// @flow import { types as tt, TokenType } from "../tokenizer/types"; import type Parser from "../parser"; import * as N from "../types"; import type { Pos, Position } from "../util/location"; import { type BindingTypes, BIND_NONE } from "../util/scopeflags"; function isSimpleProperty(node: N.Node): boolean { return ( node != null && node.type === "Property" && node.kind === "init" && node.method === false ); } export default (superClass: Class): Class => class extends superClass { estreeParseRegExpLiteral({ pattern, flags }: N.RegExpLiteral): N.Node { let regex = null; try { regex = new RegExp(pattern, flags); } catch (e) { // In environments that don't support these flags value will // be null as the regex can't be represented natively. } const node = this.estreeParseLiteral(regex); node.regex = { pattern, flags }; return node; } estreeParseLiteral(value: any): N.Node { return this.parseLiteral(value, "Literal"); } directiveToStmt(directive: N.Directive): N.ExpressionStatement { const directiveLiteral = directive.value; const stmt = this.startNodeAt(directive.start, directive.loc.start); const expression = this.startNodeAt( directiveLiteral.start, directiveLiteral.loc.start, ); expression.value = directiveLiteral.value; expression.raw = directiveLiteral.extra.raw; stmt.expression = this.finishNodeAt( expression, "Literal", directiveLiteral.end, directiveLiteral.loc.end, ); stmt.directive = directiveLiteral.extra.raw.slice(1, -1); return this.finishNodeAt( stmt, "ExpressionStatement", directive.end, directive.loc.end, ); } // ================================== // Overrides // ================================== initFunction( node: N.BodilessFunctionOrMethodBase, isAsync: ?boolean, ): void { super.initFunction(node, isAsync); node.expression = false; } checkDeclaration(node: N.Pattern | N.ObjectProperty): void { if (isSimpleProperty(node)) { this.checkDeclaration(((node: any): N.EstreeProperty).value); } else { super.checkDeclaration(node); } } checkGetterSetterParams(method: N.ObjectMethod | N.ClassMethod): void { const prop = ((method: any): N.EstreeProperty | N.EstreeMethodDefinition); const paramCount = prop.kind === "get" ? 0 : 1; const start = prop.start; if (prop.value.params.length !== paramCount) { if (prop.kind === "get") { this.raise(start, "getter must not have any formal parameters"); } else { this.raise(start, "setter must have exactly one formal parameter"); } } if (prop.kind === "set" && prop.value.params[0].type === "RestElement") { this.raise( start, "setter function argument must not be a rest parameter", ); } } checkLVal( expr: N.Expression, bindingType: ?BindingTypes = BIND_NONE, checkClashes: ?{ [key: string]: boolean }, contextDescription: string, ): void { switch (expr.type) { case "ObjectPattern": expr.properties.forEach(prop => { this.checkLVal( prop.type === "Property" ? prop.value : prop, bindingType, checkClashes, "object destructuring pattern", ); }); break; default: super.checkLVal(expr, bindingType, checkClashes, contextDescription); } } checkPropClash( prop: N.ObjectMember | N.SpreadElement, propHash: { [key: string]: boolean }, ): void { if ( prop.type === "SpreadElement" || prop.computed || prop.method || // $FlowIgnore prop.shorthand ) { return; } const key = prop.key; // It is either an Identifier or a String/NumericLiteral const name = key.type === "Identifier" ? key.name : String(key.value); if (name === "__proto__" && prop.kind === "init") { if (propHash.proto) { this.raise(key.start, "Redefinition of __proto__ property"); } propHash.proto = true; } } isStrictBody(node: { body: N.BlockStatement }): boolean { const isBlockStatement = node.body.type === "BlockStatement"; if (isBlockStatement && node.body.body.length > 0) { for (const directive of node.body.body) { if ( directive.type === "ExpressionStatement" && directive.expression.type === "Literal" ) { if (directive.expression.value === "use strict") return true; } else { // Break for the first non literal expression break; } } } return false; } isValidDirective(stmt: N.Statement): boolean { return ( stmt.type === "ExpressionStatement" && stmt.expression.type === "Literal" && typeof stmt.expression.value === "string" && (!stmt.expression.extra || !stmt.expression.extra.parenthesized) ); } stmtToDirective(stmt: N.Statement): N.Directive { const directive = super.stmtToDirective(stmt); const value = stmt.expression.value; // Reset value to the actual value as in estree mode we want // the stmt to have the real value and not the raw value directive.value.value = value; return directive; } parseBlockBody( node: N.BlockStatementLike, allowDirectives: ?boolean, topLevel: boolean, end: TokenType, ): void { super.parseBlockBody(node, allowDirectives, topLevel, end); const directiveStatements = node.directives.map(d => this.directiveToStmt(d), ); node.body = directiveStatements.concat(node.body); delete node.directives; } pushClassMethod( classBody: N.ClassBody, method: N.ClassMethod, isGenerator: boolean, isAsync: boolean, isConstructor: boolean, allowsDirectSuper: boolean, ): void { this.parseMethod( method, isGenerator, isAsync, isConstructor, allowsDirectSuper, "MethodDefinition", true, ); if (method.typeParameters) { // $FlowIgnore method.value.typeParameters = method.typeParameters; delete method.typeParameters; } classBody.body.push(method); } parseExprAtom(refShorthandDefaultPos?: ?Pos): N.Expression { switch (this.state.type) { case tt.regexp: return this.estreeParseRegExpLiteral(this.state.value); case tt.num: case tt.string: return this.estreeParseLiteral(this.state.value); case tt._null: return this.estreeParseLiteral(null); case tt._true: return this.estreeParseLiteral(true); case tt._false: return this.estreeParseLiteral(false); default: return super.parseExprAtom(refShorthandDefaultPos); } } parseLiteral( value: any, type: /*T["kind"]*/ string, startPos?: number, startLoc?: Position, ): T { const node = super.parseLiteral(value, type, startPos, startLoc); node.raw = node.extra.raw; delete node.extra; return node; } parseFunctionBody( node: N.Function, allowExpression: ?boolean, isMethod?: boolean = false, ): void { super.parseFunctionBody(node, allowExpression, isMethod); node.expression = node.body.type !== "BlockStatement"; } parseMethod( node: T, isGenerator: boolean, isAsync: boolean, isConstructor: boolean, allowDirectSuper: boolean, type: string, inClassScope: boolean = false, ): T { let funcNode = this.startNode(); funcNode.kind = node.kind; // provide kind, so super method correctly sets state funcNode = super.parseMethod( funcNode, isGenerator, isAsync, isConstructor, allowDirectSuper, "FunctionExpression", inClassScope, ); delete funcNode.kind; // $FlowIgnore node.value = funcNode; return this.finishNode(node, type); } parseObjectMethod( prop: N.ObjectMethod, isGenerator: boolean, isAsync: boolean, isPattern: boolean, containsEsc: boolean, ): ?N.ObjectMethod { const node: N.EstreeProperty = (super.parseObjectMethod( prop, isGenerator, isAsync, isPattern, containsEsc, ): any); if (node) { node.type = "Property"; if (((node: any): N.ClassMethod).kind === "method") node.kind = "init"; node.shorthand = false; } return (node: any); } parseObjectProperty( prop: N.ObjectProperty, startPos: ?number, startLoc: ?Position, isPattern: boolean, refShorthandDefaultPos: ?Pos, ): ?N.ObjectProperty { const node: N.EstreeProperty = (super.parseObjectProperty( prop, startPos, startLoc, isPattern, refShorthandDefaultPos, ): any); if (node) { node.kind = "init"; node.type = "Property"; } return (node: any); } toAssignable( node: N.Node, isBinding: ?boolean, contextDescription: string, ): N.Node { if (isSimpleProperty(node)) { this.toAssignable(node.value, isBinding, contextDescription); return node; } return super.toAssignable(node, isBinding, contextDescription); } toAssignableObjectExpressionProp( prop: N.Node, isBinding: ?boolean, isLast: boolean, ) { if (prop.kind === "get" || prop.kind === "set") { this.raise( prop.key.start, "Object pattern can't contain getter or setter", ); } else if (prop.method) { this.raise(prop.key.start, "Object pattern can't contain methods"); } else { super.toAssignableObjectExpressionProp(prop, isBinding, isLast); } } };