js/src/tests/test262/language/statements/class/async-gen-method-static

mozilla-central/js/src/tests/test262/language/statements/class/async-gen-method-static

Name	Description	Size
array-destructuring-param-strict-body.js		5630
await-as-binding-identifier-escaped.js	--- description: await is a reserved keyword within generator function bodies and may not be used as a binding identifier. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } BindingIdentifier : Identifier It is a Syntax Error if this production has a [Await] parameter and StringValue of Identifier is "await". ---	1064
await-as-binding-identifier.js	--- description: await is a reserved keyword within generator function bodies and may not be used as a binding identifier. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } BindingIdentifier : Identifier It is a Syntax Error if this production has a [Await] parameter and StringValue of Identifier is "await". ---	1051
await-as-identifier-reference-escaped.js	--- description: await is a reserved keyword within generator function bodies and may not be used as an identifier reference. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } IdentifierReference : Identifier It is a Syntax Error if this production has a [Await] parameter and StringValue of Identifier is "await". ---	1072
await-as-identifier-reference.js	--- description: await is a reserved keyword within generator function bodies and may not be used as an identifier reference. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } IdentifierReference : Identifier It is a Syntax Error if this production has a [Await] parameter and StringValue of Identifier is "await". ---	1059
await-as-label-identifier-escaped.js	--- description: await is a reserved keyword within generator function bodies and may not be used as a label identifier. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } LabelIdentifier : Identifier It is a Syntax Error if this production has a [Await] parameter and StringValue of Identifier is "await". ---	1056
await-as-label-identifier.js	--- description: await is a reserved keyword within generator function bodies and may not be used as a label identifier. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } LabelIdentifier : Identifier It is a Syntax Error if this production has a [Await] parameter and StringValue of Identifier is "await". ---	1043
browser.js		0
dflt-params-abrupt.js	--- description: Abrupt completion returned by evaluation of initializer (static class expression generator method) esid: sec-runtime-semantics-bindingclassdeclarationevaluation features: [default-parameters, async-iteration] flags: [generated] info: \| ClassDeclaration : class BindingIdentifier ClassTail 1. Let className be StringValue of BindingIdentifier. 2. Let value be the result of ClassDefinitionEvaluation of ClassTail with argument className. [...] 14.5.14 Runtime Semantics: ClassDefinitionEvaluation 21. For each ClassElement m in order from methods a. If IsStatic of m is false, then b. Else, Let status be the result of performing PropertyDefinitionEvaluation for m with arguments F and false. [...] Runtime Semantics: PropertyDefinitionEvaluation AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this AsyncGeneratorMethod is strict mode code, let strict be true. Otherwise let strict be false. 4. Let scope be the running execution context's LexicalEnvironment. 5. Let closure be ! AsyncGeneratorFunctionCreate(Method, UniqueFormalParameters, AsyncGeneratorBody, scope, strict). [...] 14.1.19 Runtime Semantics: IteratorBindingInitialization FormalsList : FormalsList , FormalParameter 1. Let status be the result of performing IteratorBindingInitialization for FormalsList using iteratorRecord and environment as the arguments. 2. ReturnIfAbrupt(status). 3. Return the result of performing IteratorBindingInitialization for FormalParameter using iteratorRecord and environment as the arguments. ---	2365
dflt-params-arg-val-not-undefined.js	--- description: Use of initializer when argument value is not `undefined` (static class declaration async generator method) esid: sec-runtime-semantics-bindingclassdeclarationevaluation features: [default-parameters, async-iteration] flags: [generated, async] info: \| ClassDeclaration : class BindingIdentifier ClassTail 1. Let className be StringValue of BindingIdentifier. 2. Let value be the result of ClassDefinitionEvaluation of ClassTail with argument className. [...] 14.5.14 Runtime Semantics: ClassDefinitionEvaluation 21. For each ClassElement m in order from methods a. If IsStatic of m is false, then b. Else, Let status be the result of performing PropertyDefinitionEvaluation for m with arguments F and false. [...] Runtime Semantics: PropertyDefinitionEvaluation AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this AsyncGeneratorMethod is strict mode code, let strict be true. Otherwise let strict be false. 4. Let scope be the running execution context's LexicalEnvironment. 5. Let closure be ! AsyncGeneratorFunctionCreate(Method, UniqueFormalParameters, AsyncGeneratorBody, scope, strict). [...] 14.1.19 Runtime Semantics: IteratorBindingInitialization FormalsList : FormalsList , FormalParameter [...] 23. Let iteratorRecord be Record {[[Iterator]]: CreateListIterator(argumentsList), [[Done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, a. Perform ? IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] ---	3289
dflt-params-arg-val-undefined.js	--- description: Use of initializer when argument value is `undefined` (static class declaration async generator method) esid: sec-runtime-semantics-bindingclassdeclarationevaluation features: [default-parameters, async-iteration] flags: [generated, async] info: \| ClassDeclaration : class BindingIdentifier ClassTail 1. Let className be StringValue of BindingIdentifier. 2. Let value be the result of ClassDefinitionEvaluation of ClassTail with argument className. [...] 14.5.14 Runtime Semantics: ClassDefinitionEvaluation 21. For each ClassElement m in order from methods a. If IsStatic of m is false, then b. Else, Let status be the result of performing PropertyDefinitionEvaluation for m with arguments F and false. [...] Runtime Semantics: PropertyDefinitionEvaluation AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this AsyncGeneratorMethod is strict mode code, let strict be true. Otherwise let strict be false. 4. Let scope be the running execution context's LexicalEnvironment. 5. Let closure be ! AsyncGeneratorFunctionCreate(Method, UniqueFormalParameters, AsyncGeneratorBody, scope, strict). [...] 14.1.19 Runtime Semantics: IteratorBindingInitialization FormalsList : FormalsList , FormalParameter [...] 23. Let iteratorRecord be Record {[[Iterator]]: CreateListIterator(argumentsList), [[Done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, a. Perform ? IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] ---	2552
dflt-params-duplicates.js	--- description: It is a Syntax Error if BoundNames of FormalParameters contains any duplicate elements. (static class expression generator method) esid: sec-runtime-semantics-bindingclassdeclarationevaluation features: [default-parameters, async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassDeclaration : class BindingIdentifier ClassTail 1. Let className be StringValue of BindingIdentifier. 2. Let value be the result of ClassDefinitionEvaluation of ClassTail with argument className. [...] 14.5.14 Runtime Semantics: ClassDefinitionEvaluation 21. For each ClassElement m in order from methods a. If IsStatic of m is false, then b. Else, Let status be the result of performing PropertyDefinitionEvaluation for m with arguments F and false. [...] Runtime Semantics: PropertyDefinitionEvaluation AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this AsyncGeneratorMethod is strict mode code, let strict be true. Otherwise let strict be false. 4. Let scope be the running execution context's LexicalEnvironment. 5. Let closure be ! AsyncGeneratorFunctionCreate(Method, UniqueFormalParameters, AsyncGeneratorBody, scope, strict). [...] 14.1.2 Static Semantics: Early Errors StrictFormalParameters : FormalParameters - It is a Syntax Error if BoundNames of FormalParameters contains any duplicate elements. FormalParameters : FormalParameterList - It is a Syntax Error if IsSimpleParameterList of FormalParameterList is false and BoundNames of FormalParameterList contains any duplicate elements. ---	2217
dflt-params-ref-later.js	--- description: Referencing a parameter that occurs later in the ParameterList (static class expression generator method) esid: sec-runtime-semantics-bindingclassdeclarationevaluation features: [default-parameters, async-iteration] flags: [generated] info: \| ClassDeclaration : class BindingIdentifier ClassTail 1. Let className be StringValue of BindingIdentifier. 2. Let value be the result of ClassDefinitionEvaluation of ClassTail with argument className. [...] 14.5.14 Runtime Semantics: ClassDefinitionEvaluation 21. For each ClassElement m in order from methods a. If IsStatic of m is false, then b. Else, Let status be the result of performing PropertyDefinitionEvaluation for m with arguments F and false. [...] Runtime Semantics: PropertyDefinitionEvaluation AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this AsyncGeneratorMethod is strict mode code, let strict be true. Otherwise let strict be false. 4. Let scope be the running execution context's LexicalEnvironment. 5. Let closure be ! AsyncGeneratorFunctionCreate(Method, UniqueFormalParameters, AsyncGeneratorBody, scope, strict). [...] 14.1.19 Runtime Semantics: IteratorBindingInitialization FormalsList : FormalsList , FormalParameter 1. Let status be the result of performing IteratorBindingInitialization for FormalsList using iteratorRecord and environment as the arguments. 2. ReturnIfAbrupt(status). 3. Return the result of performing IteratorBindingInitialization for FormalParameter using iteratorRecord and environment as the arguments. ---	2348
dflt-params-ref-prior.js	--- description: Referencing a parameter that occurs earlier in the ParameterList (static class declaration async generator method) esid: sec-runtime-semantics-bindingclassdeclarationevaluation features: [default-parameters, async-iteration] flags: [generated, async] info: \| ClassDeclaration : class BindingIdentifier ClassTail 1. Let className be StringValue of BindingIdentifier. 2. Let value be the result of ClassDefinitionEvaluation of ClassTail with argument className. [...] 14.5.14 Runtime Semantics: ClassDefinitionEvaluation 21. For each ClassElement m in order from methods a. If IsStatic of m is false, then b. Else, Let status be the result of performing PropertyDefinitionEvaluation for m with arguments F and false. [...] Runtime Semantics: PropertyDefinitionEvaluation AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this AsyncGeneratorMethod is strict mode code, let strict be true. Otherwise let strict be false. 4. Let scope be the running execution context's LexicalEnvironment. 5. Let closure be ! AsyncGeneratorFunctionCreate(Method, UniqueFormalParameters, AsyncGeneratorBody, scope, strict). [...] 14.1.19 Runtime Semantics: IteratorBindingInitialization FormalsList : FormalsList , FormalParameter 1. Let status be the result of performing IteratorBindingInitialization for FormalsList using iteratorRecord and environment as the arguments. 2. ReturnIfAbrupt(status). 3. Return the result of performing IteratorBindingInitialization for FormalParameter using iteratorRecord and environment as the arguments. ---	2585
dflt-params-ref-self.js	--- description: Referencing a parameter from within its own initializer (static class expression generator method) esid: sec-runtime-semantics-bindingclassdeclarationevaluation features: [default-parameters, async-iteration] flags: [generated] info: \| ClassDeclaration : class BindingIdentifier ClassTail 1. Let className be StringValue of BindingIdentifier. 2. Let value be the result of ClassDefinitionEvaluation of ClassTail with argument className. [...] 14.5.14 Runtime Semantics: ClassDefinitionEvaluation 21. For each ClassElement m in order from methods a. If IsStatic of m is false, then b. Else, Let status be the result of performing PropertyDefinitionEvaluation for m with arguments F and false. [...] Runtime Semantics: PropertyDefinitionEvaluation AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this AsyncGeneratorMethod is strict mode code, let strict be true. Otherwise let strict be false. 4. Let scope be the running execution context's LexicalEnvironment. 5. Let closure be ! AsyncGeneratorFunctionCreate(Method, UniqueFormalParameters, AsyncGeneratorBody, scope, strict). [...] 14.1.19 Runtime Semantics: IteratorBindingInitialization FormalsList : FormalsList , FormalParameter 1. Let status be the result of performing IteratorBindingInitialization for FormalsList using iteratorRecord and environment as the arguments. 2. ReturnIfAbrupt(status). 3. Return the result of performing IteratorBindingInitialization for FormalParameter using iteratorRecord and environment as the arguments. ---	2337
dflt-params-rest.js	--- description: RestParameter does not support an initializer (static class expression generator method) esid: sec-runtime-semantics-bindingclassdeclarationevaluation features: [default-parameters, async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassDeclaration : class BindingIdentifier ClassTail 1. Let className be StringValue of BindingIdentifier. 2. Let value be the result of ClassDefinitionEvaluation of ClassTail with argument className. [...] 14.5.14 Runtime Semantics: ClassDefinitionEvaluation 21. For each ClassElement m in order from methods a. If IsStatic of m is false, then b. Else, Let status be the result of performing PropertyDefinitionEvaluation for m with arguments F and false. [...] Runtime Semantics: PropertyDefinitionEvaluation AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this AsyncGeneratorMethod is strict mode code, let strict be true. Otherwise let strict be false. 4. Let scope be the running execution context's LexicalEnvironment. 5. Let closure be ! AsyncGeneratorFunctionCreate(Method, UniqueFormalParameters, AsyncGeneratorBody, scope, strict). [...] 14.1 Function Definitions Syntax FunctionRestParameter[Yield] : BindingRestElement[?Yield] 13.3.3 Destructuring Binding Patterns Syntax BindingRestElement[Yield] : ...BindingIdentifier[?Yield] ...BindingPattern[?Yield] ---	2036
dflt-params-trailing-comma.js	--- description: A trailing comma should not increase the respective length, using default parameters (static class declaration async generator method) esid: sec-runtime-semantics-bindingclassdeclarationevaluation features: [async-iteration] flags: [generated, async] info: \| ClassDeclaration : class BindingIdentifier ClassTail 1. Let className be StringValue of BindingIdentifier. 2. Let value be the result of ClassDefinitionEvaluation of ClassTail with argument className. [...] 14.5.14 Runtime Semantics: ClassDefinitionEvaluation 21. For each ClassElement m in order from methods a. If IsStatic of m is false, then b. Else, Let status be the result of performing PropertyDefinitionEvaluation for m with arguments F and false. [...] Runtime Semantics: PropertyDefinitionEvaluation AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this AsyncGeneratorMethod is strict mode code, let strict be true. Otherwise let strict be false. 4. Let scope be the running execution context's LexicalEnvironment. 5. Let closure be ! AsyncGeneratorFunctionCreate(Method, UniqueFormalParameters, AsyncGeneratorBody, scope, strict). [...] Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : FormalParameterList[?Yield, ?Await] , ---	2251
forbidden-ext
object-destructuring-param-strict-body.js		5633
params-trailing-comma-multiple.js	--- description: A trailing comma should not increase the respective length, using multiple parameters (static class declaration async generator method) esid: sec-runtime-semantics-bindingclassdeclarationevaluation features: [async-iteration] flags: [generated, async] info: \| ClassDeclaration : class BindingIdentifier ClassTail 1. Let className be StringValue of BindingIdentifier. 2. Let value be the result of ClassDefinitionEvaluation of ClassTail with argument className. [...] 14.5.14 Runtime Semantics: ClassDefinitionEvaluation 21. For each ClassElement m in order from methods a. If IsStatic of m is false, then b. Else, Let status be the result of performing PropertyDefinitionEvaluation for m with arguments F and false. [...] Runtime Semantics: PropertyDefinitionEvaluation AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this AsyncGeneratorMethod is strict mode code, let strict be true. Otherwise let strict be false. 4. Let scope be the running execution context's LexicalEnvironment. 5. Let closure be ! AsyncGeneratorFunctionCreate(Method, UniqueFormalParameters, AsyncGeneratorBody, scope, strict). [...] Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : FormalParameterList[?Yield, ?Await] , ---	2244
params-trailing-comma-single.js	--- description: A trailing comma should not increase the respective length, using a single parameter (static class declaration async generator method) esid: sec-runtime-semantics-bindingclassdeclarationevaluation features: [async-iteration] flags: [generated, async] info: \| ClassDeclaration : class BindingIdentifier ClassTail 1. Let className be StringValue of BindingIdentifier. 2. Let value be the result of ClassDefinitionEvaluation of ClassTail with argument className. [...] 14.5.14 Runtime Semantics: ClassDefinitionEvaluation 21. For each ClassElement m in order from methods a. If IsStatic of m is false, then b. Else, Let status be the result of performing PropertyDefinitionEvaluation for m with arguments F and false. [...] Runtime Semantics: PropertyDefinitionEvaluation AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this AsyncGeneratorMethod is strict mode code, let strict be true. Otherwise let strict be false. 4. Let scope be the running execution context's LexicalEnvironment. 5. Let closure be ! AsyncGeneratorFunctionCreate(Method, UniqueFormalParameters, AsyncGeneratorBody, scope, strict). [...] Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : FormalParameterList[?Yield, ?Await] , ---	2206
rest-param-strict-body.js		5639
rest-params-trailing-comma-early-error.js	--- description: It's a syntax error if a FunctionRestParameter is followed by a trailing comma (static class expression generator method) esid: sec-runtime-semantics-bindingclassdeclarationevaluation features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassDeclaration : class BindingIdentifier ClassTail 1. Let className be StringValue of BindingIdentifier. 2. Let value be the result of ClassDefinitionEvaluation of ClassTail with argument className. [...] 14.5.14 Runtime Semantics: ClassDefinitionEvaluation 21. For each ClassElement m in order from methods a. If IsStatic of m is false, then b. Else, Let status be the result of performing PropertyDefinitionEvaluation for m with arguments F and false. [...] Runtime Semantics: PropertyDefinitionEvaluation AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this AsyncGeneratorMethod is strict mode code, let strict be true. Otherwise let strict be false. 4. Let scope be the running execution context's LexicalEnvironment. 5. Let closure be ! AsyncGeneratorFunctionCreate(Method, UniqueFormalParameters, AsyncGeneratorBody, scope, strict). [...] Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : [empty] FunctionRestParameter[?Yield, ?Await] FormalParameterList[?Yield, ?Await] FormalParameterList[?Yield, ?Await] , FormalParameterList[?Yield, ?Await] , FunctionRestParameter[?Yield, ?Await] ---	2145
shell.js		0
yield-as-binding-identifier-escaped.js	--- description: yield is a reserved keyword within generator function bodies and may not be used as a binding identifier. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } BindingIdentifier : Identifier It is a Syntax Error if this production has a [Yield] parameter and StringValue of Identifier is "yield". ---	1064
yield-as-binding-identifier.js	--- description: yield is a reserved keyword within generator function bodies and may not be used as a binding identifier. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } BindingIdentifier : Identifier It is a Syntax Error if this production has a [Yield] parameter and StringValue of Identifier is "yield". ---	1051
yield-as-identifier-reference-escaped.js	--- description: yield is a reserved keyword within generator function bodies and may not be used as an identifier reference. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } IdentifierReference : Identifier It is a Syntax Error if this production has a [Yield] parameter and StringValue of Identifier is "yield". ---	1072
yield-as-identifier-reference.js	--- description: yield is a reserved keyword within generator function bodies and may not be used as an identifier reference. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } IdentifierReference : Identifier It is a Syntax Error if this production has a [Yield] parameter and StringValue of Identifier is "yield". ---	1059
yield-as-label-identifier-escaped.js	--- description: yield is a reserved keyword within generator function bodies and may not be used as a label identifier. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } LabelIdentifier : Identifier It is a Syntax Error if this production has a [Yield] parameter and StringValue of Identifier is "yield". ---	1056
yield-as-label-identifier.js	--- description: yield is a reserved keyword within generator function bodies and may not be used as a label identifier. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } LabelIdentifier : Identifier It is a Syntax Error if this production has a [Yield] parameter and StringValue of Identifier is "yield". ---	1043
yield-identifier-spread-strict-strict.js	--- description: It's an early error if the AssignmentExpression is a function body with yield as an identifier in strict mode. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [object-spread, async-iteration] flags: [generated, onlyStrict] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } Spread Properties PropertyDefinition[Yield]: (...) ...AssignmentExpression[In, ?Yield] ---	1279
yield-identifier-strict-strict.js	--- description: It's an early error if the generator body has another function body with yield as an identifier in strict mode. (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, onlyStrict] negative: phase: parse type: SyntaxError info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1107
yield-promise-reject-next-catch.js	--- description: yield Promise.reject(value) is treated as throw value (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1416
yield-promise-reject-next-for-await-of-async-iterator.js	--- description: yield * [Promise.reject(value)] is treated as throw value (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1543
yield-promise-reject-next-for-await-of-sync-iterator.js	--- description: yield Promise.reject(value) in for-await-of is treated as throw value (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1528
yield-promise-reject-next-yield-star-async-iterator.js	--- description: yield * (async iterator) is treated as throw value (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1500
yield-promise-reject-next-yield-star-sync-iterator.js	--- description: yield * (async iterator) is treated as throw value (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1464
yield-promise-reject-next.js	--- description: yield Promise.reject(value) is treated as throw value (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1417
yield-spread-arr-multiple.js	--- description: Use yield value in a array spread position (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] includes: [compareArray.js] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } Array Initializer SpreadElement[Yield, Await]: ...AssignmentExpression[+In, ?Yield, ?Await] ---	1329
yield-spread-arr-single.js	--- description: Use yield value in a array spread position (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } Array Initializer SpreadElement[Yield, Await]: ...AssignmentExpression[+In, ?Yield, ?Await] ---	1421
yield-spread-obj.js	--- description: Use yield value in a object spread position (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [object-spread, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } Spread Properties PropertyDefinition[Yield]: (...) ...AssignmentExpression[In, ?Yield] ---	1356
yield-star-async-next.js	--- description: Execution order for yield* with async iterator and next() (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration, Symbol.asyncIterator] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	7360
yield-star-async-return.js	--- description: execution order for yield* with async iterator and return() (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration, Symbol.asyncIterator] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat ... c. Else, i. Assert: received.[[Type]] is return. ii. Let return be ? GetMethod(iterator, "return"). iii. If return is undefined, return Completion(received). iv. Let innerReturnResult be ? Call(return, iterator, « received.[[Value]] »). v. If generatorKind is async, then set innerReturnResult to ? Await(innerReturnResult). ... vii. Let done be ? IteratorComplete(innerReturnResult). viii. If done is true, then 1. Let value be ? IteratorValue(innerReturnResult). 2. If generatorKind is async, then set value to ? Await(value). 3. Return Completion{[[Type]]: return, [[Value]]: value, [[Target]]: empty}. ix. If generatorKind is async, then let received be AsyncGeneratorYield(? IteratorValue(innerResult)). ... AsyncGeneratorYield ( value ) ... 8. Return ! AsyncGeneratorResolve(generator, value, false). ... ---	8069
yield-star-async-throw.js	--- description: execution order for yield* with async iterator and throw() (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration, Symbol.asyncIterator] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat ... b. Else if received.[[Type]] is throw, then i. Let throw be ? GetMethod(iterator, "throw"). ii. If throw is not undefined, then 1. Let innerResult be ? Call(throw, iterator, « received.[[Value]] »). 2. If generatorKind is async, then set innerResult to ? Await(innerResult). ... 5. Let done be ? IteratorComplete(innerResult). 6. If done is true, then a. Let resultValue be Return ? IteratorValue(innerResult). b. If generatorKind is async, then set resultValue to ? Await(resultValue). c. Return resultValue. 7. If generatorKind is async, then let received be AsyncGeneratorYield(? IteratorValue(innerResult)). ... AsyncGeneratorYield ( value ) ... 8. Return ! AsyncGeneratorResolve(generator, value, false). ... ---	8101
yield-star-expr-abrupt.js	--- description: Abrupt completion while getting yield* operand (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). ... ---	1527
yield-star-getiter-async-get-abrupt.js	--- description: Abrupt completion while getting [Symbol.asyncIterator] (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). ... ---	2034
yield-star-getiter-async-not-callable-boolean-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.asyncIterator] (boolean) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). 3. If func is either undefined or null, return undefined. 4. If IsCallable(func) is false, throw a TypeError exception. ... ---	2164
yield-star-getiter-async-not-callable-number-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.asyncIterator] (number) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). 3. If func is either undefined or null, return undefined. 4. If IsCallable(func) is false, throw a TypeError exception. ... ---	2158
yield-star-getiter-async-not-callable-object-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.asyncIterator] (object) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). 3. If func is either undefined or null, return undefined. 4. If IsCallable(func) is false, throw a TypeError exception. ... ---	2159
yield-star-getiter-async-not-callable-string-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.asyncIterator] (string) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). 3. If func is either undefined or null, return undefined. 4. If IsCallable(func) is false, throw a TypeError exception. ... ---	2159
yield-star-getiter-async-not-callable-symbol-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.asyncIterator] (symbol) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). 3. If func is either undefined or null, return undefined. 4. If IsCallable(func) is false, throw a TypeError exception. ... ---	2177
yield-star-getiter-async-null-sync-get-abrupt.js	--- description: Abrupt completion while getting @@iterator after null @@asyncIterator (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). b. If method is undefined, i. Let syncMethod be ? GetMethod(obj, @@iterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). ... ---	2164
yield-star-getiter-async-returns-abrupt.js	--- description: Abrupt completion while calling [Symbol.asyncIterator] (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... 6. Let iterator be ? Call(method, obj). ... ---	2012
yield-star-getiter-async-returns-boolean-throw.js	--- description: Non object returned by [Symbol.asyncIterator]() - boolean (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... 6. Let iterator be ? Call(method, obj). 7. If Type(iterator) is not Object, throw a TypeError exception. ... ---	2084
yield-star-getiter-async-returns-null-throw.js	--- description: Non object returned by [Symbol.asyncIterator]() - null (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... 6. Let iterator be ? Call(method, obj). 7. If Type(iterator) is not Object, throw a TypeError exception. ... ---	2078
yield-star-getiter-async-returns-number-throw.js	--- description: Non object returned by [Symbol.asyncIterator]() - number (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... 6. Let iterator be ? Call(method, obj). 7. If Type(iterator) is not Object, throw a TypeError exception. ... ---	2080
yield-star-getiter-async-returns-string-throw.js	--- description: Non object returned by [Symbol.asyncIterator]() - string (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... 6. Let iterator be ? Call(method, obj). 7. If Type(iterator) is not Object, throw a TypeError exception. ... ---	2082
yield-star-getiter-async-returns-symbol-throw.js	--- description: Non object returned by [Symbol.asyncIterator]() - symbol (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... 6. Let iterator be ? Call(method, obj). 7. If Type(iterator) is not Object, throw a TypeError exception. ... ---	2098
yield-star-getiter-async-returns-undefined-throw.js	--- description: Non object returned by [Symbol.asyncIterator]() - undefined (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). ... 6. Let iterator be ? Call(method, obj). 7. If Type(iterator) is not Object, throw a TypeError exception. ... ---	2093
yield-star-getiter-async-undefined-sync-get-abrupt.js	--- description: Abrupt completion while getting @@iterator after undefined @@asyncIterator (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). b. If method is undefined, i. Let syncMethod be ? GetMethod(obj, @@iterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). ... ---	2179
yield-star-getiter-sync-get-abrupt.js	--- description: Abrupt completion while getting [Symbol.iterator] (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). b. If method is undefined, i. Let syncMethod be ? GetMethod(obj, @@iterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). ... ---	2017
yield-star-getiter-sync-not-callable-boolean-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.iterator] (boolean) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). b. If method is undefined, i. Let syncMethod be ? GetMethod(obj, @@iterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). ... 4. If IsCallable(func) is false, throw a TypeError exception. ... ---	2071
yield-star-getiter-sync-not-callable-number-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.iterator] (number) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). b. If method is undefined, i. Let syncMethod be ? GetMethod(obj, @@iterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). ... 4. If IsCallable(func) is false, throw a TypeError exception. ... ---	2065
yield-star-getiter-sync-not-callable-object-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.iterator] (object) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). b. If method is undefined, i. Let syncMethod be ? GetMethod(obj, @@iterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). ... 4. If IsCallable(func) is false, throw a TypeError exception. ... ---	2066
yield-star-getiter-sync-not-callable-string-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.iterator] (string) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). b. If method is undefined, i. Let syncMethod be ? GetMethod(obj, @@iterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). ... 4. If IsCallable(func) is false, throw a TypeError exception. ... ---	2066
yield-star-getiter-sync-not-callable-symbol-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.iterator] (symbol) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). b. If method is undefined, i. Let syncMethod be ? GetMethod(obj, @@iterator). ... GetMethod ( V, P ) ... 2. Let func be ? GetV(V, P). ... 4. If IsCallable(func) is false, throw a TypeError exception. ... ---	2101
yield-star-getiter-sync-returns-abrupt.js	--- description: Abrupt completion while calling [Symbol.iterator] (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). i. Let syncMethod be ? GetMethod(obj, @@iterator). ii. Let syncIterator be ? Call(syncMethod, obj). ... ---	1967
yield-star-getiter-sync-returns-boolean-throw.js	--- description: Non object returned by [Symbol.iterator]() - boolean (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). i. Let syncMethod be ? GetMethod(obj, @@iterator). ii. Let syncIterator be ? Call(syncMethod, obj). iii. Return ? CreateAsyncFromSyncIterator(syncIterator). ... CreateAsyncFromSyncIterator(syncIterator) 1. If Type(syncIterator) is not Object, throw a TypeError exception. ... ---	2142
yield-star-getiter-sync-returns-null-throw.js	--- description: Non object returned by [Symbol.iterator]() - null (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). i. Let syncMethod be ? GetMethod(obj, @@iterator). ii. Let syncIterator be ? Call(syncMethod, obj). iii. Return ? CreateAsyncFromSyncIterator(syncIterator). ... CreateAsyncFromSyncIterator(syncIterator) 1. If Type(syncIterator) is not Object, throw a TypeError exception. ... ---	2136
yield-star-getiter-sync-returns-number-throw.js	--- description: Non object returned by [Symbol.iterator]() - number (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). i. Let syncMethod be ? GetMethod(obj, @@iterator). ii. Let syncIterator be ? Call(syncMethod, obj). iii. Return ? CreateAsyncFromSyncIterator(syncIterator). ... CreateAsyncFromSyncIterator(syncIterator) 1. If Type(syncIterator) is not Object, throw a TypeError exception. ... ---	2137
yield-star-getiter-sync-returns-string-throw.js	--- description: Non object returned by [Symbol.iterator]() - string (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). i. Let syncMethod be ? GetMethod(obj, @@iterator). ii. Let syncIterator be ? Call(syncMethod, obj). iii. Return ? CreateAsyncFromSyncIterator(syncIterator). ... CreateAsyncFromSyncIterator(syncIterator) 1. If Type(syncIterator) is not Object, throw a TypeError exception. ... ---	2138
yield-star-getiter-sync-returns-symbol-throw.js	--- description: Non object returned by [Symbol.iterator]() - symbol (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). i. Let syncMethod be ? GetMethod(obj, @@iterator). ii. Let syncIterator be ? Call(syncMethod, obj). iii. Return ? CreateAsyncFromSyncIterator(syncIterator). ... CreateAsyncFromSyncIterator(syncIterator) 1. If Type(syncIterator) is not Object, throw a TypeError exception. ... ---	2151
yield-star-getiter-sync-returns-undefined-throw.js	--- description: Non object returned by [Symbol.iterator]() - undefined (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression 1. Let exprRef be the result of evaluating AssignmentExpression. 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). i. Let syncMethod be ? GetMethod(obj, @@iterator). ii. Let syncIterator be ? Call(syncMethod, obj). iii. Return ? CreateAsyncFromSyncIterator(syncIterator). ... CreateAsyncFromSyncIterator(syncIterator) 1. If Type(syncIterator) is not Object, throw a TypeError exception. ... ---	2151
yield-star-next-call-done-get-abrupt.js	--- description: Abrupt completion while getting done (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). ... v. Let done be ? IteratorComplete(innerResult). ... ---	2028
yield-star-next-call-returns-abrupt.js	--- description: Abrupt completion while calling next (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). ... ---	1793
yield-star-next-call-value-get-abrupt.js	--- description: Abrupt completion while getting value (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). ... vi. If done is true, then 1. Return ? IteratorValue(innerResult). ... ---	2082
yield-star-next-get-abrupt.js	--- description: Abrupt completion while getting next (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). ... ---	1788
yield-star-next-non-object-ignores-then.js	--- description: If next() value is not-object, do not access respective then property (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). iv. If Type(innerResult) is not Object, throw a TypeError exception. ... Await ... 2. Let promiseCapability be ! NewPromiseCapability(%Promise%). 3. Perform ! Call(promiseCapability.[[Resolve]], undefined, « promise »). ... Promise Resolve Functions ... 7. If Type(resolution) is not Object, then a. Return FulfillPromise(promise, resolution). 8. Let then be Get(resolution, "then"). ... ---	2464
yield-star-next-not-callable-boolean-throw.js	--- description: Not-callable next value in a yield star position - boolean (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). ... ---	1788
yield-star-next-not-callable-null-throw.js	--- description: Not-callable next value in a yield star position - null (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). ... ---	1782
yield-star-next-not-callable-number-throw.js	--- description: Not-callable next value in a yield star position - number (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). ... ---	1784
yield-star-next-not-callable-object-throw.js	--- description: Not-callable next value in a yield star position - object (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). ... ---	1784
yield-star-next-not-callable-string-throw.js	--- description: Not-callable next value in a yield star position - string (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). ... ---	1784
yield-star-next-not-callable-symbol-throw.js	--- description: Not-callable next value in a yield star position - symbol (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). ... ---	1794
yield-star-next-not-callable-undefined-throw.js	--- description: Not-callable next value in a yield star position - undefined (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). ... ---	1797
yield-star-next-then-get-abrupt.js	--- description: Return abrupt after getting next().then (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). ... Await ... 2. Let promiseCapability be ! NewPromiseCapability(%Promise%). 3. Perform ! Call(promiseCapability.[[Resolve]], undefined, « promise »). ... Promise Resolve Functions ... 8. Let then be Get(resolution, "then"). ... 10. Get thenAction be then.[[Value]]. ... 12. Perform EnqueueJob("PromiseJobs", PromiseResolveThenableJob, « promise, resolution, thenAction »). ... ---	2400
yield-star-next-then-non-callable-boolean-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (boolean) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). iv. If Type(innerResult) is not Object, throw a TypeError exception. ... Await ... 2. Let promiseCapability be ! NewPromiseCapability(%Promise%). 3. Perform ! Call(promiseCapability.[[Resolve]], undefined, « promise »). ... Promise Resolve Functions ... 7. If Type(resolution) is not Object, then a. Return FulfillPromise(promise, resolution). 8. Let then be Get(resolution, "then"). ... 11. If IsCallable(thenAction) is false, then a. Return FulfillPromise(promise, resolution). ... ---	2306
yield-star-next-then-non-callable-null-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (null) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). iv. If Type(innerResult) is not Object, throw a TypeError exception. ... Await ... 2. Let promiseCapability be ! NewPromiseCapability(%Promise%). 3. Perform ! Call(promiseCapability.[[Resolve]], undefined, « promise »). ... Promise Resolve Functions ... 7. If Type(resolution) is not Object, then a. Return FulfillPromise(promise, resolution). 8. Let then be Get(resolution, "then"). ... 11. If IsCallable(thenAction) is false, then a. Return FulfillPromise(promise, resolution). ... ---	2300
yield-star-next-then-non-callable-number-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (number) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). iv. If Type(innerResult) is not Object, throw a TypeError exception. ... Await ... 2. Let promiseCapability be ! NewPromiseCapability(%Promise%). 3. Perform ! Call(promiseCapability.[[Resolve]], undefined, « promise »). ... Promise Resolve Functions ... 7. If Type(resolution) is not Object, then a. Return FulfillPromise(promise, resolution). 8. Let then be Get(resolution, "then"). ... 11. If IsCallable(thenAction) is false, then a. Return FulfillPromise(promise, resolution). ... ---	2302
yield-star-next-then-non-callable-object-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (object) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). iv. If Type(innerResult) is not Object, throw a TypeError exception. ... Await ... 2. Let promiseCapability be ! NewPromiseCapability(%Promise%). 3. Perform ! Call(promiseCapability.[[Resolve]], undefined, « promise »). ... Promise Resolve Functions ... 7. If Type(resolution) is not Object, then a. Return FulfillPromise(promise, resolution). 8. Let then be Get(resolution, "then"). ... 11. If IsCallable(thenAction) is false, then a. Return FulfillPromise(promise, resolution). ... ---	2302
yield-star-next-then-non-callable-string-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (string) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). iv. If Type(innerResult) is not Object, throw a TypeError exception. ... Await ... 2. Let promiseCapability be ! NewPromiseCapability(%Promise%). 3. Perform ! Call(promiseCapability.[[Resolve]], undefined, « promise »). ... Promise Resolve Functions ... 7. If Type(resolution) is not Object, then a. Return FulfillPromise(promise, resolution). 8. Let then be Get(resolution, "then"). ... 11. If IsCallable(thenAction) is false, then a. Return FulfillPromise(promise, resolution). ... ---	2302
yield-star-next-then-non-callable-symbol-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (symbol) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). iv. If Type(innerResult) is not Object, throw a TypeError exception. ... Await ... 2. Let promiseCapability be ! NewPromiseCapability(%Promise%). 3. Perform ! Call(promiseCapability.[[Resolve]], undefined, « promise »). ... Promise Resolve Functions ... 7. If Type(resolution) is not Object, then a. Return FulfillPromise(promise, resolution). 8. Let then be Get(resolution, "then"). ... 11. If IsCallable(thenAction) is false, then a. Return FulfillPromise(promise, resolution). ... ---	2312
yield-star-next-then-non-callable-undefined-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (undefined) (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). iv. If Type(innerResult) is not Object, throw a TypeError exception. ... Await ... 2. Let promiseCapability be ! NewPromiseCapability(%Promise%). 3. Perform ! Call(promiseCapability.[[Resolve]], undefined, « promise »). ... Promise Resolve Functions ... 7. If Type(resolution) is not Object, then a. Return FulfillPromise(promise, resolution). 8. Let then be Get(resolution, "then"). ... 11. If IsCallable(thenAction) is false, then a. Return FulfillPromise(promise, resolution). ... ---	2315
yield-star-next-then-returns-abrupt.js	--- description: Return abrupt after calling next().then (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat a. If received.[[Type]] is normal, then ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). ... Await ... 2. Let promiseCapability be ! NewPromiseCapability(%Promise%). 3. Perform ! Call(promiseCapability.[[Resolve]], undefined, « promise »). ... Promise Resolve Functions ... 8. Let then be Get(resolution, "then"). ... 10. Get thenAction be then.[[Value]]. ... 12. Perform EnqueueJob("PromiseJobs", PromiseResolveThenableJob, « promise, resolution, thenAction »). ... ---	2400
yield-star-sync-next.js	--- description: execution order for yield* with sync iterator and next() (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration, Symbol.asyncIterator] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 2. Let value be ? GetValue(exprRef). 3. Let generatorKind be ! GetGeneratorKind(). 4. Let iterator be ? GetIterator(value, generatorKind). 5. Let received be NormalCompletion(undefined). 6. Repeat a. If received.[[Type]] is normal, then i. Let innerResult be ? IteratorNext(iterator, received.[[Value]]). ii. Let innerResult be ? Invoke(iterator, "next", « received.[[Value]] »). iii. If generatorKind is async, then set innerResult to ? Await(innerResult). ... v. Let done be ? IteratorComplete(innerResult). vi. If done is true, then 1. Return ? IteratorValue(innerResult). vii. Let received be GeneratorYield(innerResult). ... GetIterator ( obj [ , hint ] ) ... 3. If hint is async, a. Set method to ? GetMethod(obj, @@asyncIterator). b. If method is undefined, i. Let syncMethod be ? GetMethod(obj, @@iterator). ii. Let syncIterator be ? Call(syncMethod, obj). iii. Return ? CreateAsyncFromSyncIterator(syncIterator). ... %AsyncFromSyncIteratorPrototype%.next ( value ) ... 5. Let nextResult be IteratorNext(syncIterator, value). ... 7. Let nextValue be IteratorValue(nextResult). ... 9. Let nextDone be IteratorComplete(nextResult). ... 12. Perform ! Call(valueWrapperCapability.[[Resolve]], undefined, « nextValue »). ... 14. Set onFulfilled.[[Done]] to nextDone. 15. Perform ! PerformPromiseThen(valueWrapperCapability.[[Promise]], onFulfilled, undefined, promiseCapability). ... Async Iterator Value Unwrap Functions 1. Return ! CreateIterResultObject(value, F.[[Done]]). ---	6967
yield-star-sync-return.js	--- description: execution order for yield* with sync iterator and return() (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration, Symbol.asyncIterator] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat ... c. Else, i. Assert: received.[[Type]] is return. ii. Let return be ? GetMethod(iterator, "return"). iii. If return is undefined, return Completion(received). iv. Let innerReturnResult be ? Call(return, iterator, « received.[[Value]] »). v. If generatorKind is async, then set innerReturnResult to ? Await(innerReturnResult). ... vii. Let done be ? IteratorComplete(innerReturnResult). viii. If done is true, then 1. Let value be ? IteratorValue(innerReturnResult). 2. Return Completion{[[Type]]: return, [[Value]]: value, [[Target]]: empty}. ix. Let received be GeneratorYield(innerResult). %AsyncFromSyncIteratorPrototype%.return ( value ) 5. Let return be GetMethod(syncIterator, "return"). ... ... 8. Let returnResult be Call(return, syncIterator, « value »). ... 11. Let returnValue be IteratorValue(returnResult). .. 13. Let returnDone be IteratorComplete(returnResult). ... 16. Perform ! Call(valueWrapperCapability.[[Resolve]], undefined, « returnValue »). ... 18. Set onFulfilled.[[Done]] to returnDone. 19. Perform ! PerformPromiseThen(valueWrapperCapability.[[Promise]], onFulfilled, undefined, promiseCapability). ... ---	6203
yield-star-sync-throw.js	--- description: execution order for yield* with sync iterator and throw() (Static async generator method as a ClassDeclaration element) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| ClassElement : static MethodDefinition MethodDefinition : AsyncGeneratorMethod Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } YieldExpression: yield * AssignmentExpression ... 6. Repeat ... b. Else if received.[[Type]] is throw, then i. Let throw be ? GetMethod(iterator, "throw"). ii. If throw is not undefined, then 1. Let innerResult be ? Call(throw, iterator, « received.[[Value]] »). 2. If generatorKind is async, then set innerResult to ? Await(innerResult). ... 5. Let done be ? IteratorComplete(innerResult). 6. If done is true, then a. Return ? IteratorValue(innerResult). 7. Let received be GeneratorYield(innerResult). ... %AsyncFromSyncIteratorPrototype%.throw ( value ) ... 5. Let throw be GetMethod(syncIterator, "throw"). ... 8. Let throwResult be Call(throw, syncIterator, « value »). ... 11. Let throwValue be IteratorValue(throwResult). ... 13. Let throwDone be IteratorComplete(throwResult). ... 16. Perform ! Call(valueWrapperCapability.[[Resolve]], undefined, « throwValue »). ... 18. Set onFulfilled.[[Done]] to throwDone. 19. Perform ! PerformPromiseThen(valueWrapperCapability.[[Promise]], onFulfilled, undefined, promiseCapability). ... ---	6173