// |reftest| async // This file was procedurally generated from the following sources: // - src/class-elements/prod-private-async-generator.case // - src/class-elements/private-methods/cls-decl.template /*--- description: Private Async Generator (private method definitions in a class declaration) esid: prod-MethodDefinition features: [async-iteration, class, class-methods-private] flags: [generated, async] info: | ClassElement : MethodDefinition ... ; ClassElementName : PropertyName PrivateName PrivateName :: # IdentifierName MethodDefinition : ClassElementName ( UniqueFormalParameters ) { FunctionBody } GeneratorMethod AsyncMethod AsyncGeneratorMethod get ClassElementName () { FunctionBody } set ClassElementName ( PropertySetParameterList ) { FunctionBody } GeneratorMethod : * ClassElementName ( UniqueFormalParameters ){GeneratorBody} AsyncMethod : async [no LineTerminator here] ClassElementName ( UniqueFormalParameters ) { AsyncFunctionBody } AsyncGeneratorMethod : async [no LineTerminator here]* ClassElementName ( UniqueFormalParameters ) { AsyncGeneratorBody } --- InitializeClassElements ( F, proto ) ... 5. For each item element in order from elements, a. Assert: If element.[[Placement]] is "prototype" or "static", then element.[[Key]] is not a Private Name. b. If element.[[Kind]] is "method" and element.[[Placement]] is "static" or "prototype", i. Let receiver be F if element.[[Placement]] is "static", else let receiver be proto. ii. Perform ? DefineClassElement(receiver, element). InitializeInstanceElements ( O, constructor ) ... 3. Let elements be the value of F's [[Elements]] internal slot. 4. For each item element in order from elements, a. If element.[[Placement]] is "own" and element.[[Kind]] is "method", i. Perform ? DefineClassElement(O, element). DefineClassElement (receiver, element) ... 6. If key is a Private Name, a. Perform ? PrivateFieldDefine(receiver, key, descriptor). PrivateFieldDefine (P, O, desc) ... 6. Append { [[PrivateName]]: P, [[PrivateFieldDescriptor]]: desc } to O.[[PrivateFieldDescriptors]]. ---*/ var ctorPromise; /*** template notes * method should always be #m * the template provides c.ref() for external reference */ function hasProp(obj, name, expected, msg) { var hasOwnProperty = Object.prototype.hasOwnProperty.call(obj, name); assert.sameValue(hasOwnProperty, expected, msg); var hasProperty = Reflect.has(obj, name); assert.sameValue(hasProperty, expected, msg); } class C { async * #m() { return 42; } get ref() { return this.#m; } constructor() { hasProp(this, '#m', false, 'private methods are defined in an special internal slot and cannot be found as own properties'); assert.sameValue(typeof this.#m, 'function'); assert.sameValue(this.ref, this.#m, 'returns the same value'); assert.sameValue(this.#m, (() => this)().#m, 'memberexpression and call expression forms'); var ctorIter = this.#m(); var p = ctorIter.next(); ctorPromise = p.then(({ value, done }) => { assert.sameValue(value, 42, 'return from generator method, inside ctor'); assert.sameValue(done, true, 'iterator is done, inside ctor'); }, $DONE); assert.sameValue(this.#m.name, '#m', 'function name inside constructor'); } } var c = new C(); var other = new C(); hasProp(C.prototype, '#m', false, 'method is not defined in the prototype'); hasProp(C, '#m', false, 'method is not defined in the contructor'); hasProp(c, '#m', false, 'method cannot be seen outside of the class'); /*** * MethodDefinition : ClassElementName ( UniqueFormalParameters ) { FunctionBody } * * 1. Let methodDef be DefineMethod of MethodDefinition with argument homeObject. * ... */ assert.sameValue(c.ref, other.ref, 'The method is defined once, and reused on every new instance'); assert.sameValue(c.ref.name, '#m', 'function name is preserved external reference'); ctorPromise.then(() => { // gets the returned async iterator from #m var iter = c.ref(); return iter.next().then(({ value, done }) => { assert.sameValue(value, 42, 'return from generator method'); assert.sameValue(done, true, 'iterator is done'); }); }).then($DONE, $DONE);