"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.AssignmentExpression = AssignmentExpression; exports.Binary = Binary; exports.BinaryExpression = BinaryExpression; exports.ClassExpression = ClassExpression; exports.ArrowFunctionExpression = exports.ConditionalExpression = ConditionalExpression; exports.DoExpression = DoExpression; exports.FunctionExpression = FunctionExpression; exports.FunctionTypeAnnotation = FunctionTypeAnnotation; exports.Identifier = Identifier; exports.LogicalExpression = LogicalExpression; exports.NullableTypeAnnotation = NullableTypeAnnotation; exports.ObjectExpression = ObjectExpression; exports.OptionalIndexedAccessType = OptionalIndexedAccessType; exports.OptionalCallExpression = exports.OptionalMemberExpression = OptionalMemberExpression; exports.SequenceExpression = SequenceExpression; exports.TSSatisfiesExpression = exports.TSAsExpression = TSAsExpression; exports.TSInferType = TSInferType; exports.TSInstantiationExpression = TSInstantiationExpression; exports.UnaryLike = exports.TSTypeAssertion = UnaryLike; exports.TSIntersectionType = exports.TSUnionType = TSUnionType; exports.IntersectionTypeAnnotation = exports.UnionTypeAnnotation = UnionTypeAnnotation; exports.UpdateExpression = UpdateExpression; exports.AwaitExpression = exports.YieldExpression = YieldExpression; var _t = require("@babel/types"); var _index = require("./index.js"); const { isArrayTypeAnnotation, isBinaryExpression, isCallExpression, isForOfStatement, isIndexedAccessType, isMemberExpression, isObjectPattern, isOptionalMemberExpression, isYieldExpression, isStatement } = _t; const PRECEDENCE = new Map([["||", 0], ["??", 0], ["|>", 0], ["&&", 1], ["|", 2], ["^", 3], ["&", 4], ["==", 5], ["===", 5], ["!=", 5], ["!==", 5], ["<", 6], [">", 6], ["<=", 6], [">=", 6], ["in", 6], ["instanceof", 6], [">>", 7], ["<<", 7], [">>>", 7], ["+", 8], ["-", 8], ["*", 9], ["/", 9], ["%", 9], ["**", 10]]); function getBinaryPrecedence(node, nodeType) { if (nodeType === "BinaryExpression" || nodeType === "LogicalExpression") { return PRECEDENCE.get(node.operator); } if (nodeType === "TSAsExpression" || nodeType === "TSSatisfiesExpression") { return PRECEDENCE.get("in"); } } function isTSTypeExpression(nodeType) { return nodeType === "TSAsExpression" || nodeType === "TSSatisfiesExpression" || nodeType === "TSTypeAssertion"; } const isClassExtendsClause = (node, parent) => { const parentType = parent.type; return (parentType === "ClassDeclaration" || parentType === "ClassExpression") && parent.superClass === node; }; const hasPostfixPart = (node, parent) => { const parentType = parent.type; return (parentType === "MemberExpression" || parentType === "OptionalMemberExpression") && parent.object === node || (parentType === "CallExpression" || parentType === "OptionalCallExpression" || parentType === "NewExpression") && parent.callee === node || parentType === "TaggedTemplateExpression" && parent.tag === node || parentType === "TSNonNullExpression"; }; function NullableTypeAnnotation(node, parent) { return isArrayTypeAnnotation(parent); } function FunctionTypeAnnotation(node, parent, tokenContext) { const parentType = parent.type; return parentType === "UnionTypeAnnotation" || parentType === "IntersectionTypeAnnotation" || parentType === "ArrayTypeAnnotation" || Boolean(tokenContext & _index.TokenContext.arrowFlowReturnType); } function UpdateExpression(node, parent) { return hasPostfixPart(node, parent) || isClassExtendsClause(node, parent); } function needsParenBeforeExpressionBrace(tokenContext) { return Boolean(tokenContext & (_index.TokenContext.expressionStatement | _index.TokenContext.arrowBody)); } function ObjectExpression(node, parent, tokenContext) { return needsParenBeforeExpressionBrace(tokenContext); } function DoExpression(node, parent, tokenContext) { return !node.async && Boolean(tokenContext & _index.TokenContext.expressionStatement); } function Binary(node, parent) { const parentType = parent.type; if (node.type === "BinaryExpression" && node.operator === "**" && parentType === "BinaryExpression" && parent.operator === "**") { return parent.left === node; } if (isClassExtendsClause(node, parent)) { return true; } if (hasPostfixPart(node, parent) || parentType === "UnaryExpression" || parentType === "SpreadElement" || parentType === "AwaitExpression") { return true; } const parentPos = getBinaryPrecedence(parent, parentType); if (parentPos != null) { const nodePos = getBinaryPrecedence(node, node.type); if (parentPos === nodePos && parentType === "BinaryExpression" && parent.right === node || parentPos > nodePos) { return true; } } return undefined; } function UnionTypeAnnotation(node, parent) { const parentType = parent.type; return parentType === "ArrayTypeAnnotation" || parentType === "NullableTypeAnnotation" || parentType === "IntersectionTypeAnnotation" || parentType === "UnionTypeAnnotation"; } function OptionalIndexedAccessType(node, parent) { return isIndexedAccessType(parent) && parent.objectType === node; } function TSAsExpression(node, parent) { if ((parent.type === "AssignmentExpression" || parent.type === "AssignmentPattern") && parent.left === node) { return true; } if (parent.type === "BinaryExpression" && (parent.operator === "|" || parent.operator === "&") && node === parent.left) { return true; } return Binary(node, parent); } function TSUnionType(node, parent) { const parentType = parent.type; return parentType === "TSArrayType" || parentType === "TSOptionalType" || parentType === "TSIntersectionType" || parentType === "TSUnionType" || parentType === "TSRestType"; } function TSInferType(node, parent) { const parentType = parent.type; return parentType === "TSArrayType" || parentType === "TSOptionalType"; } function TSInstantiationExpression(node, parent) { const parentType = parent.type; return (parentType === "CallExpression" || parentType === "OptionalCallExpression" || parentType === "NewExpression" || parentType === "TSInstantiationExpression") && !!parent.typeParameters; } function BinaryExpression(node, parent, tokenContext, inForStatementInit) { return node.operator === "in" && inForStatementInit; } function SequenceExpression(node, parent) { const parentType = parent.type; if (parentType === "SequenceExpression" || parentType === "ParenthesizedExpression" || parentType === "MemberExpression" && parent.property === node || parentType === "OptionalMemberExpression" && parent.property === node || parentType === "TemplateLiteral") { return false; } if (parentType === "ClassDeclaration") { return true; } if (parentType === "ForOfStatement") { return parent.right === node; } if (parentType === "ExportDefaultDeclaration") { return true; } return !isStatement(parent); } function YieldExpression(node, parent) { const parentType = parent.type; return parentType === "BinaryExpression" || parentType === "LogicalExpression" || parentType === "UnaryExpression" || parentType === "SpreadElement" || hasPostfixPart(node, parent) || parentType === "AwaitExpression" && isYieldExpression(node) || parentType === "ConditionalExpression" && node === parent.test || isClassExtendsClause(node, parent) || isTSTypeExpression(parentType); } function ClassExpression(node, parent, tokenContext) { return Boolean(tokenContext & (_index.TokenContext.expressionStatement | _index.TokenContext.exportDefault)); } function UnaryLike(node, parent) { return hasPostfixPart(node, parent) || isBinaryExpression(parent) && parent.operator === "**" && parent.left === node || isClassExtendsClause(node, parent); } function FunctionExpression(node, parent, tokenContext) { return Boolean(tokenContext & (_index.TokenContext.expressionStatement | _index.TokenContext.exportDefault)); } function ConditionalExpression(node, parent) { const parentType = parent.type; if (parentType === "UnaryExpression" || parentType === "SpreadElement" || parentType === "BinaryExpression" || parentType === "LogicalExpression" || parentType === "ConditionalExpression" && parent.test === node || parentType === "AwaitExpression" || isTSTypeExpression(parentType)) { return true; } return UnaryLike(node, parent); } function OptionalMemberExpression(node, parent) { return isCallExpression(parent) && parent.callee === node || isMemberExpression(parent) && parent.object === node; } function AssignmentExpression(node, parent, tokenContext) { if (needsParenBeforeExpressionBrace(tokenContext) && isObjectPattern(node.left)) { return true; } else { return ConditionalExpression(node, parent); } } function LogicalExpression(node, parent) { const parentType = parent.type; if (isTSTypeExpression(parentType)) return true; if (parentType !== "LogicalExpression") return false; switch (node.operator) { case "||": return parent.operator === "??" || parent.operator === "&&"; case "&&": return parent.operator === "??"; case "??": return parent.operator !== "??"; } } function Identifier(node, parent, tokenContext) { var _node$extra; const parentType = parent.type; if ((_node$extra = node.extra) != null && _node$extra.parenthesized && parentType === "AssignmentExpression" && parent.left === node) { const rightType = parent.right.type; if ((rightType === "FunctionExpression" || rightType === "ClassExpression") && parent.right.id == null) { return true; } } if (node.name === "let") { const isFollowedByBracket = isMemberExpression(parent, { object: node, computed: true }) || isOptionalMemberExpression(parent, { object: node, computed: true, optional: false }); if (isFollowedByBracket && tokenContext & (_index.TokenContext.expressionStatement | _index.TokenContext.forHead | _index.TokenContext.forInHead)) { return true; } return Boolean(tokenContext & _index.TokenContext.forOfHead); } return node.name === "async" && isForOfStatement(parent, { left: node, await: false }); } //# sourceMappingURL=parentheses.js.map