['exports', 'ember-environment'], function (exports, _emberEnvironment) { 'use strict'; exports._loaded = undefined; exports.onLoad = /** Detects when a specific package of Ember (e.g. 'Ember.Application') has fully loaded and is available for extension. The provided `callback` will be called with the `name` passed resolved from a string into the object: ``` javascript Ember.onLoad('Ember.Application' function(hbars) { hbars.registerHelper(...); }); ``` @method onLoad @static @for @ember/application @param name {String} name of hook @param callback {Function} callback to be called @private */ function (name, callback) { var object = loaded[name]; loadHooks[name] = loadHooks[name] || []; loadHooks[name].push(callback); if (object) { callback(object); } } /** Called when an Ember.js package (e.g Ember.Application) has finished loading. Triggers any callbacks registered for this event. @method runLoadHooks @static @for @ember/application @param name {String} name of hook @param object {Object} object to pass to callbacks @private */ ; exports.runLoadHooks = function (name, object) { loaded[name] = object; var window = _emberEnvironment.environment.window, event; if (window && typeof CustomEvent === 'function') { event = new CustomEvent(name, { detail: object, name: name }); window.dispatchEvent(event); } if (loadHooks[name]) { loadHooks[name].forEach(function (callback) { return callback(object); }); } }; /** @module @ember/application */ var loadHooks = _emberEnvironment.ENV.EMBER_LOAD_HOOKS || {}; /*globals CustomEvent */ var loaded = {}; exports._loaded = loaded; }); enifed('ember-runtime/system/namespace', ['exports', 'ember-utils', 'ember-metal', 'ember-environment', 'ember-runtime/system/object'], function (exports, _emberUtils, _emberMetal, _emberEnvironment, _object) { 'use strict'; exports.isSearchDisabled = // Preloaded into namespaces /** @module ember */ function () { return searchDisabled; }; exports.setSearchDisabled = function (flag) { searchDisabled = !!flag; } /** A Namespace is an object usually used to contain other objects or methods such as an application or framework. Create a namespace anytime you want to define one of these new containers. # Example Usage ```javascript MyFramework = Ember.Namespace.create({ VERSION: '1.0.0' }); ``` @class Namespace @namespace Ember @extends Ember.Object @public */ ; var searchDisabled = false;var Namespace = _object.default.extend({ isNamespace: true, init: function () { Namespace.NAMESPACES.push(this); Namespace.PROCESSED = false; }, toString: function () { var name = (0, _emberMetal.get)(this, 'name') || (0, _emberMetal.get)(this, 'modulePrefix'); if (name) { return name; } findNamespaces(); return this[_emberUtils.NAME_KEY]; }, nameClasses: function () { processNamespace([this.toString()], this, {}); }, destroy: function () { var namespaces = Namespace.NAMESPACES; var toString = this.toString(); if (toString) { _emberEnvironment.context.lookup[toString] = undefined; delete Namespace.NAMESPACES_BY_ID[toString]; } namespaces.splice(namespaces.indexOf(this), 1); this._super.apply(this, arguments); } }); Namespace.reopenClass({ NAMESPACES: [_emberMetal.default], NAMESPACES_BY_ID: { Ember: _emberMetal.default }, PROCESSED: false, processAll: processAllNamespaces, byName: function (name) { if (!searchDisabled) { processAllNamespaces(); } return NAMESPACES_BY_ID[name]; } }); var NAMESPACES_BY_ID = Namespace.NAMESPACES_BY_ID; var hasOwnProp = {}.hasOwnProperty; function processNamespace(paths, root, seen) { var idx = paths.length, obj; NAMESPACES_BY_ID[paths.join('.')] = root; // Loop over all of the keys in the namespace, looking for classes for (var key in root) { if (!hasOwnProp.call(root, key)) { continue; } obj = root[key]; // If we are processing the `Ember` namespace, for example, the // `paths` will start with `["Ember"]`. Every iteration through // the loop will update the **second** element of this list with // the key, so processing `Ember.View` will make the Array // `['Ember', 'View']`. paths[idx] = key; // If we have found an unprocessed class if (obj && obj.toString === classToString && !obj[_emberUtils.NAME_KEY]) { // Replace the class' `toString` with the dot-separated path // and set its `NAME_KEY` obj[_emberUtils.NAME_KEY] = paths.join('.'); // Support nested namespaces } else if (obj && obj.isNamespace) { // Skip aliased namespaces if (seen[(0, _emberUtils.guidFor)(obj)]) { continue; } seen[(0, _emberUtils.guidFor)(obj)] = true; // Process the child namespace processNamespace(paths, obj, seen); } } paths.length = idx; // cut out last item } function isUppercase(code) { return code >= 65 && // A code <= 90; // Z } function tryIsNamespace(lookup, prop) { var obj; try { obj = lookup[prop]; return obj && obj.isNamespace && obj; } catch (e) { // continue } } function findNamespaces() { if (Namespace.PROCESSED) { return; } var lookup = _emberEnvironment.context.lookup, i, key, obj; var keys = Object.keys(lookup); for (i = 0; i < keys.length; i++) { key = keys[i]; // Only process entities that start with uppercase A-Z if (!isUppercase(key.charCodeAt(0))) { continue; } obj = tryIsNamespace(lookup, key); if (obj) { obj[_emberUtils.NAME_KEY] = key; } } } function superClassString(mixin) { var superclass = mixin.superclass; if (superclass) { if (superclass[_emberUtils.NAME_KEY]) { return superclass[_emberUtils.NAME_KEY]; } return superClassString(superclass); } } function calculateToString(target) { var str = void 0; if (!searchDisabled) { processAllNamespaces(); // can also be set by processAllNamespaces str = target[_emberUtils.NAME_KEY]; if (str) { return str; } else { str = superClassString(target); str = str ? '(subclass of ' + str + ')' : str; } } if (str) { return str; } else { return '(unknown mixin)'; } } function classToString() { var name = this[_emberUtils.NAME_KEY]; if (name) { return name; } return this[_emberUtils.NAME_KEY] = calculateToString(this); } function processAllNamespaces() { var unprocessedNamespaces = !Namespace.PROCESSED, namespaces, namespace, i; var unprocessedMixins = (0, _emberMetal.hasUnprocessedMixins)(); if (unprocessedNamespaces) { findNamespaces(); Namespace.PROCESSED = true; } if (unprocessedNamespaces || unprocessedMixins) { namespaces = Namespace.NAMESPACES; namespace = void 0; for (i = 0; i < namespaces.length; i++) { namespace = namespaces[i]; processNamespace([namespace.toString()], namespace, {}); } (0, _emberMetal.clearUnprocessedMixins)(); } } _emberMetal.Mixin.prototype.toString = classToString; // ES6TODO: altering imported objects. SBB. exports.default = Namespace; }); enifed('ember-runtime/system/native_array', ['exports', 'ember-metal', 'ember-environment', 'ember-runtime/mixins/array', 'ember-runtime/mixins/mutable_array', 'ember-runtime/mixins/observable', 'ember-runtime/mixins/copyable', 'ember-debug', 'ember-runtime/copy'], function (exports, _emberMetal, _emberEnvironment, _array, _mutable_array, _observable, _copyable, _emberDebug, _copy) { 'use strict'; exports.NativeArray = exports.A = undefined; var _NativeArray; // Add Ember.Array to Array.prototype. Remove methods with native // implementations and supply some more optimized versions of generic methods // because they are so common. /** The NativeArray mixin contains the properties needed to make the native Array support Ember.MutableArray and all of its dependent APIs. Unless you have `EmberENV.EXTEND_PROTOTYPES` or `EmberENV.EXTEND_PROTOTYPES.Array` set to false, this will be applied automatically. Otherwise you can apply the mixin at anytime by calling `Ember.NativeArray.apply(Array.prototype)`. @class Ember.NativeArray @uses MutableArray @uses Observable @uses Ember.Copyable @public */ var NativeArray = _emberMetal.Mixin.create(_mutable_array.default, _observable.default, _copyable.default, { get: function (key) { if ('number' === typeof key) { return this[key]; } else { return this._super(key); } }, objectAt: function (idx) { return this[idx]; }, replace: function (idx, amt, objects) { false && !(objects === null || objects === undefined || Array.isArray(objects)) && (0, _emberDebug.assert)('The third argument to replace needs to be an array.', objects === null || objects === undefined || Array.isArray(objects)); // if we replaced exactly the same number of items, then pass only the // replaced range. Otherwise, pass the full remaining array length // since everything has shifted var len = objects ? (0, _emberMetal.get)(objects, 'length') : 0; (0, _array.arrayContentWillChange)(this, idx, amt, len); if (len === 0) { this.splice(idx, amt); } else { (0, _emberMetal.replace)(this, idx, amt, objects); } (0, _array.arrayContentDidChange)(this, idx, amt, len); return this; }, unknownProperty: function (key, value) { var ret = void 0; // = this.reducedProperty(key, value); if (value !== undefined && ret === undefined) { ret = this[key] = value; } return ret; }, indexOf: Array.prototype.indexOf, lastIndexOf: Array.prototype.lastIndexOf, copy: function (deep) { if (deep) { return this.map(function (item) { return (0, _copy.default)(item, true); }); } return this.slice(); } }); // Remove any methods implemented natively so we don't override them var ignore = ['length']; NativeArray.keys().forEach(function (methodName) { if (Array.prototype[methodName]) { ignore.push(methodName); } }); exports.NativeArray = NativeArray = (_NativeArray = NativeArray).without.apply(_NativeArray, ignore); /** @module @ember/array */ /** Creates an `Ember.NativeArray` from an Array-like object. Does not modify the original object's contents. `A()` is not needed if `EmberENV.EXTEND_PROTOTYPES` is `true` (the default value). However, it is recommended that you use `A()` when creating addons for ember or when you can not guarantee that `EmberENV.EXTEND_PROTOTYPES` will be `true`. Example ```app/components/my-component.js import Component from '@ember/component'; import { A } from '@ember/array'; export default Component.extend({ tagName: 'ul', classNames: ['pagination'], init() { this._super(...arguments); if (!this.get('content')) { this.set('content', A()); this.set('otherContent', A([1,2,3])); } } }); ``` @method A @static @for @ember/array @return {Ember.NativeArray} @public */ var A = void 0; if (_emberEnvironment.ENV.EXTEND_PROTOTYPES.Array) { NativeArray.apply(Array.prototype); exports.A = A = function (arr) { return arr || []; }; } else { exports.A = A = function (arr) { if (!arr) { arr = []; } return _array.default.detect(arr) ? arr : NativeArray.apply(arr); }; } _emberMetal.default.A = A; exports.A = A; exports.NativeArray = NativeArray; exports.default = NativeArray; }); enifed('ember-runtime/system/object', ['exports', 'ember-utils', 'ember-metal', 'ember-runtime/system/core_object', 'ember-runtime/mixins/observable', 'ember-debug'], function (exports, _emberUtils, _emberMetal, _core_object, _observable) { 'use strict'; exports.FrameworkObject = undefined; var _CoreObject$extend; var OVERRIDE_OWNER = (0, _emberUtils.symbol)('OVERRIDE_OWNER'); /** `Ember.Object` is the main base class for all Ember objects. It is a subclass of `Ember.CoreObject` with the `Ember.Observable` mixin applied. For details, see the documentation for each of these. @class EmberObject @extends CoreObject @uses Observable @public */ var EmberObject = _core_object.default.extend(_observable.default, (_CoreObject$extend = { _debugContainerKey: (0, _emberMetal.descriptor)({ enumerable: false, get: function () { var meta = (0, _emberMetal.peekMeta)(this); var factory = meta.factory; return factory && factory.fullName; } }) }, _CoreObject$extend[_emberUtils.OWNER] = (0, _emberMetal.descriptor)({ enumerable: false, get: function () { if (this[OVERRIDE_OWNER]) { return this[OVERRIDE_OWNER]; } var meta = (0, _emberMetal.peekMeta)(this); var factory = meta.factory; return factory && factory.owner; }, set: function (value) { this[OVERRIDE_OWNER] = value; } }), _CoreObject$extend)); EmberObject.toString = function () { return 'Ember.Object'; }; exports.FrameworkObject = EmberObject; exports.default = EmberObject; }); enifed('ember-runtime/system/object_proxy', ['exports', 'ember-runtime/system/object', 'ember-runtime/mixins/-proxy'], function (exports, _object, _proxy) { 'use strict'; exports.default = _object.default.extend(_proxy.default); }); enifed('ember-runtime/system/service', ['exports', 'ember-runtime/system/object', 'ember-runtime/inject'], function (exports, _object, _inject) { 'use strict'; /** @module @ember/service @public */ /** Creates a property that lazily looks up a service in the container. There are no restrictions as to what objects a service can be injected into. Example: ```app/routes/application.js import Route from '@ember/routing/route'; import { inject as service } from '@ember/service'; export default Route.extend({ authManager: service('auth'), model() { return this.get('authManager').findCurrentUser(); } }); ``` This example will create an `authManager` property on the application route that looks up the `auth` service in the container, making it easily accessible in the `model` hook. @method inject @static @since 1.10.0 @for @ember/service @param {String} name (optional) name of the service to inject, defaults to the property's name @return {Ember.InjectedProperty} injection descriptor instance @public */ (0, _inject.createInjectionHelper)('service'); /** @class Service @extends EmberObject @since 1.10.0 @public */ var Service = _object.default.extend(); Service.reopenClass({ isServiceFactory: true }); exports.default = Service; }); enifed('ember-runtime/system/string', ['exports', 'ember-metal', 'ember-utils', 'ember-runtime/utils', 'ember-runtime/string_registry'], function (exports, _emberMetal, _emberUtils, _utils, _string_registry) { 'use strict'; exports.capitalize = exports.underscore = exports.classify = exports.camelize = exports.dasherize = exports.decamelize = exports.w = exports.loc = undefined; /** @module @ember/string */ var STRING_DASHERIZE_REGEXP = /[ _]/g; var STRING_DASHERIZE_CACHE = new _emberMetal.Cache(1000, function (key) { return decamelize(key).replace(STRING_DASHERIZE_REGEXP, '-'); }); var STRING_CAMELIZE_REGEXP_1 = /(\-|\_|\.|\s)+(.)?/g; var STRING_CAMELIZE_REGEXP_2 = /(^|\/)([A-Z])/g; var CAMELIZE_CACHE = new _emberMetal.Cache(1000, function (key) { return key.replace(STRING_CAMELIZE_REGEXP_1, function (match, separator, chr) { return chr ? chr.toUpperCase() : ''; }).replace(STRING_CAMELIZE_REGEXP_2, function (match /*, separator, chr */) { return match.toLowerCase(); }); }); var STRING_CLASSIFY_REGEXP_1 = /^(\-|_)+(.)?/; var STRING_CLASSIFY_REGEXP_2 = /(.)(\-|\_|\.|\s)+(.)?/g; var STRING_CLASSIFY_REGEXP_3 = /(^|\/|\.)([a-z])/g; var CLASSIFY_CACHE = new _emberMetal.Cache(1000, function (str) { var replace1 = function (match, separator, chr) { return chr ? '_' + chr.toUpperCase() : ''; }, i; var replace2 = function (match, initialChar, separator, chr) { return initialChar + (chr ? chr.toUpperCase() : ''); }; var parts = str.split('/'); for (i = 0; i < parts.length; i++) { parts[i] = parts[i].replace(STRING_CLASSIFY_REGEXP_1, replace1).replace(STRING_CLASSIFY_REGEXP_2, replace2); } return parts.join('/').replace(STRING_CLASSIFY_REGEXP_3, function (match /*, separator, chr */) { return match.toUpperCase(); }); }); var STRING_UNDERSCORE_REGEXP_1 = /([a-z\d])([A-Z]+)/g; var STRING_UNDERSCORE_REGEXP_2 = /\-|\s+/g; var UNDERSCORE_CACHE = new _emberMetal.Cache(1000, function (str) { return str.replace(STRING_UNDERSCORE_REGEXP_1, '$1_$2').replace(STRING_UNDERSCORE_REGEXP_2, '_').toLowerCase(); }); var STRING_CAPITALIZE_REGEXP = /(^|\/)([a-z\u00C0-\u024F])/g; var CAPITALIZE_CACHE = new _emberMetal.Cache(1000, function (str) { return str.replace(STRING_CAPITALIZE_REGEXP, function (match /*, separator, chr */) { return match.toUpperCase(); }); }); var STRING_DECAMELIZE_REGEXP = /([a-z\d])([A-Z])/g; var DECAMELIZE_CACHE = new _emberMetal.Cache(1000, function (str) { return str.replace(STRING_DECAMELIZE_REGEXP, '$1_$2').toLowerCase(); }); function _fmt(str, formats) { var cachedFormats = formats, i; if (!(0, _utils.isArray)(cachedFormats) || arguments.length > 2) { cachedFormats = new Array(arguments.length - 1); for (i = 1; i < arguments.length; i++) { cachedFormats[i - 1] = arguments[i]; } } // first, replace any ORDERED replacements. var idx = 0; // the current index for non-numerical replacements return str.replace(/%@([0-9]+)?/g, function (s, argIndex) { argIndex = argIndex ? parseInt(argIndex, 10) - 1 : idx++; s = cachedFormats[argIndex]; return s === null ? '(null)' : s === undefined ? '' : (0, _emberUtils.inspect)(s); }); } function loc(str, formats) { if (!(0, _utils.isArray)(formats) || arguments.length > 2) { formats = Array.prototype.slice.call(arguments, 1); } str = (0, _string_registry.get)(str) || str; return _fmt(str, formats); } function w(str) { return str.split(/\s+/); } function decamelize(str) { return DECAMELIZE_CACHE.get(str); } function dasherize(str) { return STRING_DASHERIZE_CACHE.get(str); } function camelize(str) { return CAMELIZE_CACHE.get(str); } function classify(str) { return CLASSIFY_CACHE.get(str); } function underscore(str) { return UNDERSCORE_CACHE.get(str); } function capitalize(str) { return CAPITALIZE_CACHE.get(str); } /** Defines string helper methods including string formatting and localization. Unless `EmberENV.EXTEND_PROTOTYPES.String` is `false` these methods will also be added to the `String.prototype` as well. @class String @public */ exports.default = { /** Formats the passed string, but first looks up the string in the localized strings hash. This is a convenient way to localize text. Note that it is traditional but not required to prefix localized string keys with an underscore or other character so you can easily identify localized strings. ```javascript Ember.STRINGS = { '_Hello World': 'Bonjour le monde', '_Hello %@ %@': 'Bonjour %@ %@' }; Ember.String.loc("_Hello World"); // 'Bonjour le monde'; Ember.String.loc("_Hello %@ %@", ["John", "Smith"]); // "Bonjour John Smith"; ``` @method loc @param {String} str The string to format @param {Array} formats Optional array of parameters to interpolate into string. @return {String} formatted string @public */ loc: loc, /** Splits a string into separate units separated by spaces, eliminating any empty strings in the process. This is a convenience method for split that is mostly useful when applied to the `String.prototype`. ```javascript Ember.String.w("alpha beta gamma").forEach(function(key) { console.log(key); }); // > alpha // > beta // > gamma ``` @method w @param {String} str The string to split @return {Array} array containing the split strings @public */ w: w, /** Converts a camelized string into all lower case separated by underscores. ```javascript 'innerHTML'.decamelize(); // 'inner_html' 'action_name'.decamelize(); // 'action_name' 'css-class-name'.decamelize(); // 'css-class-name' 'my favorite items'.decamelize(); // 'my favorite items' ``` @method decamelize @param {String} str The string to decamelize. @return {String} the decamelized string. @public */ decamelize: decamelize, /** Replaces underscores, spaces, or camelCase with dashes. ```javascript 'innerHTML'.dasherize(); // 'inner-html' 'action_name'.dasherize(); // 'action-name' 'css-class-name'.dasherize(); // 'css-class-name' 'my favorite items'.dasherize(); // 'my-favorite-items' 'privateDocs/ownerInvoice'.dasherize(); // 'private-docs/owner-invoice' ``` @method dasherize @param {String} str The string to dasherize. @return {String} the dasherized string. @public */ dasherize: dasherize, /** Returns the lowerCamelCase form of a string. ```javascript 'innerHTML'.camelize(); // 'innerHTML' 'action_name'.camelize(); // 'actionName' 'css-class-name'.camelize(); // 'cssClassName' 'my favorite items'.camelize(); // 'myFavoriteItems' 'My Favorite Items'.camelize(); // 'myFavoriteItems' 'private-docs/owner-invoice'.camelize(); // 'privateDocs/ownerInvoice' ``` @method camelize @param {String} str The string to camelize. @return {String} the camelized string. @public */ camelize: camelize, /** Returns the UpperCamelCase form of a string. ```javascript 'innerHTML'.classify(); // 'InnerHTML' 'action_name'.classify(); // 'ActionName' 'css-class-name'.classify(); // 'CssClassName' 'my favorite items'.classify(); // 'MyFavoriteItems' 'private-docs/owner-invoice'.classify(); // 'PrivateDocs/OwnerInvoice' ``` @method classify @param {String} str the string to classify @return {String} the classified string @public */ classify: classify, /** More general than decamelize. Returns the lower\_case\_and\_underscored form of a string. ```javascript 'innerHTML'.underscore(); // 'inner_html' 'action_name'.underscore(); // 'action_name' 'css-class-name'.underscore(); // 'css_class_name' 'my favorite items'.underscore(); // 'my_favorite_items' 'privateDocs/ownerInvoice'.underscore(); // 'private_docs/owner_invoice' ``` @method underscore @param {String} str The string to underscore. @return {String} the underscored string. @public */ underscore: underscore, /** Returns the Capitalized form of a string ```javascript 'innerHTML'.capitalize() // 'InnerHTML' 'action_name'.capitalize() // 'Action_name' 'css-class-name'.capitalize() // 'Css-class-name' 'my favorite items'.capitalize() // 'My favorite items' 'privateDocs/ownerInvoice'.capitalize(); // 'PrivateDocs/ownerInvoice' ``` @method capitalize @param {String} str The string to capitalize. @return {String} The capitalized string. @public */ capitalize: capitalize }; exports.loc = loc; exports.w = w; exports.decamelize = decamelize; exports.dasherize = dasherize; exports.camelize = camelize; exports.classify = classify; exports.underscore = underscore; exports.capitalize = capitalize; }); enifed('ember-runtime/utils', ['exports', 'ember-runtime/mixins/array', 'ember-runtime/system/object'], function (exports, _array, _object) { 'use strict'; exports.isArray = /** @module @ember/array */ /** Returns true if the passed object is an array or Array-like. Objects are considered Array-like if any of the following are true: - the object is a native Array - the object has an objectAt property - the object is an Object, and has a length property Unlike `Ember.typeOf` this method returns true even if the passed object is not formally an array but appears to be array-like (i.e. implements `Ember.Array`) ```javascript Ember.isArray(); // false Ember.isArray([]); // true Ember.isArray(Ember.ArrayProxy.create({ content: [] })); // true ``` @method isArray @static @for @ember/array @param {Object} obj The object to test @return {Boolean} true if the passed object is an array or Array-like @public */ function (obj) { if (!obj || obj.setInterval) { return false; } if (Array.isArray(obj)) { return true; } if (_array.default.detect(obj)) { return true; } var type = typeOf(obj); if ('array' === type) { return true; } var length = obj.length; if (typeof length === 'number' && length === length && 'object' === type) { return true; } return false; } /** @module @ember/utils */ /** Returns a consistent type for the passed object. Use this instead of the built-in `typeof` to get the type of an item. It will return the same result across all browsers and includes a bit more detail. Here is what will be returned: | Return Value | Meaning | |---------------|------------------------------------------------------| | 'string' | String primitive or String object. | | 'number' | Number primitive or Number object. | | 'boolean' | Boolean primitive or Boolean object. | | 'null' | Null value | | 'undefined' | Undefined value | | 'function' | A function | | 'array' | An instance of Array | | 'regexp' | An instance of RegExp | | 'date' | An instance of Date | | 'filelist' | An instance of FileList | | 'class' | An Ember class (created using Ember.Object.extend()) | | 'instance' | An Ember object instance | | 'error' | An instance of the Error object | | 'object' | A JavaScript object not inheriting from Ember.Object | Examples: ```javascript Ember.typeOf(); // 'undefined' Ember.typeOf(null); // 'null' Ember.typeOf(undefined); // 'undefined' Ember.typeOf('michael'); // 'string' Ember.typeOf(new String('michael')); // 'string' Ember.typeOf(101); // 'number' Ember.typeOf(new Number(101)); // 'number' Ember.typeOf(true); // 'boolean' Ember.typeOf(new Boolean(true)); // 'boolean' Ember.typeOf(Ember.A); // 'function' Ember.typeOf([1, 2, 90]); // 'array' Ember.typeOf(/abc/); // 'regexp' Ember.typeOf(new Date()); // 'date' Ember.typeOf(event.target.files); // 'filelist' Ember.typeOf(Ember.Object.extend()); // 'class' Ember.typeOf(Ember.Object.create()); // 'instance' Ember.typeOf(new Error('teamocil')); // 'error' // 'normal' JavaScript object Ember.typeOf({ a: 'b' }); // 'object' ``` @method typeOf @for @ember/utils @param {Object} item the item to check @return {String} the type @public @static */ ; exports.typeOf = typeOf; // ........................................ // TYPING & ARRAY MESSAGING // var TYPE_MAP = { '[object Boolean]': 'boolean', '[object Number]': 'number', '[object String]': 'string', '[object Function]': 'function', '[object Array]': 'array', '[object Date]': 'date', '[object RegExp]': 'regexp', '[object Object]': 'object', '[object FileList]': 'filelist' }; var toString = Object.prototype.toString;function typeOf(item) { if (item === null) { return 'null'; } if (item === undefined) { return 'undefined'; } var ret = TYPE_MAP[toString.call(item)] || 'object'; if (ret === 'function') { if (_object.default.detect(item)) { ret = 'class'; } } else if (ret === 'object') { if (item instanceof Error) { ret = 'error'; } else if (item instanceof _object.default) { ret = 'instance'; } else if (item instanceof Date) { ret = 'date'; } } return ret; } }); enifed('ember-utils', ['exports'], function (exports) { 'use strict'; /** Strongly hint runtimes to intern the provided string. When do I need to use this function? For the most part, never. Pre-mature optimization is bad, and often the runtime does exactly what you need it to, and more often the trade-off isn't worth it. Why? Runtimes store strings in at least 2 different representations: Ropes and Symbols (interned strings). The Rope provides a memory efficient data-structure for strings created from concatenation or some other string manipulation like splitting. Unfortunately checking equality of different ropes can be quite costly as runtimes must resort to clever string comparison algorithms. These algorithms typically cost in proportion to the length of the string. Luckily, this is where the Symbols (interned strings) shine. As Symbols are unique by their string content, equality checks can be done by pointer comparison. How do I know if my string is a rope or symbol? Typically (warning general sweeping statement, but truthy in runtimes at present) static strings created as part of the JS source are interned. Strings often used for comparisons can be interned at runtime if some criteria are met. One of these criteria can be the size of the entire rope. For example, in chrome 38 a rope longer then 12 characters will not intern, nor will segments of that rope. Some numbers: http://jsperf.com/eval-vs-keys/8 Known Trick™ @private @return {String} interned version of the provided string */ function intern(str) { var obj = {}; obj[str] = 1; for (var key in obj) { if (key === str) { return key; } } return str; } /** @module @ember/object */ /** Previously we used `Ember.$.uuid`, however `$.uuid` has been removed from jQuery master. We'll just bootstrap our own uuid now. @private @return {Number} the uuid */ var _uuid = 0; /** Generates a universally unique identifier. This method is used internally by Ember for assisting with the generation of GUID's and other unique identifiers. @public @return {Number} [description] */ function uuid() { return ++_uuid; } /** Prefix used for guids through out Ember. @private @property GUID_PREFIX @for Ember @type String @final */ // Used for guid generation... var numberCache = []; var stringCache = {}; /** A unique key used to assign guids and other private metadata to objects. If you inspect an object in your browser debugger you will often see these. They can be safely ignored. On browsers that support it, these properties are added with enumeration disabled so they won't show up when you iterate over your properties. @private @property GUID_KEY @for Ember @type String @final */ var GUID_KEY = intern('__ember' + +new Date()); var GUID_DESC = { writable: true, configurable: true, enumerable: false, value: null }; var GUID_KEY_PROPERTY = { name: GUID_KEY, descriptor: { configurable: true, writable: true, enumerable: false, value: null } }; /** Generates a new guid, optionally saving the guid to the object that you pass in. You will rarely need to use this method. Instead you should call `Ember.guidFor(obj)`, which return an existing guid if available. @private @method generateGuid @static @for @ember/object/internals @param {Object} [obj] Object the guid will be used for. If passed in, the guid will be saved on the object and reused whenever you pass the same object again. If no object is passed, just generate a new guid. @param {String} [prefix] Prefix to place in front of the guid. Useful when you want to separate the guid into separate namespaces. @return {String} the guid */ function generateGuid(obj) { var prefix = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 'ember'; var ret = prefix + uuid(); if (obj !== undefined && obj !== null) { if (obj[GUID_KEY] === null) { obj[GUID_KEY] = ret; } else { GUID_DESC.value = ret; if (obj.__defineNonEnumerable) { obj.__defineNonEnumerable(GUID_KEY_PROPERTY); } else { Object.defineProperty(obj, GUID_KEY, GUID_DESC); } } } return ret; } /** Returns a unique id for the object. If the object does not yet have a guid, one will be assigned to it. You can call this on any object, `Ember.Object`-based or not, but be aware that it will add a `_guid` property. You can also use this method on DOM Element objects. @public @static @method guidFor @for @ember/object/internals @param {Object} obj any object, string, number, Element, or primitive @return {String} the unique guid for this instance. */ function symbol(debugName) { // TODO: Investigate using platform symbols, but we do not // want to require non-enumerability for this API, which // would introduce a large cost. var id = GUID_KEY + Math.floor(Math.random() * new Date()); return intern('__' + debugName + id + '__'); } /** @module @ember/application */ var OWNER = symbol('OWNER'); /** Framework objects in an Ember application (components, services, routes, etc.) are created via a factory and dependency injection system. Each of these objects is the responsibility of an "owner", which handled its instantiation and manages its lifetime. `getOwner` fetches the owner object responsible for an instance. This can be used to lookup or resolve other class instances, or register new factories into the owner. For example, this component dynamically looks up a service based on the `audioType` passed as an attribute: ```app/components/play-audio.js import Component from '@ember/component'; import { computed } from '@ember/object'; import { getOwner } from '@ember/application'; // Usage: // // {{play-audio audioType=model.audioType audioFile=model.file}} // export default Component.extend({ audioService: computed('audioType', function() { let owner = getOwner(this); return owner.lookup(`service:${this.get('audioType')}`); }), click() { let player = this.get('audioService'); player.play(this.get('audioFile')); } }); ``` @method getOwner @static @for @ember/application @param {Object} object An object with an owner. @return {Object} An owner object. @since 2.3.0 @public */ /** `setOwner` forces a new owner on a given object instance. This is primarily useful in some testing cases. @method setOwner @static @for @ember/application @param {Object} object An object instance. @param {Object} object The new owner object of the object instance. @since 2.3.0 @public */ /** @module @ember/polyfills */ /** Copy properties from a source object to a target object. ```javascript var a = { first: 'Yehuda' }; var b = { last: 'Katz' }; var c = { company: 'Tilde Inc.' }; Ember.assign(a, b, c); // a === { first: 'Yehuda', last: 'Katz', company: 'Tilde Inc.' }, b === { last: 'Katz' }, c === { company: 'Tilde Inc.' } ``` @method assign @for @ember/polyfills @param {Object} original The object to assign into @param {Object} ...args The objects to copy properties from @return {Object} @public @static */ function assign(original) { var i, arg, updates, _i, prop; for (i = 1; i < arguments.length; i++) { arg = arguments[i]; if (!arg) { continue; } updates = Object.keys(arg); for (_i = 0; _i < updates.length; _i++) { prop = updates[_i]; original[prop] = arg[prop]; } } return original; } var assign$1 = Object.assign || assign; // the delete is meant to hint at runtimes that this object should remain in // dictionary mode. This is clearly a runtime specific hack, but currently it // appears worthwhile in some usecases. Please note, these deletes do increase // the cost of creation dramatically over a plain Object.create. And as this // only makes sense for long-lived dictionaries that aren't instantiated often. var HAS_SUPER_PATTERN = /\.(_super|call\(this|apply\(this)/; var fnToString = Function.prototype.toString; var checkHasSuper = function () { var sourceAvailable = fnToString.call(function () { return this; }).indexOf('return this') > -1; if (sourceAvailable) { return function (func) { return HAS_SUPER_PATTERN.test(fnToString.call(func)); }; } return function () { return true; }; }(); function ROOT() {} ROOT.__hasSuper = false; function hasSuper(func) { if (func.__hasSuper === undefined) { func.__hasSuper = checkHasSuper(func); } return func.__hasSuper; } /** Wraps the passed function so that `this._super` will point to the superFunc when the function is invoked. This is the primitive we use to implement calls to super. @private @method wrap @for Ember @param {Function} func The function to call @param {Function} superFunc The super function. @return {Function} wrapped function. */ function _wrap(func, superFunc) { function superWrapper() { var orig = this._super; this._super = superFunc; var ret = func.apply(this, arguments); this._super = orig; return ret; } superWrapper.wrappedFunction = func; superWrapper.__ember_observes__ = func.__ember_observes__; superWrapper.__ember_observesBefore__ = func.__ember_observesBefore__; superWrapper.__ember_listens__ = func.__ember_listens__; return superWrapper; } var objectToString = Object.prototype.toString; /** @module @ember/debug */ /** Convenience method to inspect an object. This method will attempt to convert the object into a useful string description. It is a pretty simple implementation. If you want something more robust, use something like JSDump: https://github.com/NV/jsDump @method inspect @static @param {Object} obj The object you want to inspect. @return {String} A description of the object @since 1.4.0 @private */ /** @param {Object} t target @param {String} m method @param {Array} a args @private */ function applyStr(t, m, a) { var l = a && a.length; if (!a || !l) { return t[m](); } switch (l) { case 1: return t[m](a[0]); case 2: return t[m](a[0], a[1]); case 3: return t[m](a[0], a[1], a[2]); case 4: return t[m](a[0], a[1], a[2], a[3]); case 5: return t[m](a[0], a[1], a[2], a[3], a[4]); default: return t[m].apply(t, a); } } /** Checks to see if the `methodName` exists on the `obj`. ```javascript let foo = { bar: function() { return 'bar'; }, baz: null }; Ember.canInvoke(foo, 'bar'); // true Ember.canInvoke(foo, 'baz'); // false Ember.canInvoke(foo, 'bat'); // false ``` @method canInvoke @for Ember @param {Object} obj The object to check for the method @param {String} methodName The method name to check for @return {Boolean} @private */ function canInvoke(obj, methodName) { return obj !== null && obj !== undefined && typeof obj[methodName] === 'function'; } /** Checks to see if the `methodName` exists on the `obj`, and if it does, invokes it with the arguments passed. ```javascript let d = new Date('03/15/2013'); Ember.tryInvoke(d, 'getTime'); // 1363320000000 Ember.tryInvoke(d, 'setFullYear', [2014]); // 1394856000000 Ember.tryInvoke(d, 'noSuchMethod', [2014]); // undefined ``` @method tryInvoke @for Ember @param {Object} obj The object to check for the method @param {String} methodName The method name to check for @param {Array} [args] The arguments to pass to the method @return {*} the return value of the invoked method or undefined if it cannot be invoked @public */ var isArray = Array.isArray; /** @module @ember/array */ /** Forces the passed object to be part of an array. If the object is already an array, it will return the object. Otherwise, it will add the object to an array. If obj is `null` or `undefined`, it will return an empty array. ```javascript Ember.makeArray(); // [] Ember.makeArray(null); // [] Ember.makeArray(undefined); // [] Ember.makeArray('lindsay'); // ['lindsay'] Ember.makeArray([1, 2, 42]); // [1, 2, 42] let controller = Ember.ArrayProxy.create({ content: [] }); Ember.makeArray(controller) === controller; // true ``` @method makeArray @static @for @ember/array @param {Object} obj the object @return {Array} @private */ var name = symbol('NAME_KEY'); var objectToString$1 = Object.prototype.toString; function isNone(obj) { return obj === null || obj === undefined; } /* A `toString` util function that supports objects without a `toString` method, e.g. an object created with `Object.create(null)`. */ function toString(obj) { var len, r, k; if (typeof obj === "string") { return obj; } if (Array.isArray(obj)) { // Reimplement Array.prototype.join according to spec (22.1.3.13) // Changing ToString(element) with this safe version of ToString. len = obj.length; r = ''; for (k = 0; k < len; k++) { if (k > 0) { r += ','; } if (!isNone(obj[k])) { r += toString(obj[k]); } } return r; } else if (obj != null && typeof obj.toString === 'function') { return obj.toString(); } else { return objectToString$1.call(obj); } } var HAS_NATIVE_PROXY = typeof Proxy === 'function'; /* This package will be eagerly parsed and should have no dependencies on external packages. It is intended to be used to share utility methods that will be needed by every Ember application (and is **not** a dumping ground of useful utilities). Utility methods that are needed in < 80% of cases should be placed elsewhere (so they can be lazily evaluated / parsed). */ exports.symbol = symbol; exports.getOwner = function (object) { return object[OWNER]; }; exports.setOwner = function (object, owner) { object[OWNER] = owner; }; exports.OWNER = OWNER; exports.assign = assign$1; exports.assignPolyfill = assign; exports.dictionary = function (parent) { var dict = Object.create(parent); dict['_dict'] = null; delete dict['_dict']; return dict; }; exports.uuid = uuid; exports.GUID_KEY = GUID_KEY; exports.GUID_DESC = GUID_DESC; exports.GUID_KEY_PROPERTY = GUID_KEY_PROPERTY; exports.generateGuid = generateGuid; exports.guidFor = function (obj) { // special cases where we don't want to add a key to object if (obj === undefined) { return '(undefined)'; } if (obj === null) { return '(null)'; } var type = typeof obj; if ((type === 'object' || type === 'function') && obj[GUID_KEY]) { return obj[GUID_KEY]; } var ret = void 0; // Don't allow prototype changes to String etc. to change the guidFor switch (type) { case 'number': ret = numberCache[obj]; if (!ret) { ret = numberCache[obj] = 'nu' + obj; } return ret; case 'string': ret = stringCache[obj]; if (!ret) { ret = stringCache[obj] = 'st' + uuid(); } return ret; case 'boolean': return obj ? '(true)' : '(false)'; default: if (obj === Object) { return '(Object)'; } if (obj === Array) { return '(Array)'; } return generateGuid(obj); } }; exports.intern = intern; exports.checkHasSuper = checkHasSuper; exports.ROOT = ROOT; exports.wrap = function (func, superFunc) { if (!hasSuper(func)) { return func; } // ensure an unwrapped super that calls _super is wrapped with a terminal _super if (!superFunc.wrappedFunction && hasSuper(superFunc)) { return _wrap(func, _wrap(superFunc, ROOT)); } return _wrap(func, superFunc); }; exports.inspect = function (obj) { if (obj === null) { return 'null'; } if (obj === undefined) { return 'undefined'; } if (Array.isArray(obj)) { return '[' + obj + ']'; } // for non objects var type = typeof obj; if (type !== 'object' && type !== 'symbol') { return '' + obj; } // overridden toString if (typeof obj.toString === 'function' && obj.toString !== objectToString) { return obj.toString(); } // Object.prototype.toString === {}.toString var v = void 0; var ret = []; for (var key in obj) { if (obj.hasOwnProperty(key)) { v = obj[key]; if (v === 'toString') { continue; } // ignore useless items if (typeof v === 'function') { v = 'function() { ... }'; } if (v && typeof v.toString !== 'function') { ret.push(key + ': ' + objectToString.call(v)); } else { ret.push(key + ': ' + v); } } } return '{' + ret.join(', ') + '}'; }; exports.lookupDescriptor = function (obj, keyName) { var current = obj, descriptor; while (current) { descriptor = Object.getOwnPropertyDescriptor(current, keyName); if (descriptor) { return descriptor; } current = Object.getPrototypeOf(current); } return null; }; exports.canInvoke = canInvoke; exports.tryInvoke = function (obj, methodName, args) { if (canInvoke(obj, methodName)) { return applyStr(obj, methodName, args); } }; exports.makeArray = function (obj) { if (obj === null || obj === undefined) { return []; } return isArray(obj) ? obj : [obj]; }; exports.applyStr = applyStr; exports.NAME_KEY = name; exports.toString = toString; exports.HAS_NATIVE_PROXY = HAS_NATIVE_PROXY; }); enifed('ember-views/compat/attrs', ['exports', 'ember-utils'], function (exports, _emberUtils) { 'use strict'; exports.MUTABLE_CELL = undefined; exports.MUTABLE_CELL = (0, _emberUtils.symbol)('MUTABLE_CELL'); }); enifed('ember-views/compat/fallback-view-registry', ['exports', 'ember-utils'], function (exports, _emberUtils) { 'use strict'; exports.default = (0, _emberUtils.dictionary)(null); }); enifed('ember-views/component_lookup', ['exports', 'ember-debug', 'ember-runtime'], function (exports, _emberDebug, _emberRuntime) { 'use strict'; exports.default = _emberRuntime.Object.extend({ componentFor: function (name, owner, options) { false && !~name.indexOf('-') && (0, _emberDebug.assert)('You cannot use \'' + name + '\' as a component name. Component names must contain a hyphen.', ~name.indexOf('-')); return owner.factoryFor('component:' + name, options); }, layoutFor: function (name, owner, options) { false && !~name.indexOf('-') && (0, _emberDebug.assert)('You cannot use \'' + name + '\' as a component name. Component names must contain a hyphen.', ~name.indexOf('-')); return owner.lookup('template:components/' + name, options); } }); }); enifed('ember-views/index', ['exports', 'ember-views/system/jquery', 'ember-views/system/utils', 'ember-views/system/event_dispatcher', 'ember-views/component_lookup', 'ember-views/mixins/text_support', 'ember-views/views/core_view', 'ember-views/mixins/class_names_support', 'ember-views/mixins/child_views_support', 'ember-views/mixins/view_state_support', 'ember-views/mixins/view_support', 'ember-views/mixins/action_support', 'ember-views/compat/attrs', 'ember-views/system/lookup_partial', 'ember-views/utils/lookup-component', 'ember-views/system/action_manager', 'ember-views/compat/fallback-view-registry', 'ember-views/system/ext'], function (exports, _jquery, _utils, _event_dispatcher, _component_lookup, _text_support, _core_view, _class_names_support, _child_views_support, _view_state_support, _view_support, _action_support, _attrs, _lookup_partial, _lookupComponent, _action_manager, _fallbackViewRegistry) { 'use strict'; exports.fallbackViewRegistry = exports.ActionManager = exports.lookupComponent = exports.hasPartial = exports.lookupPartial = exports.MUTABLE_CELL = exports.ActionSupport = exports.ViewMixin = exports.ViewStateSupport = exports.ChildViewsSupport = exports.ClassNamesSupport = exports.CoreView = exports.TextSupport = exports.ComponentLookup = exports.EventDispatcher = exports.constructStyleDeprecationMessage = exports.setViewElement = exports.getViewElement = exports.getViewId = exports.getChildViews = exports.getRootViews = exports.getViewBoundingClientRect = exports.getViewClientRects = exports.getViewBounds = exports.isSimpleClick = exports.jQuery = undefined; Object.defineProperty(exports, 'jQuery', { enumerable: true, get: function () { return _jquery.default; } }); Object.defineProperty(exports, 'isSimpleClick', { enumerable: true, get: function () { return _utils.isSimpleClick; } }); Object.defineProperty(exports, 'getViewBounds', { enumerable: true, get: function () { return _utils.getViewBounds; } }); Object.defineProperty(exports, 'getViewClientRects', { enumerable: true, get: function () { return _utils.getViewClientRects; } }); Object.defineProperty(exports, 'getViewBoundingClientRect', { enumerable: true, get: function () { return _utils.getViewBoundingClientRect; } }); Object.defineProperty(exports, 'getRootViews', { enumerable: true, get: function () { return _utils.getRootViews; } }); Object.defineProperty(exports, 'getChildViews', { enumerable: true, get: function () { return _utils.getChildViews; } }); Object.defineProperty(exports, 'getViewId', { enumerable: true, get: function () { return _utils.getViewId; } }); Object.defineProperty(exports, 'getViewElement', { enumerable: true, get: function () { return _utils.getViewElement; } }); Object.defineProperty(exports, 'setViewElement', { enumerable: true, get: function () { return _utils.setViewElement; } }); Object.defineProperty(exports, 'constructStyleDeprecationMessage', { enumerable: true, get: function () { return _utils.constructStyleDeprecationMessage; } }); Object.defineProperty(exports, 'EventDispatcher', { enumerable: true, get: function () { return _event_dispatcher.default; } }); Object.defineProperty(exports, 'ComponentLookup', { enumerable: true, get: function () { return _component_lookup.default; } }); Object.defineProperty(exports, 'TextSupport', { enumerable: true, get: function () { return _text_support.default; } }); Object.defineProperty(exports, 'CoreView', { enumerable: true, get: function () { return _core_view.default; } }); Object.defineProperty(exports, 'ClassNamesSupport', { enumerable: true, get: function () { return _class_names_support.default; } }); Object.defineProperty(exports, 'ChildViewsSupport', { enumerable: true, get: function () { return _child_views_support.default; } }); Object.defineProperty(exports, 'ViewStateSupport', { enumerable: true, get: function () { return _view_state_support.default; } }); Object.defineProperty(exports, 'ViewMixin', { enumerable: true, get: function () { return _view_support.default; } }); Object.defineProperty(exports, 'ActionSupport', { enumerable: true, get: function () { return _action_support.default; } }); Object.defineProperty(exports, 'MUTABLE_CELL', { enumerable: true, get: function () { return _attrs.MUTABLE_CELL; } }); Object.defineProperty(exports, 'lookupPartial', { enumerable: true, get: function () { return _lookup_partial.default; } }); Object.defineProperty(exports, 'hasPartial', { enumerable: true, get: function () { return _lookup_partial.hasPartial; } }); Object.defineProperty(exports, 'lookupComponent', { enumerable: true, get: function () { return _lookupComponent.default; } }); Object.defineProperty(exports, 'ActionManager', { enumerable: true, get: function () { return _action_manager.default; } }); Object.defineProperty(exports, 'fallbackViewRegistry', { enumerable: true, get: function () { return _fallbackViewRegistry.default; } }); }); enifed('ember-views/mixins/action_support', ['exports', 'ember-utils', 'ember-metal', 'ember-debug', 'ember-views/compat/attrs'], function (exports, _emberUtils, _emberMetal, _emberDebug, _attrs) { 'use strict'; /** @module ember */ function validateAction(component, actionName) { if (actionName && actionName[_attrs.MUTABLE_CELL]) { actionName = actionName.value; } false && !((0, _emberMetal.isNone)(actionName) || typeof actionName === 'string' || typeof actionName === 'function') && (0, _emberDebug.assert)('The default action was triggered on the component ' + component.toString() + ', but the action name (' + actionName + ') was not a string.', (0, _emberMetal.isNone)(actionName) || typeof actionName === 'string' || typeof actionName === 'function'); return actionName; } /** @class ActionSupport @namespace Ember @private */ exports.default = _emberMetal.Mixin.create({ /** Calls an action passed to a component. For example a component for playing or pausing music may translate click events into action notifications of "play" or "stop" depending on some internal state of the component: ```app/components/play-button.js import Component from '@ember/component'; export default Component.extend({ click() { if (this.get('isPlaying')) { this.sendAction('play'); } else { this.sendAction('stop'); } } }); ``` The actions "play" and "stop" must be passed to this `play-button` component: ```handlebars {{! app/templates/application.hbs }} {{play-button play=(action "musicStarted") stop=(action "musicStopped")}} ``` When the component receives a browser `click` event it translate this interaction into application-specific semantics ("play" or "stop") and calls the specified action. ```app/controller/application.js import Controller from '@ember/controller'; export default Controller.extend({ actions: { musicStarted() { // called when the play button is clicked // and the music started playing }, musicStopped() { // called when the play button is clicked // and the music stopped playing } } }); ``` If no action is passed to `sendAction` a default name of "action" is assumed. ```app/components/next-button.js import Component from '@ember/component'; export default Component.extend({ click() { this.sendAction(); } }); ``` ```handlebars {{! app/templates/application.hbs }} {{next-button action=(action "playNextSongInAlbum")}} ``` ```app/controllers/application.js import Controller from '@ember/controller'; export default Controller.extend({ actions: { playNextSongInAlbum() { ... } } }); ``` @method sendAction @param [action] {String} the action to call @param [params] {*} arguments for the action @public */ sendAction: function (action) { for (_len = arguments.length, contexts = Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { contexts[_key - 1] = arguments[_key]; } var actionName = void 0, _len, contexts, _key; // Send the default action if (action === undefined) { action = 'action'; } actionName = (0, _emberMetal.get)(this, 'attrs.' + action) || (0, _emberMetal.get)(this, action); actionName = validateAction(this, actionName); // If no action name for that action could be found, just abort. if (actionName === undefined) { return; } if (typeof actionName === 'function') { actionName.apply(undefined, contexts); } else { this.triggerAction({ action: actionName, actionContext: contexts }); } }, send: function (actionName) { for (_len2 = arguments.length, args = Array(_len2 > 1 ? _len2 - 1 : 0), _key2 = 1; _key2 < _len2; _key2++) { args[_key2 - 1] = arguments[_key2]; } var action = this.actions && this.actions[actionName], _len2, args, _key2, shouldBubble; if (action) { shouldBubble = action.apply(this, args) === true; if (!shouldBubble) { return; } } var target = (0, _emberMetal.get)(this, 'target'); if (target) { false && !(typeof target.send === 'function') && (0, _emberDebug.assert)('The `target` for ' + this + ' (' + target + ') does not have a `send` method', typeof target.send === 'function'); target.send.apply(target, arguments); } else { false && !action && (0, _emberDebug.assert)((0, _emberUtils.inspect)(this) + ' had no action handler for: ' + actionName, action); } } }); }); enifed('ember-views/mixins/child_views_support', ['exports', 'ember-utils', 'ember-metal', 'ember-views/system/utils'], function (exports, _emberUtils, _emberMetal, _utils) { 'use strict'; exports.default = _emberMetal.Mixin.create({ init: function () { this._super.apply(this, arguments); (0, _utils.initChildViews)(this); }, /** Array of child views. You should never edit this array directly. @property childViews @type Array @default [] @private */ childViews: (0, _emberMetal.descriptor)({ configurable: false, enumerable: false, get: function () { return (0, _utils.getChildViews)(this); } }), appendChild: function (view) { this.linkChild(view); (0, _utils.addChildView)(this, view); }, linkChild: function (instance) { if (!(0, _emberUtils.getOwner)(instance)) { (0, _emberUtils.setOwner)(instance, (0, _emberUtils.getOwner)(this)); } } }); }); enifed('ember-views/mixins/class_names_support', ['exports', 'ember-metal', 'ember-debug'], function (exports, _emberMetal, _emberDebug) { 'use strict'; /** @module ember */ var EMPTY_ARRAY = Object.freeze([]); /** @class ClassNamesSupport @namespace Ember @private */ exports.default = _emberMetal.Mixin.create({ concatenatedProperties: ['classNames', 'classNameBindings'], init: function () { this._super.apply(this, arguments); false && !((0, _emberMetal.descriptorFor)(this, 'classNameBindings') === undefined && Array.isArray(this.classNameBindings)) && (0, _emberDebug.assert)('Only arrays are allowed for \'classNameBindings\'', (0, _emberMetal.descriptorFor)(this, 'classNameBindings') === undefined && Array.isArray(this.classNameBindings)); false && !((0, _emberMetal.descriptorFor)(this, 'classNames') === undefined && Array.isArray(this.classNames)) && (0, _emberDebug.assert)('Only arrays of static class strings are allowed for \'classNames\'. For dynamic classes, use \'classNameBindings\'.', (0, _emberMetal.descriptorFor)(this, 'classNames') === undefined && Array.isArray(this.classNames)); }, /** Standard CSS class names to apply to the view's outer element. This property automatically inherits any class names defined by the view's superclasses as well. @property classNames @type Array @default ['ember-view'] @public */ classNames: EMPTY_ARRAY, /** A list of properties of the view to apply as class names. If the property is a string value, the value of that string will be applied as a class name. ```javascript // Applies the 'high' class to the view element Ember.Component.extend({ classNameBindings: ['priority'], priority: 'high' }); ``` If the value of the property is a Boolean, the name of that property is added as a dasherized class name. ```javascript // Applies the 'is-urgent' class to the view element Ember.Component.extend({ classNameBindings: ['isUrgent'], isUrgent: true }); ``` If you would prefer to use a custom value instead of the dasherized property name, you can pass a binding like this: ```javascript // Applies the 'urgent' class to the view element Ember.Component.extend({ classNameBindings: ['isUrgent:urgent'], isUrgent: true }); ``` This list of properties is inherited from the component's superclasses as well. @property classNameBindings @type Array @default [] @public */ classNameBindings: EMPTY_ARRAY }); }); enifed('ember-views/mixins/text_support', ['exports', 'ember-metal', 'ember-runtime'], function (exports, _emberMetal, _emberRuntime) { 'use strict'; /** @module ember */ var KEY_EVENTS = { 13: 'insertNewline', 27: 'cancel' }; /** `TextSupport` is a shared mixin used by both `Ember.TextField` and `Ember.TextArea`. `TextSupport` adds a number of methods that allow you to specify a controller action to invoke when a certain event is fired on your text field or textarea. The specified controller action would get the current value of the field passed in as the only argument unless the value of the field is empty. In that case, the instance of the field itself is passed in as the only argument. Let's use the pressing of the escape key as an example. If you wanted to invoke a controller action when a user presses the escape key while on your field, you would use the `escape-press` attribute on your field like so: ```handlebars {{! application.hbs}} {{input escape-press='alertUser'}} ``` ```javascript App = Ember.Application.create(); App.ApplicationController = Ember.Controller.extend({ actions: { alertUser: function ( currentValue ) { alert( 'escape pressed, current value: ' + currentValue ); } } }); ``` The following chart is a visual representation of what takes place when the escape key is pressed in this scenario: ``` The Template +---------------------------+ | | | escape-press='alertUser' | | | TextSupport Mixin +----+----------------------+ +-------------------------------+ | | cancel method | | escape button pressed | | +-------------------------------> | checks for the `escape-press` | | attribute and pulls out the | +-------------------------------+ | `alertUser` value | | action name 'alertUser' +-------------------------------+ | sent to controller v Controller +------------------------------------------ + | | | actions: { | | alertUser: function( currentValue ){ | | alert( 'the esc key was pressed!' ) | | } | | } | | | +-------------------------------------------+ ``` Here are the events that we currently support along with the name of the attribute you would need to use on your field. To reiterate, you would use the attribute name like so: ```handlebars {{input attribute-name='controllerAction'}} ``` ``` +--------------------+----------------+ | | | | event | attribute name | +--------------------+----------------+ | new line inserted | insert-newline | | | | | enter key pressed | insert-newline | | | | | cancel key pressed | escape-press | | | | | focusin | focus-in | | | | | focusout | focus-out | | | | | keypress | key-press | | | | | keyup | key-up | | | | | keydown | key-down | +--------------------+----------------+ ``` @class TextSupport @namespace Ember @uses Ember.TargetActionSupport @extends Mixin @private */ exports.default = _emberMetal.Mixin.create(_emberRuntime.TargetActionSupport, { value: '', attributeBindings: ['autocapitalize', 'autocorrect', 'autofocus', 'disabled', 'form', 'maxlength', 'minlength', 'placeholder', 'readonly', 'required', 'selectionDirection', 'spellcheck', 'tabindex', 'title'], placeholder: null, disabled: false, maxlength: null, init: function () { this._super.apply(this, arguments); this.on('paste', this, this._elementValueDidChange); this.on('cut', this, this._elementValueDidChange); this.on('input', this, this._elementValueDidChange); }, /** Whether the `keyUp` event that triggers an `action` to be sent continues propagating to other views. By default, when the user presses the return key on their keyboard and the text field has an `action` set, the action will be sent to the view's controller and the key event will stop propagating. If you would like parent views to receive the `keyUp` event even after an action has been dispatched, set `bubbles` to true. @property bubbles @type Boolean @default false @private */ bubbles: false, interpretKeyEvents: function (event) { var method = KEY_EVENTS[event.keyCode]; this._elementValueDidChange(); if (method) { return this[method](event); } }, _elementValueDidChange: function () { (0, _emberMetal.set)(this, 'value', this.element.value); }, change: function (event) { this._elementValueDidChange(event); }, /** Allows you to specify a controller action to invoke when either the `enter` key is pressed or, in the case of the field being a textarea, when a newline is inserted. To use this method, give your field an `insert-newline` attribute. The value of that attribute should be the name of the action in your controller that you wish to invoke. For an example on how to use the `insert-newline` attribute, please reference the example near the top of this file. @method insertNewline @param {Event} event @private */ insertNewline: function (event) { sendAction('enter', this, event); sendAction('insert-newline', this, event); }, /** Allows you to specify a controller action to invoke when the escape button is pressed. To use this method, give your field an `escape-press` attribute. The value of that attribute should be the name of the action in your controller that you wish to invoke. For an example on how to use the `escape-press` attribute, please reference the example near the top of this file. @method cancel @param {Event} event @private */ cancel: function (event) { sendAction('escape-press', this, event); }, /** Allows you to specify a controller action to invoke when a field receives focus. To use this method, give your field a `focus-in` attribute. The value of that attribute should be the name of the action in your controller that you wish to invoke. For an example on how to use the `focus-in` attribute, please reference the example near the top of this file. @method focusIn @param {Event} event @private */ focusIn: function (event) { sendAction('focus-in', this, event); }, /** Allows you to specify a controller action to invoke when a field loses focus. To use this method, give your field a `focus-out` attribute. The value of that attribute should be the name of the action in your controller that you wish to invoke. For an example on how to use the `focus-out` attribute, please reference the example near the top of this file. @method focusOut @param {Event} event @private */ focusOut: function (event) { this._elementValueDidChange(event); sendAction('focus-out', this, event); }, /** Allows you to specify a controller action to invoke when a key is pressed. To use this method, give your field a `key-press` attribute. The value of that attribute should be the name of the action in your controller you that wish to invoke. For an example on how to use the `key-press` attribute, please reference the example near the top of this file. @method keyPress @param {Event} event @private */ keyPress: function (event) { sendAction('key-press', this, event); }, /** Allows you to specify a controller action to invoke when a key-up event is fired. To use this method, give your field a `key-up` attribute. The value of that attribute should be the name of the action in your controller that you wish to invoke. For an example on how to use the `key-up` attribute, please reference the example near the top of this file. @method keyUp @param {Event} event @private */ keyUp: function (event) { this.interpretKeyEvents(event); this.sendAction('key-up', (0, _emberMetal.get)(this, 'value'), event); }, /** Allows you to specify a controller action to invoke when a key-down event is fired. To use this method, give your field a `key-down` attribute. The value of that attribute should be the name of the action in your controller that you wish to invoke. For an example on how to use the `key-down` attribute, please reference the example near the top of this file. @method keyDown @param {Event} event @private */ keyDown: function (event) { this.sendAction('key-down', (0, _emberMetal.get)(this, 'value'), event); } }); // In principle, this shouldn't be necessary, but the legacy // sendAction semantics for TextField are different from // the component semantics so this method normalizes them. function sendAction(eventName, view, event) { var action = (0, _emberMetal.get)(view, 'attrs.' + eventName) || (0, _emberMetal.get)(view, eventName); var value = (0, _emberMetal.get)(view, 'value'); view.sendAction(eventName, value); if (action && !(0, _emberMetal.get)(view, 'bubbles')) { event.stopPropagation(); } } }); enifed('ember-views/mixins/view_state_support', ['exports', 'ember-metal'], function (exports, _emberMetal) { 'use strict'; exports.default = _emberMetal.Mixin.create({ _transitionTo: function (state) { var priorState = this._currentState; var currentState = this._currentState = this._states[state]; this._state = state; if (priorState && priorState.exit) { priorState.exit(this); } if (currentState.enter) { currentState.enter(this); } } }); }); enifed('ember-views/mixins/view_support', ['exports', 'ember-utils', 'ember-metal', 'ember-debug', 'ember-environment', 'ember-views/system/utils', 'ember-runtime/system/core_object', 'ember-views/system/jquery'], function (exports, _emberUtils, _emberMetal, _emberDebug, _emberEnvironment, _utils, _core_object, _jquery) { 'use strict'; var _Mixin$create; function K() { return this; } /** @class ViewMixin @namespace Ember @private */ exports.default = _emberMetal.Mixin.create((_Mixin$create = { /** A list of properties of the view to apply as attributes. If the property is a string value, the value of that string will be applied as the value for an attribute of the property's name. The following example creates a tag like `
    `. ```app/components/my-component.js import Component from '@ember/component'; export default Component.extend({ attributeBindings: ['priority'], priority: 'high' }); ``` If the value of the property is a Boolean, the attribute is treated as an HTML Boolean attribute. It will be present if the property is `true` and omitted if the property is `false`. The following example creates markup like `
    `. ```app/components/my-component.js import Component from '@ember/component'; export default Component.extend({ attributeBindings: ['visible'], visible: true }); ``` If you would prefer to use a custom value instead of the property name, you can create the same markup as the last example with a binding like this: ```app/components/my-component.js import Component from '@ember/component'; export default Component.extend({ attributeBindings: ['isVisible:visible'], isVisible: true }); ``` This list of attributes is inherited from the component's superclasses, as well. @property attributeBindings @type Array @default [] @public */ concatenatedProperties: ['attributeBindings'] }, _Mixin$create[_core_object.POST_INIT] = function () { if (_emberEnvironment.ENV._ENABLE_DID_INIT_ATTRS_SUPPORT === true) { this.trigger('didInitAttrs'); } this.trigger('didReceiveAttrs'); }, _Mixin$create.nearestOfType = function (klass) { var view = this.parentView; var isOfType = klass instanceof _emberMetal.Mixin ? function (view) { return klass.detect(view); } : function (view) { return klass.detect(view.constructor); }; while (view) { if (isOfType(view)) { return view; } view = view.parentView; } }, _Mixin$create.nearestWithProperty = function (property) { var view = this.parentView; while (view) { if (property in view) { return view; } view = view.parentView; } }, _Mixin$create.rerender = function () { return this._currentState.rerender(this); }, _Mixin$create.element = (0, _emberMetal.descriptor)({ configurable: false, enumerable: false, get: function () { return this.renderer.getElement(this); } }), _Mixin$create.$ = function (sel) { false && !(this.tagName !== '') && (0, _emberDebug.assert)('You cannot access this.$() on a component with `tagName: \'\'` specified.', this.tagName !== ''); if (this.element) { return sel ? (0, _jquery.default)(sel, this.element) : (0, _jquery.default)(this.element); } }, _Mixin$create.appendTo = function (selector) { var env = this._environment || _emberEnvironment.environment; var target = void 0; if (env.hasDOM) { target = typeof selector === 'string' ? document.querySelector(selector) : selector; false && !target && (0, _emberDebug.assert)('You tried to append to (' + selector + ') but that isn\'t in the DOM', target); false && !!(0, _utils.matches)(target, '.ember-view') && (0, _emberDebug.assert)('You cannot append to an existing Ember.View.', !(0, _utils.matches)(target, '.ember-view')); false && !function () { var node = target.parentNode; while (node) { if (node.nodeType !== 9 && (0, _utils.matches)(node, '.ember-view')) { return false; } node = node.parentNode; } return true; }() && (0, _emberDebug.assert)('You cannot append to an existing Ember.View.', function () { var node = target.parentNode;while (node) { if (node.nodeType !== 9 && (0, _utils.matches)(node, '.ember-view')) { return false; }node = node.parentNode; }return true; }()); } else { target = selector; false && !(typeof target !== 'string') && (0, _emberDebug.assert)('You tried to append to a selector string (' + selector + ') in an environment without jQuery', typeof target !== 'string'); false && !(typeof selector.appendChild === 'function') && (0, _emberDebug.assert)('You tried to append to a non-Element (' + selector + ') in an environment without jQuery', typeof selector.appendChild === 'function'); } this.renderer.appendTo(this, target); return this; }, _Mixin$create.append = function () { return this.appendTo(document.body); }, _Mixin$create.elementId = null, _Mixin$create.findElementInParentElement = function (parentElem) { var id = '#' + this.elementId; return (0, _jquery.default)(id)[0] || (0, _jquery.default)(id, parentElem)[0]; }, _Mixin$create.willInsertElement = K, _Mixin$create.didInsertElement = K, _Mixin$create.willClearRender = K, _Mixin$create.destroy = function () { this._super.apply(this, arguments); this._currentState.destroy(this); }, _Mixin$create.willDestroyElement = K, _Mixin$create.parentViewDidChange = K, _Mixin$create.tagName = null, _Mixin$create.init = function () { var owner, dispatcher; this._super.apply(this, arguments); // tslint:disable-next-line:max-line-length false && !((0, _emberMetal.descriptorFor)(this, 'elementId') === undefined) && (0, _emberDebug.assert)('You cannot use a computed property for the component\'s `elementId` (' + this + ').', (0, _emberMetal.descriptorFor)(this, 'elementId') === undefined); // tslint:disable-next-line:max-line-length false && !((0, _emberMetal.descriptorFor)(this, 'tagName') === undefined) && (0, _emberDebug.assert)('You cannot use a computed property for the component\'s `tagName` (' + this + ').', (0, _emberMetal.descriptorFor)(this, 'tagName') === undefined); if (!this.elementId && this.tagName !== '') { this.elementId = (0, _emberUtils.guidFor)(this); } // if we find an `eventManager` property, deopt the // `EventDispatcher`'s `canDispatchToEventManager` property // if `null` if (this.eventManager) { owner = (0, _emberUtils.getOwner)(this); dispatcher = owner && owner.lookup('event_dispatcher:main'); false && !false && (0, _emberDebug.deprecate)('`eventManager` has been deprecated in ' + this + '.', false, { id: 'ember-views.event-dispatcher.canDispatchToEventManager', until: '2.17.0' }); if (dispatcher && !('canDispatchToEventManager' in dispatcher)) { dispatcher.canDispatchToEventManager = true; } } if (_emberEnvironment.environment._ENABLE_DID_INIT_ATTRS_SUPPORT) { false && !(typeof this.didInitAttrs !== 'function') && (0, _emberDebug.deprecate)('[DEPRECATED] didInitAttrs called in ' + this.toString() + '.', typeof this.didInitAttrs !== 'function', { id: 'ember-views.did-init-attrs', until: '3.0.0', url: 'https://emberjs.com/deprecations/v2.x#toc_ember-component-didinitattrs' }); } else { false && !(typeof this.didInitAttrs !== 'function') && (0, _emberDebug.assert)('didInitAttrs called in ' + this.toString() + ' is no longer supported.', typeof this.didInitAttrs !== 'function'); } false && !!this.render && (0, _emberDebug.assert)('Using a custom `.render` function is no longer supported.', !this.render); }, _Mixin$create.__defineNonEnumerable = function (property) { this[property.name] = property.descriptor.value; }, _Mixin$create.handleEvent = function (eventName, evt) { return this._currentState.handleEvent(this, eventName, evt); }, _Mixin$create)); }); enifed("ember-views/system/action_manager", ["exports"], function (exports) { "use strict"; exports.default = ActionManager; /** @module ember */ function ActionManager() {} /** Global action id hash. @private @property registeredActions @type Object */ ActionManager.registeredActions = {}; }); enifed('ember-views/system/event_dispatcher', ['exports', 'ember-utils', 'ember-debug', 'ember-metal', 'ember-runtime', 'ember-views/system/jquery', 'ember-views/system/action_manager', 'ember-views/compat/fallback-view-registry'], function (exports, _emberUtils, _emberDebug, _emberMetal, _emberRuntime, _jquery, _action_manager, _fallbackViewRegistry) { 'use strict'; /** @module ember */ var HAS_JQUERY = _jquery.default !== undefined; var ROOT_ELEMENT_CLASS = 'ember-application'; var ROOT_ELEMENT_SELECTOR = '.' + ROOT_ELEMENT_CLASS; /** `Ember.EventDispatcher` handles delegating browser events to their corresponding `Ember.Views.` For example, when you click on a view, `Ember.EventDispatcher` ensures that that view's `mouseDown` method gets called. @class EventDispatcher @namespace Ember @private @extends Ember.Object */ exports.default = _emberRuntime.Object.extend({ /** The set of events names (and associated handler function names) to be setup and dispatched by the `EventDispatcher`. Modifications to this list can be done at setup time, generally via the `Ember.Application.customEvents` hash. To add new events to be listened to: ```javascript let App = Ember.Application.create({ customEvents: { paste: 'paste' } }); ``` To prevent default events from being listened to: ```javascript let App = Ember.Application.create({ customEvents: { mouseenter: null, mouseleave: null } }); ``` @property events @type Object @private */ events: { touchstart: 'touchStart', touchmove: 'touchMove', touchend: 'touchEnd', touchcancel: 'touchCancel', keydown: 'keyDown', keyup: 'keyUp', keypress: 'keyPress', mousedown: 'mouseDown', mouseup: 'mouseUp', contextmenu: 'contextMenu', click: 'click', dblclick: 'doubleClick', mousemove: 'mouseMove', focusin: 'focusIn', focusout: 'focusOut', mouseenter: 'mouseEnter', mouseleave: 'mouseLeave', submit: 'submit', input: 'input', change: 'change', dragstart: 'dragStart', drag: 'drag', dragenter: 'dragEnter', dragleave: 'dragLeave', dragover: 'dragOver', drop: 'drop', dragend: 'dragEnd' }, /** The root DOM element to which event listeners should be attached. Event listeners will be attached to the document unless this is overridden. Can be specified as a DOMElement or a selector string. The default body is a string since this may be evaluated before document.body exists in the DOM. @private @property rootElement @type DOMElement @default 'body' */ rootElement: 'body', /** It enables events to be dispatched to the view's `eventManager.` When present, this object takes precedence over handling of events on the view itself. Note that most Ember applications do not use this feature. If your app also does not use it, consider setting this property to false to gain some performance improvement by allowing the EventDispatcher to skip the search for the `eventManager` on the view tree. ```javascript let EventDispatcher = Em.EventDispatcher.extend({ events: { click : 'click', focusin : 'focusIn', focusout : 'focusOut', change : 'change' }, canDispatchToEventManager: false }); container.register('event_dispatcher:main', EventDispatcher); ``` @property canDispatchToEventManager @type boolean @default false @since 1.7.0 @deprecated @private */ init: function () { var _this = this; this._super(); false && !function () { var owner = (0, _emberUtils.getOwner)(_this); var environment = owner.lookup('-environment:main'); return environment.isInteractive; }() && (0, _emberDebug.assert)('EventDispatcher should never be instantiated in fastboot mode. Please report this as an Ember bug.', function () { var owner = (0, _emberUtils.getOwner)(_this);var environment = owner.lookup('-environment:main');return environment.isInteractive; }()); false && !!('canDispatchToEventManager' in this) && (0, _emberDebug.deprecate)('`canDispatchToEventManager` has been deprecated in ' + this + '.', !('canDispatchToEventManager' in this), { id: 'ember-views.event-dispatcher.canDispatchToEventManager', until: '2.17.0' }); this._eventHandlers = Object.create(null); }, /** Sets up event listeners for standard browser events. This will be called after the browser sends a `DOMContentReady` event. By default, it will set up all of the listeners on the document body. If you would like to register the listeners on a different element, set the event dispatcher's `root` property. @private @method setup @param addedEvents {Object} */ setup: function (addedEvents, _rootElement) { var event = void 0, rootElement = void 0; var events = this._finalEvents = (0, _emberUtils.assign)({}, (0, _emberMetal.get)(this, 'events'), addedEvents); if (!(0, _emberMetal.isNone)(_rootElement)) { (0, _emberMetal.set)(this, 'rootElement', _rootElement); } var rootElementSelector = (0, _emberMetal.get)(this, 'rootElement'); if (HAS_JQUERY) { rootElement = (0, _jquery.default)(rootElementSelector); false && !!rootElement.is(ROOT_ELEMENT_SELECTOR) && (0, _emberDebug.assert)('You cannot use the same root element (' + (rootElement.selector || rootElement[0].tagName) + ') multiple times in an Ember.Application', !rootElement.is(ROOT_ELEMENT_SELECTOR)); false && !!rootElement.closest(ROOT_ELEMENT_SELECTOR).length && (0, _emberDebug.assert)('You cannot make a new Ember.Application using a root element that is a descendent of an existing Ember.Application', !rootElement.closest(ROOT_ELEMENT_SELECTOR).length); false && !!rootElement.find(ROOT_ELEMENT_SELECTOR).length && (0, _emberDebug.assert)('You cannot make a new Ember.Application using a root element that is an ancestor of an existing Ember.Application', !rootElement.find(ROOT_ELEMENT_SELECTOR).length); rootElement.addClass(ROOT_ELEMENT_CLASS); if (!rootElement.is(ROOT_ELEMENT_SELECTOR)) { throw new TypeError('Unable to add \'' + ROOT_ELEMENT_CLASS + '\' class to root element (' + (rootElement.selector || rootElement[0].tagName) + '). Make sure you set rootElement to the body or an element in the body.'); } } else { if (typeof rootElementSelector !== 'string') { rootElement = rootElementSelector; } else { rootElement = document.querySelector(rootElementSelector); } false && !!rootElement.classList.contains(ROOT_ELEMENT_CLASS) && (0, _emberDebug.assert)('You cannot use the same root element (' + ((0, _emberMetal.get)(this, 'rootElement') || rootElement.tagName) + ') multiple times in an Ember.Application', !rootElement.classList.contains(ROOT_ELEMENT_CLASS)); false && !function () { var target = rootElement.parentNode; do { if (target.classList.contains(ROOT_ELEMENT_CLASS)) { return false; } target = target.parentNode; } while (target && target.nodeType === 1); return true; }() && (0, _emberDebug.assert)('You cannot make a new Ember.Application using a root element that is a descendent of an existing Ember.Application', function () { var target = rootElement.parentNode;do { if (target.classList.contains(ROOT_ELEMENT_CLASS)) { return false; }target = target.parentNode; } while (target && target.nodeType === 1);return true; }()); false && !!rootElement.querySelector(ROOT_ELEMENT_SELECTOR) && (0, _emberDebug.assert)('You cannot make a new Ember.Application using a root element that is an ancestor of an existing Ember.Application', !rootElement.querySelector(ROOT_ELEMENT_SELECTOR)); rootElement.classList.add(ROOT_ELEMENT_CLASS); false && !rootElement.classList.contains(ROOT_ELEMENT_CLASS) && (0, _emberDebug.assert)('Unable to add \'' + ROOT_ELEMENT_CLASS + '\' class to root element (' + ((0, _emberMetal.get)(this, 'rootElement') || rootElement.tagName) + '). Make sure you set rootElement to the body or an element in the body.', rootElement.classList.contains(ROOT_ELEMENT_CLASS)); } var viewRegistry = this._getViewRegistry(); for (event in events) { if (events.hasOwnProperty(event)) { this.setupHandler(rootElement, event, events[event], viewRegistry); } } }, /** Registers an event listener on the rootElement. If the given event is triggered, the provided event handler will be triggered on the target view. If the target view does not implement the event handler, or if the handler returns `false`, the parent view will be called. The event will continue to bubble to each successive parent view until it reaches the top. @private @method setupHandler @param {Element} rootElement @param {String} event the browser-originated event to listen to @param {String} eventName the name of the method to call on the view @param {Object} viewRegistry */ setupHandler: function (rootElement, event, eventName, viewRegistry) { var _this2 = this, viewHandler, actionHandler, handleEvent; var self = this; if (eventName === null) { return; } if (HAS_JQUERY) { rootElement.on(event + '.ember', '.ember-view', function (evt, triggeringManager) { var view = viewRegistry[this.id]; var result = true; var manager = self.canDispatchToEventManager ? self._findNearestEventManager(view, eventName) : null; if (manager && manager !== triggeringManager) { result = self._dispatchEvent(manager, evt, eventName, view); } else if (view) { result = self._bubbleEvent(view, evt, eventName); } return result; }); rootElement.on(event + '.ember', '[data-ember-action]', function (evt) { var attributes = evt.currentTarget.attributes, i, attr, attrName, action; var handledActions = []; for (i = 0; i < attributes.length; i++) { attr = attributes.item(i); attrName = attr.name; if (attrName.lastIndexOf('data-ember-action-', 0) !== -1) { action = _action_manager.default.registeredActions[attr.value]; // We have to check for action here since in some cases, jQuery will trigger // an event on `removeChild` (i.e. focusout) after we've already torn down the // action handlers for the view. if (action && action.eventName === eventName && handledActions.indexOf(action) === -1) { action.handler(evt); // Action handlers can mutate state which in turn creates new attributes on the element. // This effect could cause the `data-ember-action` attribute to shift down and be invoked twice. // To avoid this, we keep track of which actions have been handled. handledActions.push(action); } } } }); } else { viewHandler = function (target, event) { var view = viewRegistry[target.id]; var result = true; if (view) { result = _this2._bubbleEvent(view, event, eventName); } return result; }; actionHandler = function (target, event) { var actionId = target.getAttribute('data-ember-action'), attributes, attributeCount, i, attr, attrName, index, action; var actions = _action_manager.default.registeredActions[actionId]; // In Glimmer2 this attribute is set to an empty string and an additional // attribute it set for each action on a given element. In this case, the // attributes need to be read so that a proper set of action handlers can // be coalesced. if (actionId === '') { attributes = target.attributes; attributeCount = attributes.length; actions = []; for (i = 0; i < attributeCount; i++) { attr = attributes.item(i); attrName = attr.name; if (attrName.indexOf('data-ember-action-') === 0) { actions = actions.concat(_action_manager.default.registeredActions[attr.value]); } } } // We have to check for actions here since in some cases, jQuery will trigger // an event on `removeChild` (i.e. focusout) after we've already torn down the // action handlers for the view. if (!actions) { return; } for (index = 0; index < actions.length; index++) { action = actions[index]; if (action && action.eventName === eventName) { return action.handler(event); } } }; handleEvent = this._eventHandlers[event] = function (event) { var target = event.target; do { if (viewRegistry[target.id]) { if (viewHandler(target, event) === false) { event.preventDefault(); event.stopPropagation(); break; } } else if (target.hasAttribute('data-ember-action')) { actionHandler(target, event); break; } target = target.parentNode; } while (target && target.nodeType === 1); }; rootElement.addEventListener(event, handleEvent); } }, _getViewRegistry: function () { var owner = (0, _emberUtils.getOwner)(this); var viewRegistry = owner && owner.lookup('-view-registry:main') || _fallbackViewRegistry.default; return viewRegistry; }, _findNearestEventManager: function (view, eventName) { var manager = null; while (view) { manager = (0, _emberMetal.get)(view, 'eventManager'); if (manager && manager[eventName]) { break; } view = (0, _emberMetal.get)(view, 'parentView'); } return manager; }, _dispatchEvent: function (object, evt, eventName, view) { var result = true; var handler = object[eventName]; if (typeof handler === 'function') { result = (0, _emberMetal.run)(object, handler, evt, view); // Do not preventDefault in eventManagers. evt.stopPropagation(); } else { result = this._bubbleEvent(view, evt, eventName); } return result; }, _bubbleEvent: function (view, evt, eventName) { return view.handleEvent(eventName, evt); }, destroy: function () { var rootElementSelector = (0, _emberMetal.get)(this, 'rootElement'); var rootElement = void 0; if (rootElementSelector.nodeType) { rootElement = rootElementSelector; } else { rootElement = document.querySelector(rootElementSelector); } if (!rootElement) { return; } if (HAS_JQUERY) { (0, _jquery.default)(rootElementSelector).off('.ember', '**'); } else { for (var event in this._eventHandlers) { rootElement.removeEventListener(event, this._eventHandlers[event]); } } rootElement.classList.remove(ROOT_ELEMENT_CLASS); return this._super.apply(this, arguments); }, toString: function () { return '(EventDispatcher)'; } }); }); enifed('ember-views/system/ext', ['ember-metal'], function (_emberMetal) { 'use strict'; // Add a new named queue for rendering views that happens // after bindings have synced, and a queue for scheduling actions // that should occur after view rendering. _emberMetal.run._addQueue('render', 'actions'); _emberMetal.run._addQueue('afterRender', 'render'); }); enifed('ember-views/system/jquery', ['exports', 'ember-environment'], function (exports, _emberEnvironment) { 'use strict'; var jQuery = void 0; if (_emberEnvironment.environment.hasDOM) { jQuery = _emberEnvironment.context.imports.jQuery; if (jQuery) { if (jQuery.event.addProp) { jQuery.event.addProp('dataTransfer'); } else { // http://www.whatwg.org/specs/web-apps/current-work/multipage/dnd.html#dndevents ['dragstart', 'drag', 'dragenter', 'dragleave', 'dragover', 'drop', 'dragend'].forEach(function (eventName) { jQuery.event.fixHooks[eventName] = { props: ['dataTransfer'] }; }); } } } exports.default = jQuery; }); enifed('ember-views/system/lookup_partial', ['exports', 'ember-debug'], function (exports, _emberDebug) { 'use strict'; exports.default = function (templateName, owner) { if (templateName == null) { return; } var template = templateFor(owner, parseUnderscoredName(templateName), templateName); false && !!!template && (0, _emberDebug.assert)('Unable to find partial with name "' + templateName + '"', !!template); return template; }; exports.hasPartial = function (name, owner) { if (!owner) { throw new _emberDebug.Error('Container was not found when looking up a views template. ' + 'This is most likely due to manually instantiating an Ember.View. ' + 'See: http://git.io/EKPpnA'); } return owner.hasRegistration('template:' + parseUnderscoredName(name)) || owner.hasRegistration('template:' + name); }; function parseUnderscoredName(templateName) { var nameParts = templateName.split('/'); var lastPart = nameParts[nameParts.length - 1]; nameParts[nameParts.length - 1] = '_' + lastPart; return nameParts.join('/'); } function templateFor(owner, underscored, name) { if (!name) { return; } false && !(name.indexOf('.') === -1) && (0, _emberDebug.assert)('templateNames are not allowed to contain periods: ' + name, name.indexOf('.') === -1); if (!owner) { throw new _emberDebug.Error('Container was not found when looking up a views template. ' + 'This is most likely due to manually instantiating an Ember.View. ' + 'See: http://git.io/EKPpnA'); } return owner.lookup('template:' + underscored) || owner.lookup('template:' + name); } }); enifed('ember-views/system/utils', ['exports', 'ember-utils'], function (exports, _emberUtils) { 'use strict'; exports.elMatches = undefined; exports.isSimpleClick = /** @module ember */ function (event) { var modifier = event.shiftKey || event.metaKey || event.altKey || event.ctrlKey; var secondaryClick = event.which > 1; // IE9 may return undefined return !modifier && !secondaryClick; } /* globals Element */ ; exports.constructStyleDeprecationMessage = function (affectedStyle) { return '' + 'Binding style attributes may introduce cross-site scripting vulnerabilities; ' + 'please ensure that values being bound are properly escaped. For more information, ' + 'including how to disable this warning, see ' + 'https://emberjs.com/deprecations/v1.x/#toc_binding-style-attributes. ' + 'Style affected: "' + affectedStyle + '"'; } /** @private @method getRootViews @param {Object} owner */ ; exports.getRootViews = function (owner) { var registry = owner.lookup('-view-registry:main'); var rootViews = []; Object.keys(registry).forEach(function (id) { var view = registry[id]; if (view.parentView === null) { rootViews.push(view); } }); return rootViews; } /** @private @method getViewId @param {Ember.View} view */ ; exports.getViewId = getViewId; exports.getViewElement = /** @private @method getViewElement @param {Ember.View} view */ function (view) { return view[VIEW_ELEMENT]; }; exports.initViewElement = function (view) { view[VIEW_ELEMENT] = null; }; exports.setViewElement = function (view, element) { return view[VIEW_ELEMENT] = element; }; exports.getChildViews = /** @private @method getChildViews @param {Ember.View} view */ function (view) { var owner = (0, _emberUtils.getOwner)(view); var registry = owner.lookup('-view-registry:main'); return collectChildViews(view, registry); }; exports.initChildViews = function (view) { view[CHILD_VIEW_IDS] = []; }; exports.addChildView = function (parent, child) { parent[CHILD_VIEW_IDS].push(getViewId(child)); }; exports.collectChildViews = collectChildViews; exports.getViewBounds = getViewBounds; exports.getViewRange = getViewRange; exports.getViewClientRects = /** `getViewClientRects` provides information about the position of the border box edges of a view relative to the viewport. It is only intended to be used by development tools like the Ember Inspector and may not work on older browsers. @private @method getViewClientRects @param {Ember.View} view */ function (view) { var range = getViewRange(view); return range.getClientRects(); } /** `getViewBoundingClientRect` provides information about the position of the bounding border box edges of a view relative to the viewport. It is only intended to be used by development tools like the Ember Inspector and may not work on older browsers. @private @method getViewBoundingClientRect @param {Ember.View} view */ ; exports.getViewBoundingClientRect = function (view) { var range = getViewRange(view); return range.getBoundingClientRect(); } /** Determines if the element matches the specified selector. @private @method matches @param {DOMElement} el @param {String} selector */ ; exports.matches = function (el, selector) { return elMatches.call(el, selector); };function getViewId(view) { if (view.tagName === '') { return (0, _emberUtils.guidFor)(view); } else { return view.elementId || (0, _emberUtils.guidFor)(view); } } var VIEW_ELEMENT = (0, _emberUtils.symbol)('VIEW_ELEMENT'); var CHILD_VIEW_IDS = (0, _emberUtils.symbol)('CHILD_VIEW_IDS'); function collectChildViews(view, registry) { var ids = []; var views = []; view[CHILD_VIEW_IDS].forEach(function (id) { var view = registry[id]; if (view && !view.isDestroying && !view.isDestroyed && ids.indexOf(id) === -1) { ids.push(id); views.push(view); } }); view[CHILD_VIEW_IDS] = ids; return views; } /** @private @method getViewBounds @param {Ember.View} view */ function getViewBounds(view) { return view.renderer.getBounds(view); } /** @private @method getViewRange @param {Ember.View} view */ function getViewRange(view) { var bounds = getViewBounds(view); var range = document.createRange(); range.setStartBefore(bounds.firstNode); range.setEndAfter(bounds.lastNode); return range; }var elMatches = exports.elMatches = typeof Element !== 'undefined' && (Element.prototype.matches || Element.prototype.matchesSelector || Element.prototype.mozMatchesSelector || Element.prototype.msMatchesSelector || Element.prototype.oMatchesSelector || Element.prototype.webkitMatchesSelector); }); enifed('ember-views/utils/lookup-component', ['exports', 'ember-babel', 'container'], function (exports, _emberBabel, _container) { 'use strict'; exports.default = function (owner, name, options) { var componentLookup = owner.lookup('component-lookup:main'), localResult; var source = options && options.source; if (source) { localResult = lookupComponentPair(componentLookup, owner, name, options); if (localResult.component || localResult.layout) { return localResult; } } return lookupComponentPair(componentLookup, owner, name); }; var _templateObject = (0, _emberBabel.taggedTemplateLiteralLoose)(['component:-default'], ['component:-default']); function lookupComponentPair(componentLookup, owner, name, options) { var component = componentLookup.componentFor(name, owner, options); var layout = componentLookup.layoutFor(name, owner, options); var result = { layout: layout, component: component }; if (!false && layout && !component) { result.component = owner.factoryFor((0, _container.privatize)(_templateObject)); } return result; } }); enifed('ember-views/views/core_view', ['exports', 'ember-runtime', 'ember-views/system/utils', 'ember-views/views/states'], function (exports, _emberRuntime, _utils, _states) { 'use strict'; /** `Ember.CoreView` is an abstract class that exists to give view-like behavior to both Ember's main view class `Ember.Component` and other classes that don't need the full functionality of `Ember.Component`. Unless you have specific needs for `CoreView`, you will use `Ember.Component` in your applications. @class CoreView @namespace Ember @extends EmberObject @deprecated Use `Component` instead. @uses Evented @uses Ember.ActionHandler @private */ var CoreView = _emberRuntime.FrameworkObject.extend(_emberRuntime.Evented, _emberRuntime.ActionHandler, { isView: true, _states: (0, _states.cloneStates)(_states.states), init: function () { this._super.apply(this, arguments); this._state = 'preRender'; this._currentState = this._states.preRender; (0, _utils.initViewElement)(this); if (!this.renderer) { throw new Error('Cannot instantiate a component without a renderer. Please ensure that you are creating ' + this + ' with a proper container/registry.'); } }, /** If the view is currently inserted into the DOM of a parent view, this property will point to the parent of the view. @property parentView @type Ember.View @default null @private */ parentView: null, instrumentDetails: function (hash) { hash.object = this.toString(); hash.containerKey = this._debugContainerKey; hash.view = this; return hash; }, trigger: function (name) { for (_len = arguments.length, args = Array(_len > 1 ? _len - 1 : 0), _key = 1; _key < _len; _key++) { args[_key - 1] = arguments[_key]; } this._super.apply(this, arguments); var method = this[name], _len, args, _key; if (typeof method === 'function') { return method.apply(this, args); } }, has: function (name) { return typeof this[name] === 'function' || this._super(name); } }); CoreView.reopenClass({ isViewFactory: true }); exports.default = CoreView; }); enifed('ember-views/views/states', ['exports', 'ember-utils', 'ember-views/views/states/default', 'ember-views/views/states/pre_render', 'ember-views/views/states/has_element', 'ember-views/views/states/in_dom', 'ember-views/views/states/destroying'], function (exports, _emberUtils, _default2, _pre_render, _has_element, _in_dom, _destroying) { 'use strict'; exports.states = undefined; exports.cloneStates = function (from) { var into = {}; into._default = {}; into.preRender = Object.create(into._default); into.destroying = Object.create(into._default); into.hasElement = Object.create(into._default); into.inDOM = Object.create(into.hasElement); for (var stateName in from) { if (!from.hasOwnProperty(stateName)) { continue; } (0, _emberUtils.assign)(into[stateName], from[stateName]); } return into; } /* Describe how the specified actions should behave in the various states that a view can exist in. Possible states: * preRender: when a view is first instantiated, and after its element was destroyed, it is in the preRender state * hasElement: the DOM representation of the view is created, and is ready to be inserted * inDOM: once a view has been inserted into the DOM it is in the inDOM state. A view spends the vast majority of its existence in this state. * destroyed: once a view has been destroyed (using the destroy method), it is in this state. No further actions can be invoked on a destroyed view. */ ; exports.states = { _default: _default2.default, preRender: _pre_render.default, inDOM: _in_dom.default, hasElement: _has_element.default, destroying: _destroying.default }; }); enifed('ember-views/views/states/default', ['exports', 'ember-debug'], function (exports, _emberDebug) { 'use strict'; exports.default = { // appendChild is only legal while rendering the buffer. appendChild: function () { throw new _emberDebug.EmberError('You can\'t use appendChild outside of the rendering process'); }, // Handle events from `Ember.EventDispatcher` handleEvent: function () { return true; // continue event propagation }, rerender: function () {}, destroy: function () {} }; }); enifed('ember-views/views/states/destroying', ['exports', 'ember-utils', 'ember-debug', 'ember-views/views/states/default'], function (exports, _emberUtils, _emberDebug, _default2) { 'use strict'; var destroying = Object.create(_default2.default); (0, _emberUtils.assign)(destroying, { appendChild: function () { throw new _emberDebug.Error('You can\'t call appendChild on a view being destroyed'); }, rerender: function () { throw new _emberDebug.Error('You can\'t call rerender on a view being destroyed'); } }); exports.default = destroying; }); enifed('ember-views/views/states/has_element', ['exports', 'ember-utils', 'ember-views/views/states/default', 'ember-metal'], function (exports, _emberUtils, _default2, _emberMetal) { 'use strict'; var hasElement = Object.create(_default2.default); (0, _emberUtils.assign)(hasElement, { rerender: function (view) { view.renderer.rerender(view); }, destroy: function (view) { view.renderer.remove(view); }, handleEvent: function (view, eventName, event) { if (view.has(eventName)) { // Handler should be able to re-dispatch events, so we don't // preventDefault or stopPropagation. return (0, _emberMetal.flaggedInstrument)('interaction.' + eventName, { event: event, view: view }, function () { return _emberMetal.run.join(view, view.trigger, eventName, event); }); } else { return true; // continue event propagation } } }); exports.default = hasElement; }); enifed('ember-views/views/states/in_dom', ['exports', 'ember-utils', 'ember-metal', 'ember-debug', 'ember-views/views/states/has_element'], function (exports, _emberUtils, _emberMetal, _emberDebug, _has_element) { 'use strict'; var inDOM = Object.create(_has_element.default); (0, _emberUtils.assign)(inDOM, { enter: function (view) { // Register the view for event handling. This hash is used by // Ember.EventDispatcher to dispatch incoming events. view.renderer.register(view); }, exit: function (view) { view.renderer.unregister(view); } }); exports.default = inDOM; }); enifed('ember-views/views/states/pre_render', ['exports', 'ember-views/views/states/default'], function (exports, _default2) { 'use strict'; exports.default = Object.create(_default2.default); }); enifed('ember/features', ['exports', 'ember-environment', 'ember-utils'], function (exports, _emberEnvironment, _emberUtils) { 'use strict'; exports.FEATURES = exports.DEFAULT_FEATURES = undefined; var DEFAULT_FEATURES = exports.DEFAULT_FEATURES = { "features-stripped-test": false, "ember-libraries-isregistered": false, "ember-improved-instrumentation": false, "ember-glimmer-named-arguments": false, "ember-glimmer-remove-application-template-wrapper": false, "ember-glimmer-template-only-components": false, "ember-metal-es5-getters": false, "ember-routing-router-service": true, "ember-engines-mount-params": true, "ember-module-unification": false, "glimmer-custom-component-manager": false, "descriptor-trap": false, "mandatory-setter": false, "ember-glimmer-detect-backtracking-rerender": false }; var FEATURES = exports.FEATURES = (0, _emberUtils.assign)(DEFAULT_FEATURES, _emberEnvironment.ENV.FEATURES); false; false; false; false; false; false; false; true; true; false; false; false; false; false; }); enifed('ember/index', ['exports', 'require', 'ember-environment', 'node-module', 'ember-utils', 'container', 'ember-metal', 'ember/features', 'ember-debug', 'backburner', 'ember-console', 'ember-runtime', 'ember-glimmer', 'ember/version', 'ember-views', 'ember-routing', 'ember-application', 'ember-extension-support'], function (exports, _require2, _emberEnvironment, _nodeModule, _emberUtils, _container, _emberMetal, _features, _emberDebug, _backburner, _emberConsole, _emberRuntime, _emberGlimmer, _version, _emberViews, _emberRouting, _emberApplication, _emberExtensionSupport) { 'use strict'; exports.VERSION = undefined; // ember-utils exports // ****ember-metal**** // ****ember-environment**** _emberMetal.default.getOwner = _emberUtils.getOwner; _emberMetal.default.setOwner = _emberUtils.setOwner; _emberMetal.default.generateGuid = _emberUtils.generateGuid; _emberMetal.default.GUID_KEY = _emberUtils.GUID_KEY; _emberMetal.default.guidFor = _emberUtils.guidFor; _emberMetal.default.inspect = _emberUtils.inspect; _emberMetal.default.makeArray = _emberUtils.makeArray; _emberMetal.default.canInvoke = _emberUtils.canInvoke; _emberMetal.default.tryInvoke = _emberUtils.tryInvoke; _emberMetal.default.wrap = _emberUtils.wrap; _emberMetal.default.applyStr = _emberUtils.applyStr; _emberMetal.default.uuid = _emberUtils.uuid; _emberMetal.default.assign = _emberUtils.assign; // container exports _emberMetal.default.Container = _container.Container; _emberMetal.default.Registry = _container.Registry; // need to import this directly, to ensure the babel feature // flag plugin works properly var computed = _emberMetal.computed, testing; computed.alias = _emberMetal.alias; _emberMetal.default.computed = computed; _emberMetal.default.ComputedProperty = _emberMetal.ComputedProperty; _emberMetal.default.cacheFor = _emberMetal.cacheFor; _emberMetal.default.assert = _emberDebug.assert; _emberMetal.default.warn = _emberDebug.warn; _emberMetal.default.debug = _emberDebug.debug; _emberMetal.default.deprecate = _emberDebug.deprecate; _emberMetal.default.deprecateFunc = _emberDebug.deprecateFunc; _emberMetal.default.runInDebug = _emberDebug.runInDebug; /** @public @class Ember.Debug */ _emberMetal.default.Debug = { registerDeprecationHandler: _emberDebug.registerDeprecationHandler, registerWarnHandler: _emberDebug.registerWarnHandler }; _emberMetal.default.merge = _emberMetal.merge; _emberMetal.default.instrument = _emberMetal.instrument; _emberMetal.default.subscribe = _emberMetal.instrumentationSubscribe; _emberMetal.default.Instrumentation = { instrument: _emberMetal.instrument, subscribe: _emberMetal.instrumentationSubscribe, unsubscribe: _emberMetal.instrumentationUnsubscribe, reset: _emberMetal.instrumentationReset }; _emberMetal.default.Error = _emberDebug.Error; _emberMetal.default.meta = _emberMetal.meta; _emberMetal.default.get = _emberMetal.get; _emberMetal.default.getWithDefault = _emberMetal.getWithDefault; _emberMetal.default._getPath = _emberMetal._getPath; _emberMetal.default.set = _emberMetal.set; _emberMetal.default.trySet = _emberMetal.trySet; _emberMetal.default.FEATURES = _features.FEATURES; _emberMetal.default.FEATURES.isEnabled = _emberDebug.isFeatureEnabled; _emberMetal.default._Cache = _emberMetal.Cache; _emberMetal.default.on = _emberMetal.on; _emberMetal.default.addListener = _emberMetal.addListener; _emberMetal.default.removeListener = _emberMetal.removeListener; _emberMetal.default._suspendListener = _emberMetal.suspendListener; _emberMetal.default._suspendListeners = _emberMetal.suspendListeners; _emberMetal.default.sendEvent = _emberMetal.sendEvent; _emberMetal.default.hasListeners = _emberMetal.hasListeners; _emberMetal.default.watchedEvents = _emberMetal.watchedEvents; _emberMetal.default.listenersFor = _emberMetal.listenersFor; _emberMetal.default.isNone = _emberMetal.isNone; _emberMetal.default.isEmpty = _emberMetal.isEmpty; _emberMetal.default.isBlank = _emberMetal.isBlank; _emberMetal.default.isPresent = _emberMetal.isPresent; _emberMetal.default.run = _emberMetal.run; _emberMetal.default._ObserverSet = _emberMetal.ObserverSet; _emberMetal.default.propertyWillChange = _emberMetal.propertyWillChange; _emberMetal.default.propertyDidChange = _emberMetal.propertyDidChange; _emberMetal.default.overrideChains = _emberMetal.overrideChains; _emberMetal.default.beginPropertyChanges = _emberMetal.beginPropertyChanges; _emberMetal.default.endPropertyChanges = _emberMetal.endPropertyChanges; _emberMetal.default.changeProperties = _emberMetal.changeProperties; _emberMetal.default.platform = { defineProperty: true, hasPropertyAccessors: true }; _emberMetal.default.defineProperty = _emberMetal.defineProperty; _emberMetal.default.watchKey = _emberMetal.watchKey; _emberMetal.default.unwatchKey = _emberMetal.unwatchKey; _emberMetal.default.removeChainWatcher = _emberMetal.removeChainWatcher; _emberMetal.default._ChainNode = _emberMetal.ChainNode; _emberMetal.default.finishChains = _emberMetal.finishChains; _emberMetal.default.watchPath = _emberMetal.watchPath; _emberMetal.default.unwatchPath = _emberMetal.unwatchPath; _emberMetal.default.watch = _emberMetal.watch; _emberMetal.default.isWatching = _emberMetal.isWatching; _emberMetal.default.unwatch = _emberMetal.unwatch; _emberMetal.default.destroy = _emberMetal.deleteMeta; _emberMetal.default.libraries = _emberMetal.libraries; _emberMetal.default.OrderedSet = _emberMetal.OrderedSet; _emberMetal.default.Map = _emberMetal.Map; _emberMetal.default.MapWithDefault = _emberMetal.MapWithDefault; _emberMetal.default.getProperties = _emberMetal.getProperties; _emberMetal.default.setProperties = _emberMetal.setProperties; _emberMetal.default.expandProperties = _emberMetal.expandProperties; _emberMetal.default.NAME_KEY = _emberUtils.NAME_KEY; _emberMetal.default.addObserver = _emberMetal.addObserver; _emberMetal.default.observersFor = _emberMetal.observersFor; _emberMetal.default.removeObserver = _emberMetal.removeObserver; _emberMetal.default._suspendObserver = _emberMetal._suspendObserver; _emberMetal.default._suspendObservers = _emberMetal._suspendObservers; if (_emberEnvironment.ENV._ENABLE_PROPERTY_REQUIRED_SUPPORT) { _emberMetal.default.required = _emberMetal.required; } _emberMetal.default.aliasMethod = _emberMetal.aliasMethod; _emberMetal.default.observer = _emberMetal.observer; _emberMetal.default.mixin = _emberMetal.mixin; _emberMetal.default.Mixin = _emberMetal.Mixin; _emberMetal.default.bind = _emberMetal.bind; _emberMetal.default.Binding = _emberMetal.Binding; _emberMetal.default.isGlobalPath = _emberMetal.isGlobalPath; Object.defineProperty(_emberMetal.default, 'ENV', { get: function () { return _emberEnvironment.ENV; }, enumerable: false }); /** The context that Ember searches for namespace instances on. @private */ Object.defineProperty(_emberMetal.default, 'lookup', { get: function () { return _emberEnvironment.context.lookup; }, set: function (value) { _emberEnvironment.context.lookup = value; }, enumerable: false }); _emberMetal.default.EXTEND_PROTOTYPES = _emberEnvironment.ENV.EXTEND_PROTOTYPES; // BACKWARDS COMPAT ACCESSORS FOR ENV FLAGS Object.defineProperty(_emberMetal.default, 'LOG_STACKTRACE_ON_DEPRECATION', { get: function () { return _emberEnvironment.ENV.LOG_STACKTRACE_ON_DEPRECATION; }, set: function (value) { _emberEnvironment.ENV.LOG_STACKTRACE_ON_DEPRECATION = !!value; }, enumerable: false }); Object.defineProperty(_emberMetal.default, 'LOG_VERSION', { get: function () { return _emberEnvironment.ENV.LOG_VERSION; }, set: function (value) { _emberEnvironment.ENV.LOG_VERSION = !!value; }, enumerable: false }); Object.defineProperty(_emberMetal.default, 'LOG_BINDINGS', { get: function () { return _emberEnvironment.ENV.LOG_BINDINGS; }, set: function (value) { _emberEnvironment.ENV.LOG_BINDINGS = !!value; }, enumerable: false }); /** A function may be assigned to `Ember.onerror` to be called when Ember internals encounter an error. This is useful for specialized error handling and reporting code. ```javascript Ember.onerror = function(error) { Em.$.ajax('/report-error', 'POST', { stack: error.stack, otherInformation: 'whatever app state you want to provide' }); }; ``` Internally, `Ember.onerror` is used as Backburner's error handler. @event onerror @for Ember @param {Exception} error the error object @public */ Object.defineProperty(_emberMetal.default, 'onerror', { get: _emberMetal.getOnerror, set: _emberMetal.setOnerror, enumerable: false }); Object.defineProperty(_emberMetal.default, 'testing', { get: _emberDebug.isTesting, set: _emberDebug.setTesting, enumerable: false }); _emberMetal.default._Backburner = _backburner.default; _emberMetal.default.Logger = _emberConsole.default; // ****ember-runtime**** _emberMetal.default.String = _emberRuntime.String; _emberMetal.default.Object = _emberRuntime.Object; _emberMetal.default._RegistryProxyMixin = _emberRuntime.RegistryProxyMixin; _emberMetal.default._ContainerProxyMixin = _emberRuntime.ContainerProxyMixin; _emberMetal.default.compare = _emberRuntime.compare; _emberMetal.default.copy = _emberRuntime.copy; _emberMetal.default.isEqual = _emberRuntime.isEqual; _emberMetal.default.inject = _emberRuntime.inject; _emberMetal.default.Array = _emberRuntime.Array; _emberMetal.default.Comparable = _emberRuntime.Comparable; _emberMetal.default.Enumerable = _emberRuntime.Enumerable; _emberMetal.default.ArrayProxy = _emberRuntime.ArrayProxy; _emberMetal.default.ObjectProxy = _emberRuntime.ObjectProxy; _emberMetal.default.ActionHandler = _emberRuntime.ActionHandler; _emberMetal.default.CoreObject = _emberRuntime.CoreObject; _emberMetal.default.NativeArray = _emberRuntime.NativeArray; _emberMetal.default.Copyable = _emberRuntime.Copyable; _emberMetal.default.MutableEnumerable = _emberRuntime.MutableEnumerable; _emberMetal.default.MutableArray = _emberRuntime.MutableArray; _emberMetal.default.TargetActionSupport = _emberRuntime.TargetActionSupport; _emberMetal.default.Evented = _emberRuntime.Evented; _emberMetal.default.PromiseProxyMixin = _emberRuntime.PromiseProxyMixin; _emberMetal.default.Observable = _emberRuntime.Observable; _emberMetal.default.typeOf = _emberRuntime.typeOf; _emberMetal.default.isArray = _emberRuntime.isArray; _emberMetal.default.Object = _emberRuntime.Object; _emberMetal.default.onLoad = _emberRuntime.onLoad; _emberMetal.default.runLoadHooks = _emberRuntime.runLoadHooks; _emberMetal.default.Controller = _emberRuntime.Controller; _emberMetal.default.ControllerMixin = _emberRuntime.ControllerMixin; _emberMetal.default.Service = _emberRuntime.Service; _emberMetal.default._ProxyMixin = _emberRuntime._ProxyMixin; _emberMetal.default.RSVP = _emberRuntime.RSVP; _emberMetal.default.Namespace = _emberRuntime.Namespace; // ES6TODO: this seems a less than ideal way/place to add properties to Ember.computed computed.empty = _emberRuntime.empty; computed.notEmpty = _emberRuntime.notEmpty; computed.none = _emberRuntime.none; computed.not = _emberRuntime.not; computed.bool = _emberRuntime.bool; computed.match = _emberRuntime.match; computed.equal = _emberRuntime.equal; computed.gt = _emberRuntime.gt; computed.gte = _emberRuntime.gte; computed.lt = _emberRuntime.lt; computed.lte = _emberRuntime.lte; computed.oneWay = _emberRuntime.oneWay; computed.reads = _emberRuntime.oneWay; computed.readOnly = _emberRuntime.readOnly; computed.deprecatingAlias = _emberRuntime.deprecatingAlias; computed.and = _emberRuntime.and; computed.or = _emberRuntime.or; computed.any = _emberRuntime.any; computed.sum = _emberRuntime.sum; computed.min = _emberRuntime.min; computed.max = _emberRuntime.max; computed.map = _emberRuntime.map; computed.sort = _emberRuntime.sort; computed.setDiff = _emberRuntime.setDiff; computed.mapBy = _emberRuntime.mapBy; computed.filter = _emberRuntime.filter; computed.filterBy = _emberRuntime.filterBy; computed.uniq = _emberRuntime.uniq; computed.uniqBy = _emberRuntime.uniqBy; computed.union = _emberRuntime.union; computed.intersect = _emberRuntime.intersect; computed.collect = _emberRuntime.collect; /** Defines the hash of localized strings for the current language. Used by the `Ember.String.loc()` helper. To localize, add string values to this hash. @property STRINGS @for Ember @type Object @private */ Object.defineProperty(_emberMetal.default, 'STRINGS', { configurable: false, get: _emberRuntime.getStrings, set: _emberRuntime.setStrings }); /** Whether searching on the global for new Namespace instances is enabled. This is only exported here as to not break any addons. Given the new visit API, you will have issues if you treat this as a indicator of booted. Internally this is only exposing a flag in Namespace. @property BOOTED @for Ember @type Boolean @private */ Object.defineProperty(_emberMetal.default, 'BOOTED', { configurable: false, enumerable: false, get: _emberRuntime.isNamespaceSearchDisabled, set: _emberRuntime.setNamespaceSearchDisabled }); _emberMetal.default.Component = _emberGlimmer.Component; _emberGlimmer.Helper.helper = _emberGlimmer.helper; _emberMetal.default.Helper = _emberGlimmer.Helper; _emberMetal.default.Checkbox = _emberGlimmer.Checkbox; _emberMetal.default.TextField = _emberGlimmer.TextField; _emberMetal.default.TextArea = _emberGlimmer.TextArea; _emberMetal.default.LinkComponent = _emberGlimmer.LinkComponent; if (_emberEnvironment.ENV.EXTEND_PROTOTYPES.String) { String.prototype.htmlSafe = function () { return (0, _emberGlimmer.htmlSafe)(this); }; } var EmberHandlebars = _emberMetal.default.Handlebars = _emberMetal.default.Handlebars || {}; var EmberHTMLBars = _emberMetal.default.HTMLBars = _emberMetal.default.HTMLBars || {}; var EmberHandleBarsUtils = EmberHandlebars.Utils = EmberHandlebars.Utils || {}; EmberHTMLBars.template = EmberHandlebars.template = _emberGlimmer.template; EmberHandleBarsUtils.escapeExpression = _emberGlimmer.escapeExpression; _emberRuntime.String.htmlSafe = _emberGlimmer.htmlSafe; _emberRuntime.String.isHTMLSafe = _emberGlimmer.isHTMLSafe; /** Global hash of shared templates. This will automatically be populated by the build tools so that you can store your Handlebars templates in separate files that get loaded into JavaScript at buildtime. @property TEMPLATES @for Ember @type Object @private */ Object.defineProperty(_emberMetal.default, 'TEMPLATES', { get: _emberGlimmer.getTemplates, set: _emberGlimmer.setTemplates, configurable: false, enumerable: false }); exports.VERSION = _version.default; /** The semantic version @property VERSION @type String @public */ _emberMetal.default.VERSION = _version.default; _emberMetal.libraries.registerCoreLibrary('Ember', _version.default); // require the main entry points for each of these packages // this is so that the global exports occur properly _emberMetal.default.$ = _emberViews.jQuery; _emberMetal.default.ViewTargetActionSupport = _emberViews.ViewTargetActionSupport; _emberMetal.default.ViewUtils = { isSimpleClick: _emberViews.isSimpleClick, getViewElement: _emberViews.getViewElement, getViewBounds: _emberViews.getViewBounds, getViewClientRects: _emberViews.getViewClientRects, getViewBoundingClientRect: _emberViews.getViewBoundingClientRect, getRootViews: _emberViews.getRootViews, getChildViews: _emberViews.getChildViews }; _emberMetal.default.TextSupport = _emberViews.TextSupport; _emberMetal.default.ComponentLookup = _emberViews.ComponentLookup; _emberMetal.default.EventDispatcher = _emberViews.EventDispatcher; _emberMetal.default.Location = _emberRouting.Location; _emberMetal.default.AutoLocation = _emberRouting.AutoLocation; _emberMetal.default.HashLocation = _emberRouting.HashLocation; _emberMetal.default.HistoryLocation = _emberRouting.HistoryLocation; _emberMetal.default.NoneLocation = _emberRouting.NoneLocation; _emberMetal.default.controllerFor = _emberRouting.controllerFor; _emberMetal.default.generateControllerFactory = _emberRouting.generateControllerFactory; _emberMetal.default.generateController = _emberRouting.generateController; _emberMetal.default.RouterDSL = _emberRouting.RouterDSL; _emberMetal.default.Router = _emberRouting.Router; _emberMetal.default.Route = _emberRouting.Route; _emberMetal.default.Application = _emberApplication.Application; _emberMetal.default.ApplicationInstance = _emberApplication.ApplicationInstance; _emberMetal.default.Engine = _emberApplication.Engine; _emberMetal.default.EngineInstance = _emberApplication.EngineInstance; _emberMetal.default.DefaultResolver = _emberMetal.default.Resolver = _emberApplication.Resolver; (0, _emberRuntime.runLoadHooks)('Ember.Application', _emberApplication.Application); _emberMetal.default.DataAdapter = _emberExtensionSupport.DataAdapter; _emberMetal.default.ContainerDebugAdapter = _emberExtensionSupport.ContainerDebugAdapter; if ((0, _require2.has)('ember-template-compiler')) { (0, _require2.default)('ember-template-compiler'); } // do this to ensure that Ember.Test is defined properly on the global // if it is present. if ((0, _require2.has)('ember-testing')) { testing = (0, _require2.default)('ember-testing'); _emberMetal.default.Test = testing.Test; _emberMetal.default.Test.Adapter = testing.Adapter; _emberMetal.default.Test.QUnitAdapter = testing.QUnitAdapter; _emberMetal.default.setupForTesting = testing.setupForTesting; } (0, _emberRuntime.runLoadHooks)('Ember'); /** @module ember @private */ exports.default = _emberMetal.default; /* globals module */ if (_nodeModule.IS_NODE) { _nodeModule.module.exports = _emberMetal.default; } else { _emberEnvironment.context.exports.Ember = _emberEnvironment.context.exports.Em = _emberMetal.default; } /** @module jquery @public */ /** @class jquery @public @static */ /** Alias for jQuery @for jquery @method $ @static @public */ }); enifed("ember/version", ["exports"], function (exports) { "use strict"; exports.default = "3.0.0-beta.1"; }); /*global enifed */ enifed('node-module', ['exports'], function(_exports) { var IS_NODE = typeof module === 'object' && typeof module.require === 'function'; if (IS_NODE) { _exports.require = module.require; _exports.module = module; _exports.IS_NODE = IS_NODE; } else { _exports.require = null; _exports.module = null; _exports.IS_NODE = IS_NODE; } }); enifed("route-recognizer", ["exports"], function (exports) { "use strict"; var createObject = Object.create; function createMap() { var map = createObject(null); map["__"] = undefined; delete map["__"]; return map; } var Target = function (path, matcher, delegate) { this.path = path; this.matcher = matcher; this.delegate = delegate; }; Target.prototype.to = function (target, callback) { var delegate = this.delegate; if (delegate && delegate.willAddRoute) { target = delegate.willAddRoute(this.matcher.target, target); } this.matcher.add(this.path, target); if (callback) { if (callback.length === 0) { throw new Error("You must have an argument in the function passed to `to`"); } this.matcher.addChild(this.path, target, callback, this.delegate); } }; var Matcher = function (target) { this.routes = createMap(); this.children = createMap(); this.target = target; }; Matcher.prototype.add = function (path, target) { this.routes[path] = target; }; Matcher.prototype.addChild = function (path, target, callback, delegate) { var matcher = new Matcher(target); this.children[path] = matcher; var match = generateMatch(path, matcher, delegate); if (delegate && delegate.contextEntered) { delegate.contextEntered(target, match); } callback(match); }; function generateMatch(startingPath, matcher, delegate) { return function (path, callback) { var fullPath = startingPath + path; if (callback) { callback(generateMatch(fullPath, matcher, delegate)); } else { return new Target(fullPath, matcher, delegate); } }; } function addRoute(routeArray, path, handler) { var len = 0, i; for (i = 0; i < routeArray.length; i++) { len += routeArray[i].path.length; } path = path.substr(len); var route = { path: path, handler: handler }; routeArray.push(route); } function eachRoute(baseRoute, matcher, callback, binding) { var routes = matcher.routes, i, path, routeArray, nested; var paths = Object.keys(routes); for (i = 0; i < paths.length; i++) { path = paths[i]; routeArray = baseRoute.slice(); addRoute(routeArray, path, routes[path]); nested = matcher.children[path]; if (nested) { eachRoute(routeArray, nested, callback, binding); } else { callback.call(binding, routeArray); } } } // Normalizes percent-encoded values in `path` to upper-case and decodes percent-encoded // values that are not reserved (i.e., unicode characters, emoji, etc). The reserved // chars are "/" and "%". // Safe to call multiple times on the same path. // Normalizes percent-encoded values in `path` to upper-case and decodes percent-encoded function normalizePath(path) { return path.split("/").map(normalizeSegment).join("/"); } // We want to ensure the characters "%" and "/" remain in percent-encoded // form when normalizing paths, so replace them with their encoded form after // decoding the rest of the path var SEGMENT_RESERVED_CHARS = /%|\//g; function normalizeSegment(segment) { if (segment.length < 3 || segment.indexOf("%") === -1) { return segment; } return decodeURIComponent(segment).replace(SEGMENT_RESERVED_CHARS, encodeURIComponent); } // We do not want to encode these characters when generating dynamic path segments // See https://tools.ietf.org/html/rfc3986#section-3.3 // sub-delims: "!", "$", "&", "'", "(", ")", "*", "+", ",", ";", "=" // others allowed by RFC 3986: ":", "@" // // First encode the entire path segment, then decode any of the encoded special chars. // // The chars "!", "'", "(", ")", "*" do not get changed by `encodeURIComponent`, // so the possible encoded chars are: // ['%24', '%26', '%2B', '%2C', '%3B', '%3D', '%3A', '%40']. var PATH_SEGMENT_ENCODINGS = /%(?:2(?:4|6|B|C)|3(?:B|D|A)|40)/g; function encodePathSegment(str) { return encodeURIComponent(str).replace(PATH_SEGMENT_ENCODINGS, decodeURIComponent); } var escapeRegex = /(\/|\.|\*|\+|\?|\||\(|\)|\[|\]|\{|\}|\\)/g; var isArray = Array.isArray; var hasOwnProperty = Object.prototype.hasOwnProperty; function getParam(params, key) { if (typeof params !== "object" || params === null) { throw new Error("You must pass an object as the second argument to `generate`."); } if (!hasOwnProperty.call(params, key)) { throw new Error("You must provide param `" + key + "` to `generate`."); } var value = params[key]; var str = typeof value === "string" ? value : "" + value; if (str.length === 0) { throw new Error("You must provide a param `" + key + "`."); } return str; } var eachChar = []; eachChar[0 /* Static */] = function (segment, currentState) { var state = currentState, i, ch; var value = segment.value; for (i = 0; i < value.length; i++) { ch = value.charCodeAt(i); state = state.put(ch, false, false); } return state; }; eachChar[1 /* Dynamic */] = function (_, currentState) { return currentState.put(47 /* SLASH */, true, true); }; eachChar[2 /* Star */] = function (_, currentState) { return currentState.put(-1 /* ANY */, false, true); }; eachChar[4 /* Epsilon */] = function (_, currentState) { return currentState; }; var regex = []; regex[0 /* Static */] = function (segment) { return segment.value.replace(escapeRegex, "\\$1"); }; regex[1 /* Dynamic */] = function () { return "([^/]+)"; }; regex[2 /* Star */] = function () { return "(.+)"; }; regex[4 /* Epsilon */] = function () { return ""; }; var generate = []; generate[0 /* Static */] = function (segment) { return segment.value; }; generate[1 /* Dynamic */] = function (segment, params) { var value = getParam(params, segment.value); if (RouteRecognizer.ENCODE_AND_DECODE_PATH_SEGMENTS) { return encodePathSegment(value); } else { return value; } }; generate[2 /* Star */] = function (segment, params) { return getParam(params, segment.value); }; generate[4 /* Epsilon */] = function () { return ""; }; var EmptyObject = Object.freeze({}); var EmptyArray = Object.freeze([]); // The `names` will be populated with the paramter name for each dynamic/star // segment. `shouldDecodes` will be populated with a boolean for each dyanamic/star // segment, indicating whether it should be decoded during recognition. function parse(segments, route, types) { // normalize route as not starting with a "/". Recognition will // also normalize. if (route.length > 0 && route.charCodeAt(0) === 47 /* SLASH */) { route = route.substr(1); } var parts = route.split("/"), i, part, flags, type; var names = undefined; var shouldDecodes = undefined; for (i = 0; i < parts.length; i++) { part = parts[i]; flags = 0; type = 0; if (part === "") { type = 4 /* Epsilon */; } else if (part.charCodeAt(0) === 58 /* COLON */) { type = 1 /* Dynamic */; } else if (part.charCodeAt(0) === 42 /* STAR */) { type = 2 /* Star */; } else { type = 0 /* Static */; } flags = 2 << type; if (flags & 12 /* Named */) { part = part.slice(1); names = names || []; names.push(part); shouldDecodes = shouldDecodes || []; shouldDecodes.push((flags & 4 /* Decoded */) !== 0); } if (flags & 14 /* Counted */) { types[type]++; } segments.push({ type: type, value: normalizeSegment(part) }); } return { names: names || EmptyArray, shouldDecodes: shouldDecodes || EmptyArray }; } function isEqualCharSpec(spec, char, negate) { return spec.char === char && spec.negate === negate; } // A State has a character specification and (`charSpec`) and a list of possible // subsequent states (`nextStates`). // // If a State is an accepting state, it will also have several additional // properties: // // * `regex`: A regular expression that is used to extract parameters from paths // that reached this accepting state. // * `handlers`: Information on how to convert the list of captures into calls // to registered handlers with the specified parameters // * `types`: How many static, dynamic or star segments in this route. Used to // decide which route to use if multiple registered routes match a path. // // Currently, State is implemented naively by looping over `nextStates` and // comparing a character specification against a character. A more efficient // implementation would use a hash of keys pointing at one or more next states. var State = function (states, id, char, negate, repeat) { this.states = states; this.id = id; this.char = char; this.negate = negate; this.nextStates = repeat ? id : null; this.pattern = ""; this._regex = undefined; this.handlers = undefined; this.types = undefined; }; State.prototype.regex = function () { if (!this._regex) { this._regex = new RegExp(this.pattern); } return this._regex; }; State.prototype.get = function (char, negate) { var this$1 = this, i, child, child$1; var nextStates = this.nextStates; if (nextStates === null) { return; } if (isArray(nextStates)) { for (i = 0; i < nextStates.length; i++) { child = this$1.states[nextStates[i]]; if (isEqualCharSpec(child, char, negate)) { return child; } } } else { child$1 = this.states[nextStates]; if (isEqualCharSpec(child$1, char, negate)) { return child$1; } } }; State.prototype.put = function (char, negate, repeat) { var state; // If the character specification already exists in a child of the current // state, just return that state. if (state = this.get(char, negate)) { return state; } // Make a new state for the character spec var states = this.states; state = new State(states, states.length, char, negate, repeat); states[states.length] = state; // Insert the new state as a child of the current state if (this.nextStates == null) { this.nextStates = state.id; } else if (isArray(this.nextStates)) { this.nextStates.push(state.id); } else { this.nextStates = [this.nextStates, state.id]; } // Return the new state return state; }; // Find a list of child states matching the next character State.prototype.match = function (ch) { var this$1 = this, i, child, child$1; var nextStates = this.nextStates; if (!nextStates) { return []; } var returned = []; if (isArray(nextStates)) { for (i = 0; i < nextStates.length; i++) { child = this$1.states[nextStates[i]]; if (isMatch(child, ch)) { returned.push(child); } } } else { child$1 = this.states[nextStates]; if (isMatch(child$1, ch)) { returned.push(child$1); } } return returned; }; function isMatch(spec, char) { return spec.negate ? spec.char !== char && spec.char !== -1 /* ANY */ : spec.char === char || spec.char === -1 /* ANY */; } // This is a somewhat naive strategy, but should work in a lot of cases // A better strategy would properly resolve /posts/:id/new and /posts/edit/:id. // // This strategy generally prefers more static and less dynamic matching. // Specifically, it // // * prefers fewer stars to more, then // * prefers using stars for less of the match to more, then // * prefers fewer dynamic segments to more, then // * prefers more static segments to more function sortSolutions(states) { return states.sort(function (a, b) { var ref = a.types || [0, 0, 0]; var astatics = ref[0]; var adynamics = ref[1]; var astars = ref[2]; var ref$1 = b.types || [0, 0, 0]; var bstatics = ref$1[0]; var bdynamics = ref$1[1]; var bstars = ref$1[2]; if (astars !== bstars) { return astars - bstars; } if (astars) { if (astatics !== bstatics) { return bstatics - astatics; } if (adynamics !== bdynamics) { return bdynamics - adynamics; } } if (adynamics !== bdynamics) { return adynamics - bdynamics; } if (astatics !== bstatics) { return bstatics - astatics; } return 0; }); } function recognizeChar(states, ch) { var nextStates = [], i, l, state; for (i = 0, l = states.length; i < l; i++) { state = states[i]; nextStates = nextStates.concat(state.match(ch)); } return nextStates; } var RecognizeResults = function (queryParams) { this.length = 0; this.queryParams = queryParams || {}; }; RecognizeResults.prototype.splice = Array.prototype.splice; RecognizeResults.prototype.slice = Array.prototype.slice; RecognizeResults.prototype.push = Array.prototype.push; function findHandler(state, originalPath, queryParams) { var handlers = state.handlers, i, handler, names, shouldDecodes, params, isDynamic, j, name, capture; var regex = state.regex(); if (!regex || !handlers) { throw new Error("state not initialized"); } var captures = originalPath.match(regex); var currentCapture = 1; var result = new RecognizeResults(queryParams); result.length = handlers.length; for (i = 0; i < handlers.length; i++) { handler = handlers[i]; names = handler.names; shouldDecodes = handler.shouldDecodes; params = EmptyObject; isDynamic = false; if (names !== EmptyArray && shouldDecodes !== EmptyArray) { for (j = 0; j < names.length; j++) { isDynamic = true; name = names[j]; capture = captures && captures[currentCapture++]; if (params === EmptyObject) { params = {}; } if (RouteRecognizer.ENCODE_AND_DECODE_PATH_SEGMENTS && shouldDecodes[j]) { params[name] = capture && decodeURIComponent(capture); } else { params[name] = capture; } } } result[i] = { handler: handler.handler, params: params, isDynamic: isDynamic }; } return result; } function decodeQueryParamPart(part) { // http://www.w3.org/TR/html401/interact/forms.html#h-17.13.4.1 part = part.replace(/\+/gm, "%20"); var result; try { result = decodeURIComponent(part); } catch (error) { result = ""; } return result; } var RouteRecognizer = function () { this.names = createMap(); var states = []; var state = new State(states, 0, -1 /* ANY */, true, false); states[0] = state; this.states = states; this.rootState = state; }; RouteRecognizer.prototype.add = function (routes, options) { var currentState = this.rootState, i, route, ref, names, shouldDecodes, segment; var pattern = "^"; var types = [0, 0, 0]; var handlers = new Array(routes.length); var allSegments = []; var isEmpty = true; var j = 0; for (i = 0; i < routes.length; i++) { route = routes[i]; ref = parse(allSegments, route.path, types); names = ref.names; shouldDecodes = ref.shouldDecodes; // preserve j so it points to the start of newly added segments for (; j < allSegments.length; j++) { segment = allSegments[j]; if (segment.type === 4 /* Epsilon */) { continue; } isEmpty = false; // Add a "/" for the new segment currentState = currentState.put(47 /* SLASH */, false, false); pattern += "/"; // Add a representation of the segment to the NFA and regex currentState = eachChar[segment.type](segment, currentState); pattern += regex[segment.type](segment); } handlers[i] = { handler: route.handler, names: names, shouldDecodes: shouldDecodes }; } if (isEmpty) { currentState = currentState.put(47 /* SLASH */, false, false); pattern += "/"; } currentState.handlers = handlers; currentState.pattern = pattern + "$"; currentState.types = types; var name; if (typeof options === "object" && options !== null && options.as) { name = options.as; } if (name) { // if (this.names[name]) { // throw new Error("You may not add a duplicate route named `" + name + "`."); // } this.names[name] = { segments: allSegments, handlers: handlers }; } }; RouteRecognizer.prototype.handlersFor = function (name) { var route = this.names[name], i, handler; if (!route) { throw new Error("There is no route named " + name); } var result = new Array(route.handlers.length); for (i = 0; i < route.handlers.length; i++) { handler = route.handlers[i]; result[i] = handler; } return result; }; RouteRecognizer.prototype.hasRoute = function (name) { return !!this.names[name]; }; RouteRecognizer.prototype.generate = function (name, params) { var route = this.names[name], i, segment; var output = ""; if (!route) { throw new Error("There is no route named " + name); } var segments = route.segments; for (i = 0; i < segments.length; i++) { segment = segments[i]; if (segment.type === 4 /* Epsilon */) { continue; } output += "/"; output += generate[segment.type](segment, params); } if (output.charAt(0) !== "/") { output = "/" + output; } if (params && params.queryParams) { output += this.generateQueryString(params.queryParams); } return output; }; RouteRecognizer.prototype.generateQueryString = function (params) { var pairs = [], i, key, value, pair, j, arrayPair; var keys = Object.keys(params); keys.sort(); for (i = 0; i < keys.length; i++) { key = keys[i]; value = params[key]; if (value == null) { continue; } pair = encodeURIComponent(key); if (isArray(value)) { for (j = 0; j < value.length; j++) { arrayPair = key + "[]" + "=" + encodeURIComponent(value[j]); pairs.push(arrayPair); } } else { pair += "=" + encodeURIComponent(value); pairs.push(pair); } } if (pairs.length === 0) { return ""; } return "?" + pairs.join("&"); }; RouteRecognizer.prototype.parseQueryString = function (queryString) { var pairs = queryString.split("&"), i, pair, key, keyLength, isArray, value; var queryParams = {}; for (i = 0; i < pairs.length; i++) { pair = pairs[i].split("="), key = decodeQueryParamPart(pair[0]), keyLength = key.length, isArray = false, value = void 0; if (pair.length === 1) { value = "true"; } else { // Handle arrays if (keyLength > 2 && key.slice(keyLength - 2) === "[]") { isArray = true; key = key.slice(0, keyLength - 2); if (!queryParams[key]) { queryParams[key] = []; } } value = pair[1] ? decodeQueryParamPart(pair[1]) : ""; } if (isArray) { queryParams[key].push(value); } else { queryParams[key] = value; } } return queryParams; }; RouteRecognizer.prototype.recognize = function (path) { var results, queryString, i, i$1; var states = [this.rootState]; var queryParams = {}; var isSlashDropped = false; var hashStart = path.indexOf("#"); if (hashStart !== -1) { path = path.substr(0, hashStart); } var queryStart = path.indexOf("?"); if (queryStart !== -1) { queryString = path.substr(queryStart + 1, path.length); path = path.substr(0, queryStart); queryParams = this.parseQueryString(queryString); } if (path.charAt(0) !== "/") { path = "/" + path; } var originalPath = path; if (RouteRecognizer.ENCODE_AND_DECODE_PATH_SEGMENTS) { path = normalizePath(path); } else { path = decodeURI(path); originalPath = decodeURI(originalPath); } var pathLen = path.length; if (pathLen > 1 && path.charAt(pathLen - 1) === "/") { path = path.substr(0, pathLen - 1); originalPath = originalPath.substr(0, originalPath.length - 1); isSlashDropped = true; } for (i = 0; i < path.length; i++) { states = recognizeChar(states, path.charCodeAt(i)); if (!states.length) { break; } } var solutions = []; for (i$1 = 0; i$1 < states.length; i$1++) { if (states[i$1].handlers) { solutions.push(states[i$1]); } } states = sortSolutions(solutions); var state = solutions[0]; if (state && state.handlers) { // if a trailing slash was dropped and a star segment is the last segment // specified, put the trailing slash back if (isSlashDropped && state.pattern && state.pattern.slice(-5) === "(.+)$") { originalPath = originalPath + "/"; } results = findHandler(state, originalPath, queryParams); } return results; }; RouteRecognizer.VERSION = "0.3.3"; // Set to false to opt-out of encoding and decoding path segments. // See https://github.com/tildeio/route-recognizer/pull/55 RouteRecognizer.ENCODE_AND_DECODE_PATH_SEGMENTS = true; RouteRecognizer.Normalizer = { normalizeSegment: normalizeSegment, normalizePath: normalizePath, encodePathSegment: encodePathSegment }; RouteRecognizer.prototype.map = function (callback, addRouteCallback) { var matcher = new Matcher(); callback(generateMatch("", matcher, this.delegate)); eachRoute([], matcher, function (routes) { if (addRouteCallback) { addRouteCallback(this, routes); } else { this.add(routes); } }, this); }; exports.default = RouteRecognizer; }); enifed('router', ['exports', 'ember-babel', 'route-recognizer', 'rsvp'], function (exports, _emberBabel, _routeRecognizer, _rsvp) { 'use strict'; exports.Transition = undefined; var slice = Array.prototype.slice; var hasOwnProperty = Object.prototype.hasOwnProperty; /** Determines if an object is Promise by checking if it is "thenable". **/ function isPromise(obj) { return (typeof obj === 'object' && obj !== null || typeof obj === 'function') && typeof obj.then === 'function'; } function merge(hash, other) { for (var prop in other) { if (hasOwnProperty.call(other, prop)) { hash[prop] = other[prop]; } } } /** @private Extracts query params from the end of an array **/ function extractQueryParams(array) { var len = array && array.length, head = void 0, queryParams = void 0; if (len && len > 0 && array[len - 1] && array[len - 1].hasOwnProperty('queryParams')) { queryParams = array[len - 1].queryParams; head = slice.call(array, 0, len - 1); return [head, queryParams]; } else { return [array, null]; } } /** @private Coerces query param properties and array elements into strings. **/ function coerceQueryParamsToString(queryParams) { var i, l; for (var key in queryParams) { if (typeof queryParams[key] === 'number') { queryParams[key] = '' + queryParams[key]; } else if (Array.isArray(queryParams[key])) { for (i = 0, l = queryParams[key].length; i < l; i++) { queryParams[key][i] = '' + queryParams[key][i]; } } } } /** @private */ function _log(router, sequence, msg) { if (!router.log) { return; } if (arguments.length === 3) { router.log('Transition #' + sequence + ': ' + msg); } else { msg = sequence; router.log(msg); } } function isParam(object) { return typeof object === 'string' || object instanceof String || typeof object === 'number' || object instanceof Number; } function forEach(array, callback) { var i, l; for (i = 0, l = array.length; i < l && false !== callback(array[i]); i++) { // empty intentionally } } function _trigger(router, handlerInfos, ignoreFailure, args) { if (router.triggerEvent) { router.triggerEvent(handlerInfos, ignoreFailure, args); return; } var name = args.shift(), i, handlerInfo, handler; if (!handlerInfos) { if (ignoreFailure) { return; } throw new Error("Could not trigger event '" + name + "'. There are no active handlers"); } var eventWasHandled = false; function delayedEvent(name, args, handler) { handler.events[name].apply(handler, args); } for (i = handlerInfos.length - 1; i >= 0; i--) { handlerInfo = handlerInfos[i], handler = handlerInfo.handler; // If there is no handler, it means the handler hasn't resolved yet which // means that we should trigger the event later when the handler is available if (!handler) { handlerInfo.handlerPromise.then(delayedEvent.bind(null, name, args)); continue; } if (handler.events && handler.events[name]) { if (handler.events[name].apply(handler, args) === true) { eventWasHandled = true; } else { return; } } } // In the case that we got an UnrecognizedURLError as an event with no handler, // let it bubble up if (name === 'error' && args[0].name === 'UnrecognizedURLError') { throw args[0]; } else if (!eventWasHandled && !ignoreFailure) { throw new Error("Nothing handled the event '" + name + "'."); } } function getChangelist(oldObject, newObject) { var key = void 0, i, l; var results = { all: {}, changed: {}, removed: {} }; merge(results.all, newObject); var didChange = false; coerceQueryParamsToString(oldObject); coerceQueryParamsToString(newObject); // Calculate removals for (key in oldObject) { if (hasOwnProperty.call(oldObject, key)) { if (!hasOwnProperty.call(newObject, key)) { didChange = true; results.removed[key] = oldObject[key]; } } } // Calculate changes for (key in newObject) { if (hasOwnProperty.call(newObject, key)) { if (Array.isArray(oldObject[key]) && Array.isArray(newObject[key])) { if (oldObject[key].length !== newObject[key].length) { results.changed[key] = newObject[key]; didChange = true; } else { for (i = 0, l = oldObject[key].length; i < l; i++) { if (oldObject[key][i] !== newObject[key][i]) { results.changed[key] = newObject[key]; didChange = true; } } } } else { if (oldObject[key] !== newObject[key]) { results.changed[key] = newObject[key]; didChange = true; } } } } return didChange && results; } function _promiseLabel(label) { return 'Router: ' + label; } function resolveHook(obj, hookName) { if (!obj) { return; } var underscored = '_' + hookName; return obj[underscored] && underscored || obj[hookName] && hookName; } function callHook(obj, _hookName, arg1, arg2) { var hookName = resolveHook(obj, _hookName); return hookName && obj[hookName].call(obj, arg1, arg2); } function applyHook(obj, _hookName, args) { var hookName = resolveHook(obj, _hookName); if (hookName) { if (args.length === 0) { return obj[hookName].call(obj); } else if (args.length === 1) { return obj[hookName].call(obj, args[0]); } else if (args.length === 2) { return obj[hookName].call(obj, args[0], args[1]); } else { return obj[hookName].apply(obj, args); } } } function TransitionState() { this.handlerInfos = []; this.queryParams = {}; this.params = {}; } TransitionState.prototype = { promiseLabel: function (label) { var targetName = ''; forEach(this.handlerInfos, function (handlerInfo) { if (targetName !== '') { targetName += '.'; } targetName += handlerInfo.name; }); return _promiseLabel("'" + targetName + "': " + label); }, resolve: function (shouldContinue, payload) { // First, calculate params for this state. This is useful // information to provide to the various route hooks. var params = this.params; forEach(this.handlerInfos, function (handlerInfo) { params[handlerInfo.name] = handlerInfo.params || {}; }); payload = payload || {}; payload.resolveIndex = 0; var currentState = this; var wasAborted = false; // The prelude RSVP.resolve() asyncs us into the promise land. return _rsvp.Promise.resolve(null, this.promiseLabel('Start transition')).then(resolveOneHandlerInfo, null, this.promiseLabel('Resolve handler')).catch(function (error) { // This is the only possible // reject value of TransitionState#resolve var handlerInfos = currentState.handlerInfos; var errorHandlerIndex = payload.resolveIndex >= handlerInfos.length ? handlerInfos.length - 1 : payload.resolveIndex; return _rsvp.Promise.reject({ error: error, handlerWithError: currentState.handlerInfos[errorHandlerIndex].handler, wasAborted: wasAborted, state: currentState }); }, this.promiseLabel('Handle error')); function innerShouldContinue() { return _rsvp.Promise.resolve(shouldContinue(), currentState.promiseLabel('Check if should continue')).catch(function (reason) { // We distinguish between errors that occurred // during resolution (e.g. before"Model/model/afterModel), // and aborts due to a rejecting promise from shouldContinue(). wasAborted = true; return _rsvp.Promise.reject(reason); }, currentState.promiseLabel('Handle abort')); } function proceed(resolvedHandlerInfo) { var wasAlreadyResolved = currentState.handlerInfos[payload.resolveIndex].isResolved, handler; // Swap the previously unresolved handlerInfo with // the resolved handlerInfo currentState.handlerInfos[payload.resolveIndex++] = resolvedHandlerInfo; if (!wasAlreadyResolved) { // Call the redirect hook. The reason we call it here // vs. afterModel is so that redirects into child // routes don't re-run the model hooks for this // already-resolved route. handler = resolvedHandlerInfo.handler; callHook(handler, 'redirect', resolvedHandlerInfo.context, payload); } // Proceed after ensuring that the redirect hook // didn't abort this transition by transitioning elsewhere. return innerShouldContinue().then(resolveOneHandlerInfo, null, currentState.promiseLabel('Resolve handler')); } function resolveOneHandlerInfo() { if (payload.resolveIndex === currentState.handlerInfos.length) { // This is is the only possible // fulfill value of TransitionState#resolve return { error: null, state: currentState }; } var handlerInfo = currentState.handlerInfos[payload.resolveIndex]; return handlerInfo.resolve(innerShouldContinue, payload).then(proceed, null, currentState.promiseLabel('Proceed')); } } }; function TransitionAbortedError(message) { if (!(this instanceof TransitionAbortedError)) { return new TransitionAbortedError(message); } var error = Error.call(this, message); if (Error.captureStackTrace) { Error.captureStackTrace(this, TransitionAbortedError); } else { this.stack = error.stack; } this.description = error.description; this.fileName = error.fileName; this.lineNumber = error.lineNumber; this.message = error.message || 'TransitionAborted'; this.name = 'TransitionAborted'; this.number = error.number; this.code = error.code; } TransitionAbortedError.prototype = Object.create(Error.prototype); /** A Transition is a thennable (a promise-like object) that represents an attempt to transition to another route. It can be aborted, either explicitly via `abort` or by attempting another transition while a previous one is still underway. An aborted transition can also be `retry()`d later. @class Transition @constructor @param {Object} router @param {Object} intent @param {Object} state @param {Object} error @private */ var Transition = function () { function Transition(router, intent, state, error, previousTransition) { var _this = this, len, i, handlerInfo; this.state = state || router.state; this.intent = intent; this.router = router; this.data = this.intent && this.intent.data || {}; this.resolvedModels = {}; this.queryParams = {}; this.promise = undefined; this.error = undefined; this.params = undefined; this.handlerInfos = undefined; this.targetName = undefined; this.pivotHandler = undefined; this.sequence = undefined; this.isAborted = false; this.isActive = true; this.urlMethod = 'update'; this.resolveIndex = 0; this.queryParamsOnly = false; this.isTransition = true; if (error) { this.promise = _rsvp.Promise.reject(error); this.error = error; return; } // if you're doing multiple redirects, need the new transition to know if it // is actually part of the first transition or not. Any further redirects // in the initial transition also need to know if they are part of the // initial transition this.isCausedByAbortingTransition = !!previousTransition; this.isCausedByInitialTransition = previousTransition && (previousTransition.isCausedByInitialTransition || previousTransition.sequence === 0); if (state) { this.params = state.params; this.queryParams = state.queryParams; this.handlerInfos = state.handlerInfos; len = state.handlerInfos.length; if (len) { this.targetName = state.handlerInfos[len - 1].name; } for (i = 0; i < len; ++i) { handlerInfo = state.handlerInfos[i]; // TODO: this all seems hacky if (!handlerInfo.isResolved) { break; } this.pivotHandler = handlerInfo.handler; } this.sequence = router.currentSequence++; this.promise = state.resolve(function () { if (_this.isAborted) { return _rsvp.Promise.reject(undefined, _promiseLabel('Transition aborted - reject')); } }, this).catch(function (result) { if (result.wasAborted || _this.isAborted) { return _rsvp.Promise.reject(logAbort(_this)); } else { _this.trigger('error', result.error, _this, result.handlerWithError); _this.abort(); return _rsvp.Promise.reject(result.error); } }, _promiseLabel('Handle Abort')); } else { this.promise = _rsvp.Promise.resolve(this.state); this.params = {}; } } Transition.prototype.isExiting = function (handler) { var handlerInfos = this.handlerInfos, i, len, handlerInfo; for (i = 0, len = handlerInfos.length; i < len; ++i) { handlerInfo = handlerInfos[i]; if (handlerInfo.name === handler || handlerInfo.handler === handler) { return false; } } return true; }; Transition.prototype.then = function (onFulfilled, onRejected, label) { return this.promise.then(onFulfilled, onRejected, label); }; Transition.prototype.catch = function (onRejection, label) { return this.promise.catch(onRejection, label); }; Transition.prototype.finally = function (callback, label) { return this.promise.finally(callback, label); }; Transition.prototype.abort = function () { if (this.isAborted) { return this; } _log(this.router, this.sequence, this.targetName + ': transition was aborted'); this.intent.preTransitionState = this.router.state; this.isAborted = true; this.isActive = false; this.router.activeTransition = null; return this; }; Transition.prototype.retry = function () { // TODO: add tests for merged state retry()s this.abort(); var newTransition = this.router.transitionByIntent(this.intent, false); // inheriting a `null` urlMethod is not valid // the urlMethod is only set to `null` when // the transition is initiated *after* the url // has been updated (i.e. `router.handleURL`) // // in that scenario, the url method cannot be // inherited for a new transition because then // the url would not update even though it should if (this.urlMethod !== null) { newTransition.method(this.urlMethod); } return newTransition; }; Transition.prototype.method = function (_method) { this.urlMethod = _method; return this; }; Transition.prototype.trigger = function (ignoreFailure) { var args = slice.call(arguments); if (typeof ignoreFailure === 'boolean') { args.shift(); } else { // Throw errors on unhandled trigger events by default ignoreFailure = false; } _trigger(this.router, this.state.handlerInfos.slice(0, this.resolveIndex + 1), ignoreFailure, args); }; Transition.prototype.followRedirects = function () { var router = this.router; return this.promise.catch(function (reason) { if (router.activeTransition) { return router.activeTransition.followRedirects(); } return _rsvp.Promise.reject(reason); }); }; Transition.prototype.toString = function () { return 'Transition (sequence ' + this.sequence + ')'; }; Transition.prototype.log = function (message) { _log(this.router, this.sequence, message); }; return Transition; }(); // Alias 'trigger' as 'send' Transition.prototype.send = Transition.prototype.trigger; /** @private Logs and returns an instance of TransitionAborted. */ function logAbort(transition) { _log(transition.router, transition.sequence, 'detected abort.'); return new TransitionAbortedError(); } var TransitionIntent = function () { this.data = this.data || {}; }; var DEFAULT_HANDLER = Object.freeze({}); var HandlerInfo = function () { function HandlerInfo(_props) { var props = _props || {}; // initialize local properties to ensure consistent object shape this._handler = DEFAULT_HANDLER; this._handlerPromise = null; this.factory = null; // Injected by the handler info factory this.name = props.name; for (var prop in props) { if (prop === 'handler') { this._processHandler(props.handler); } else { this[prop] = props[prop]; } } } HandlerInfo.prototype.getHandler = function () {}; HandlerInfo.prototype.fetchHandler = function () { var handler = this.getHandler(this.name); return this._processHandler(handler); }; HandlerInfo.prototype._processHandler = function (handler) { var _this2 = this; // Setup a handlerPromise so that we can wait for asynchronously loaded handlers this.handlerPromise = _rsvp.Promise.resolve(handler); // Wait until the 'handler' property has been updated when chaining to a handler // that is a promise if (isPromise(handler)) { this.handlerPromise = this.handlerPromise.then(function (h) { return _this2.updateHandler(h); }); // set to undefined to avoid recursive loop in the handler getter return this.handler = undefined; } else if (handler) { return this.updateHandler(handler); } }; HandlerInfo.prototype.log = function (payload, message) { if (payload.log) { payload.log(this.name + ': ' + message); } }; HandlerInfo.prototype.promiseLabel = function (label) { return _promiseLabel("'" + this.name + "' " + label); }; HandlerInfo.prototype.getUnresolved = function () { return this; }; HandlerInfo.prototype.serialize = function () { return this.params || {}; }; HandlerInfo.prototype.updateHandler = function (handler) { // Store the name of the handler on the handler for easy checks later handler._handlerName = this.name; return this.handler = handler; }; HandlerInfo.prototype.resolve = function (shouldContinue, payload) { var checkForAbort = this.checkForAbort.bind(this, shouldContinue), beforeModel = this.runBeforeModelHook.bind(this, payload), model = this.getModel.bind(this, payload), afterModel = this.runAfterModelHook.bind(this, payload), becomeResolved = this.becomeResolved.bind(this, payload), self = this; return _rsvp.Promise.resolve(this.handlerPromise, this.promiseLabel('Start handler')).then(function (handler) { // We nest this chain in case the handlerPromise has an error so that // we don't have to bubble it through every step return _rsvp.Promise.resolve(handler).then(checkForAbort, null, self.promiseLabel('Check for abort')).then(beforeModel, null, self.promiseLabel('Before model')).then(checkForAbort, null, self.promiseLabel("Check if aborted during 'beforeModel' hook")).then(model, null, self.promiseLabel('Model')).then(checkForAbort, null, self.promiseLabel("Check if aborted in 'model' hook")).then(afterModel, null, self.promiseLabel('After model')).then(checkForAbort, null, self.promiseLabel("Check if aborted in 'afterModel' hook")).then(becomeResolved, null, self.promiseLabel('Become resolved')); }, function (error) { throw error; }); }; HandlerInfo.prototype.runBeforeModelHook = function (payload) { if (payload.trigger) { payload.trigger(true, 'willResolveModel', payload, this.handler); } return this.runSharedModelHook(payload, 'beforeModel', []); }; HandlerInfo.prototype.runAfterModelHook = function (payload, resolvedModel) { // Stash the resolved model on the payload. // This makes it possible for users to swap out // the resolved model in afterModel. var name = this.name; this.stashResolvedModel(payload, resolvedModel); return this.runSharedModelHook(payload, 'afterModel', [resolvedModel]).then(function () { // Ignore the fulfilled value returned from afterModel. // Return the value stashed in resolvedModels, which // might have been swapped out in afterModel. return payload.resolvedModels[name]; }, null, this.promiseLabel('Ignore fulfillment value and return model value')); }; HandlerInfo.prototype.runSharedModelHook = function (payload, hookName, args) { this.log(payload, 'calling ' + hookName + ' hook'); if (this.queryParams) { args.push(this.queryParams); } args.push(payload); var result = applyHook(this.handler, hookName, args); if (result && result.isTransition) { result = null; } return _rsvp.Promise.resolve(result, this.promiseLabel('Resolve value returned from one of the model hooks')); }; HandlerInfo.prototype.getModel = function () {}; HandlerInfo.prototype.checkForAbort = function (shouldContinue, promiseValue) { return _rsvp.Promise.resolve(shouldContinue(), this.promiseLabel('Check for abort')).then(function () { // We don't care about shouldContinue's resolve value; // pass along the original value passed to this fn. return promiseValue; }, null, this.promiseLabel('Ignore fulfillment value and continue')); }; HandlerInfo.prototype.stashResolvedModel = function (payload, resolvedModel) { payload.resolvedModels = payload.resolvedModels || {}; payload.resolvedModels[this.name] = resolvedModel; }; HandlerInfo.prototype.becomeResolved = function (payload, resolvedContext) { var params = this.serialize(resolvedContext); if (payload) { this.stashResolvedModel(payload, resolvedContext); payload.params = payload.params || {}; payload.params[this.name] = params; } return this.factory('resolved', { context: resolvedContext, name: this.name, handler: this.handler, params: params }); }; HandlerInfo.prototype.shouldSupercede = function (other) { // Prefer this newer handlerInfo over `other` if: // 1) The other one doesn't exist // 2) The names don't match // 3) This handler has a context that doesn't match // the other one (or the other one doesn't have one). // 4) This handler has parameters that don't match the other. if (!other) { return true; } var contextsMatch = other.context === this.context; return other.name !== this.name || this.hasOwnProperty('context') && !contextsMatch || this.hasOwnProperty('params') && !paramsMatch(this.params, other.params); }; (0, _emberBabel.createClass)(HandlerInfo, [{ key: 'handler', get: function () { // _handler could be set to either a handler object or undefined, so we // compare against a default reference to know when it's been set if (this._handler !== DEFAULT_HANDLER) { return this._handler; } return this.fetchHandler(); }, set: function (handler) { return this._handler = handler; } }, { key: 'handlerPromise', get: function () { if (this._handlerPromise !== null) { return this._handlerPromise; } this.fetchHandler(); return this._handlerPromise; }, set: function (handlerPromise) { this._handlerPromise = handlerPromise; return handlerPromise; } }]); return HandlerInfo; }(); // this is bonkers, we require that `context` be set on on the // HandlerInfo prototype to null because the checks in // `NamedTransitionIntent.prototype.applyToHandlers` here // https://github.com/tildeio/router.js/blob/v1.2.8/lib/router/transition-intent/named-transition-intent.js#L76-L81 // check of `oldHandlerInfo.context === newHandlerInfo.context` and assumes // that the params _must_ match also in that case. // // The only reason `oldHandlerInfo.context` and `newHandlerInfo.context` did not // match in prior versions is because if the context isn't set yet (on newHandlerInfo) // is because it inherits the `null` from the prototype vs `undefined` (on // the oldHandlerInfo). // // A future refactoring should remove that conditional, and fix the hand full of // failing tests. HandlerInfo.prototype.context = null; function paramsMatch(a, b) { if (!a ^ !b) { // Only one is null. return false; } if (!a) { // Both must be null. return true; } // Note: this assumes that both params have the same // number of keys, but since we're comparing the // same handlers, they should. for (var k in a) { if (a.hasOwnProperty(k) && a[k] !== b[k]) { return false; } } return true; } var ResolvedHandlerInfo = function (_HandlerInfo) { (0, _emberBabel.inherits)(ResolvedHandlerInfo, _HandlerInfo); function ResolvedHandlerInfo(props) { var _this3 = (0, _emberBabel.possibleConstructorReturn)(this, _HandlerInfo.call(this, props)); _this3.isResolved = true; return _this3; } ResolvedHandlerInfo.prototype.resolve = function (shouldContinue, payload) { // A ResolvedHandlerInfo just resolved with itself. if (payload && payload.resolvedModels) { payload.resolvedModels[this.name] = this.context; } return _rsvp.Promise.resolve(this, this.promiseLabel('Resolve')); }; ResolvedHandlerInfo.prototype.getUnresolved = function () { return this.factory('param', { name: this.name, handler: this.handler, params: this.params }); }; return ResolvedHandlerInfo; }(HandlerInfo); var UnresolvedHandlerInfoByObject = function (_HandlerInfo2) { (0, _emberBabel.inherits)(UnresolvedHandlerInfoByObject, _HandlerInfo2); function UnresolvedHandlerInfoByObject(props) { var _this4 = (0, _emberBabel.possibleConstructorReturn)(this, _HandlerInfo2.call(this, props)); _this4.names = _this4.names || []; return _this4; } UnresolvedHandlerInfoByObject.prototype.getModel = function (payload) { this.log(payload, this.name + ': resolving provided model'); return _rsvp.Promise.resolve(this.context); }; UnresolvedHandlerInfoByObject.prototype.serialize = function (_model) { var model = _model || this.context, names = this.names; var object = {}; if (isParam(model)) { object[names[0]] = model; return object; } // Use custom serialize if it exists. if (this.serializer) { // invoke this.serializer unbound (getSerializer returns a stateless function) return this.serializer.call(null, model, names); } else if (this.handler && this.handler.serialize) { return this.handler.serialize(model, names); } if (names.length !== 1) { return; } var name = names[0]; if (/_id$/.test(name)) { object[name] = model.id; } else { object[name] = model; } return object; }; return UnresolvedHandlerInfoByObject; }(HandlerInfo); var UnresolvedHandlerInfoByParam = function (_HandlerInfo3) { (0, _emberBabel.inherits)(UnresolvedHandlerInfoByParam, _HandlerInfo3); function UnresolvedHandlerInfoByParam(props) { var _this5 = (0, _emberBabel.possibleConstructorReturn)(this, _HandlerInfo3.call(this, props)); _this5.params = _this5.params || {}; return _this5; } UnresolvedHandlerInfoByParam.prototype.getModel = function (payload) { var fullParams = this.params; if (payload && payload.queryParams) { fullParams = {}; merge(fullParams, this.params); fullParams.queryParams = payload.queryParams; } var handler = this.handler; var hookName = resolveHook(handler, 'deserialize') || resolveHook(handler, 'model'); return this.runSharedModelHook(payload, hookName, [fullParams]); }; return UnresolvedHandlerInfoByParam; }(HandlerInfo); handlerInfoFactory.klasses = { resolved: ResolvedHandlerInfo, param: UnresolvedHandlerInfoByParam, object: UnresolvedHandlerInfoByObject }; function handlerInfoFactory(name, props) { var klass = handlerInfoFactory.klasses[name]; var handlerInfo = new klass(props || {}); handlerInfo.factory = handlerInfoFactory; return handlerInfo; } var NamedTransitionIntent = function (_TransitionIntent) { (0, _emberBabel.inherits)(NamedTransitionIntent, _TransitionIntent); function NamedTransitionIntent(props) { var _this6 = (0, _emberBabel.possibleConstructorReturn)(this, _TransitionIntent.call(this, props)); _this6.name = props.name; _this6.pivotHandler = props.pivotHandler; _this6.contexts = props.contexts || []; _this6.queryParams = props.queryParams; return _this6; } NamedTransitionIntent.prototype.applyToState = function (oldState, recognizer, getHandler, isIntermediate, getSerializer) { var partitionedArgs = extractQueryParams([this.name].concat(this.contexts)), pureArgs = partitionedArgs[0], handlers = recognizer.handlersFor(pureArgs[0]); var targetRouteName = handlers[handlers.length - 1].handler; return this.applyToHandlers(oldState, handlers, getHandler, targetRouteName, isIntermediate, null, getSerializer); }; NamedTransitionIntent.prototype.applyToHandlers = function (oldState, handlers, getHandler, targetRouteName, isIntermediate, checkingIfActive, getSerializer) { var i, len, result, name, oldHandlerInfo, newHandlerInfo, serializer, oldContext, handlerToUse; var newState = new TransitionState(); var objects = this.contexts.slice(0); var invalidateIndex = handlers.length; // Pivot handlers are provided for refresh transitions if (this.pivotHandler) { for (i = 0, len = handlers.length; i < len; ++i) { if (handlers[i].handler === this.pivotHandler._handlerName) { invalidateIndex = i; break; } } } for (i = handlers.length - 1; i >= 0; --i) { result = handlers[i]; name = result.handler; oldHandlerInfo = oldState.handlerInfos[i]; newHandlerInfo = null; if (result.names.length > 0) { if (i >= invalidateIndex) { newHandlerInfo = this.createParamHandlerInfo(name, getHandler, result.names, objects, oldHandlerInfo); } else { serializer = getSerializer(name); newHandlerInfo = this.getHandlerInfoForDynamicSegment(name, getHandler, result.names, objects, oldHandlerInfo, targetRouteName, i, serializer); } } else { // This route has no dynamic segment. // Therefore treat as a param-based handlerInfo // with empty params. This will cause the `model` // hook to be called with empty params, which is desirable. newHandlerInfo = this.createParamHandlerInfo(name, getHandler, result.names, objects, oldHandlerInfo); } if (checkingIfActive) { // If we're performing an isActive check, we want to // serialize URL params with the provided context, but // ignore mismatches between old and new context. newHandlerInfo = newHandlerInfo.becomeResolved(null, newHandlerInfo.context); oldContext = oldHandlerInfo && oldHandlerInfo.context; if (result.names.length > 0 && newHandlerInfo.context === oldContext) { // If contexts match in isActive test, assume params also match. // This allows for flexibility in not requiring that every last // handler provide a `serialize` method newHandlerInfo.params = oldHandlerInfo && oldHandlerInfo.params; } newHandlerInfo.context = oldContext; } handlerToUse = oldHandlerInfo; if (i >= invalidateIndex || newHandlerInfo.shouldSupercede(oldHandlerInfo)) { invalidateIndex = Math.min(i, invalidateIndex); handlerToUse = newHandlerInfo; } if (isIntermediate && !checkingIfActive) { handlerToUse = handlerToUse.becomeResolved(null, handlerToUse.context); } newState.handlerInfos.unshift(handlerToUse); } if (objects.length > 0) { throw new Error('More context objects were passed than there are dynamic segments for the route: ' + targetRouteName); } if (!isIntermediate) { this.invalidateChildren(newState.handlerInfos, invalidateIndex); } merge(newState.queryParams, this.queryParams || {}); return newState; }; NamedTransitionIntent.prototype.invalidateChildren = function (handlerInfos, invalidateIndex) { var i, l, handlerInfo; for (i = invalidateIndex, l = handlerInfos.length; i < l; ++i) { handlerInfo = handlerInfos[i]; handlerInfos[i] = handlerInfo.getUnresolved(); } }; NamedTransitionIntent.prototype.getHandlerInfoForDynamicSegment = function (name, getHandler, names, objects, oldHandlerInfo, targetRouteName, i, serializer) { var objectToUse, preTransitionHandlerInfo; if (objects.length > 0) { // Use the objects provided for this transition. objectToUse = objects[objects.length - 1]; if (isParam(objectToUse)) { return this.createParamHandlerInfo(name, getHandler, names, objects, oldHandlerInfo); } else { objects.pop(); } } else if (oldHandlerInfo && oldHandlerInfo.name === name) { // Reuse the matching oldHandlerInfo return oldHandlerInfo; } else { if (this.preTransitionState) { preTransitionHandlerInfo = this.preTransitionState.handlerInfos[i]; objectToUse = preTransitionHandlerInfo && preTransitionHandlerInfo.context; } else { // Ideally we should throw this error to provide maximal // information to the user that not enough context objects // were provided, but this proves too cumbersome in Ember // in cases where inner template helpers are evaluated // before parent helpers un-render, in which cases this // error somewhat prematurely fires. //throw new Error("Not enough context objects were provided to complete a transition to " + targetRouteName + ". Specifically, the " + name + " route needs an object that can be serialized into its dynamic URL segments [" + names.join(', ') + "]"); return oldHandlerInfo; } } return handlerInfoFactory('object', { name: name, getHandler: getHandler, serializer: serializer, context: objectToUse, names: names }); }; NamedTransitionIntent.prototype.createParamHandlerInfo = function (name, getHandler, names, objects, oldHandlerInfo) { var params = {}, oldParams, peek, paramName; // Soak up all the provided string/numbers var numNames = names.length; while (numNames--) { // Only use old params if the names match with the new handler oldParams = oldHandlerInfo && name === oldHandlerInfo.name && oldHandlerInfo.params || {}; peek = objects[objects.length - 1]; paramName = names[numNames]; if (isParam(peek)) { params[paramName] = '' + objects.pop(); } else { // If we're here, this means only some of the params // were string/number params, so try and use a param // value from a previous handler. if (oldParams.hasOwnProperty(paramName)) { params[paramName] = oldParams[paramName]; } else { throw new Error("You didn't provide enough string/numeric parameters to satisfy all of the dynamic segments for route " + name); } } } return handlerInfoFactory('param', { name: name, getHandler: getHandler, params: params }); }; return NamedTransitionIntent; }(TransitionIntent); function UnrecognizedURLError(message) { if (!(this instanceof UnrecognizedURLError)) { return new UnrecognizedURLError(message); } var error = Error.call(this, message); if (Error.captureStackTrace) { Error.captureStackTrace(this, UnrecognizedURLError); } else { this.stack = error.stack; } this.description = error.description; this.fileName = error.fileName; this.lineNumber = error.lineNumber; this.message = error.message || 'UnrecognizedURL'; this.name = 'UnrecognizedURLError'; this.number = error.number; this.code = error.code; } UnrecognizedURLError.prototype = Object.create(Error.prototype); var URLTransitionIntent = function (_TransitionIntent2) { (0, _emberBabel.inherits)(URLTransitionIntent, _TransitionIntent2); function URLTransitionIntent(props) { var _this7 = (0, _emberBabel.possibleConstructorReturn)(this, _TransitionIntent2.call(this, props)); _this7.url = props.url; return _this7; } URLTransitionIntent.prototype.applyToState = function (oldState, recognizer, getHandler) { var newState = new TransitionState(), result, name, newHandlerInfo, handler, oldHandlerInfo; var results = recognizer.recognize(this.url), i, len; if (!results) { throw new UnrecognizedURLError(this.url); } var statesDiffer = false; var url = this.url; // Checks if a handler is accessible by URL. If it is not, an error is thrown. // For the case where the handler is loaded asynchronously, the error will be // thrown once it is loaded. function checkHandlerAccessibility(handler) { if (handler && handler.inaccessibleByURL) { throw new UnrecognizedURLError(url); } return handler; } for (i = 0, len = results.length; i < len; ++i) { result = results[i]; name = result.handler; newHandlerInfo = handlerInfoFactory('param', { name: name, getHandler: getHandler, params: result.params }); handler = newHandlerInfo.handler; if (handler) { checkHandlerAccessibility(handler); } else { // If the hanlder is being loaded asynchronously, check if we can // access it after it has resolved newHandlerInfo.handlerPromise = newHandlerInfo.handlerPromise.then(checkHandlerAccessibility); } oldHandlerInfo = oldState.handlerInfos[i]; if (statesDiffer || newHandlerInfo.shouldSupercede(oldHandlerInfo)) { statesDiffer = true; newState.handlerInfos[i] = newHandlerInfo; } else { newState.handlerInfos[i] = oldHandlerInfo; } } merge(newState.queryParams, results.queryParams); return newState; }; return URLTransitionIntent; }(TransitionIntent); var pop = Array.prototype.pop; function Router(_options) { var options = _options || {}; this.getHandler = options.getHandler || this.getHandler; this.getSerializer = options.getSerializer || this.getSerializer; this.updateURL = options.updateURL || this.updateURL; this.replaceURL = options.replaceURL || this.replaceURL; this.didTransition = options.didTransition || this.didTransition; this.willTransition = options.willTransition || this.willTransition; this.delegate = options.delegate || this.delegate; this.triggerEvent = options.triggerEvent || this.triggerEvent; this.log = options.log || this.log; this.dslCallBacks = []; // NOTE: set by Ember this.state = undefined; this.activeTransition = undefined; this._changedQueryParams = undefined; this.oldState = undefined; this.currentHandlerInfos = undefined; this.currentSequence = 0; this.recognizer = new _routeRecognizer.default(); this.reset(); } function getTransitionByIntent(intent, isIntermediate) { var wasTransitioning = !!this.activeTransition; var oldState = wasTransitioning ? this.activeTransition.state : this.state; var newTransition; var newState = intent.applyToState(oldState, this.recognizer, this.getHandler, isIntermediate, this.getSerializer); var queryParamChangelist = getChangelist(oldState.queryParams, newState.queryParams); if (handlerInfosEqual(newState.handlerInfos, oldState.handlerInfos)) { // This is a no-op transition. See if query params changed. if (queryParamChangelist) { newTransition = this.queryParamsTransition(queryParamChangelist, wasTransitioning, oldState, newState); if (newTransition) { newTransition.queryParamsOnly = true; return newTransition; } } // No-op. No need to create a new transition. return this.activeTransition || new Transition(this); } if (isIntermediate) { setupContexts(this, newState); return; } // Create a new transition to the destination route. newTransition = new Transition(this, intent, newState, undefined, this.activeTransition); // transition is to same route with same params, only query params differ. // not caught above probably because refresh() has been used if (handlerInfosSameExceptQueryParams(newState.handlerInfos, oldState.handlerInfos)) { newTransition.queryParamsOnly = true; } // Abort and usurp any previously active transition. if (this.activeTransition) { this.activeTransition.abort(); } this.activeTransition = newTransition; // Transition promises by default resolve with resolved state. // For our purposes, swap out the promise to resolve // after the transition has been finalized. newTransition.promise = newTransition.promise.then(function (result) { return finalizeTransition(newTransition, result.state); }, null, _promiseLabel('Settle transition promise when transition is finalized')); if (!wasTransitioning) { notifyExistingHandlers(this, newState, newTransition); } fireQueryParamDidChange(this, newState, queryParamChangelist); return newTransition; } Router.prototype = { /** The main entry point into the router. The API is essentially the same as the `map` method in `route-recognizer`. This method extracts the String handler at the last `.to()` call and uses it as the name of the whole route. @param {Function} callback */ map: function (callback) { this.recognizer.delegate = this.delegate; this.recognizer.map(callback, function (recognizer, routes) { var i, proceed, route; for (i = routes.length - 1, proceed = true; i >= 0 && proceed; --i) { route = routes[i]; recognizer.add(routes, { as: route.handler }); proceed = route.path === '/' || route.path === '' || route.handler.slice(-6) === '.index'; } }); }, hasRoute: function (route) { return this.recognizer.hasRoute(route); }, getHandler: function () {}, getSerializer: function () {}, queryParamsTransition: function (changelist, wasTransitioning, oldState, newState) { var router = this, newTransition; fireQueryParamDidChange(this, newState, changelist); if (!wasTransitioning && this.activeTransition) { // One of the handlers in queryParamsDidChange // caused a transition. Just return that transition. return this.activeTransition; } else { // Running queryParamsDidChange didn't change anything. // Just update query params and be on our way. // We have to return a noop transition that will // perform a URL update at the end. This gives // the user the ability to set the url update // method (default is replaceState). newTransition = new Transition(this); newTransition.queryParamsOnly = true; oldState.queryParams = finalizeQueryParamChange(this, newState.handlerInfos, newState.queryParams, newTransition); newTransition.promise = newTransition.promise.then(function (result) { updateURL(newTransition, oldState, true); if (router.didTransition) { router.didTransition(router.currentHandlerInfos); } return result; }, null, _promiseLabel('Transition complete')); return newTransition; } }, // NOTE: this doesn't really belong here, but here // it shall remain until our ES6 transpiler can // handle cyclical deps. transitionByIntent: function (intent /*, isIntermediate*/) { try { return getTransitionByIntent.apply(this, arguments); } catch (e) { return new Transition(this, intent, null, e); } }, /** Clears the current and target route handlers and triggers exit on each of them starting at the leaf and traversing up through its ancestors. */ reset: function () { if (this.state) { forEach(this.state.handlerInfos.slice().reverse(), function (handlerInfo) { var handler = handlerInfo.handler; callHook(handler, 'exit'); }); } this.oldState = undefined; this.state = new TransitionState(); this.currentHandlerInfos = null; }, activeTransition: null, /** var handler = handlerInfo.handler; The entry point for handling a change to the URL (usually via the back and forward button). Returns an Array of handlers and the parameters associated with those parameters. @param {String} url a URL to process @return {Array} an Array of `[handler, parameter]` tuples */ handleURL: function (url) { // Perform a URL-based transition, but don't change // the URL afterward, since it already happened. var args = slice.call(arguments); if (url.charAt(0) !== '/') { args[0] = '/' + url; } return doTransition(this, args).method(null); }, /** Hook point for updating the URL. @param {String} url a URL to update to */ updateURL: function () { throw new Error('updateURL is not implemented'); }, /** Hook point for replacing the current URL, i.e. with replaceState By default this behaves the same as `updateURL` @param {String} url a URL to update to */ replaceURL: function (url) { this.updateURL(url); }, /** Transition into the specified named route. If necessary, trigger the exit callback on any handlers that are no longer represented by the target route. @param {String} name the name of the route */ transitionTo: function () /*name*/{ return doTransition(this, arguments); }, intermediateTransitionTo: function () /*name*/{ return doTransition(this, arguments, true); }, refresh: function (pivotHandler) { var previousTransition = this.activeTransition; var state = previousTransition ? previousTransition.state : this.state; var handlerInfos = state.handlerInfos; _log(this, 'Starting a refresh transition'); var intent = new NamedTransitionIntent({ name: handlerInfos[handlerInfos.length - 1].name, pivotHandler: pivotHandler || handlerInfos[0].handler, contexts: [], // TODO collect contexts...? queryParams: this._changedQueryParams || state.queryParams || {} }); var newTransition = this.transitionByIntent(intent, false); // if the previous transition is a replace transition, that needs to be preserved if (previousTransition && previousTransition.urlMethod === 'replace') { newTransition.method(previousTransition.urlMethod); } return newTransition; }, /** Identical to `transitionTo` except that the current URL will be replaced if possible. This method is intended primarily for use with `replaceState`. @param {String} name the name of the route */ replaceWith: function () /*name*/{ return doTransition(this, arguments).method('replace'); }, /** Take a named route and context objects and generate a URL. @param {String} name the name of the route to generate a URL for @param {...Object} objects a list of objects to serialize @return {String} a URL */ generate: function (handlerName) { var partitionedArgs = extractQueryParams(slice.call(arguments, 1)), suppliedParams = partitionedArgs[0], queryParams = partitionedArgs[1], i, len, handlerInfo, handlerParams; // Construct a TransitionIntent with the provided params // and apply it to the present state of the router. var intent = new NamedTransitionIntent({ name: handlerName, contexts: suppliedParams }); var state = intent.applyToState(this.state, this.recognizer, this.getHandler, null, this.getSerializer); var params = {}; for (i = 0, len = state.handlerInfos.length; i < len; ++i) { handlerInfo = state.handlerInfos[i]; handlerParams = handlerInfo.serialize(); merge(params, handlerParams); } params.queryParams = queryParams; return this.recognizer.generate(handlerName, params); }, applyIntent: function (handlerName, contexts) { var intent = new NamedTransitionIntent({ name: handlerName, contexts: contexts }); var state = this.activeTransition && this.activeTransition.state || this.state; return intent.applyToState(state, this.recognizer, this.getHandler, null, this.getSerializer); }, isActiveIntent: function (handlerName, contexts, queryParams, _state) { var state = _state || this.state, targetHandlerInfos = state.handlerInfos, handlerInfo, len; if (!targetHandlerInfos.length) { return false; } var targetHandler = targetHandlerInfos[targetHandlerInfos.length - 1].name; var recogHandlers = this.recognizer.handlersFor(targetHandler); var index = 0; for (len = recogHandlers.length; index < len; ++index) { handlerInfo = targetHandlerInfos[index]; if (handlerInfo.name === handlerName) { break; } } if (index === recogHandlers.length) { // The provided route name isn't even in the route hierarchy. return false; } var testState = new TransitionState(); testState.handlerInfos = targetHandlerInfos.slice(0, index + 1); recogHandlers = recogHandlers.slice(0, index + 1); var intent = new NamedTransitionIntent({ name: targetHandler, contexts: contexts }); var newState = intent.applyToHandlers(testState, recogHandlers, this.getHandler, targetHandler, true, true, this.getSerializer); var handlersEqual = handlerInfosEqual(newState.handlerInfos, testState.handlerInfos); if (!queryParams || !handlersEqual) { return handlersEqual; } // Get a hash of QPs that will still be active on new route var activeQPsOnNewHandler = {}; merge(activeQPsOnNewHandler, queryParams); var activeQueryParams = state.queryParams; for (var key in activeQueryParams) { if (activeQueryParams.hasOwnProperty(key) && activeQPsOnNewHandler.hasOwnProperty(key)) { activeQPsOnNewHandler[key] = activeQueryParams[key]; } } return handlersEqual && !getChangelist(activeQPsOnNewHandler, queryParams); }, isActive: function (handlerName) { var partitionedArgs = extractQueryParams(slice.call(arguments, 1)); return this.isActiveIntent(handlerName, partitionedArgs[0], partitionedArgs[1]); }, trigger: function () /*name*/{ var args = slice.call(arguments); _trigger(this, this.currentHandlerInfos, false, args); }, /** Hook point for logging transition status updates. @param {String} message The message to log. */ log: null }; /** @private Fires queryParamsDidChange event */ function fireQueryParamDidChange(router, newState, queryParamChangelist) { // If queryParams changed trigger event if (queryParamChangelist) { // This is a little hacky but we need some way of storing // changed query params given that no activeTransition // is guaranteed to have occurred. router._changedQueryParams = queryParamChangelist.all; _trigger(router, newState.handlerInfos, true, ['queryParamsDidChange', queryParamChangelist.changed, queryParamChangelist.all, queryParamChangelist.removed]); router._changedQueryParams = null; } } /** @private Takes an Array of `HandlerInfo`s, figures out which ones are exiting, entering, or changing contexts, and calls the proper handler hooks. For example, consider the following tree of handlers. Each handler is followed by the URL segment it handles. ``` |~index ("/") | |~posts ("/posts") | | |-showPost ("/:id") | | |-newPost ("/new") | | |-editPost ("/edit") | |~about ("/about/:id") ``` Consider the following transitions: 1. A URL transition to `/posts/1`. 1. Triggers the `*model` callbacks on the `index`, `posts`, and `showPost` handlers 2. Triggers the `enter` callback on the same 3. Triggers the `setup` callback on the same 2. A direct transition to `newPost` 1. Triggers the `exit` callback on `showPost` 2. Triggers the `enter` callback on `newPost` 3. Triggers the `setup` callback on `newPost` 3. A direct transition to `about` with a specified context object 1. Triggers the `exit` callback on `newPost` and `posts` 2. Triggers the `serialize` callback on `about` 3. Triggers the `enter` callback on `about` 4. Triggers the `setup` callback on `about` @param {Router} transition @param {TransitionState} newState */ function setupContexts(router, newState, transition) { var partition = partitionHandlers(router.state, newState); var i, l, handler; for (i = 0, l = partition.exited.length; i < l; i++) { handler = partition.exited[i].handler; delete handler.context; callHook(handler, 'reset', true, transition); callHook(handler, 'exit', transition); } var oldState = router.oldState = router.state; router.state = newState; var currentHandlerInfos = router.currentHandlerInfos = partition.unchanged.slice(); try { for (i = 0, l = partition.reset.length; i < l; i++) { handler = partition.reset[i].handler; callHook(handler, 'reset', false, transition); } for (i = 0, l = partition.updatedContext.length; i < l; i++) { handlerEnteredOrUpdated(currentHandlerInfos, partition.updatedContext[i], false, transition); } for (i = 0, l = partition.entered.length; i < l; i++) { handlerEnteredOrUpdated(currentHandlerInfos, partition.entered[i], true, transition); } } catch (e) { router.state = oldState; router.currentHandlerInfos = oldState.handlerInfos; throw e; } router.state.queryParams = finalizeQueryParamChange(router, currentHandlerInfos, newState.queryParams, transition); } /** @private Helper method used by setupContexts. Handles errors or redirects that may happen in enter/setup. */ function handlerEnteredOrUpdated(currentHandlerInfos, handlerInfo, enter, transition) { var handler = handlerInfo.handler, context = handlerInfo.context; function _handlerEnteredOrUpdated(handler) { if (enter) { callHook(handler, 'enter', transition); } if (transition && transition.isAborted) { throw new TransitionAbortedError(); } handler.context = context; callHook(handler, 'contextDidChange'); callHook(handler, 'setup', context, transition); if (transition && transition.isAborted) { throw new TransitionAbortedError(); } currentHandlerInfos.push(handlerInfo); } // If the handler doesn't exist, it means we haven't resolved the handler promise yet if (!handler) { handlerInfo.handlerPromise = handlerInfo.handlerPromise.then(_handlerEnteredOrUpdated); } else { _handlerEnteredOrUpdated(handler); } return true; } /** @private This function is called when transitioning from one URL to another to determine which handlers are no longer active, which handlers are newly active, and which handlers remain active but have their context changed. Take a list of old handlers and new handlers and partition them into four buckets: * unchanged: the handler was active in both the old and new URL, and its context remains the same * updated context: the handler was active in both the old and new URL, but its context changed. The handler's `setup` method, if any, will be called with the new context. * exited: the handler was active in the old URL, but is no longer active. * entered: the handler was not active in the old URL, but is now active. The PartitionedHandlers structure has four fields: * `updatedContext`: a list of `HandlerInfo` objects that represent handlers that remain active but have a changed context * `entered`: a list of `HandlerInfo` objects that represent handlers that are newly active * `exited`: a list of `HandlerInfo` objects that are no longer active. * `unchanged`: a list of `HanderInfo` objects that remain active. @param {Array[HandlerInfo]} oldHandlers a list of the handler information for the previous URL (or `[]` if this is the first handled transition) @param {Array[HandlerInfo]} newHandlers a list of the handler information for the new URL @return {Partition} */ function partitionHandlers(oldState, newState) { var oldHandlers = oldState.handlerInfos, oldHandler, newHandler; var newHandlers = newState.handlerInfos; var handlers = { updatedContext: [], exited: [], entered: [], unchanged: [], reset: undefined }; var handlerChanged, contextChanged = false, i, l; for (i = 0, l = newHandlers.length; i < l; i++) { oldHandler = oldHandlers[i], newHandler = newHandlers[i]; if (!oldHandler || oldHandler.handler !== newHandler.handler) { handlerChanged = true; } if (handlerChanged) { handlers.entered.push(newHandler); if (oldHandler) { handlers.exited.unshift(oldHandler); } } else if (contextChanged || oldHandler.context !== newHandler.context) { contextChanged = true; handlers.updatedContext.push(newHandler); } else { handlers.unchanged.push(oldHandler); } } for (i = newHandlers.length, l = oldHandlers.length; i < l; i++) { handlers.exited.unshift(oldHandlers[i]); } handlers.reset = handlers.updatedContext.slice(); handlers.reset.reverse(); return handlers; } function updateURL(transition, state /*, inputUrl*/) { var urlMethod = transition.urlMethod, i, handlerInfo, url, initial, replaceAndNotAborting, isQueryParamsRefreshTransition; if (!urlMethod) { return; } var router = transition.router, handlerInfos = state.handlerInfos, handlerName = handlerInfos[handlerInfos.length - 1].name, params = {}; for (i = handlerInfos.length - 1; i >= 0; --i) { handlerInfo = handlerInfos[i]; merge(params, handlerInfo.params); if (handlerInfo.handler.inaccessibleByURL) { urlMethod = null; } } if (urlMethod) { params.queryParams = transition._visibleQueryParams || state.queryParams; url = router.recognizer.generate(handlerName, params); // transitions during the initial transition must always use replaceURL. // When the app boots, you are at a url, e.g. /foo. If some handler // redirects to bar as part of the initial transition, you don't want to // add a history entry for /foo. If you do, pressing back will immediately // hit the redirect again and take you back to /bar, thus killing the back // button initial = transition.isCausedByInitialTransition; // say you are at / and you click a link to route /foo. In /foo's // handler, the transition is aborted using replacewith('/bar'). // Because the current url is still /, the history entry for / is // removed from the history. Clicking back will take you to the page // you were on before /, which is often not even the app, thus killing // the back button. That's why updateURL is always correct for an // aborting transition that's not the initial transition replaceAndNotAborting = urlMethod === 'replace' && !transition.isCausedByAbortingTransition; // because calling refresh causes an aborted transition, this needs to be // special cased - if the initial transition is a replace transition, the // urlMethod should be honored here. isQueryParamsRefreshTransition = transition.queryParamsOnly && urlMethod === 'replace'; if (initial || replaceAndNotAborting || isQueryParamsRefreshTransition) { router.replaceURL(url); } else { router.updateURL(url); } } } /** @private Updates the URL (if necessary) and calls `setupContexts` to update the router's array of `currentHandlerInfos`. */ function finalizeTransition(transition, newState) { var router, handlerInfos, infos; try { _log(transition.router, transition.sequence, 'Resolved all models on destination route; finalizing transition.'); router = transition.router, handlerInfos = newState.handlerInfos; // Run all the necessary enter/setup/exit hooks setupContexts(router, newState, transition); // Check if a redirect occurred in enter/setup if (transition.isAborted) { // TODO: cleaner way? distinguish b/w targetHandlerInfos? router.state.handlerInfos = router.currentHandlerInfos; return _rsvp.Promise.reject(logAbort(transition)); } updateURL(transition, newState, transition.intent.url); transition.isActive = false; router.activeTransition = null; _trigger(router, router.currentHandlerInfos, true, ['didTransition']); if (router.didTransition) { router.didTransition(router.currentHandlerInfos); } _log(router, transition.sequence, 'TRANSITION COMPLETE.'); // Resolve with the final handler. return handlerInfos[handlerInfos.length - 1].handler; } catch (e) { if (!(e instanceof TransitionAbortedError)) { //var erroneousHandler = handlerInfos.pop(); infos = transition.state.handlerInfos; transition.trigger(true, 'error', e, transition, infos[infos.length - 1].handler); transition.abort(); } throw e; } } /** @private Begins and returns a Transition based on the provided arguments. Accepts arguments in the form of both URL transitions and named transitions. @param {Router} router @param {Array[Object]} args arguments passed to transitionTo, replaceWith, or handleURL */ function doTransition(router, args, isIntermediate) { // Normalize blank transitions to root URL transitions. var name = args[0] || '/', handlerInfos; var lastArg = args[args.length - 1]; var queryParams = {}; if (lastArg && lastArg.hasOwnProperty('queryParams')) { queryParams = pop.call(args).queryParams; } var intent; if (args.length === 0) { _log(router, 'Updating query params'); // A query param update is really just a transition // into the route you're already on. handlerInfos = router.state.handlerInfos; intent = new NamedTransitionIntent({ name: handlerInfos[handlerInfos.length - 1].name, contexts: [], queryParams: queryParams }); } else if (name.charAt(0) === '/') { _log(router, 'Attempting URL transition to ' + name); intent = new URLTransitionIntent({ url: name }); } else { _log(router, 'Attempting transition to ' + name); intent = new NamedTransitionIntent({ name: args[0], contexts: slice.call(args, 1), queryParams: queryParams }); } return router.transitionByIntent(intent, isIntermediate); } function handlerInfosEqual(handlerInfos, otherHandlerInfos) { var i, len; if (handlerInfos.length !== otherHandlerInfos.length) { return false; } for (i = 0, len = handlerInfos.length; i < len; ++i) { if (handlerInfos[i] !== otherHandlerInfos[i]) { return false; } } return true; } function handlerInfosSameExceptQueryParams(handlerInfos, otherHandlerInfos) { var i, len; if (handlerInfos.length !== otherHandlerInfos.length) { return false; } for (i = 0, len = handlerInfos.length; i < len; ++i) { if (handlerInfos[i].name !== otherHandlerInfos[i].name) { return false; } if (!paramsEqual(handlerInfos[i].params, otherHandlerInfos[i].params)) { return false; } } return true; } function paramsEqual(params, otherParams) { if (!params && !otherParams) { return true; } else if (!params && !!otherParams || !!params && !otherParams) { // one is falsy but other is not; return false; } var keys = Object.keys(params), i, len, key; var otherKeys = Object.keys(otherParams); if (keys.length !== otherKeys.length) { return false; } for (i = 0, len = keys.length; i < len; ++i) { key = keys[i]; if (params[key] !== otherParams[key]) { return false; } } return true; } function finalizeQueryParamChange(router, resolvedHandlers, newQueryParams, transition) { // We fire a finalizeQueryParamChange event which // gives the new route hierarchy a chance to tell // us which query params it's consuming and what // their final values are. If a query param is // no longer consumed in the final route hierarchy, // its serialized segment will be removed // from the URL. for (var k in newQueryParams) { if (newQueryParams.hasOwnProperty(k) && newQueryParams[k] === null) { delete newQueryParams[k]; } } var finalQueryParamsArray = [], i, len, qp; _trigger(router, resolvedHandlers, true, ['finalizeQueryParamChange', newQueryParams, finalQueryParamsArray, transition]); if (transition) { transition._visibleQueryParams = {}; } var finalQueryParams = {}; for (i = 0, len = finalQueryParamsArray.length; i < len; ++i) { qp = finalQueryParamsArray[i]; finalQueryParams[qp.key] = qp.value; if (transition && qp.visible !== false) { transition._visibleQueryParams[qp.key] = qp.value; } } return finalQueryParams; } function notifyExistingHandlers(router, newState, newTransition) { var oldHandlers = router.state.handlerInfos, changing = [], i, oldHandlerLen, oldHandler, newHandler; oldHandlerLen = oldHandlers.length; for (i = 0; i < oldHandlerLen; i++) { oldHandler = oldHandlers[i]; newHandler = newState.handlerInfos[i]; if (!newHandler || oldHandler.name !== newHandler.name) { break; } if (!newHandler.isResolved) { changing.push(oldHandler); } } _trigger(router, oldHandlers, true, ['willTransition', newTransition]); if (router.willTransition) { router.willTransition(oldHandlers, newState.handlerInfos, newTransition); } } exports.Transition = Transition; exports.default = Router; }); enifed('rsvp', ['exports', 'ember-babel', 'node-module'], function (exports, _emberBabel, _nodeModule) { 'use strict'; exports.filter = exports.async = exports.map = exports.reject = exports.resolve = exports.off = exports.on = exports.configure = exports.denodeify = exports.defer = exports.rethrow = exports.hashSettled = exports.hash = exports.race = exports.allSettled = exports.all = exports.EventTarget = exports.Promise = exports.cast = exports.asap = undefined; var _rsvp, callbacks; function callbacksFor(object) { var callbacks = object._promiseCallbacks; if (!callbacks) { callbacks = object._promiseCallbacks = {}; } return callbacks; } /** @class RSVP.EventTarget */ var EventTarget = { mixin: function (object) { object['on'] = this['on']; object['off'] = this['off']; object['trigger'] = this['trigger']; object._promiseCallbacks = undefined; return object; }, on: function (eventName, callback) { if (typeof callback !== 'function') { throw new TypeError('Callback must be a function'); } var allCallbacks = callbacksFor(this), callbacks = void 0; callbacks = allCallbacks[eventName]; if (!callbacks) { callbacks = allCallbacks[eventName] = []; } if (callbacks.indexOf(callback)) { callbacks.push(callback); } }, off: function (eventName, callback) { var allCallbacks = callbacksFor(this), callbacks = void 0, index = void 0; if (!callback) { allCallbacks[eventName] = []; return; } callbacks = allCallbacks[eventName]; index = callbacks.indexOf(callback); if (index !== -1) { callbacks.splice(index, 1); } }, trigger: function (eventName, options, label) { var allCallbacks = callbacksFor(this), callbacks = void 0, callback = void 0, i; if (callbacks = allCallbacks[eventName]) { // Don't cache the callbacks.length since it may grow for (i = 0; i < callbacks.length; i++) { callback = callbacks[i]; callback(options, label); } } } }; var config = { instrument: false }; EventTarget['mixin'](config); function configure(name, value) { if (arguments.length === 2) { config[name] = value; } else { return config[name]; } } var queue = []; function scheduleFlush() { setTimeout(function () { var i, entry, payload; for (i = 0; i < queue.length; i++) { entry = queue[i]; payload = entry.payload; payload.guid = payload.key + payload.id; payload.childGuid = payload.key + payload.childId; if (payload.error) { payload.stack = payload.error.stack; } config['trigger'](entry.name, entry.payload); } queue.length = 0; }, 50); } function instrument(eventName, promise, child) { if (1 === queue.push({ name: eventName, payload: { key: promise._guidKey, id: promise._id, eventName: eventName, detail: promise._result, childId: child && child._id, label: promise._label, timeStamp: Date.now(), error: config["instrument-with-stack"] ? new Error(promise._label) : null } })) { scheduleFlush(); } } /** `RSVP.Promise.resolve` returns a promise that will become resolved with the passed `value`. It is shorthand for the following: ```javascript let promise = new RSVP.Promise(function(resolve, reject){ resolve(1); }); promise.then(function(value){ // value === 1 }); ``` Instead of writing the above, your code now simply becomes the following: ```javascript let promise = RSVP.Promise.resolve(1); promise.then(function(value){ // value === 1 }); ``` @method resolve @static @param {*} object value that the returned promise will be resolved with @param {String} label optional string for identifying the returned promise. Useful for tooling. @return {Promise} a promise that will become fulfilled with the given `value` */ function resolve$1(object, label) { /*jshint validthis:true */ var Constructor = this; if (object && typeof object === 'object' && object.constructor === Constructor) { return object; } var promise = new Constructor(noop, label); resolve(promise, object); return promise; } function withOwnPromise() { return new TypeError('A promises callback cannot return that same promise.'); } function objectOrFunction(x) { var type = typeof x; return x !== null && (type === 'object' || type === 'function'); } function noop() {} var PENDING = void 0; var FULFILLED = 1; var REJECTED = 2; function ErrorObject() { this.error = null; } var GET_THEN_ERROR = new ErrorObject(); function getThen(promise) { try { return promise.then; } catch (error) { GET_THEN_ERROR.error = error; return GET_THEN_ERROR; } } var TRY_CATCH_ERROR = new ErrorObject(); var tryCatchCallback = void 0; function tryCatcher() { var target; try { target = tryCatchCallback; tryCatchCallback = null; return target.apply(this, arguments); } catch (e) { TRY_CATCH_ERROR.error = e; return TRY_CATCH_ERROR; } } function tryCatch(fn) { tryCatchCallback = fn; return tryCatcher; } function tryThen(then$$1, value, fulfillmentHandler, rejectionHandler) { try { then$$1.call(value, fulfillmentHandler, rejectionHandler); } catch (e) { return e; } } function handleForeignThenable(promise, thenable, then$$1) { config.async(function (promise) { var sealed = false; var error = tryThen(then$$1, thenable, function (value) { if (sealed) { return; } sealed = true; if (thenable !== value) { resolve(promise, value, undefined); } else { fulfill(promise, value); } }, function (reason) { if (sealed) { return; } sealed = true; reject(promise, reason); }, 'Settle: ' + (promise._label || ' unknown promise')); if (!sealed && error) { sealed = true; reject(promise, error); } }, promise); } function handleOwnThenable(promise, thenable) { if (thenable._state === FULFILLED) { fulfill(promise, thenable._result); } else if (thenable._state === REJECTED) { thenable._onError = null; reject(promise, thenable._result); } else { subscribe(thenable, undefined, function (value) { if (thenable === value) { fulfill(promise, value); } else { resolve(promise, value); } }, function (reason) { return reject(promise, reason); }); } } function handleMaybeThenable(promise, maybeThenable, then$$1) { var isOwnThenable = maybeThenable.constructor === promise.constructor && then$$1 === then && promise.constructor.resolve === resolve$1, error; if (isOwnThenable) { handleOwnThenable(promise, maybeThenable); } else if (then$$1 === GET_THEN_ERROR) { error = GET_THEN_ERROR.error; GET_THEN_ERROR.error = null; reject(promise, error); } else if (typeof then$$1 === 'function') { handleForeignThenable(promise, maybeThenable, then$$1); } else { fulfill(promise, maybeThenable); } } function resolve(promise, value) { if (promise === value) { fulfill(promise, value); } else if (objectOrFunction(value)) { handleMaybeThenable(promise, value, getThen(value)); } else { fulfill(promise, value); } } function publishRejection(promise) { if (promise._onError) { promise._onError(promise._result); } publish(promise); } function fulfill(promise, value) { if (promise._state !== PENDING) { return; } promise._result = value; promise._state = FULFILLED; if (promise._subscribers.length === 0) { if (config.instrument) { instrument('fulfilled', promise); } } else { config.async(publish, promise); } } function reject(promise, reason) { if (promise._state !== PENDING) { return; } promise._state = REJECTED; promise._result = reason; config.async(publishRejection, promise); } function subscribe(parent, child, onFulfillment, onRejection) { var subscribers = parent._subscribers; var length = subscribers.length; parent._onError = null; subscribers[length] = child; subscribers[length + FULFILLED] = onFulfillment; subscribers[length + REJECTED] = onRejection; if (length === 0 && parent._state) { config.async(publish, parent); } } function publish(promise) { var subscribers = promise._subscribers, i; var settled = promise._state; if (config.instrument) { instrument(settled === FULFILLED ? 'fulfilled' : 'rejected', promise); } if (subscribers.length === 0) { return; } var child = void 0, callback = void 0, result = promise._result; for (i = 0; i < subscribers.length; i += 3) { child = subscribers[i]; callback = subscribers[i + settled]; if (child) { invokeCallback(settled, child, callback, result); } else { callback(result); } } promise._subscribers.length = 0; } function invokeCallback(state, promise, callback, result) { var hasCallback = typeof callback === 'function', error; var value = void 0; if (hasCallback) { value = tryCatch(callback)(result); } else { value = result; } if (promise._state !== PENDING) { // noop } else if (value === promise) { reject(promise, withOwnPromise()); } else if (value === TRY_CATCH_ERROR) { error = value.error; value.error = null; // release reject(promise, error); } else if (hasCallback) { resolve(promise, value); } else if (state === FULFILLED) { fulfill(promise, value); } else if (state === REJECTED) { reject(promise, value); } } function initializePromise(promise, resolver) { var resolved = false; try { resolver(function (value) { if (resolved) { return; } resolved = true; resolve(promise, value); }, function (reason) { if (resolved) { return; } resolved = true; reject(promise, reason); }); } catch (e) { reject(promise, e); } } function then(onFulfillment, onRejection, label) { var parent = this, callback; var state = parent._state; if (state === FULFILLED && !onFulfillment || state === REJECTED && !onRejection) { config.instrument && instrument('chained', parent, parent); return parent; } parent._onError = null; var child = new parent.constructor(noop, label); var result = parent._result; config.instrument && instrument('chained', parent, child); if (state === PENDING) { subscribe(parent, child, onFulfillment, onRejection); } else { callback = state === FULFILLED ? onFulfillment : onRejection; config.async(function () { return invokeCallback(state, child, callback, result); }); } return child; } var Enumerator = function () { function Enumerator(Constructor, input, abortOnReject, label) { this._instanceConstructor = Constructor; this.promise = new Constructor(noop, label); this._abortOnReject = abortOnReject; this.isUsingOwnPromise = Constructor === Promise; this._init.apply(this, arguments); } Enumerator.prototype._init = function (Constructor, input) { var len = input.length || 0; this.length = len; this._remaining = len; this._result = new Array(len); this._enumerate(input); }; Enumerator.prototype._enumerate = function (input) { var length = this.length, i; var promise = this.promise; for (i = 0; promise._state === PENDING && i < length; i++) { this._eachEntry(input[i], i, true); } this._checkFullfillment(); }; Enumerator.prototype._checkFullfillment = function () { if (this._remaining === 0) { fulfill(this.promise, this._result); } }; Enumerator.prototype._settleMaybeThenable = function (entry, i, firstPass) { var c = this._instanceConstructor, then$$1, promise; var resolve$$1 = c.resolve; if (resolve$$1 === resolve$1) { then$$1 = getThen(entry); if (then$$1 === then && entry._state !== PENDING) { entry._onError = null; this._settledAt(entry._state, i, entry._result, firstPass); } else if (typeof then$$1 !== 'function') { this._settledAt(FULFILLED, i, entry, firstPass); } else if (this.isUsingOwnPromise) { promise = new c(noop); handleMaybeThenable(promise, entry, then$$1); this._willSettleAt(promise, i, firstPass); } else { this._willSettleAt(new c(function (resolve$$1) { return resolve$$1(entry); }), i, firstPass); } } else { this._willSettleAt(resolve$$1(entry), i, firstPass); } }; Enumerator.prototype._eachEntry = function (entry, i, firstPass) { if (entry !== null && typeof entry === 'object') { this._settleMaybeThenable(entry, i, firstPass); } else { this._setResultAt(FULFILLED, i, entry, firstPass); } }; Enumerator.prototype._settledAt = function (state, i, value, firstPass) { var promise = this.promise; if (promise._state === PENDING) { if (this._abortOnReject && state === REJECTED) { reject(promise, value); } else { this._setResultAt(state, i, value, firstPass); this._checkFullfillment(); } } }; Enumerator.prototype._setResultAt = function (state, i, value) { this._remaining--; this._result[i] = value; }; Enumerator.prototype._willSettleAt = function (promise, i, firstPass) { var _this = this; subscribe(promise, undefined, function (value) { return _this._settledAt(FULFILLED, i, value, firstPass); }, function (reason) { return _this._settledAt(REJECTED, i, reason, firstPass); }); }; return Enumerator; }(); function setSettledResult(state, i, value) { this._remaining--; if (state === FULFILLED) { this._result[i] = { state: 'fulfilled', value: value }; } else { this._result[i] = { state: 'rejected', reason: value }; } } /** `RSVP.Promise.all` accepts an array of promises, and returns a new promise which is fulfilled with an array of fulfillment values for the passed promises, or rejected with the reason of the first passed promise to be rejected. It casts all elements of the passed iterable to promises as it runs this algorithm. Example: ```javascript let promise1 = RSVP.resolve(1); let promise2 = RSVP.resolve(2); let promise3 = RSVP.resolve(3); let promises = [ promise1, promise2, promise3 ]; RSVP.Promise.all(promises).then(function(array){ // The array here would be [ 1, 2, 3 ]; }); ``` If any of the `promises` given to `RSVP.all` are rejected, the first promise that is rejected will be given as an argument to the returned promises's rejection handler. For example: Example: ```javascript let promise1 = RSVP.resolve(1); let promise2 = RSVP.reject(new Error("2")); let promise3 = RSVP.reject(new Error("3")); let promises = [ promise1, promise2, promise3 ]; RSVP.Promise.all(promises).then(function(array){ // Code here never runs because there are rejected promises! }, function(error) { // error.message === "2" }); ``` @method all @static @param {Array} entries array of promises @param {String} label optional string for labeling the promise. Useful for tooling. @return {Promise} promise that is fulfilled when all `promises` have been fulfilled, or rejected if any of them become rejected. @static */ /** `RSVP.Promise.race` returns a new promise which is settled in the same way as the first passed promise to settle. Example: ```javascript let promise1 = new RSVP.Promise(function(resolve, reject){ setTimeout(function(){ resolve('promise 1'); }, 200); }); let promise2 = new RSVP.Promise(function(resolve, reject){ setTimeout(function(){ resolve('promise 2'); }, 100); }); RSVP.Promise.race([promise1, promise2]).then(function(result){ // result === 'promise 2' because it was resolved before promise1 // was resolved. }); ``` `RSVP.Promise.race` is deterministic in that only the state of the first settled promise matters. For example, even if other promises given to the `promises` array argument are resolved, but the first settled promise has become rejected before the other promises became fulfilled, the returned promise will become rejected: ```javascript let promise1 = new RSVP.Promise(function(resolve, reject){ setTimeout(function(){ resolve('promise 1'); }, 200); }); let promise2 = new RSVP.Promise(function(resolve, reject){ setTimeout(function(){ reject(new Error('promise 2')); }, 100); }); RSVP.Promise.race([promise1, promise2]).then(function(result){ // Code here never runs }, function(reason){ // reason.message === 'promise 2' because promise 2 became rejected before // promise 1 became fulfilled }); ``` An example real-world use case is implementing timeouts: ```javascript RSVP.Promise.race([ajax('foo.json'), timeout(5000)]) ``` @method race @static @param {Array} entries array of promises to observe @param {String} label optional string for describing the promise returned. Useful for tooling. @return {Promise} a promise which settles in the same way as the first passed promise to settle. */ /** `RSVP.Promise.reject` returns a promise rejected with the passed `reason`. It is shorthand for the following: ```javascript let promise = new RSVP.Promise(function(resolve, reject){ reject(new Error('WHOOPS')); }); promise.then(function(value){ // Code here doesn't run because the promise is rejected! }, function(reason){ // reason.message === 'WHOOPS' }); ``` Instead of writing the above, your code now simply becomes the following: ```javascript let promise = RSVP.Promise.reject(new Error('WHOOPS')); promise.then(function(value){ // Code here doesn't run because the promise is rejected! }, function(reason){ // reason.message === 'WHOOPS' }); ``` @method reject @static @param {*} reason value that the returned promise will be rejected with. @param {String} label optional string for identifying the returned promise. Useful for tooling. @return {Promise} a promise rejected with the given `reason`. */ var guidKey = 'rsvp_' + Date.now() + '-'; var counter = 0; function needsResolver() { throw new TypeError('You must pass a resolver function as the first argument to the promise constructor'); } function needsNew() { throw new TypeError("Failed to construct 'Promise': Please use the 'new' operator, this object constructor cannot be called as a function."); } /** Promise objects represent the eventual result of an asynchronous operation. The primary way of interacting with a promise is through its `then` method, which registers callbacks to receive either a promise’s eventual value or the reason why the promise cannot be fulfilled. Terminology ----------- - `promise` is an object or function with a `then` method whose behavior conforms to this specification. - `thenable` is an object or function that defines a `then` method. - `value` is any legal JavaScript value (including undefined, a thenable, or a promise). - `exception` is a value that is thrown using the throw statement. - `reason` is a value that indicates why a promise was rejected. - `settled` the final resting state of a promise, fulfilled or rejected. A promise can be in one of three states: pending, fulfilled, or rejected. Promises that are fulfilled have a fulfillment value and are in the fulfilled state. Promises that are rejected have a rejection reason and are in the rejected state. A fulfillment value is never a thenable. Promises can also be said to *resolve* a value. If this value is also a promise, then the original promise's settled state will match the value's settled state. So a promise that *resolves* a promise that rejects will itself reject, and a promise that *resolves* a promise that fulfills will itself fulfill. Basic Usage: ------------ ```js let promise = new Promise(function(resolve, reject) { // on success resolve(value); // on failure reject(reason); }); promise.then(function(value) { // on fulfillment }, function(reason) { // on rejection }); ``` Advanced Usage: --------------- Promises shine when abstracting away asynchronous interactions such as `XMLHttpRequest`s. ```js function getJSON(url) { return new Promise(function(resolve, reject){ let xhr = new XMLHttpRequest(); xhr.open('GET', url); xhr.onreadystatechange = handler; xhr.responseType = 'json'; xhr.setRequestHeader('Accept', 'application/json'); xhr.send(); function handler() { if (this.readyState === this.DONE) { if (this.status === 200) { resolve(this.response); } else { reject(new Error('getJSON: `' + url + '` failed with status: [' + this.status + ']')); } } }; }); } getJSON('/posts.json').then(function(json) { // on fulfillment }, function(reason) { // on rejection }); ``` Unlike callbacks, promises are great composable primitives. ```js Promise.all([ getJSON('/posts'), getJSON('/comments') ]).then(function(values){ values[0] // => postsJSON values[1] // => commentsJSON return values; }); ``` @class RSVP.Promise @param {function} resolver @param {String} label optional string for labeling the promise. Useful for tooling. @constructor */ var Promise = function () { function Promise(resolver, label) { this._id = counter++; this._label = label; this._state = undefined; this._result = undefined; this._subscribers = []; config.instrument && instrument('created', this); if (noop !== resolver) { typeof resolver !== 'function' && needsResolver(); this instanceof Promise ? initializePromise(this, resolver) : needsNew(); } } Promise.prototype._onError = function (reason) { var _this2 = this; config.after(function () { if (_this2._onError) { config.trigger('error', reason, _this2._label); } }); }; Promise.prototype.catch = function (onRejection, label) { return this.then(undefined, onRejection, label); }; Promise.prototype.finally = function (callback, label) { var promise = this; var constructor = promise.constructor; return promise.then(function (value) { return constructor.resolve(callback()).then(function () { return value; }); }, function (reason) { return constructor.resolve(callback()).then(function () { throw reason; }); }, label); }; return Promise; }(); Promise.cast = resolve$1; // deprecated Promise.all = function (entries, label) { if (!Array.isArray(entries)) { return this.reject(new TypeError("Promise.all must be called with an array"), label); } return new Enumerator(this, entries, true /* abort on reject */, label).promise; }; Promise.race = function (entries, label) { /*jshint validthis:true */ var Constructor = this, i; var promise = new Constructor(noop, label); if (!Array.isArray(entries)) { reject(promise, new TypeError('Promise.race must be called with an array')); return promise; } for (i = 0; promise._state === PENDING && i < entries.length; i++) { subscribe(Constructor.resolve(entries[i]), undefined, function (value) { return resolve(promise, value); }, function (reason) { return reject(promise, reason); }); } return promise; }; Promise.resolve = resolve$1; Promise.reject = function (reason, label) { /*jshint validthis:true */ var Constructor = this; var promise = new Constructor(noop, label); reject(promise, reason); return promise; }; Promise.prototype._guidKey = guidKey; /** The primary way of interacting with a promise is through its `then` method, which registers callbacks to receive either a promise's eventual value or the reason why the promise cannot be fulfilled. ```js findUser().then(function(user){ // user is available }, function(reason){ // user is unavailable, and you are given the reason why }); ``` Chaining -------- The return value of `then` is itself a promise. This second, 'downstream' promise is resolved with the return value of the first promise's fulfillment or rejection handler, or rejected if the handler throws an exception. ```js findUser().then(function (user) { return user.name; }, function (reason) { return 'default name'; }).then(function (userName) { // If `findUser` fulfilled, `userName` will be the user's name, otherwise it // will be `'default name'` }); findUser().then(function (user) { throw new Error('Found user, but still unhappy'); }, function (reason) { throw new Error('`findUser` rejected and we\'re unhappy'); }).then(function (value) { // never reached }, function (reason) { // if `findUser` fulfilled, `reason` will be 'Found user, but still unhappy'. // If `findUser` rejected, `reason` will be '`findUser` rejected and we\'re unhappy'. }); ``` If the downstream promise does not specify a rejection handler, rejection reasons will be propagated further downstream. ```js findUser().then(function (user) { throw new PedagogicalException('Upstream error'); }).then(function (value) { // never reached }).then(function (value) { // never reached }, function (reason) { // The `PedgagocialException` is propagated all the way down to here }); ``` Assimilation ------------ Sometimes the value you want to propagate to a downstream promise can only be retrieved asynchronously. This can be achieved by returning a promise in the fulfillment or rejection handler. The downstream promise will then be pending until the returned promise is settled. This is called *assimilation*. ```js findUser().then(function (user) { return findCommentsByAuthor(user); }).then(function (comments) { // The user's comments are now available }); ``` If the assimliated promise rejects, then the downstream promise will also reject. ```js findUser().then(function (user) { return findCommentsByAuthor(user); }).then(function (comments) { // If `findCommentsByAuthor` fulfills, we'll have the value here }, function (reason) { // If `findCommentsByAuthor` rejects, we'll have the reason here }); ``` Simple Example -------------- Synchronous Example ```javascript let result; try { result = findResult(); // success } catch(reason) { // failure } ``` Errback Example ```js findResult(function(result, err){ if (err) { // failure } else { // success } }); ``` Promise Example; ```javascript findResult().then(function(result){ // success }, function(reason){ // failure }); ``` Advanced Example -------------- Synchronous Example ```javascript let author, books; try { author = findAuthor(); books = findBooksByAuthor(author); // success } catch(reason) { // failure } ``` Errback Example ```js function foundBooks(books) { } function failure(reason) { } findAuthor(function(author, err){ if (err) { failure(err); // failure } else { try { findBoooksByAuthor(author, function(books, err) { if (err) { failure(err); } else { try { foundBooks(books); } catch(reason) { failure(reason); } } }); } catch(error) { failure(err); } // success } }); ``` Promise Example; ```javascript findAuthor(). then(findBooksByAuthor). then(function(books){ // found books }).catch(function(reason){ // something went wrong }); ``` @method then @param {Function} onFulfillment @param {Function} onRejection @param {String} label optional string for labeling the promise. Useful for tooling. @return {Promise} */ Promise.prototype.then = then; function Result() { this.value = undefined; } var ERROR = new Result(); var GET_THEN_ERROR$1 = new Result(); function getThen$1(obj) { try { return obj.then; } catch (error) { ERROR.value = error; return ERROR; } } function tryApply(f, s, a) { try { f.apply(s, a); } catch (error) { ERROR.value = error; return ERROR; } } function makeObject(_, argumentNames) { var obj = {}, x, i, name; var length = _.length; var args = new Array(length); for (x = 0; x < length; x++) { args[x] = _[x]; } for (i = 0; i < argumentNames.length; i++) { name = argumentNames[i]; obj[name] = args[i + 1]; } return obj; } function arrayResult(_) { var length = _.length, i; var args = new Array(length - 1); for (i = 1; i < length; i++) { args[i - 1] = _[i]; } return args; } function wrapThenable(then, promise) { return { then: function (onFulFillment, onRejection) { return then.call(promise, onFulFillment, onRejection); } }; } /** `RSVP.denodeify` takes a 'node-style' function and returns a function that will return an `RSVP.Promise`. You can use `denodeify` in Node.js or the browser when you'd prefer to use promises over using callbacks. For example, `denodeify` transforms the following: ```javascript let fs = require('fs'); fs.readFile('myfile.txt', function(err, data){ if (err) return handleError(err); handleData(data); }); ``` into: ```javascript let fs = require('fs'); let readFile = RSVP.denodeify(fs.readFile); readFile('myfile.txt').then(handleData, handleError); ``` If the node function has multiple success parameters, then `denodeify` just returns the first one: ```javascript let request = RSVP.denodeify(require('request')); request('http://example.com').then(function(res) { // ... }); ``` However, if you need all success parameters, setting `denodeify`'s second parameter to `true` causes it to return all success parameters as an array: ```javascript let request = RSVP.denodeify(require('request'), true); request('http://example.com').then(function(result) { // result[0] -> res // result[1] -> body }); ``` Or if you pass it an array with names it returns the parameters as a hash: ```javascript let request = RSVP.denodeify(require('request'), ['res', 'body']); request('http://example.com').then(function(result) { // result.res // result.body }); ``` Sometimes you need to retain the `this`: ```javascript let app = require('express')(); let render = RSVP.denodeify(app.render.bind(app)); ``` The denodified function inherits from the original function. It works in all environments, except IE 10 and below. Consequently all properties of the original function are available to you. However, any properties you change on the denodeified function won't be changed on the original function. Example: ```javascript let request = RSVP.denodeify(require('request')), cookieJar = request.jar(); // <- Inheritance is used here request('http://example.com', {jar: cookieJar}).then(function(res) { // cookieJar.cookies holds now the cookies returned by example.com }); ``` Using `denodeify` makes it easier to compose asynchronous operations instead of using callbacks. For example, instead of: ```javascript let fs = require('fs'); fs.readFile('myfile.txt', function(err, data){ if (err) { ... } // Handle error fs.writeFile('myfile2.txt', data, function(err){ if (err) { ... } // Handle error console.log('done') }); }); ``` you can chain the operations together using `then` from the returned promise: ```javascript let fs = require('fs'); let readFile = RSVP.denodeify(fs.readFile); let writeFile = RSVP.denodeify(fs.writeFile); readFile('myfile.txt').then(function(data){ return writeFile('myfile2.txt', data); }).then(function(){ console.log('done') }).catch(function(error){ // Handle error }); ``` @method denodeify @static @for RSVP @param {Function} nodeFunc a 'node-style' function that takes a callback as its last argument. The callback expects an error to be passed as its first argument (if an error occurred, otherwise null), and the value from the operation as its second argument ('function(err, value){ }'). @param {Boolean|Array} [options] An optional paramter that if set to `true` causes the promise to fulfill with the callback's success arguments as an array. This is useful if the node function has multiple success paramters. If you set this paramter to an array with names, the promise will fulfill with a hash with these names as keys and the success parameters as values. @return {Function} a function that wraps `nodeFunc` to return an `RSVP.Promise` @static */ function denodeify(nodeFunc, options) { var fn = function () { var self = this, i, arg, p; var l = arguments.length; var args = new Array(l + 1); var promiseInput = false; for (i = 0; i < l; ++i) { arg = arguments[i]; if (!promiseInput) { // TODO: clean this up promiseInput = needsPromiseInput(arg); if (promiseInput === GET_THEN_ERROR$1) { p = new Promise(noop); reject(p, GET_THEN_ERROR$1.value); return p; } else if (promiseInput && promiseInput !== true) { arg = wrapThenable(promiseInput, arg); } } args[i] = arg; } var promise = new Promise(noop); args[l] = function (err, val) { if (err) reject(promise, err);else if (options === undefined) resolve(promise, val);else if (options === true) resolve(promise, arrayResult(arguments));else if (Array.isArray(options)) resolve(promise, makeObject(arguments, options));else resolve(promise, val); }; if (promiseInput) { return handlePromiseInput(promise, args, nodeFunc, self); } else { return handleValueInput(promise, args, nodeFunc, self); } }; (0, _emberBabel.defaults)(fn, nodeFunc); return fn; } function handleValueInput(promise, args, nodeFunc, self) { var result = tryApply(nodeFunc, self, args); if (result === ERROR) { reject(promise, result.value); } return promise; } function handlePromiseInput(promise, args, nodeFunc, self) { return Promise.all(args).then(function (args) { var result = tryApply(nodeFunc, self, args); if (result === ERROR) { reject(promise, result.value); } return promise; }); } function needsPromiseInput(arg) { if (arg && typeof arg === 'object') { if (arg.constructor === Promise) { return true; } else { return getThen$1(arg); } } else { return false; } } /** This is a convenient alias for `RSVP.Promise.all`. @method all @static @for RSVP @param {Array} array Array of promises. @param {String} label An optional label. This is useful for tooling. */ function all$1(array, label) { return Promise.all(array, label); } var AllSettled = function (_Enumerator) { (0, _emberBabel.inherits)(AllSettled, _Enumerator); function AllSettled(Constructor, entries, label) { return (0, _emberBabel.possibleConstructorReturn)(this, _Enumerator.call(this, Constructor, entries, false /* don't abort on reject */, label)); } return AllSettled; }(Enumerator); AllSettled.prototype._setResultAt = setSettledResult; /** `RSVP.allSettled` is similar to `RSVP.all`, but instead of implementing a fail-fast method, it waits until all the promises have returned and shows you all the results. This is useful if you want to handle multiple promises' failure states together as a set. Returns a promise that is fulfilled when all the given promises have been settled. The return promise is fulfilled with an array of the states of the promises passed into the `promises` array argument. Each state object will either indicate fulfillment or rejection, and provide the corresponding value or reason. The states will take one of the following formats: ```javascript { state: 'fulfilled', value: value } or { state: 'rejected', reason: reason } ``` Example: ```javascript let promise1 = RSVP.Promise.resolve(1); let promise2 = RSVP.Promise.reject(new Error('2')); let promise3 = RSVP.Promise.reject(new Error('3')); let promises = [ promise1, promise2, promise3 ]; RSVP.allSettled(promises).then(function(array){ // array == [ // { state: 'fulfilled', value: 1 }, // { state: 'rejected', reason: Error }, // { state: 'rejected', reason: Error } // ] // Note that for the second item, reason.message will be '2', and for the // third item, reason.message will be '3'. }, function(error) { // Not run. (This block would only be called if allSettled had failed, // for instance if passed an incorrect argument type.) }); ``` @method allSettled @static @for RSVP @param {Array} entries @param {String} label - optional string that describes the promise. Useful for tooling. @return {Promise} promise that is fulfilled with an array of the settled states of the constituent promises. */ function allSettled(entries, label) { if (!Array.isArray(entries)) { return Promise.reject(new TypeError("Promise.allSettled must be called with an array"), label); } return new AllSettled(Promise, entries, label).promise; } /** This is a convenient alias for `RSVP.Promise.race`. @method race @static @for RSVP @param {Array} array Array of promises. @param {String} label An optional label. This is useful for tooling. */ function race$1(array, label) { return Promise.race(array, label); } var hasOwnProperty = Object.prototype.hasOwnProperty; var PromiseHash = function (_Enumerator2) { (0, _emberBabel.inherits)(PromiseHash, _Enumerator2); function PromiseHash(Constructor, object) { var abortOnReject = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : true; var label = arguments[3]; return (0, _emberBabel.possibleConstructorReturn)(this, _Enumerator2.call(this, Constructor, object, abortOnReject, label)); } PromiseHash.prototype._init = function (Constructor, object) { this._result = {}; this._enumerate(object); if (this._remaining === 0) { fulfill(this.promise, this._result); } }; PromiseHash.prototype._enumerate = function (input) { var promise = this.promise, i; var results = []; for (var key in input) { if (hasOwnProperty.call(input, key)) { results.push({ position: key, entry: input[key] }); } } var length = results.length; this._remaining = length; var result = void 0; for (i = 0; promise._state === PENDING && i < length; i++) { result = results[i]; this._eachEntry(result.entry, result.position); } }; return PromiseHash; }(Enumerator); /** `RSVP.hash` is similar to `RSVP.all`, but takes an object instead of an array for its `promises` argument. Returns a promise that is fulfilled when all the given promises have been fulfilled, or rejected if any of them become rejected. The returned promise is fulfilled with a hash that has the same key names as the `promises` object argument. If any of the values in the object are not promises, they will simply be copied over to the fulfilled object. Example: ```javascript let promises = { myPromise: RSVP.resolve(1), yourPromise: RSVP.resolve(2), theirPromise: RSVP.resolve(3), notAPromise: 4 }; RSVP.hash(promises).then(function(hash){ // hash here is an object that looks like: // { // myPromise: 1, // yourPromise: 2, // theirPromise: 3, // notAPromise: 4 // } }); ```` If any of the `promises` given to `RSVP.hash` are rejected, the first promise that is rejected will be given as the reason to the rejection handler. Example: ```javascript let promises = { myPromise: RSVP.resolve(1), rejectedPromise: RSVP.reject(new Error('rejectedPromise')), anotherRejectedPromise: RSVP.reject(new Error('anotherRejectedPromise')), }; RSVP.hash(promises).then(function(hash){ // Code here never runs because there are rejected promises! }, function(reason) { // reason.message === 'rejectedPromise' }); ``` An important note: `RSVP.hash` is intended for plain JavaScript objects that are just a set of keys and values. `RSVP.hash` will NOT preserve prototype chains. Example: ```javascript function MyConstructor(){ this.example = RSVP.resolve('Example'); } MyConstructor.prototype = { protoProperty: RSVP.resolve('Proto Property') }; let myObject = new MyConstructor(); RSVP.hash(myObject).then(function(hash){ // protoProperty will not be present, instead you will just have an // object that looks like: // { // example: 'Example' // } // // hash.hasOwnProperty('protoProperty'); // false // 'undefined' === typeof hash.protoProperty }); ``` @method hash @static @for RSVP @param {Object} object @param {String} label optional string that describes the promise. Useful for tooling. @return {Promise} promise that is fulfilled when all properties of `promises` have been fulfilled, or rejected if any of them become rejected. */ function hash(object, label) { if (object === null || typeof object !== 'object') { return Promise.reject(new TypeError("Promise.hash must be called with an object"), label); } return new PromiseHash(Promise, object, label).promise; } var HashSettled = function (_PromiseHash) { (0, _emberBabel.inherits)(HashSettled, _PromiseHash); function HashSettled(Constructor, object, label) { return (0, _emberBabel.possibleConstructorReturn)(this, _PromiseHash.call(this, Constructor, object, false, label)); } return HashSettled; }(PromiseHash); HashSettled.prototype._setResultAt = setSettledResult; /** `RSVP.hashSettled` is similar to `RSVP.allSettled`, but takes an object instead of an array for its `promises` argument. Unlike `RSVP.all` or `RSVP.hash`, which implement a fail-fast method, but like `RSVP.allSettled`, `hashSettled` waits until all the constituent promises have returned and then shows you all the results with their states and values/reasons. This is useful if you want to handle multiple promises' failure states together as a set. Returns a promise that is fulfilled when all the given promises have been settled, or rejected if the passed parameters are invalid. The returned promise is fulfilled with a hash that has the same key names as the `promises` object argument. If any of the values in the object are not promises, they will be copied over to the fulfilled object and marked with state 'fulfilled'. Example: ```javascript let promises = { myPromise: RSVP.Promise.resolve(1), yourPromise: RSVP.Promise.resolve(2), theirPromise: RSVP.Promise.resolve(3), notAPromise: 4 }; RSVP.hashSettled(promises).then(function(hash){ // hash here is an object that looks like: // { // myPromise: { state: 'fulfilled', value: 1 }, // yourPromise: { state: 'fulfilled', value: 2 }, // theirPromise: { state: 'fulfilled', value: 3 }, // notAPromise: { state: 'fulfilled', value: 4 } // } }); ``` If any of the `promises` given to `RSVP.hash` are rejected, the state will be set to 'rejected' and the reason for rejection provided. Example: ```javascript let promises = { myPromise: RSVP.Promise.resolve(1), rejectedPromise: RSVP.Promise.reject(new Error('rejection')), anotherRejectedPromise: RSVP.Promise.reject(new Error('more rejection')), }; RSVP.hashSettled(promises).then(function(hash){ // hash here is an object that looks like: // { // myPromise: { state: 'fulfilled', value: 1 }, // rejectedPromise: { state: 'rejected', reason: Error }, // anotherRejectedPromise: { state: 'rejected', reason: Error }, // } // Note that for rejectedPromise, reason.message == 'rejection', // and for anotherRejectedPromise, reason.message == 'more rejection'. }); ``` An important note: `RSVP.hashSettled` is intended for plain JavaScript objects that are just a set of keys and values. `RSVP.hashSettled` will NOT preserve prototype chains. Example: ```javascript function MyConstructor(){ this.example = RSVP.Promise.resolve('Example'); } MyConstructor.prototype = { protoProperty: RSVP.Promise.resolve('Proto Property') }; let myObject = new MyConstructor(); RSVP.hashSettled(myObject).then(function(hash){ // protoProperty will not be present, instead you will just have an // object that looks like: // { // example: { state: 'fulfilled', value: 'Example' } // } // // hash.hasOwnProperty('protoProperty'); // false // 'undefined' === typeof hash.protoProperty }); ``` @method hashSettled @for RSVP @param {Object} object @param {String} label optional string that describes the promise. Useful for tooling. @return {Promise} promise that is fulfilled when when all properties of `promises` have been settled. @static */ function hashSettled(object, label) { if (object === null || typeof object !== 'object') { return Promise.reject(new TypeError("RSVP.hashSettled must be called with an object"), label); } return new HashSettled(Promise, object, false, label).promise; } /** `RSVP.rethrow` will rethrow an error on the next turn of the JavaScript event loop in order to aid debugging. Promises A+ specifies that any exceptions that occur with a promise must be caught by the promises implementation and bubbled to the last handler. For this reason, it is recommended that you always specify a second rejection handler function to `then`. However, `RSVP.rethrow` will throw the exception outside of the promise, so it bubbles up to your console if in the browser, or domain/cause uncaught exception in Node. `rethrow` will also throw the error again so the error can be handled by the promise per the spec. ```javascript function throws(){ throw new Error('Whoops!'); } let promise = new RSVP.Promise(function(resolve, reject){ throws(); }); promise.catch(RSVP.rethrow).then(function(){ // Code here doesn't run because the promise became rejected due to an // error! }, function (err){ // handle the error here }); ``` The 'Whoops' error will be thrown on the next turn of the event loop and you can watch for it in your console. You can also handle it using a rejection handler given to `.then` or `.catch` on the returned promise. @method rethrow @static @for RSVP @param {Error} reason reason the promise became rejected. @throws Error @static */ function rethrow(reason) { setTimeout(function () { throw reason; }); throw reason; } /** `RSVP.defer` returns an object similar to jQuery's `$.Deferred`. `RSVP.defer` should be used when porting over code reliant on `$.Deferred`'s interface. New code should use the `RSVP.Promise` constructor instead. The object returned from `RSVP.defer` is a plain object with three properties: * promise - an `RSVP.Promise`. * reject - a function that causes the `promise` property on this object to become rejected * resolve - a function that causes the `promise` property on this object to become fulfilled. Example: ```javascript let deferred = RSVP.defer(); deferred.resolve("Success!"); deferred.promise.then(function(value){ // value here is "Success!" }); ``` @method defer @static @for RSVP @param {String} label optional string for labeling the promise. Useful for tooling. @return {Object} */ function defer(label) { var deferred = { resolve: undefined, reject: undefined }; deferred.promise = new Promise(function (resolve, reject) { deferred.resolve = resolve; deferred.reject = reject; }, label); return deferred; } var MapEnumerator = function (_Enumerator3) { (0, _emberBabel.inherits)(MapEnumerator, _Enumerator3); function MapEnumerator(Constructor, entries, mapFn, label) { return (0, _emberBabel.possibleConstructorReturn)(this, _Enumerator3.call(this, Constructor, entries, true, label, mapFn)); } MapEnumerator.prototype._init = function (Constructor, input, bool, label, mapFn) { var len = input.length || 0; this.length = len; this._remaining = len; this._result = new Array(len); this._mapFn = mapFn; this._enumerate(input); }; MapEnumerator.prototype._setResultAt = function (state, i, value, firstPass) { var val; if (firstPass) { val = tryCatch(this._mapFn)(value, i); if (val === TRY_CATCH_ERROR) { this._settledAt(REJECTED, i, val.error, false); } else { this._eachEntry(val, i, false); } } else { this._remaining--; this._result[i] = value; } }; return MapEnumerator; }(Enumerator); /** `RSVP.map` is similar to JavaScript's native `map` method. `mapFn` is eagerly called meaning that as soon as any promise resolves its value will be passed to `mapFn`. `RSVP.map` returns a promise that will become fulfilled with the result of running `mapFn` on the values the promises become fulfilled with. For example: ```javascript let promise1 = RSVP.resolve(1); let promise2 = RSVP.resolve(2); let promise3 = RSVP.resolve(3); let promises = [ promise1, promise2, promise3 ]; let mapFn = function(item){ return item + 1; }; RSVP.map(promises, mapFn).then(function(result){ // result is [ 2, 3, 4 ] }); ``` If any of the `promises` given to `RSVP.map` are rejected, the first promise that is rejected will be given as an argument to the returned promise's rejection handler. For example: ```javascript let promise1 = RSVP.resolve(1); let promise2 = RSVP.reject(new Error('2')); let promise3 = RSVP.reject(new Error('3')); let promises = [ promise1, promise2, promise3 ]; let mapFn = function(item){ return item + 1; }; RSVP.map(promises, mapFn).then(function(array){ // Code here never runs because there are rejected promises! }, function(reason) { // reason.message === '2' }); ``` `RSVP.map` will also wait if a promise is returned from `mapFn`. For example, say you want to get all comments from a set of blog posts, but you need the blog posts first because they contain a url to those comments. ```javscript let mapFn = function(blogPost){ // getComments does some ajax and returns an RSVP.Promise that is fulfilled // with some comments data return getComments(blogPost.comments_url); }; // getBlogPosts does some ajax and returns an RSVP.Promise that is fulfilled // with some blog post data RSVP.map(getBlogPosts(), mapFn).then(function(comments){ // comments is the result of asking the server for the comments // of all blog posts returned from getBlogPosts() }); ``` @method map @static @for RSVP @param {Array} promises @param {Function} mapFn function to be called on each fulfilled promise. @param {String} label optional string for labeling the promise. Useful for tooling. @return {Promise} promise that is fulfilled with the result of calling `mapFn` on each fulfilled promise or value when they become fulfilled. The promise will be rejected if any of the given `promises` become rejected. @static */ function map(promises, mapFn, label) { if (!Array.isArray(promises)) { return Promise.reject(new TypeError("RSVP.map must be called with an array"), label); } if (typeof mapFn !== 'function') { return Promise.reject(new TypeError("RSVP.map expects a function as a second argument"), label); } return new MapEnumerator(Promise, promises, mapFn, label).promise; } /** This is a convenient alias for `RSVP.Promise.resolve`. @method resolve @static @for RSVP @param {*} value value that the returned promise will be resolved with @param {String} label optional string for identifying the returned promise. Useful for tooling. @return {Promise} a promise that will become fulfilled with the given `value` */ function resolve$2(value, label) { return Promise.resolve(value, label); } /** This is a convenient alias for `RSVP.Promise.reject`. @method reject @static @for RSVP @param {*} reason value that the returned promise will be rejected with. @param {String} label optional string for identifying the returned promise. Useful for tooling. @return {Promise} a promise rejected with the given `reason`. */ function reject$2(reason, label) { return Promise.reject(reason, label); } var EMPTY_OBJECT = {}; var FilterEnumerator = function (_Enumerator4) { (0, _emberBabel.inherits)(FilterEnumerator, _Enumerator4); function FilterEnumerator(Constructor, entries, filterFn, label) { return (0, _emberBabel.possibleConstructorReturn)(this, _Enumerator4.call(this, Constructor, entries, true, label, filterFn)); } FilterEnumerator.prototype._init = function (Constructor, input, bool, label, filterFn) { var len = input.length || 0; this.length = len; this._remaining = len; this._result = new Array(len); this._filterFn = filterFn; this._enumerate(input); }; FilterEnumerator.prototype._checkFullfillment = function () { if (this._remaining === 0) { this._result = this._result.filter(function (val) { return val !== EMPTY_OBJECT; }); fulfill(this.promise, this._result); } }; FilterEnumerator.prototype._setResultAt = function (state, i, value, firstPass) { var val; if (firstPass) { this._result[i] = value; val = tryCatch(this._filterFn)(value, i); if (val === TRY_CATCH_ERROR) { this._settledAt(REJECTED, i, val.error, false); } else { this._eachEntry(val, i, false); } } else { this._remaining--; if (!value) { this._result[i] = EMPTY_OBJECT; } } }; return FilterEnumerator; }(Enumerator); /** `RSVP.filter` is similar to JavaScript's native `filter` method. `filterFn` is eagerly called meaning that as soon as any promise resolves its value will be passed to `filterFn`. `RSVP.filter` returns a promise that will become fulfilled with the result of running `filterFn` on the values the promises become fulfilled with. For example: ```javascript let promise1 = RSVP.resolve(1); let promise2 = RSVP.resolve(2); let promise3 = RSVP.resolve(3); let promises = [promise1, promise2, promise3]; let filterFn = function(item){ return item > 1; }; RSVP.filter(promises, filterFn).then(function(result){ // result is [ 2, 3 ] }); ``` If any of the `promises` given to `RSVP.filter` are rejected, the first promise that is rejected will be given as an argument to the returned promise's rejection handler. For example: ```javascript let promise1 = RSVP.resolve(1); let promise2 = RSVP.reject(new Error('2')); let promise3 = RSVP.reject(new Error('3')); let promises = [ promise1, promise2, promise3 ]; let filterFn = function(item){ return item > 1; }; RSVP.filter(promises, filterFn).then(function(array){ // Code here never runs because there are rejected promises! }, function(reason) { // reason.message === '2' }); ``` `RSVP.filter` will also wait for any promises returned from `filterFn`. For instance, you may want to fetch a list of users then return a subset of those users based on some asynchronous operation: ```javascript let alice = { name: 'alice' }; let bob = { name: 'bob' }; let users = [ alice, bob ]; let promises = users.map(function(user){ return RSVP.resolve(user); }); let filterFn = function(user){ // Here, Alice has permissions to create a blog post, but Bob does not. return getPrivilegesForUser(user).then(function(privs){ return privs.can_create_blog_post === true; }); }; RSVP.filter(promises, filterFn).then(function(users){ // true, because the server told us only Alice can create a blog post. users.length === 1; // false, because Alice is the only user present in `users` users[0] === bob; }); ``` @method filter @static @for RSVP @param {Array} promises @param {Function} filterFn - function to be called on each resolved value to filter the final results. @param {String} label optional string describing the promise. Useful for tooling. @return {Promise} */ function filter(promises, filterFn, label) { if (!Array.isArray(promises) && !(promises !== null && typeof promises === 'object' && promises.then !== undefined)) { return Promise.reject(new TypeError("RSVP.filter must be called with an array or promise"), label); } if (typeof filterFn !== 'function') { return Promise.reject(new TypeError("RSVP.filter expects function as a second argument"), label); } return Promise.resolve(promises, label).then(function (promises) { return new FilterEnumerator(Promise, promises, filterFn, label).promise; }); } var len = 0; var vertxNext = void 0; function asap(callback, arg) { queue$1[len] = callback; queue$1[len + 1] = arg; len += 2; if (len === 2) { // If len is 1, that means that we need to schedule an async flush. // If additional callbacks are queued before the queue is flushed, they // will be processed by this flush that we are scheduling. scheduleFlush$1(); } } var browserWindow = typeof window !== 'undefined' ? window : undefined; var browserGlobal = browserWindow || {}; var BrowserMutationObserver = browserGlobal.MutationObserver || browserGlobal.WebKitMutationObserver; var isNode = typeof self === 'undefined' && typeof process !== 'undefined' && {}.toString.call(process) === '[object process]'; // test for web worker but not in IE10 var isWorker = typeof Uint8ClampedArray !== 'undefined' && typeof importScripts !== 'undefined' && typeof MessageChannel !== 'undefined'; // node function useNextTick() { var nextTick = process.nextTick; // node version 0.10.x displays a deprecation warning when nextTick is used recursively // setImmediate should be used instead instead var version = process.versions.node.match(/^(?:(\d+)\.)?(?:(\d+)\.)?(\*|\d+)$/); if (Array.isArray(version) && version[1] === '0' && version[2] === '10') { nextTick = setImmediate; } return function () { return nextTick(flush); }; } // vertx function useVertxTimer() { if (typeof vertxNext !== 'undefined') { return function () { vertxNext(flush); }; } return useSetTimeout(); } function useMutationObserver() { var iterations = 0; var observer = new BrowserMutationObserver(flush); var node = document.createTextNode(''); observer.observe(node, { characterData: true }); return function () { return node.data = iterations = ++iterations % 2; }; } // web worker function useMessageChannel() { var channel = new MessageChannel(); channel.port1.onmessage = flush; return function () { return channel.port2.postMessage(0); }; } function useSetTimeout() { return function () { return setTimeout(flush, 1); }; } var queue$1 = new Array(1000); function flush() { var i, callback, arg; for (i = 0; i < len; i += 2) { callback = queue$1[i]; arg = queue$1[i + 1]; callback(arg); queue$1[i] = undefined; queue$1[i + 1] = undefined; } len = 0; } function attemptVertex() { var r, vertx; try { r = _nodeModule.require; vertx = r('vertx'); vertxNext = vertx.runOnLoop || vertx.runOnContext; return useVertxTimer(); } catch (e) { return useSetTimeout(); } } var scheduleFlush$1 = void 0; // Decide what async method to use to triggering processing of queued callbacks: if (isNode) { scheduleFlush$1 = useNextTick(); } else if (BrowserMutationObserver) { scheduleFlush$1 = useMutationObserver(); } else if (isWorker) { scheduleFlush$1 = useMessageChannel(); } else if (browserWindow === undefined && typeof _nodeModule.require === 'function') { scheduleFlush$1 = attemptVertex(); } else { scheduleFlush$1 = useSetTimeout(); } /* global self */ if (typeof self === 'object') { /* global global */ } else if (!(typeof global === 'object')) { throw new Error('no global: `self` or `global` found'); } // defaults config.async = asap; config.after = function (cb) { return setTimeout(cb, 0); }; var cast = resolve$2; var async = function (callback, arg) { return config.async(callback, arg); }; function on() { config['on'].apply(config, arguments); } function off() { config['off'].apply(config, arguments); } // Set up instrumentation through `window.__PROMISE_INTRUMENTATION__` if (typeof window !== 'undefined' && typeof window['__PROMISE_INSTRUMENTATION__'] === 'object') { callbacks = window['__PROMISE_INSTRUMENTATION__']; configure('instrument', true); for (var eventName in callbacks) { if (callbacks.hasOwnProperty(eventName)) { on(eventName, callbacks[eventName]); } } } // the default export here is for backwards compat: // https://github.com/tildeio/rsvp.js/issues/434 var rsvp = (_rsvp = { asap: asap, cast: cast, Promise: Promise, EventTarget: EventTarget, all: all$1, allSettled: allSettled, race: race$1, hash: hash, hashSettled: hashSettled, rethrow: rethrow, defer: defer, denodeify: denodeify, configure: configure, on: on, off: off, resolve: resolve$2, reject: reject$2, map: map }, _rsvp['async'] = async, _rsvp.filter = filter, _rsvp); exports.asap = asap; exports.cast = cast; exports.Promise = Promise; exports.EventTarget = EventTarget; exports.all = all$1; exports.allSettled = allSettled; exports.race = race$1; exports.hash = hash; exports.hashSettled = hashSettled; exports.rethrow = rethrow; exports.defer = defer; exports.denodeify = denodeify; exports.configure = configure; exports.on = on; exports.off = off; exports.resolve = resolve$2; exports.reject = reject$2; exports.map = map; exports.async = async; exports.filter = filter; exports.default = rsvp; }); requireModule('ember') }()); //# sourceMappingURL=ember.prod.map