/* */ "format cjs"; "use strict"; exports.__esModule = true; // istanbul ignore next function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } else { var newObj = {}; if (obj != null) { for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) newObj[key] = obj[key]; } } newObj["default"] = obj; return newObj; } } var _types = require("../../../types"); var t = _interopRequireWildcard(_types); /** * [Please add a description.] */ exports["default"] = function (node) { if (!this.isReferenced()) return; // check if a binding exists of this value and if so then return a union type of all // possible types that the binding could be var binding = this.scope.getBinding(node.name); if (binding) { if (binding.identifier.typeAnnotation) { return binding.identifier.typeAnnotation; } else { return getTypeAnnotationBindingConstantViolations(this, node.name); } } // built-in values if (node.name === "undefined") { return t.voidTypeAnnotation(); } else if (node.name === "NaN" || node.name === "Infinity") { return t.numberTypeAnnotation(); } else if (node.name === "arguments") { // todo } }; /** * [Please add a description.] */ function getTypeAnnotationBindingConstantViolations(path, name) { var binding = path.scope.getBinding(name); var types = []; path.typeAnnotation = t.unionTypeAnnotation(types); var functionConstantViolations = []; var constantViolations = getConstantViolationsBefore(binding, path, functionConstantViolations); var testType = getConditionalAnnotation(path, name); if (testType) { var testConstantViolations = getConstantViolationsBefore(binding, testType.ifStatement); // remove constant violations observed before the IfStatement constantViolations = constantViolations.filter(function (path) { return testConstantViolations.indexOf(path) < 0; }); // clear current types and add in observed test type types.push(testType.typeAnnotation); } if (constantViolations.length) { // pick one constant from each scope which will represent the last possible // control flow path that it could've taken/been var rawConstantViolations = constantViolations.reverse(); var visitedScopes = []; constantViolations = []; var _arr = rawConstantViolations; for (var _i = 0; _i < _arr.length; _i++) { var violation = _arr[_i]; var violationScope = violation.scope; if (visitedScopes.indexOf(violationScope) >= 0) continue; visitedScopes.push(violationScope); constantViolations.push(violation); if (violationScope === path.scope) { constantViolations = [violation]; break; } } // add back on function constant violations since we can't track calls constantViolations = constantViolations.concat(functionConstantViolations); // push on inferred types of violated paths var _arr2 = constantViolations; for (var _i2 = 0; _i2 < _arr2.length; _i2++) { var violation = _arr2[_i2]; types.push(violation.getTypeAnnotation()); } } if (types.length) { return t.createUnionTypeAnnotation(types); } } /** * [Please add a description.] */ function getConstantViolationsBefore(binding, path, functions) { var violations = binding.constantViolations.slice(); violations.unshift(binding.path); return violations.filter(function (violation) { violation = violation.resolve(); var status = violation._guessExecutionStatusRelativeTo(path); if (functions && status === "function") functions.push(violation); return status === "before"; }); } /** * [Please add a description.] */ function inferAnnotationFromBinaryExpression(name, path) { var operator = path.node.operator; var right = path.get("right").resolve(); var left = path.get("left").resolve(); var target; if (left.isIdentifier({ name: name })) { target = right; } else if (right.isIdentifier({ name: name })) { target = left; } if (target) { if (operator === "===") { return target.getTypeAnnotation(); } else if (t.BOOLEAN_NUMBER_BINARY_OPERATORS.indexOf(operator) >= 0) { return t.numberTypeAnnotation(); } else { return; } } else { if (operator !== "===") return; } // var typeofPath; var typePath; if (left.isUnaryExpression({ operator: "typeof" })) { typeofPath = left; typePath = right; } else if (right.isUnaryExpression({ operator: "typeof" })) { typeofPath = right; typePath = left; } if (!typePath && !typeofPath) return; // ensure that the type path is a Literal typePath = typePath.resolve(); if (!typePath.isLiteral()) return; // and that it's a string so we can infer it var typeValue = typePath.node.value; if (typeof typeValue !== "string") return; // and that the argument of the typeof path references us! if (!typeofPath.get("argument").isIdentifier({ name: name })) return; // turn type value into a type annotation return t.createTypeAnnotationBasedOnTypeof(typePath.node.value); } /** * [Please add a description.] */ function getParentConditionalPath(path) { var parentPath; while (parentPath = path.parentPath) { if (parentPath.isIfStatement() || parentPath.isConditionalExpression()) { if (path.key === "test") { return; } else { return parentPath; } } else { path = parentPath; } } } /** * [Please add a description.] */ function getConditionalAnnotation(path, name) { var ifStatement = getParentConditionalPath(path); if (!ifStatement) return; var test = ifStatement.get("test"); var paths = [test]; var types = []; do { var _path = paths.shift().resolve(); if (_path.isLogicalExpression()) { paths.push(_path.get("left")); paths.push(_path.get("right")); } if (_path.isBinaryExpression()) { var type = inferAnnotationFromBinaryExpression(name, _path); if (type) types.push(type); } } while (paths.length); if (types.length) { return { typeAnnotation: t.createUnionTypeAnnotation(types), ifStatement: ifStatement }; } else { return getConditionalAnnotation(ifStatement, name); } } module.exports = exports["default"];