"use strict";Object.defineProperty(exports, "__esModule", {value: true});/* eslint max-len: 0 */ var _index = require('../tokenizer/index'); var _keywords = require('../tokenizer/keywords'); var _types = require('../tokenizer/types'); var _base = require('../traverser/base'); var _expression = require('../traverser/expression'); var _statement = require('../traverser/statement'); var _util = require('../traverser/util'); function isMaybeDefaultImport(lookahead) { return ( (lookahead.type === _types.TokenType.name || !!(lookahead.type & _types.TokenType.IS_KEYWORD)) && lookahead.contextualKeyword !== _keywords.ContextualKeyword._from ); } function flowParseTypeInitialiser(tok) { const oldIsType = _index.pushTypeContext.call(void 0, 0); _util.expect.call(void 0, tok || _types.TokenType.colon); flowParseType(); _index.popTypeContext.call(void 0, oldIsType); } function flowParsePredicate() { _util.expect.call(void 0, _types.TokenType.modulo); _util.expectContextual.call(void 0, _keywords.ContextualKeyword._checks); if (_index.eat.call(void 0, _types.TokenType.parenL)) { _expression.parseExpression.call(void 0, ); _util.expect.call(void 0, _types.TokenType.parenR); } } function flowParseTypeAndPredicateInitialiser() { const oldIsType = _index.pushTypeContext.call(void 0, 0); _util.expect.call(void 0, _types.TokenType.colon); if (_index.match.call(void 0, _types.TokenType.modulo)) { flowParsePredicate(); } else { flowParseType(); if (_index.match.call(void 0, _types.TokenType.modulo)) { flowParsePredicate(); } } _index.popTypeContext.call(void 0, oldIsType); } function flowParseDeclareClass() { _index.next.call(void 0, ); flowParseInterfaceish(/* isClass */ true); } function flowParseDeclareFunction() { _index.next.call(void 0, ); _expression.parseIdentifier.call(void 0, ); if (_index.match.call(void 0, _types.TokenType.lessThan)) { flowParseTypeParameterDeclaration(); } _util.expect.call(void 0, _types.TokenType.parenL); flowParseFunctionTypeParams(); _util.expect.call(void 0, _types.TokenType.parenR); flowParseTypeAndPredicateInitialiser(); _util.semicolon.call(void 0, ); } function flowParseDeclare() { if (_index.match.call(void 0, _types.TokenType._class)) { flowParseDeclareClass(); } else if (_index.match.call(void 0, _types.TokenType._function)) { flowParseDeclareFunction(); } else if (_index.match.call(void 0, _types.TokenType._var)) { flowParseDeclareVariable(); } else if (_util.eatContextual.call(void 0, _keywords.ContextualKeyword._module)) { if (_index.eat.call(void 0, _types.TokenType.dot)) { flowParseDeclareModuleExports(); } else { flowParseDeclareModule(); } } else if (_util.isContextual.call(void 0, _keywords.ContextualKeyword._type)) { flowParseDeclareTypeAlias(); } else if (_util.isContextual.call(void 0, _keywords.ContextualKeyword._opaque)) { flowParseDeclareOpaqueType(); } else if (_util.isContextual.call(void 0, _keywords.ContextualKeyword._interface)) { flowParseDeclareInterface(); } else if (_index.match.call(void 0, _types.TokenType._export)) { flowParseDeclareExportDeclaration(); } else { _util.unexpected.call(void 0, ); } } function flowParseDeclareVariable() { _index.next.call(void 0, ); flowParseTypeAnnotatableIdentifier(); _util.semicolon.call(void 0, ); } function flowParseDeclareModule() { if (_index.match.call(void 0, _types.TokenType.string)) { _expression.parseExprAtom.call(void 0, ); } else { _expression.parseIdentifier.call(void 0, ); } _util.expect.call(void 0, _types.TokenType.braceL); while (!_index.match.call(void 0, _types.TokenType.braceR) && !_base.state.error) { if (_index.match.call(void 0, _types.TokenType._import)) { _index.next.call(void 0, ); _statement.parseImport.call(void 0, ); } else { _util.unexpected.call(void 0, ); } } _util.expect.call(void 0, _types.TokenType.braceR); } function flowParseDeclareExportDeclaration() { _util.expect.call(void 0, _types.TokenType._export); if (_index.eat.call(void 0, _types.TokenType._default)) { if (_index.match.call(void 0, _types.TokenType._function) || _index.match.call(void 0, _types.TokenType._class)) { // declare export default class ... // declare export default function ... flowParseDeclare(); } else { // declare export default [type]; flowParseType(); _util.semicolon.call(void 0, ); } } else if ( _index.match.call(void 0, _types.TokenType._var) || // declare export var ... _index.match.call(void 0, _types.TokenType._function) || // declare export function ... _index.match.call(void 0, _types.TokenType._class) || // declare export class ... _util.isContextual.call(void 0, _keywords.ContextualKeyword._opaque) // declare export opaque .. ) { flowParseDeclare(); } else if ( _index.match.call(void 0, _types.TokenType.star) || // declare export * from '' _index.match.call(void 0, _types.TokenType.braceL) || // declare export {} ... _util.isContextual.call(void 0, _keywords.ContextualKeyword._interface) || // declare export interface ... _util.isContextual.call(void 0, _keywords.ContextualKeyword._type) || // declare export type ... _util.isContextual.call(void 0, _keywords.ContextualKeyword._opaque) // declare export opaque type ... ) { _statement.parseExport.call(void 0, ); } else { _util.unexpected.call(void 0, ); } } function flowParseDeclareModuleExports() { _util.expectContextual.call(void 0, _keywords.ContextualKeyword._exports); flowParseTypeAnnotation(); _util.semicolon.call(void 0, ); } function flowParseDeclareTypeAlias() { _index.next.call(void 0, ); flowParseTypeAlias(); } function flowParseDeclareOpaqueType() { _index.next.call(void 0, ); flowParseOpaqueType(true); } function flowParseDeclareInterface() { _index.next.call(void 0, ); flowParseInterfaceish(); } // Interfaces function flowParseInterfaceish(isClass = false) { flowParseRestrictedIdentifier(); if (_index.match.call(void 0, _types.TokenType.lessThan)) { flowParseTypeParameterDeclaration(); } if (_index.eat.call(void 0, _types.TokenType._extends)) { do { flowParseInterfaceExtends(); } while (!isClass && _index.eat.call(void 0, _types.TokenType.comma)); } if (_util.isContextual.call(void 0, _keywords.ContextualKeyword._mixins)) { _index.next.call(void 0, ); do { flowParseInterfaceExtends(); } while (_index.eat.call(void 0, _types.TokenType.comma)); } if (_util.isContextual.call(void 0, _keywords.ContextualKeyword._implements)) { _index.next.call(void 0, ); do { flowParseInterfaceExtends(); } while (_index.eat.call(void 0, _types.TokenType.comma)); } flowParseObjectType(isClass, false, isClass); } function flowParseInterfaceExtends() { flowParseQualifiedTypeIdentifier(false); if (_index.match.call(void 0, _types.TokenType.lessThan)) { flowParseTypeParameterInstantiation(); } } function flowParseInterface() { flowParseInterfaceish(); } function flowParseRestrictedIdentifier() { _expression.parseIdentifier.call(void 0, ); } function flowParseTypeAlias() { flowParseRestrictedIdentifier(); if (_index.match.call(void 0, _types.TokenType.lessThan)) { flowParseTypeParameterDeclaration(); } flowParseTypeInitialiser(_types.TokenType.eq); _util.semicolon.call(void 0, ); } function flowParseOpaqueType(declare) { _util.expectContextual.call(void 0, _keywords.ContextualKeyword._type); flowParseRestrictedIdentifier(); if (_index.match.call(void 0, _types.TokenType.lessThan)) { flowParseTypeParameterDeclaration(); } // Parse the supertype if (_index.match.call(void 0, _types.TokenType.colon)) { flowParseTypeInitialiser(_types.TokenType.colon); } if (!declare) { flowParseTypeInitialiser(_types.TokenType.eq); } _util.semicolon.call(void 0, ); } function flowParseTypeParameter() { flowParseVariance(); flowParseTypeAnnotatableIdentifier(); if (_index.eat.call(void 0, _types.TokenType.eq)) { flowParseType(); } } function flowParseTypeParameterDeclaration() { const oldIsType = _index.pushTypeContext.call(void 0, 0); // istanbul ignore else: this condition is already checked at all call sites if (_index.match.call(void 0, _types.TokenType.lessThan) || _index.match.call(void 0, _types.TokenType.typeParameterStart)) { _index.next.call(void 0, ); } else { _util.unexpected.call(void 0, ); } do { flowParseTypeParameter(); if (!_index.match.call(void 0, _types.TokenType.greaterThan)) { _util.expect.call(void 0, _types.TokenType.comma); } } while (!_index.match.call(void 0, _types.TokenType.greaterThan) && !_base.state.error); _util.expect.call(void 0, _types.TokenType.greaterThan); _index.popTypeContext.call(void 0, oldIsType); } exports.flowParseTypeParameterDeclaration = flowParseTypeParameterDeclaration; function flowParseTypeParameterInstantiation() { const oldIsType = _index.pushTypeContext.call(void 0, 0); _util.expect.call(void 0, _types.TokenType.lessThan); while (!_index.match.call(void 0, _types.TokenType.greaterThan) && !_base.state.error) { flowParseType(); if (!_index.match.call(void 0, _types.TokenType.greaterThan)) { _util.expect.call(void 0, _types.TokenType.comma); } } _util.expect.call(void 0, _types.TokenType.greaterThan); _index.popTypeContext.call(void 0, oldIsType); } function flowParseInterfaceType() { _util.expectContextual.call(void 0, _keywords.ContextualKeyword._interface); if (_index.eat.call(void 0, _types.TokenType._extends)) { do { flowParseInterfaceExtends(); } while (_index.eat.call(void 0, _types.TokenType.comma)); } flowParseObjectType(false, false, false); } function flowParseObjectPropertyKey() { if (_index.match.call(void 0, _types.TokenType.num) || _index.match.call(void 0, _types.TokenType.string)) { _expression.parseExprAtom.call(void 0, ); } else { _expression.parseIdentifier.call(void 0, ); } } function flowParseObjectTypeIndexer() { // Note: bracketL has already been consumed if (_index.lookaheadType.call(void 0, ) === _types.TokenType.colon) { flowParseObjectPropertyKey(); flowParseTypeInitialiser(); } else { flowParseType(); } _util.expect.call(void 0, _types.TokenType.bracketR); flowParseTypeInitialiser(); } function flowParseObjectTypeInternalSlot() { // Note: both bracketL have already been consumed flowParseObjectPropertyKey(); _util.expect.call(void 0, _types.TokenType.bracketR); _util.expect.call(void 0, _types.TokenType.bracketR); if (_index.match.call(void 0, _types.TokenType.lessThan) || _index.match.call(void 0, _types.TokenType.parenL)) { flowParseObjectTypeMethodish(); } else { _index.eat.call(void 0, _types.TokenType.question); flowParseTypeInitialiser(); } } function flowParseObjectTypeMethodish() { if (_index.match.call(void 0, _types.TokenType.lessThan)) { flowParseTypeParameterDeclaration(); } _util.expect.call(void 0, _types.TokenType.parenL); while (!_index.match.call(void 0, _types.TokenType.parenR) && !_index.match.call(void 0, _types.TokenType.ellipsis) && !_base.state.error) { flowParseFunctionTypeParam(); if (!_index.match.call(void 0, _types.TokenType.parenR)) { _util.expect.call(void 0, _types.TokenType.comma); } } if (_index.eat.call(void 0, _types.TokenType.ellipsis)) { flowParseFunctionTypeParam(); } _util.expect.call(void 0, _types.TokenType.parenR); flowParseTypeInitialiser(); } function flowParseObjectTypeCallProperty() { flowParseObjectTypeMethodish(); } function flowParseObjectType(allowStatic, allowExact, allowProto) { let endDelim; if (allowExact && _index.match.call(void 0, _types.TokenType.braceBarL)) { _util.expect.call(void 0, _types.TokenType.braceBarL); endDelim = _types.TokenType.braceBarR; } else { _util.expect.call(void 0, _types.TokenType.braceL); endDelim = _types.TokenType.braceR; } while (!_index.match.call(void 0, endDelim) && !_base.state.error) { if (allowProto && _util.isContextual.call(void 0, _keywords.ContextualKeyword._proto)) { const lookahead = _index.lookaheadType.call(void 0, ); if (lookahead !== _types.TokenType.colon && lookahead !== _types.TokenType.question) { _index.next.call(void 0, ); allowStatic = false; } } if (allowStatic && _util.isContextual.call(void 0, _keywords.ContextualKeyword._static)) { const lookahead = _index.lookaheadType.call(void 0, ); if (lookahead !== _types.TokenType.colon && lookahead !== _types.TokenType.question) { _index.next.call(void 0, ); } } flowParseVariance(); if (_index.eat.call(void 0, _types.TokenType.bracketL)) { if (_index.eat.call(void 0, _types.TokenType.bracketL)) { flowParseObjectTypeInternalSlot(); } else { flowParseObjectTypeIndexer(); } } else if (_index.match.call(void 0, _types.TokenType.parenL) || _index.match.call(void 0, _types.TokenType.lessThan)) { flowParseObjectTypeCallProperty(); } else { if (_util.isContextual.call(void 0, _keywords.ContextualKeyword._get) || _util.isContextual.call(void 0, _keywords.ContextualKeyword._set)) { const lookahead = _index.lookaheadType.call(void 0, ); if (lookahead === _types.TokenType.name || lookahead === _types.TokenType.string || lookahead === _types.TokenType.num) { _index.next.call(void 0, ); } } flowParseObjectTypeProperty(); } flowObjectTypeSemicolon(); } _util.expect.call(void 0, endDelim); } function flowParseObjectTypeProperty() { if (_index.match.call(void 0, _types.TokenType.ellipsis)) { _util.expect.call(void 0, _types.TokenType.ellipsis); if (!_index.eat.call(void 0, _types.TokenType.comma)) { _index.eat.call(void 0, _types.TokenType.semi); } // Explicit inexact object syntax. if (_index.match.call(void 0, _types.TokenType.braceR)) { return; } flowParseType(); } else { flowParseObjectPropertyKey(); if (_index.match.call(void 0, _types.TokenType.lessThan) || _index.match.call(void 0, _types.TokenType.parenL)) { // This is a method property flowParseObjectTypeMethodish(); } else { _index.eat.call(void 0, _types.TokenType.question); flowParseTypeInitialiser(); } } } function flowObjectTypeSemicolon() { if (!_index.eat.call(void 0, _types.TokenType.semi) && !_index.eat.call(void 0, _types.TokenType.comma) && !_index.match.call(void 0, _types.TokenType.braceR) && !_index.match.call(void 0, _types.TokenType.braceBarR)) { _util.unexpected.call(void 0, ); } } function flowParseQualifiedTypeIdentifier(initialIdAlreadyParsed) { if (!initialIdAlreadyParsed) { _expression.parseIdentifier.call(void 0, ); } while (_index.eat.call(void 0, _types.TokenType.dot)) { _expression.parseIdentifier.call(void 0, ); } } function flowParseGenericType() { flowParseQualifiedTypeIdentifier(true); if (_index.match.call(void 0, _types.TokenType.lessThan)) { flowParseTypeParameterInstantiation(); } } function flowParseTypeofType() { _util.expect.call(void 0, _types.TokenType._typeof); flowParsePrimaryType(); } function flowParseTupleType() { _util.expect.call(void 0, _types.TokenType.bracketL); // We allow trailing commas while (_base.state.pos < _base.input.length && !_index.match.call(void 0, _types.TokenType.bracketR)) { flowParseType(); if (_index.match.call(void 0, _types.TokenType.bracketR)) { break; } _util.expect.call(void 0, _types.TokenType.comma); } _util.expect.call(void 0, _types.TokenType.bracketR); } function flowParseFunctionTypeParam() { const lookahead = _index.lookaheadType.call(void 0, ); if (lookahead === _types.TokenType.colon || lookahead === _types.TokenType.question) { _expression.parseIdentifier.call(void 0, ); _index.eat.call(void 0, _types.TokenType.question); flowParseTypeInitialiser(); } else { flowParseType(); } } function flowParseFunctionTypeParams() { while (!_index.match.call(void 0, _types.TokenType.parenR) && !_index.match.call(void 0, _types.TokenType.ellipsis) && !_base.state.error) { flowParseFunctionTypeParam(); if (!_index.match.call(void 0, _types.TokenType.parenR)) { _util.expect.call(void 0, _types.TokenType.comma); } } if (_index.eat.call(void 0, _types.TokenType.ellipsis)) { flowParseFunctionTypeParam(); } } // The parsing of types roughly parallels the parsing of expressions, and // primary types are kind of like primary expressions...they're the // primitives with which other types are constructed. function flowParsePrimaryType() { let isGroupedType = false; const oldNoAnonFunctionType = _base.state.noAnonFunctionType; switch (_base.state.type) { case _types.TokenType.name: { if (_util.isContextual.call(void 0, _keywords.ContextualKeyword._interface)) { flowParseInterfaceType(); return; } _expression.parseIdentifier.call(void 0, ); flowParseGenericType(); return; } case _types.TokenType.braceL: flowParseObjectType(false, false, false); return; case _types.TokenType.braceBarL: flowParseObjectType(false, true, false); return; case _types.TokenType.bracketL: flowParseTupleType(); return; case _types.TokenType.lessThan: flowParseTypeParameterDeclaration(); _util.expect.call(void 0, _types.TokenType.parenL); flowParseFunctionTypeParams(); _util.expect.call(void 0, _types.TokenType.parenR); _util.expect.call(void 0, _types.TokenType.arrow); flowParseType(); return; case _types.TokenType.parenL: _index.next.call(void 0, ); // Check to see if this is actually a grouped type if (!_index.match.call(void 0, _types.TokenType.parenR) && !_index.match.call(void 0, _types.TokenType.ellipsis)) { if (_index.match.call(void 0, _types.TokenType.name)) { const token = _index.lookaheadType.call(void 0, ); isGroupedType = token !== _types.TokenType.question && token !== _types.TokenType.colon; } else { isGroupedType = true; } } if (isGroupedType) { _base.state.noAnonFunctionType = false; flowParseType(); _base.state.noAnonFunctionType = oldNoAnonFunctionType; // A `,` or a `) =>` means this is an anonymous function type if ( _base.state.noAnonFunctionType || !(_index.match.call(void 0, _types.TokenType.comma) || (_index.match.call(void 0, _types.TokenType.parenR) && _index.lookaheadType.call(void 0, ) === _types.TokenType.arrow)) ) { _util.expect.call(void 0, _types.TokenType.parenR); return; } else { // Eat a comma if there is one _index.eat.call(void 0, _types.TokenType.comma); } } flowParseFunctionTypeParams(); _util.expect.call(void 0, _types.TokenType.parenR); _util.expect.call(void 0, _types.TokenType.arrow); flowParseType(); return; case _types.TokenType.minus: _index.next.call(void 0, ); _expression.parseLiteral.call(void 0, ); return; case _types.TokenType.string: case _types.TokenType.num: case _types.TokenType._true: case _types.TokenType._false: case _types.TokenType._null: case _types.TokenType._this: case _types.TokenType._void: case _types.TokenType.star: _index.next.call(void 0, ); return; default: if (_base.state.type === _types.TokenType._typeof) { flowParseTypeofType(); return; } else if (_base.state.type & _types.TokenType.IS_KEYWORD) { _index.next.call(void 0, ); _base.state.tokens[_base.state.tokens.length - 1].type = _types.TokenType.name; return; } } _util.unexpected.call(void 0, ); } function flowParsePostfixType() { flowParsePrimaryType(); while (!_util.canInsertSemicolon.call(void 0, ) && (_index.match.call(void 0, _types.TokenType.bracketL) || _index.match.call(void 0, _types.TokenType.questionDot))) { _index.eat.call(void 0, _types.TokenType.questionDot); _util.expect.call(void 0, _types.TokenType.bracketL); if (_index.eat.call(void 0, _types.TokenType.bracketR)) { // Array type } else { // Indexed access type flowParseType(); _util.expect.call(void 0, _types.TokenType.bracketR); } } } function flowParsePrefixType() { if (_index.eat.call(void 0, _types.TokenType.question)) { flowParsePrefixType(); } else { flowParsePostfixType(); } } function flowParseAnonFunctionWithoutParens() { flowParsePrefixType(); if (!_base.state.noAnonFunctionType && _index.eat.call(void 0, _types.TokenType.arrow)) { flowParseType(); } } function flowParseIntersectionType() { _index.eat.call(void 0, _types.TokenType.bitwiseAND); flowParseAnonFunctionWithoutParens(); while (_index.eat.call(void 0, _types.TokenType.bitwiseAND)) { flowParseAnonFunctionWithoutParens(); } } function flowParseUnionType() { _index.eat.call(void 0, _types.TokenType.bitwiseOR); flowParseIntersectionType(); while (_index.eat.call(void 0, _types.TokenType.bitwiseOR)) { flowParseIntersectionType(); } } function flowParseType() { flowParseUnionType(); } function flowParseTypeAnnotation() { flowParseTypeInitialiser(); } exports.flowParseTypeAnnotation = flowParseTypeAnnotation; function flowParseTypeAnnotatableIdentifier() { _expression.parseIdentifier.call(void 0, ); if (_index.match.call(void 0, _types.TokenType.colon)) { flowParseTypeAnnotation(); } } function flowParseVariance() { if (_index.match.call(void 0, _types.TokenType.plus) || _index.match.call(void 0, _types.TokenType.minus)) { _index.next.call(void 0, ); _base.state.tokens[_base.state.tokens.length - 1].isType = true; } } exports.flowParseVariance = flowParseVariance; // ================================== // Overrides // ================================== function flowParseFunctionBodyAndFinish(funcContextId) { // For arrow functions, `parseArrow` handles the return type itself. if (_index.match.call(void 0, _types.TokenType.colon)) { flowParseTypeAndPredicateInitialiser(); } _expression.parseFunctionBody.call(void 0, false, funcContextId); } exports.flowParseFunctionBodyAndFinish = flowParseFunctionBodyAndFinish; function flowParseSubscript( startTokenIndex, noCalls, stopState, ) { if (_index.match.call(void 0, _types.TokenType.questionDot) && _index.lookaheadType.call(void 0, ) === _types.TokenType.lessThan) { if (noCalls) { stopState.stop = true; return; } _index.next.call(void 0, ); flowParseTypeParameterInstantiation(); _util.expect.call(void 0, _types.TokenType.parenL); _expression.parseCallExpressionArguments.call(void 0, ); return; } else if (!noCalls && _index.match.call(void 0, _types.TokenType.lessThan)) { const snapshot = _base.state.snapshot(); flowParseTypeParameterInstantiation(); _util.expect.call(void 0, _types.TokenType.parenL); _expression.parseCallExpressionArguments.call(void 0, ); if (_base.state.error) { _base.state.restoreFromSnapshot(snapshot); } else { return; } } _expression.baseParseSubscript.call(void 0, startTokenIndex, noCalls, stopState); } exports.flowParseSubscript = flowParseSubscript; function flowStartParseNewArguments() { if (_index.match.call(void 0, _types.TokenType.lessThan)) { const snapshot = _base.state.snapshot(); flowParseTypeParameterInstantiation(); if (_base.state.error) { _base.state.restoreFromSnapshot(snapshot); } } } exports.flowStartParseNewArguments = flowStartParseNewArguments; // interfaces function flowTryParseStatement() { if (_index.match.call(void 0, _types.TokenType.name) && _base.state.contextualKeyword === _keywords.ContextualKeyword._interface) { const oldIsType = _index.pushTypeContext.call(void 0, 0); _index.next.call(void 0, ); flowParseInterface(); _index.popTypeContext.call(void 0, oldIsType); return true; } else { return false; } } exports.flowTryParseStatement = flowTryParseStatement; // declares, interfaces and type aliases function flowParseIdentifierStatement(contextualKeyword) { if (contextualKeyword === _keywords.ContextualKeyword._declare) { if ( _index.match.call(void 0, _types.TokenType._class) || _index.match.call(void 0, _types.TokenType.name) || _index.match.call(void 0, _types.TokenType._function) || _index.match.call(void 0, _types.TokenType._var) || _index.match.call(void 0, _types.TokenType._export) ) { const oldIsType = _index.pushTypeContext.call(void 0, 1); flowParseDeclare(); _index.popTypeContext.call(void 0, oldIsType); } } else if (_index.match.call(void 0, _types.TokenType.name)) { if (contextualKeyword === _keywords.ContextualKeyword._interface) { const oldIsType = _index.pushTypeContext.call(void 0, 1); flowParseInterface(); _index.popTypeContext.call(void 0, oldIsType); } else if (contextualKeyword === _keywords.ContextualKeyword._type) { const oldIsType = _index.pushTypeContext.call(void 0, 1); flowParseTypeAlias(); _index.popTypeContext.call(void 0, oldIsType); } else if (contextualKeyword === _keywords.ContextualKeyword._opaque) { const oldIsType = _index.pushTypeContext.call(void 0, 1); flowParseOpaqueType(false); _index.popTypeContext.call(void 0, oldIsType); } } _util.semicolon.call(void 0, ); } exports.flowParseIdentifierStatement = flowParseIdentifierStatement; // export type function flowShouldParseExportDeclaration() { return ( _util.isContextual.call(void 0, _keywords.ContextualKeyword._type) || _util.isContextual.call(void 0, _keywords.ContextualKeyword._interface) || _util.isContextual.call(void 0, _keywords.ContextualKeyword._opaque) ); } exports.flowShouldParseExportDeclaration = flowShouldParseExportDeclaration; function flowShouldDisallowExportDefaultSpecifier() { return ( _index.match.call(void 0, _types.TokenType.name) && (_base.state.contextualKeyword === _keywords.ContextualKeyword._type || _base.state.contextualKeyword === _keywords.ContextualKeyword._interface || _base.state.contextualKeyword === _keywords.ContextualKeyword._opaque) ); } exports.flowShouldDisallowExportDefaultSpecifier = flowShouldDisallowExportDefaultSpecifier; function flowParseExportDeclaration() { if (_util.isContextual.call(void 0, _keywords.ContextualKeyword._type)) { const oldIsType = _index.pushTypeContext.call(void 0, 1); _index.next.call(void 0, ); if (_index.match.call(void 0, _types.TokenType.braceL)) { // export type { foo, bar }; _statement.parseExportSpecifiers.call(void 0, ); _statement.parseExportFrom.call(void 0, ); } else { // export type Foo = Bar; flowParseTypeAlias(); } _index.popTypeContext.call(void 0, oldIsType); } else if (_util.isContextual.call(void 0, _keywords.ContextualKeyword._opaque)) { const oldIsType = _index.pushTypeContext.call(void 0, 1); _index.next.call(void 0, ); // export opaque type Foo = Bar; flowParseOpaqueType(false); _index.popTypeContext.call(void 0, oldIsType); } else if (_util.isContextual.call(void 0, _keywords.ContextualKeyword._interface)) { const oldIsType = _index.pushTypeContext.call(void 0, 1); _index.next.call(void 0, ); flowParseInterface(); _index.popTypeContext.call(void 0, oldIsType); } else { _statement.parseStatement.call(void 0, true); } } exports.flowParseExportDeclaration = flowParseExportDeclaration; function flowShouldParseExportStar() { return _index.match.call(void 0, _types.TokenType.star) || (_util.isContextual.call(void 0, _keywords.ContextualKeyword._type) && _index.lookaheadType.call(void 0, ) === _types.TokenType.star); } exports.flowShouldParseExportStar = flowShouldParseExportStar; function flowParseExportStar() { if (_util.eatContextual.call(void 0, _keywords.ContextualKeyword._type)) { const oldIsType = _index.pushTypeContext.call(void 0, 2); _statement.baseParseExportStar.call(void 0, ); _index.popTypeContext.call(void 0, oldIsType); } else { _statement.baseParseExportStar.call(void 0, ); } } exports.flowParseExportStar = flowParseExportStar; // parse a the super class type parameters and implements function flowAfterParseClassSuper(hasSuper) { if (hasSuper && _index.match.call(void 0, _types.TokenType.lessThan)) { flowParseTypeParameterInstantiation(); } if (_util.isContextual.call(void 0, _keywords.ContextualKeyword._implements)) { const oldIsType = _index.pushTypeContext.call(void 0, 0); _index.next.call(void 0, ); _base.state.tokens[_base.state.tokens.length - 1].type = _types.TokenType._implements; do { flowParseRestrictedIdentifier(); if (_index.match.call(void 0, _types.TokenType.lessThan)) { flowParseTypeParameterInstantiation(); } } while (_index.eat.call(void 0, _types.TokenType.comma)); _index.popTypeContext.call(void 0, oldIsType); } } exports.flowAfterParseClassSuper = flowAfterParseClassSuper; // parse type parameters for object method shorthand function flowStartParseObjPropValue() { // method shorthand if (_index.match.call(void 0, _types.TokenType.lessThan)) { flowParseTypeParameterDeclaration(); if (!_index.match.call(void 0, _types.TokenType.parenL)) _util.unexpected.call(void 0, ); } } exports.flowStartParseObjPropValue = flowStartParseObjPropValue; function flowParseAssignableListItemTypes() { const oldIsType = _index.pushTypeContext.call(void 0, 0); _index.eat.call(void 0, _types.TokenType.question); if (_index.match.call(void 0, _types.TokenType.colon)) { flowParseTypeAnnotation(); } _index.popTypeContext.call(void 0, oldIsType); } exports.flowParseAssignableListItemTypes = flowParseAssignableListItemTypes; // parse typeof and type imports function flowStartParseImportSpecifiers() { if (_index.match.call(void 0, _types.TokenType._typeof) || _util.isContextual.call(void 0, _keywords.ContextualKeyword._type)) { const lh = _index.lookaheadTypeAndKeyword.call(void 0, ); if (isMaybeDefaultImport(lh) || lh.type === _types.TokenType.braceL || lh.type === _types.TokenType.star) { _index.next.call(void 0, ); } } } exports.flowStartParseImportSpecifiers = flowStartParseImportSpecifiers; // parse import-type/typeof shorthand function flowParseImportSpecifier() { const isTypeKeyword = _base.state.contextualKeyword === _keywords.ContextualKeyword._type || _base.state.type === _types.TokenType._typeof; if (isTypeKeyword) { _index.next.call(void 0, ); } else { _expression.parseIdentifier.call(void 0, ); } if (_util.isContextual.call(void 0, _keywords.ContextualKeyword._as) && !_util.isLookaheadContextual.call(void 0, _keywords.ContextualKeyword._as)) { _expression.parseIdentifier.call(void 0, ); if (isTypeKeyword && !_index.match.call(void 0, _types.TokenType.name) && !(_base.state.type & _types.TokenType.IS_KEYWORD)) { // `import {type as ,` or `import {type as }` } else { // `import {type as foo` _expression.parseIdentifier.call(void 0, ); } } else if (isTypeKeyword && (_index.match.call(void 0, _types.TokenType.name) || !!(_base.state.type & _types.TokenType.IS_KEYWORD))) { // `import {type foo` _expression.parseIdentifier.call(void 0, ); if (_util.eatContextual.call(void 0, _keywords.ContextualKeyword._as)) { _expression.parseIdentifier.call(void 0, ); } } } exports.flowParseImportSpecifier = flowParseImportSpecifier; // parse function type parameters - function foo() {} function flowStartParseFunctionParams() { // Originally this checked if the method is a getter/setter, but if it was, we'd crash soon // anyway, so don't try to propagate that information. if (_index.match.call(void 0, _types.TokenType.lessThan)) { const oldIsType = _index.pushTypeContext.call(void 0, 0); flowParseTypeParameterDeclaration(); _index.popTypeContext.call(void 0, oldIsType); } } exports.flowStartParseFunctionParams = flowStartParseFunctionParams; // parse flow type annotations on variable declarator heads - let foo: string = bar function flowAfterParseVarHead() { if (_index.match.call(void 0, _types.TokenType.colon)) { flowParseTypeAnnotation(); } } exports.flowAfterParseVarHead = flowAfterParseVarHead; // parse the return type of an async arrow function - let foo = (async (): number => {}); function flowStartParseAsyncArrowFromCallExpression() { if (_index.match.call(void 0, _types.TokenType.colon)) { const oldNoAnonFunctionType = _base.state.noAnonFunctionType; _base.state.noAnonFunctionType = true; flowParseTypeAnnotation(); _base.state.noAnonFunctionType = oldNoAnonFunctionType; } } exports.flowStartParseAsyncArrowFromCallExpression = flowStartParseAsyncArrowFromCallExpression; // We need to support type parameter declarations for arrow functions. This // is tricky. There are three situations we need to handle // // 1. This is either JSX or an arrow function. We'll try JSX first. If that // fails, we'll try an arrow function. If that fails, we'll throw the JSX // error. // 2. This is an arrow function. We'll parse the type parameter declaration, // parse the rest, make sure the rest is an arrow function, and go from // there // 3. This is neither. Just call the super method function flowParseMaybeAssign(noIn, isWithinParens) { if (_index.match.call(void 0, _types.TokenType.lessThan)) { const snapshot = _base.state.snapshot(); let wasArrow = _expression.baseParseMaybeAssign.call(void 0, noIn, isWithinParens); if (_base.state.error) { _base.state.restoreFromSnapshot(snapshot); _base.state.type = _types.TokenType.typeParameterStart; } else { return wasArrow; } const oldIsType = _index.pushTypeContext.call(void 0, 0); flowParseTypeParameterDeclaration(); _index.popTypeContext.call(void 0, oldIsType); wasArrow = _expression.baseParseMaybeAssign.call(void 0, noIn, isWithinParens); if (wasArrow) { return true; } _util.unexpected.call(void 0, ); } return _expression.baseParseMaybeAssign.call(void 0, noIn, isWithinParens); } exports.flowParseMaybeAssign = flowParseMaybeAssign; // handle return types for arrow functions function flowParseArrow() { if (_index.match.call(void 0, _types.TokenType.colon)) { const oldIsType = _index.pushTypeContext.call(void 0, 0); const snapshot = _base.state.snapshot(); const oldNoAnonFunctionType = _base.state.noAnonFunctionType; _base.state.noAnonFunctionType = true; flowParseTypeAndPredicateInitialiser(); _base.state.noAnonFunctionType = oldNoAnonFunctionType; if (_util.canInsertSemicolon.call(void 0, )) _util.unexpected.call(void 0, ); if (!_index.match.call(void 0, _types.TokenType.arrow)) _util.unexpected.call(void 0, ); if (_base.state.error) { _base.state.restoreFromSnapshot(snapshot); } _index.popTypeContext.call(void 0, oldIsType); } return _index.eat.call(void 0, _types.TokenType.arrow); } exports.flowParseArrow = flowParseArrow; function flowParseSubscripts(startTokenIndex, noCalls = false) { if ( _base.state.tokens[_base.state.tokens.length - 1].contextualKeyword === _keywords.ContextualKeyword._async && _index.match.call(void 0, _types.TokenType.lessThan) ) { const snapshot = _base.state.snapshot(); const wasArrow = parseAsyncArrowWithTypeParameters(); if (wasArrow && !_base.state.error) { return; } _base.state.restoreFromSnapshot(snapshot); } _expression.baseParseSubscripts.call(void 0, startTokenIndex, noCalls); } exports.flowParseSubscripts = flowParseSubscripts; // Returns true if there was an arrow function here. function parseAsyncArrowWithTypeParameters() { _base.state.scopeDepth++; const startTokenIndex = _base.state.tokens.length; _statement.parseFunctionParams.call(void 0, ); if (!_expression.parseArrow.call(void 0, )) { return false; } _expression.parseArrowExpression.call(void 0, startTokenIndex); return true; }