js/src/tests/test262/language/expressions/object/method-definition

mozilla-central/js/src/tests/test262/language/expressions/object/method-definition

Name	Description	Size
async-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. (Async method) esid: prod-AsyncMethod features: [async-functions] flags: [generated] negative: phase: parse type: SyntaxError info: \| Async Function Definitions AsyncMethod : async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } BindingIdentifier : Identifier It is a Syntax Error if this production has a [Await] parameter and StringValue of Identifier is "await". ---	872
async-await-as-binding-identifier.js	--- description: await is a reserved keyword within generator function bodies and may not be used as a binding identifier. (Async method) esid: prod-AsyncMethod features: [async-functions] flags: [generated] negative: phase: parse type: SyntaxError info: \| Async Function Definitions AsyncMethod : async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } BindingIdentifier : Identifier It is a Syntax Error if this production has a [Await] parameter and StringValue of Identifier is "await". ---	859
async-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. (Async method) esid: prod-AsyncMethod features: [async-functions] flags: [generated] negative: phase: parse type: SyntaxError info: \| Async Function Definitions AsyncMethod : async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } IdentifierReference : Identifier It is a Syntax Error if this production has a [Await] parameter and StringValue of Identifier is "await". ---	880
async-await-as-identifier-reference.js	--- description: await is a reserved keyword within generator function bodies and may not be used as an identifier reference. (Async method) esid: prod-AsyncMethod features: [async-functions] flags: [generated] negative: phase: parse type: SyntaxError info: \| Async Function Definitions AsyncMethod : async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } IdentifierReference : Identifier It is a Syntax Error if this production has a [Await] parameter and StringValue of Identifier is "await". ---	867
async-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. (Async method) esid: prod-AsyncMethod features: [async-functions] flags: [generated] negative: phase: parse type: SyntaxError info: \| Async Function Definitions AsyncMethod : async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } LabelIdentifier : Identifier It is a Syntax Error if this production has a [Await] parameter and StringValue of Identifier is "await". ---	864
async-await-as-label-identifier.js	--- description: await is a reserved keyword within generator function bodies and may not be used as a label identifier. (Async method) esid: prod-AsyncMethod features: [async-functions] flags: [generated] negative: phase: parse type: SyntaxError info: \| Async Function Definitions AsyncMethod : async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } LabelIdentifier : Identifier It is a Syntax Error if this production has a [Await] parameter and StringValue of Identifier is "await". ---	851
async-gen-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. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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". ---	915
async-gen-await-as-binding-identifier.js	--- description: await is a reserved keyword within generator function bodies and may not be used as a binding identifier. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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". ---	902
async-gen-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. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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". ---	923
async-gen-await-as-identifier-reference.js	--- description: await is a reserved keyword within generator function bodies and may not be used as an identifier reference. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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". ---	910
async-gen-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. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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". ---	907
async-gen-await-as-label-identifier.js	--- description: await is a reserved keyword within generator function bodies and may not be used as a label identifier. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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". ---	894
async-gen-meth-array-destructuring-param-strict-body.js	--- description: ArrayBindingPattern and Use Strict Directive are not allowed to coexist for the same function. (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [rest-parameters, async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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). [...] 13.3.3.4 Static Semantics: IsSimpleParameterList BindingElement : BindingPattern 1. Return false. 14.1.2 Static Semantics: Early Errors FunctionDeclaration : function BindingIdentifier ( FormalParameters ) { FunctionBody } FunctionDeclaration : function ( FormalParameters ) { FunctionBody } FunctionExpression : function BindingIdentifier ( FormalParameters ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of FormalParameters is false. 14.2.1 Static Semantics: Early Errors ArrowFunction : ArrowParameters => ConciseBody - It is a Syntax Error if ContainsUseStrict of ConciseBody is true and IsSimpleParameterList of ArrowParameters is false. 14.3.1 Static Semantics: Early Errors MethodDefinition : PropertyName ( UniqueFormalParameters ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of UniqueFormalParameters is false. MethodDefinition : set PropertyName ( PropertySetParameterList ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of PropertySetParameterList is false. 14.4.1 Static Semantics: Early Errors GeneratorMethod : * PropertyName ( UniqueFormalParameters ) { GeneratorBody } - It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. GeneratorDeclaration : function * BindingIdentifier ( FormalParameters ) { GeneratorBody } GeneratorDeclaration : function * ( FormalParameters ) { GeneratorBody } GeneratorExpression : function * BindingIdentifier ( FormalParameters ) { GeneratorBody } - It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. 14.5.1 Static Semantics: Early Errors AsyncGeneratorMethod : async * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } - It is a Syntax Error if ContainsUseStrict of AsyncGeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. AsyncGeneratorDeclaration : async function * BindingIdentifier ( FormalParameters ) { AsyncGeneratorBody } AsyncGeneratorDeclaration : async function * ( FormalParameters ) { AsyncGeneratorBody } AsyncGeneratorExpression : async function * BindingIdentifier ( FormalParameters ) { AsyncGeneratorBody } - It is a Syntax Error if ContainsUseStrict of AsyncGeneratorBody is true and IsSimpleParameterList of FormalParameters is false. 14.7.1 Static Semantics: Early Errors AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } - It is a Syntax Error if ContainsUseStrict of AsyncFunctionBody is true and IsSimpleParameterList of UniqueFormalParameters is false. AsyncFunctionDeclaration : async function BindingIdentifier ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionDeclaration : async function ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionExpression : async function ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionExpression : async function BindingIdentifier ( FormalParameters ) { AsyncFunctionBody } - It is a Syntax Error if ContainsUseStrict of AsyncFunctionBody is true and IsSimpleParameterList of FormalParameters is false. 14.8.1 Static Semantics: Early Errors AsyncArrowFunction : CoverCallExpressionAndAsyncArrowHead => AsyncConciseBody - It is a Syntax Error if ContainsUseStrict of AsyncConciseBody is true and IsSimpleParameterList of CoverCallExpressionAndAsyncArrowHead is false. ---	4996
async-gen-meth-dflt-params-abrupt.js	--- description: Abrupt completion returned by evaluation of initializer (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [default-parameters, async-iteration] flags: [generated] info: \| 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. ---	1749
async-gen-meth-dflt-params-arg-val-not-undefined.js	--- description: Use of initializer when argument value is not `undefined` (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [default-parameters, async-iteration] flags: [generated, async] info: \| 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. [...] ---	2667
async-gen-meth-dflt-params-arg-val-undefined.js	--- description: Use of initializer when argument value is `undefined` (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [default-parameters, async-iteration] flags: [generated, async] info: \| 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. [...] ---	1930
async-gen-meth-dflt-params-duplicates.js	--- description: It is a Syntax Error if BoundNames of FormalParameters contains any duplicate elements. (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [default-parameters, async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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. ---	1583
async-gen-meth-dflt-params-ref-later.js	--- description: Referencing a parameter that occurs later in the ParameterList (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [default-parameters, async-iteration] flags: [generated] info: \| 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. ---	1732
async-gen-meth-dflt-params-ref-prior.js	--- description: Referencing a parameter that occurs earlier in the ParameterList (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [default-parameters, async-iteration] flags: [generated, async] info: \| 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. ---	1963
async-gen-meth-dflt-params-ref-self.js	--- description: Referencing a parameter from within its own initializer (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [default-parameters, async-iteration] flags: [generated] info: \| 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. ---	1721
async-gen-meth-dflt-params-rest.js	--- description: RestParameter does not support an initializer (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [default-parameters, async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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] ---	1402
async-gen-meth-dflt-params-trailing-comma.js	--- description: A trailing comma should not increase the respective length, using default parameters (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [async-iteration] flags: [generated, async] info: \| 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] , ---	1629
async-gen-meth-escaped-async.js	--- esid: sec-grammar-notation description: > The `async` contextual keyword must not contain Unicode escape sequences. info: \| Terminal symbols are shown in fixed width font, both in the productions of the grammars and throughout this specification whenever the text directly refers to such a terminal symbol. These are to appear in a script exactly as written. All terminal symbol code points specified in this way are to be understood as the appropriate Unicode code points from the Basic Latin range, as opposed to any similar-looking code points from other Unicode ranges. negative: phase: parse type: SyntaxError features: [async-iteration] ---	886
async-gen-meth-eval-var-scope-syntax-err.js	--- description: sloppy direct eval in params introduces var (async generator method in sloppy code) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [default-parameters, async-iteration] flags: [generated, noStrict] info: \| 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). [...] Runtime Semantics: IteratorBindingInitialization FormalParameter : BindingElement 1. Return the result of performing IteratorBindingInitialization for BindingElement with arguments iteratorRecord and environment. ---	1536
async-gen-meth-object-destructuring-param-strict-body.js	--- description: ObjectBindingPattern and Use Strict Directive are not allowed to coexist for the same function. (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [rest-parameters, async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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). [...] 13.3.3.4 Static Semantics: IsSimpleParameterList BindingElement : BindingPattern 1. Return false. 14.1.2 Static Semantics: Early Errors FunctionDeclaration : function BindingIdentifier ( FormalParameters ) { FunctionBody } FunctionDeclaration : function ( FormalParameters ) { FunctionBody } FunctionExpression : function BindingIdentifier ( FormalParameters ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of FormalParameters is false. 14.2.1 Static Semantics: Early Errors ArrowFunction : ArrowParameters => ConciseBody - It is a Syntax Error if ContainsUseStrict of ConciseBody is true and IsSimpleParameterList of ArrowParameters is false. 14.3.1 Static Semantics: Early Errors MethodDefinition : PropertyName ( UniqueFormalParameters ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of UniqueFormalParameters is false. MethodDefinition : set PropertyName ( PropertySetParameterList ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of PropertySetParameterList is false. 14.4.1 Static Semantics: Early Errors GeneratorMethod : * PropertyName ( UniqueFormalParameters ) { GeneratorBody } - It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. GeneratorDeclaration : function * BindingIdentifier ( FormalParameters ) { GeneratorBody } GeneratorDeclaration : function * ( FormalParameters ) { GeneratorBody } GeneratorExpression : function * BindingIdentifier ( FormalParameters ) { GeneratorBody } - It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. 14.5.1 Static Semantics: Early Errors AsyncGeneratorMethod : async * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } - It is a Syntax Error if ContainsUseStrict of AsyncGeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. AsyncGeneratorDeclaration : async function * BindingIdentifier ( FormalParameters ) { AsyncGeneratorBody } AsyncGeneratorDeclaration : async function * ( FormalParameters ) { AsyncGeneratorBody } AsyncGeneratorExpression : async function * BindingIdentifier ( FormalParameters ) { AsyncGeneratorBody } - It is a Syntax Error if ContainsUseStrict of AsyncGeneratorBody is true and IsSimpleParameterList of FormalParameters is false. 14.7.1 Static Semantics: Early Errors AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } - It is a Syntax Error if ContainsUseStrict of AsyncFunctionBody is true and IsSimpleParameterList of UniqueFormalParameters is false. AsyncFunctionDeclaration : async function BindingIdentifier ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionDeclaration : async function ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionExpression : async function ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionExpression : async function BindingIdentifier ( FormalParameters ) { AsyncFunctionBody } - It is a Syntax Error if ContainsUseStrict of AsyncFunctionBody is true and IsSimpleParameterList of FormalParameters is false. 14.8.1 Static Semantics: Early Errors AsyncArrowFunction : CoverCallExpressionAndAsyncArrowHead => AsyncConciseBody - It is a Syntax Error if ContainsUseStrict of AsyncConciseBody is true and IsSimpleParameterList of CoverCallExpressionAndAsyncArrowHead is false. ---	4999
async-gen-meth-params-trailing-comma-multiple.js	--- description: A trailing comma should not increase the respective length, using multiple parameters (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [async-iteration] flags: [generated, async] info: \| 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] , ---	1622
async-gen-meth-params-trailing-comma-single.js	--- description: A trailing comma should not increase the respective length, using a single parameter (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [async-iteration] flags: [generated, async] info: \| 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] , ---	1584
async-gen-meth-rest-param-strict-body.js	--- description: RestParameter and Use Strict Directive are not allowed to coexist for the same function. (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [rest-parameters, async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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). [...] 14.1.13 Static Semantics: IsSimpleParameterList FormalParameters : FormalParameterList , FunctionRestParameter 1. Return false. 14.1.2 Static Semantics: Early Errors FunctionDeclaration : function BindingIdentifier ( FormalParameters ) { FunctionBody } FunctionDeclaration : function ( FormalParameters ) { FunctionBody } FunctionExpression : function BindingIdentifier ( FormalParameters ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of FormalParameters is false. 14.2.1 Static Semantics: Early Errors ArrowFunction : ArrowParameters => ConciseBody - It is a Syntax Error if ContainsUseStrict of ConciseBody is true and IsSimpleParameterList of ArrowParameters is false. 14.3.1 Static Semantics: Early Errors MethodDefinition : PropertyName ( UniqueFormalParameters ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of UniqueFormalParameters is false. MethodDefinition : set PropertyName ( PropertySetParameterList ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of PropertySetParameterList is false. 14.4.1 Static Semantics: Early Errors GeneratorMethod : * PropertyName ( UniqueFormalParameters ) { GeneratorBody } - It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. GeneratorDeclaration : function * BindingIdentifier ( FormalParameters ) { GeneratorBody } GeneratorDeclaration : function * ( FormalParameters ) { GeneratorBody } GeneratorExpression : function * BindingIdentifier ( FormalParameters ) { GeneratorBody } - It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. 14.5.1 Static Semantics: Early Errors AsyncGeneratorMethod : async * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } - It is a Syntax Error if ContainsUseStrict of AsyncGeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. AsyncGeneratorDeclaration : async function * BindingIdentifier ( FormalParameters ) { AsyncGeneratorBody } AsyncGeneratorDeclaration : async function * ( FormalParameters ) { AsyncGeneratorBody } AsyncGeneratorExpression : async function * BindingIdentifier ( FormalParameters ) { AsyncGeneratorBody } - It is a Syntax Error if ContainsUseStrict of AsyncGeneratorBody is true and IsSimpleParameterList of FormalParameters is false. 14.7.1 Static Semantics: Early Errors AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } - It is a Syntax Error if ContainsUseStrict of AsyncFunctionBody is true and IsSimpleParameterList of UniqueFormalParameters is false. AsyncFunctionDeclaration : async function BindingIdentifier ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionDeclaration : async function ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionExpression : async function ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionExpression : async function BindingIdentifier ( FormalParameters ) { AsyncFunctionBody } - It is a Syntax Error if ContainsUseStrict of AsyncFunctionBody is true and IsSimpleParameterList of FormalParameters is false. 14.8.1 Static Semantics: Early Errors AsyncArrowFunction : CoverCallExpressionAndAsyncArrowHead => AsyncConciseBody - It is a Syntax Error if ContainsUseStrict of AsyncConciseBody is true and IsSimpleParameterList of CoverCallExpressionAndAsyncArrowHead is false. ---	5005
async-gen-meth-rest-params-trailing-comma-early-error.js	--- description: It's a syntax error if a FunctionRestParameter is followed by a trailing comma (async generator method) esid: sec-asyncgenerator-definitions-propertydefinitionevaluation features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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] ---	1511
async-gen-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. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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". ---	915
async-gen-yield-as-binding-identifier.js	--- description: yield is a reserved keyword within generator function bodies and may not be used as a binding identifier. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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". ---	902
async-gen-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. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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". ---	923
async-gen-yield-as-identifier-reference.js	--- description: yield is a reserved keyword within generator function bodies and may not be used as an identifier reference. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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". ---	910
async-gen-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. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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". ---	907
async-gen-yield-as-label-identifier.js	--- description: yield is a reserved keyword within generator function bodies and may not be used as a label identifier. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 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". ---	894
async-gen-yield-identifier-non-strict.js	--- description: Use of yield as a valid identifier in a function body inside a generator body in non strict mode (Generator method - valid for non-strict only cases) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, noStrict, async] info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1172
async-gen-yield-identifier-spread-non-strict.js	--- description: Mixed use of object spread and yield as a valid identifier in a function body inside a generator body in non strict mode (Generator method - valid for non-strict only cases) esid: prod-AsyncGeneratorMethod features: [object-spread, Symbol, async-iteration] flags: [generated, noStrict, async] info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } Spread Properties PropertyDefinition[Yield]: (...) ...AssignmentExpression[In, ?Yield] ---	1747
async-gen-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. (Async generator method) esid: prod-AsyncGeneratorMethod features: [object-spread, async-iteration] flags: [generated, onlyStrict] negative: phase: parse type: SyntaxError info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } Spread Properties PropertyDefinition[Yield]: (...) ...AssignmentExpression[In, ?Yield] ---	1119
async-gen-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. (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, onlyStrict] negative: phase: parse type: SyntaxError info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	947
async-gen-yield-promise-reject-next-catch.js	--- description: yield Promise.reject(value) is treated as throw value (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1256
async-gen-yield-promise-reject-next-for-await-of-async-iterator.js	--- description: yield * [Promise.reject(value)] is treated as throw value (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1383
async-gen-yield-promise-reject-next-for-await-of-sync-iterator.js	--- description: yield Promise.reject(value) in for-await-of is treated as throw value (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1368
async-gen-yield-promise-reject-next-yield-star-async-iterator.js	--- description: yield * (async iterator) is treated as throw value (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1340
async-gen-yield-promise-reject-next-yield-star-sync-iterator.js	--- description: yield * (async iterator) is treated as throw value (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1304
async-gen-yield-promise-reject-next.js	--- description: yield Promise.reject(value) is treated as throw value (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	1257
async-gen-yield-spread-arr-multiple.js	--- description: Use yield value in a array spread position (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] includes: [compareArray.js] info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } Array Initializer SpreadElement[Yield, Await]: ...AssignmentExpression[+In, ?Yield, ?Await] ---	1169
async-gen-yield-spread-arr-single.js	--- description: Use yield value in a array spread position (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } Array Initializer SpreadElement[Yield, Await]: ...AssignmentExpression[+In, ?Yield, ?Await] ---	1261
async-gen-yield-spread-obj.js	--- description: Use yield value in a object spread position (Async generator method) esid: prod-AsyncGeneratorMethod features: [object-spread, async-iteration] flags: [generated, async] info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } Spread Properties PropertyDefinition[Yield]: (...) ...AssignmentExpression[In, ?Yield] ---	1196
async-gen-yield-star-async-next.js	--- description: Execution order for yield* with async iterator and next() (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration, Symbol.asyncIterator] flags: [generated, async] info: \| Async Generator Function Definitions AsyncGeneratorMethod : async [no LineTerminator here] * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } ---	7200
async-gen-yield-star-async-return.js	--- description: execution order for yield* with async iterator and return() (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration, Symbol.asyncIterator] flags: [generated, async] info: \| 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). ... ---	7909
async-gen-yield-star-async-throw.js	--- description: execution order for yield* with async iterator and throw() (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration, Symbol.asyncIterator] flags: [generated, async] info: \| 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). ... ---	7941
async-gen-yield-star-expr-abrupt.js	--- description: Abrupt completion while getting yield* operand (Async generator method) esid: prod-AsyncGeneratorMethod features: [async-iteration] flags: [generated, async] info: \| 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). ... ---	1367
async-gen-yield-star-getiter-async-get-abrupt.js	--- description: Abrupt completion while getting [Symbol.asyncIterator] (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	1874
async-gen-yield-star-getiter-async-not-callable-boolean-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.asyncIterator] (boolean) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	2004
async-gen-yield-star-getiter-async-not-callable-number-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.asyncIterator] (number) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1998
async-gen-yield-star-getiter-async-not-callable-object-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.asyncIterator] (object) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1999
async-gen-yield-star-getiter-async-not-callable-string-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.asyncIterator] (string) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1999
async-gen-yield-star-getiter-async-not-callable-symbol-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.asyncIterator] (symbol) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	2017
async-gen-yield-star-getiter-async-null-sync-get-abrupt.js	--- description: Abrupt completion while getting @@iterator after null @@asyncIterator (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	2004
async-gen-yield-star-getiter-async-returns-abrupt.js	--- description: Abrupt completion while calling [Symbol.asyncIterator] (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	1852
async-gen-yield-star-getiter-async-returns-boolean-throw.js	--- description: Non object returned by [Symbol.asyncIterator]() - boolean (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1924
async-gen-yield-star-getiter-async-returns-null-throw.js	--- description: Non object returned by [Symbol.asyncIterator]() - null (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1918
async-gen-yield-star-getiter-async-returns-number-throw.js	--- description: Non object returned by [Symbol.asyncIterator]() - number (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1920
async-gen-yield-star-getiter-async-returns-string-throw.js	--- description: Non object returned by [Symbol.asyncIterator]() - string (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1922
async-gen-yield-star-getiter-async-returns-symbol-throw.js	--- description: Non object returned by [Symbol.asyncIterator]() - symbol (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1938
async-gen-yield-star-getiter-async-returns-undefined-throw.js	--- description: Non object returned by [Symbol.asyncIterator]() - undefined (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1933
async-gen-yield-star-getiter-async-undefined-sync-get-abrupt.js	--- description: Abrupt completion while getting @@iterator after undefined @@asyncIterator (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	2019
async-gen-yield-star-getiter-sync-get-abrupt.js	--- description: Abrupt completion while getting [Symbol.iterator] (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	1857
async-gen-yield-star-getiter-sync-not-callable-boolean-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.iterator] (boolean) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1911
async-gen-yield-star-getiter-sync-not-callable-number-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.iterator] (number) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1905
async-gen-yield-star-getiter-sync-not-callable-object-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.iterator] (object) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1906
async-gen-yield-star-getiter-sync-not-callable-string-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.iterator] (string) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1906
async-gen-yield-star-getiter-sync-not-callable-symbol-throw.js	--- description: Throws a TypeError on a non-callable [Symbol.iterator] (symbol) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1941
async-gen-yield-star-getiter-sync-returns-abrupt.js	--- description: Abrupt completion while calling [Symbol.iterator] (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	1807
async-gen-yield-star-getiter-sync-returns-boolean-throw.js	--- description: Non object returned by [Symbol.iterator]() - boolean (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1982
async-gen-yield-star-getiter-sync-returns-null-throw.js	--- description: Non object returned by [Symbol.iterator]() - null (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1976
async-gen-yield-star-getiter-sync-returns-number-throw.js	--- description: Non object returned by [Symbol.iterator]() - number (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1977
async-gen-yield-star-getiter-sync-returns-string-throw.js	--- description: Non object returned by [Symbol.iterator]() - string (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1978
async-gen-yield-star-getiter-sync-returns-symbol-throw.js	--- description: Non object returned by [Symbol.iterator]() - symbol (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1991
async-gen-yield-star-getiter-sync-returns-undefined-throw.js	--- description: Non object returned by [Symbol.iterator]() - undefined (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| 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. ... ---	1991
async-gen-yield-star-next-call-done-get-abrupt.js	--- description: Abrupt completion while getting done (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	1868
async-gen-yield-star-next-call-returns-abrupt.js	--- description: Abrupt completion while calling next (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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]] »). ... ---	1633
async-gen-yield-star-next-call-value-get-abrupt.js	--- description: Abrupt completion while getting value (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	1922
async-gen-yield-star-next-get-abrupt.js	--- description: Abrupt completion while getting next (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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]] »). ... ---	1628
async-gen-yield-star-next-non-object-ignores-then.js	--- description: If next() value is not-object, do not access respective then property (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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"). ... ---	2304
async-gen-yield-star-next-not-callable-boolean-throw.js	--- description: Not-callable next value in a yield star position - boolean (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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]] »). ... ---	1628
async-gen-yield-star-next-not-callable-null-throw.js	--- description: Not-callable next value in a yield star position - null (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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]] »). ... ---	1622
async-gen-yield-star-next-not-callable-number-throw.js	--- description: Not-callable next value in a yield star position - number (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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]] »). ... ---	1624
async-gen-yield-star-next-not-callable-object-throw.js	--- description: Not-callable next value in a yield star position - object (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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]] »). ... ---	1624
async-gen-yield-star-next-not-callable-string-throw.js	--- description: Not-callable next value in a yield star position - string (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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]] »). ... ---	1624
async-gen-yield-star-next-not-callable-symbol-throw.js	--- description: Not-callable next value in a yield star position - symbol (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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]] »). ... ---	1634
async-gen-yield-star-next-not-callable-undefined-throw.js	--- description: Not-callable next value in a yield star position - undefined (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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]] »). ... ---	1637
async-gen-yield-star-next-then-get-abrupt.js	--- description: Return abrupt after getting next().then (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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 »). ... ---	2240
async-gen-yield-star-next-then-non-callable-boolean-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (boolean) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	2146
async-gen-yield-star-next-then-non-callable-null-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (null) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	2140
async-gen-yield-star-next-then-non-callable-number-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (number) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	2142
async-gen-yield-star-next-then-non-callable-object-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (object) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	2142
async-gen-yield-star-next-then-non-callable-string-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (string) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	2142
async-gen-yield-star-next-then-non-callable-symbol-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (symbol) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	2152
async-gen-yield-star-next-then-non-callable-undefined-fulfillpromise.js	--- description: FulfillPromise if next().then is not-callable (undefined) (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	2155
async-gen-yield-star-next-then-returns-abrupt.js	--- description: Return abrupt after calling next().then (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, Symbol.asyncIterator, async-iteration] flags: [generated, async] info: \| 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 »). ... ---	2240
async-gen-yield-star-sync-next.js	--- description: execution order for yield* with sync iterator and next() (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration, Symbol.asyncIterator] flags: [generated, async] info: \| 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]]). ---	6807
async-gen-yield-star-sync-return.js	--- description: execution order for yield* with sync iterator and return() (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration, Symbol.asyncIterator] flags: [generated, async] info: \| 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). ... ---	6043
async-gen-yield-star-sync-throw.js	--- description: execution order for yield* with sync iterator and throw() (Async generator method) esid: prod-AsyncGeneratorMethod features: [Symbol.iterator, async-iteration] flags: [generated, async] info: \| 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). ... ---	6013
async-meth-array-destructuring-param-strict-body.js	--- description: ArrayBindingPattern and Use Strict Directive are not allowed to coexist for the same function. (async method) esid: sec-async-function-definitions features: [rest-parameters, async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } 13.3.3.4 Static Semantics: IsSimpleParameterList BindingElement : BindingPattern 1. Return false. 14.1.2 Static Semantics: Early Errors FunctionDeclaration : function BindingIdentifier ( FormalParameters ) { FunctionBody } FunctionDeclaration : function ( FormalParameters ) { FunctionBody } FunctionExpression : function BindingIdentifier ( FormalParameters ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of FormalParameters is false. 14.2.1 Static Semantics: Early Errors ArrowFunction : ArrowParameters => ConciseBody - It is a Syntax Error if ContainsUseStrict of ConciseBody is true and IsSimpleParameterList of ArrowParameters is false. 14.3.1 Static Semantics: Early Errors MethodDefinition : PropertyName ( UniqueFormalParameters ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of UniqueFormalParameters is false. MethodDefinition : set PropertyName ( PropertySetParameterList ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of PropertySetParameterList is false. 14.4.1 Static Semantics: Early Errors GeneratorMethod : * PropertyName ( UniqueFormalParameters ) { GeneratorBody } - It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. GeneratorDeclaration : function * BindingIdentifier ( FormalParameters ) { GeneratorBody } GeneratorDeclaration : function * ( FormalParameters ) { GeneratorBody } GeneratorExpression : function * BindingIdentifier ( FormalParameters ) { GeneratorBody } - It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. 14.5.1 Static Semantics: Early Errors AsyncGeneratorMethod : async * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } - It is a Syntax Error if ContainsUseStrict of AsyncGeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. AsyncGeneratorDeclaration : async function * BindingIdentifier ( FormalParameters ) { AsyncGeneratorBody } AsyncGeneratorDeclaration : async function * ( FormalParameters ) { AsyncGeneratorBody } AsyncGeneratorExpression : async function * BindingIdentifier ( FormalParameters ) { AsyncGeneratorBody } - It is a Syntax Error if ContainsUseStrict of AsyncGeneratorBody is true and IsSimpleParameterList of FormalParameters is false. 14.7.1 Static Semantics: Early Errors AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } - It is a Syntax Error if ContainsUseStrict of AsyncFunctionBody is true and IsSimpleParameterList of UniqueFormalParameters is false. AsyncFunctionDeclaration : async function BindingIdentifier ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionDeclaration : async function ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionExpression : async function ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionExpression : async function BindingIdentifier ( FormalParameters ) { AsyncFunctionBody } - It is a Syntax Error if ContainsUseStrict of AsyncFunctionBody is true and IsSimpleParameterList of FormalParameters is false. 14.8.1 Static Semantics: Early Errors AsyncArrowFunction : CoverCallExpressionAndAsyncArrowHead => AsyncConciseBody - It is a Syntax Error if ContainsUseStrict of AsyncConciseBody is true and IsSimpleParameterList of CoverCallExpressionAndAsyncArrowHead is false. ---	4497
async-meth-dflt-params-abrupt.js	--- description: Abrupt completion returned by evaluation of initializer (async method) esid: sec-async-function-definitions features: [default-parameters, async-functions] flags: [generated, async] info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } 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. ---	1400
async-meth-dflt-params-arg-val-not-undefined.js	--- description: Use of initializer when argument value is not `undefined` (async method) esid: sec-async-function-definitions features: [default-parameters, async-functions] flags: [generated, async] info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } 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. [...] ---	2161
async-meth-dflt-params-arg-val-undefined.js	--- description: Use of initializer when argument value is `undefined` (async method) esid: sec-async-function-definitions features: [default-parameters, async-functions] flags: [generated, async] info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } 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. [...] ---	1424
async-meth-dflt-params-duplicates.js	--- description: It is a Syntax Error if BoundNames of FormalParameters contains any duplicate elements. (async method) esid: sec-async-function-definitions features: [default-parameters, async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } 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. ---	1084
async-meth-dflt-params-ref-later.js	--- description: Referencing a parameter that occurs later in the ParameterList (async method) esid: sec-async-function-definitions features: [default-parameters, async-functions] flags: [generated, async] info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } 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. ---	1383
async-meth-dflt-params-ref-prior.js	--- description: Referencing a parameter that occurs earlier in the ParameterList (async method) esid: sec-async-function-definitions features: [default-parameters, async-functions] flags: [generated, async] info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } 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. ---	1457
async-meth-dflt-params-ref-self.js	--- description: Referencing a parameter from within its own initializer (async method) esid: sec-async-function-definitions features: [default-parameters, async-functions] flags: [generated, async] info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } 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. ---	1372
async-meth-dflt-params-rest.js	--- description: RestParameter does not support an initializer (async method) esid: sec-async-function-definitions features: [default-parameters, async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } 14.1 Function Definitions Syntax FunctionRestParameter[Yield] : BindingRestElement[?Yield] 13.3.3 Destructuring Binding Patterns Syntax BindingRestElement[Yield] : ...BindingIdentifier[?Yield] ...BindingPattern[?Yield] ---	903
async-meth-dflt-params-trailing-comma.js	--- description: A trailing comma should not increase the respective length, using default parameters (async method) esid: sec-async-function-definitions features: [async-functions] flags: [generated, async] info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : FormalParameterList[?Yield, ?Await] , ---	1123
async-meth-escaped-async.js	--- esid: sec-grammar-notation description: > The `async` contextual keyword must not contain Unicode escape sequences. info: \| Terminal symbols are shown in fixed width font, both in the productions of the grammars and throughout this specification whenever the text directly refers to such a terminal symbol. These are to appear in a script exactly as written. All terminal symbol code points specified in this way are to be understood as the appropriate Unicode code points from the Basic Latin range, as opposed to any similar-looking code points from other Unicode ranges. negative: phase: parse type: SyntaxError features: [async-functions] ---	885
async-meth-eval-var-scope-syntax-err.js	--- description: sloppy direct eval in params introduces var (async method in sloppy code) esid: sec-async-function-definitions features: [default-parameters, async-functions] flags: [generated, async, noStrict] info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } Runtime Semantics: IteratorBindingInitialization FormalParameter : BindingElement 1. Return the result of performing IteratorBindingInitialization for BindingElement with arguments iteratorRecord and environment. ---	1187
async-meth-object-destructuring-param-strict-body.js	--- description: ObjectBindingPattern and Use Strict Directive are not allowed to coexist for the same function. (async method) esid: sec-async-function-definitions features: [rest-parameters, async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } 13.3.3.4 Static Semantics: IsSimpleParameterList BindingElement : BindingPattern 1. Return false. 14.1.2 Static Semantics: Early Errors FunctionDeclaration : function BindingIdentifier ( FormalParameters ) { FunctionBody } FunctionDeclaration : function ( FormalParameters ) { FunctionBody } FunctionExpression : function BindingIdentifier ( FormalParameters ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of FormalParameters is false. 14.2.1 Static Semantics: Early Errors ArrowFunction : ArrowParameters => ConciseBody - It is a Syntax Error if ContainsUseStrict of ConciseBody is true and IsSimpleParameterList of ArrowParameters is false. 14.3.1 Static Semantics: Early Errors MethodDefinition : PropertyName ( UniqueFormalParameters ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of UniqueFormalParameters is false. MethodDefinition : set PropertyName ( PropertySetParameterList ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of PropertySetParameterList is false. 14.4.1 Static Semantics: Early Errors GeneratorMethod : * PropertyName ( UniqueFormalParameters ) { GeneratorBody } - It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. GeneratorDeclaration : function * BindingIdentifier ( FormalParameters ) { GeneratorBody } GeneratorDeclaration : function * ( FormalParameters ) { GeneratorBody } GeneratorExpression : function * BindingIdentifier ( FormalParameters ) { GeneratorBody } - It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. 14.5.1 Static Semantics: Early Errors AsyncGeneratorMethod : async * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } - It is a Syntax Error if ContainsUseStrict of AsyncGeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. AsyncGeneratorDeclaration : async function * BindingIdentifier ( FormalParameters ) { AsyncGeneratorBody } AsyncGeneratorDeclaration : async function * ( FormalParameters ) { AsyncGeneratorBody } AsyncGeneratorExpression : async function * BindingIdentifier ( FormalParameters ) { AsyncGeneratorBody } - It is a Syntax Error if ContainsUseStrict of AsyncGeneratorBody is true and IsSimpleParameterList of FormalParameters is false. 14.7.1 Static Semantics: Early Errors AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } - It is a Syntax Error if ContainsUseStrict of AsyncFunctionBody is true and IsSimpleParameterList of UniqueFormalParameters is false. AsyncFunctionDeclaration : async function BindingIdentifier ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionDeclaration : async function ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionExpression : async function ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionExpression : async function BindingIdentifier ( FormalParameters ) { AsyncFunctionBody } - It is a Syntax Error if ContainsUseStrict of AsyncFunctionBody is true and IsSimpleParameterList of FormalParameters is false. 14.8.1 Static Semantics: Early Errors AsyncArrowFunction : CoverCallExpressionAndAsyncArrowHead => AsyncConciseBody - It is a Syntax Error if ContainsUseStrict of AsyncConciseBody is true and IsSimpleParameterList of CoverCallExpressionAndAsyncArrowHead is false. ---	4500
async-meth-params-trailing-comma-multiple.js	--- description: A trailing comma should not increase the respective length, using multiple parameters (async method) esid: sec-async-function-definitions features: [async-functions] flags: [generated, async] info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : FormalParameterList[?Yield, ?Await] , ---	1116
async-meth-params-trailing-comma-single.js	--- description: A trailing comma should not increase the respective length, using a single parameter (async method) esid: sec-async-function-definitions features: [async-functions] flags: [generated, async] info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : FormalParameterList[?Yield, ?Await] , ---	1078
async-meth-rest-param-strict-body.js	--- description: RestParameter and Use Strict Directive are not allowed to coexist for the same function. (async method) esid: sec-async-function-definitions features: [rest-parameters, async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } 14.1.13 Static Semantics: IsSimpleParameterList FormalParameters : FormalParameterList , FunctionRestParameter 1. Return false. 14.1.2 Static Semantics: Early Errors FunctionDeclaration : function BindingIdentifier ( FormalParameters ) { FunctionBody } FunctionDeclaration : function ( FormalParameters ) { FunctionBody } FunctionExpression : function BindingIdentifier ( FormalParameters ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of FormalParameters is false. 14.2.1 Static Semantics: Early Errors ArrowFunction : ArrowParameters => ConciseBody - It is a Syntax Error if ContainsUseStrict of ConciseBody is true and IsSimpleParameterList of ArrowParameters is false. 14.3.1 Static Semantics: Early Errors MethodDefinition : PropertyName ( UniqueFormalParameters ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of UniqueFormalParameters is false. MethodDefinition : set PropertyName ( PropertySetParameterList ) { FunctionBody } - It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of PropertySetParameterList is false. 14.4.1 Static Semantics: Early Errors GeneratorMethod : * PropertyName ( UniqueFormalParameters ) { GeneratorBody } - It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. GeneratorDeclaration : function * BindingIdentifier ( FormalParameters ) { GeneratorBody } GeneratorDeclaration : function * ( FormalParameters ) { GeneratorBody } GeneratorExpression : function * BindingIdentifier ( FormalParameters ) { GeneratorBody } - It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. 14.5.1 Static Semantics: Early Errors AsyncGeneratorMethod : async * PropertyName ( UniqueFormalParameters ) { AsyncGeneratorBody } - It is a Syntax Error if ContainsUseStrict of AsyncGeneratorBody is true and IsSimpleParameterList of UniqueFormalParameters is false. AsyncGeneratorDeclaration : async function * BindingIdentifier ( FormalParameters ) { AsyncGeneratorBody } AsyncGeneratorDeclaration : async function * ( FormalParameters ) { AsyncGeneratorBody } AsyncGeneratorExpression : async function * BindingIdentifier ( FormalParameters ) { AsyncGeneratorBody } - It is a Syntax Error if ContainsUseStrict of AsyncGeneratorBody is true and IsSimpleParameterList of FormalParameters is false. 14.7.1 Static Semantics: Early Errors AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } - It is a Syntax Error if ContainsUseStrict of AsyncFunctionBody is true and IsSimpleParameterList of UniqueFormalParameters is false. AsyncFunctionDeclaration : async function BindingIdentifier ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionDeclaration : async function ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionExpression : async function ( FormalParameters ) { AsyncFunctionBody } AsyncFunctionExpression : async function BindingIdentifier ( FormalParameters ) { AsyncFunctionBody } - It is a Syntax Error if ContainsUseStrict of AsyncFunctionBody is true and IsSimpleParameterList of FormalParameters is false. 14.8.1 Static Semantics: Early Errors AsyncArrowFunction : CoverCallExpressionAndAsyncArrowHead => AsyncConciseBody - It is a Syntax Error if ContainsUseStrict of AsyncConciseBody is true and IsSimpleParameterList of CoverCallExpressionAndAsyncArrowHead is false. ---	4506
async-meth-rest-params-trailing-comma-early-error.js	--- description: It's a syntax error if a FunctionRestParameter is followed by a trailing comma (async method) esid: sec-async-function-definitions features: [async-iteration] flags: [generated] negative: phase: parse type: SyntaxError info: \| 14.6 Async Function Definitions AsyncMethod : async PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } 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] ---	1012
async-returns-async-arrow-returns-arguments-from-parent-function.js	--- description: Async function returns an async function. (Async method) esid: prod-AsyncMethod features: [async-functions] flags: [generated, async] info: \| Async Function Definitions AsyncMethod : async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } ---	917
async-returns-async-arrow-returns-newtarget.js	--- description: Async function returns an async function. (Async method) esid: prod-AsyncMethod features: [async-functions] flags: [generated, async] info: \| Async Function Definitions AsyncMethod : async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } ---	871
async-returns-async-arrow.js	--- description: Async function returns an async function. (Async method) esid: prod-AsyncMethod features: [async-functions] flags: [generated, async] info: \| Async Function Definitions AsyncMethod : async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } ---	837
async-returns-async-function-returns-arguments-from-own-function.js	--- description: Async function returns an async function. (Async method) esid: prod-AsyncMethod features: [async-functions] flags: [generated, async] info: \| Async Function Definitions AsyncMethod : async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } ---	936
async-returns-async-function-returns-newtarget.js	--- description: Async function returns an async function. (Async method) esid: prod-AsyncMethod features: [async-functions] flags: [generated, async] info: \| Async Function Definitions AsyncMethod : async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } ---	892
async-returns-async-function.js	--- description: Async function returns an async function. (Async method) esid: prod-AsyncMethod features: [async-functions] flags: [generated, async] info: \| Async Function Definitions AsyncMethod : async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } ---	857
async-super-call-body.js	--- author: Brian Terlson <brian.terlson@microsoft.com> esid: pending description: > Super calls work in body of async methods flags: [async] ---	526
async-super-call-param.js	--- author: Brian Terlson <brian.terlson@microsoft.com> esid: pending description: > Super calls work in parameter list of async methods flags: [async] ---	542
browser.js		0
computed-property-name-yield-expression.js	--- description: > When the `yield` keyword occurs within the PropertyName of a non-generator MethodDefinition within a generator function, it behaves as a YieldExpression. info: \| ComputedPropertyName: [ AssignmentExpression ] AssignmentExpression[In, Yield, Await]: [+Yield]YieldExpression[?In, ?Await] features: [computed-property-names, generators] flags: [noStrict] ---	858
early-errors-object-async-method-duplicate-parameters.js	--- author: Brian Terlson <brian.terlson@microsoft.com> esid: sec-async-function-definitions description: Formal parameters may not contain duplicates info: \| # 14.7 Async Function Definitions AsyncMethod[Yield, Await]: async[no LineTerminator here]PropertyName[?Yield, ?Await](UniqueFormalParameters[~Yield, +Await]){AsyncFunctionBody} # 14.1.2 Static Semantics: Early Errors UniqueFormalParameters:FormalParameters - It is a Syntax Error if BoundNames of FormalParameters contains any duplicate elements. negative: phase: parse type: SyntaxError ---	789
early-errors-object-method-arguments-in-formal-parameters-strict.js	--- author: Brian Terlson <brian.terlson@microsoft.com> esid: pending description: It is a SyntaxError if FormalParameters contains arguments negative: phase: parse type: SyntaxError flags: [onlyStrict] features: [async-functions] ---	468
early-errors-object-method-async-lineterminator.js	--- esid: prod-AsyncMethod description: async methods cannot have a line terminator between "async" and the property name info: \| 14.6 Async Function Definitions AsyncMethod: async [no LineTerminator here] PropertyName ( UniqueFormalParameters ) { AsyncFunctionBody } negative: phase: parse type: SyntaxError ---	543
early-errors-object-method-await-in-formals-default.js	--- author: Brian Terlson <brian.terlson@microsoft.com> esid: pending description: It is a SyntaxError if FormalParameters' default expressions contains await negative: phase: parse type: SyntaxError features: [async-functions] ---	453
early-errors-object-method-await-in-formals.js	--- author: Brian Terlson <brian.terlson@microsoft.com> esid: pending description: It is a SyntaxError if FormalParameters contains await negative: phase: parse type: SyntaxError features: [async-functions] ---	427
early-errors-object-method-body-contains-super-call.js	--- author: Brian Terlson <brian.terlson@microsoft.com> esid: pending description: It is a SyntaxError if AsyncFunctionBody contains SuperCall is true negative: phase: parse type: SyntaxError features: [async-functions] ---	442
early-errors-object-method-duplicate-parameters.js	--- esid: sec-method-definitions description: Formal parameters may not contain duplicates info: \| # 14.3 Method Definitions MethodDefinition[Yield, Await]: PropertyName[?Yield, ?Await](UniqueFormalParameters[~Yield, ~Await]){FunctionBody[~Yield, ~Await]} # 14.1.2 Static Semantics: Early Errors UniqueFormalParameters:FormalParameters - It is a Syntax Error if BoundNames of FormalParameters contains any duplicate elements. negative: phase: parse type: SyntaxError ---	698
early-errors-object-method-eval-in-formal-parameters-strict.js	--- author: Brian Terlson <brian.terlson@microsoft.com> esid: pending description: It is a SyntaxError if FormalParameters contains eval in strict mode negative: phase: parse type: SyntaxError flags: [onlyStrict] features: [async-functions] ---	472
early-errors-object-method-formals-body-duplicate.js	--- author: Brian Terlson <brian.terlson@microsoft.com> esid: pending description: It is a SyntaxError if BoundNames of FormalParameters also occurs in the LexicallyDeclaredNames of AsyncFunctionBody negative: phase: parse type: SyntaxError features: [async-functions] ---	504
early-errors-object-method-formals-contains-super-call.js	--- author: Brian Terlson <brian.terlson@microsoft.com> esid: pending description: It is a syntax error if FormalParameters contains SuperCall is true negative: phase: parse type: SyntaxError ---	418
early-errors-object-method-NSPL-with-USD.js	--- author: Brian Terlson <brian.terlson@microsoft.com> esid: pending description: > It is a Syntax Error if ContainsUseStrict of AsyncConciseBody is true and IsSimpleParameterList of ArrowParameters is false. negative: phase: parse type: SyntaxError ---	481
escaped-get-e.js	--- esid: sec-grammar-notation description: > The `get` contextual keyword must not contain Unicode escape sequences. info: \| Terminal symbols of the lexical, RegExp, and numeric string grammars are shown in fixed width font, both in the productions of the grammars and throughout this specification whenever the text directly refers to such a terminal symbol. These are to appear in a script exactly as written. All terminal symbol code points specified in this way are to be understood as the appropriate Unicode code points from the Basic Latin range, as opposed to any similar-looking code points from other Unicode ranges. negative: phase: parse type: SyntaxError ---	902
escaped-get-g.js	--- esid: sec-grammar-notation description: > The `get` contextual keyword must not contain Unicode escape sequences. info: \| Terminal symbols of the lexical, RegExp, and numeric string grammars are shown in fixed width font, both in the productions of the grammars and throughout this specification whenever the text directly refers to such a terminal symbol. These are to appear in a script exactly as written. All terminal symbol code points specified in this way are to be understood as the appropriate Unicode code points from the Basic Latin range, as opposed to any similar-looking code points from other Unicode ranges. negative: phase: parse type: SyntaxError ---	902
escaped-get-t.js	--- esid: sec-grammar-notation description: > The `get` contextual keyword must not contain Unicode escape sequences. info: \| Terminal symbols of the lexical, RegExp, and numeric string grammars are shown in fixed width font, both in the productions of the grammars and throughout this specification whenever the text directly refers to such a terminal symbol. These are to appear in a script exactly as written. All terminal symbol code points specified in this way are to be understood as the appropriate Unicode code points from the Basic Latin range, as opposed to any similar-looking code points from other Unicode ranges. negative: phase: parse type: SyntaxError ---	902
escaped-get.js	--- esid: sec-grammar-notation description: > The `get` contextual keyword must not contain Unicode escape sequences. info: \| Terminal symbols are shown in fixed width font, both in the productions of the grammars and throughout this specification whenever the text directly refers to such a terminal symbol. These are to appear in a script exactly as written. All terminal symbol code points specified in this way are to be understood as the appropriate Unicode code points from the Basic Latin range, as opposed to any similar-looking code points from other Unicode ranges. negative: phase: parse type: SyntaxError ---	862
escaped-set-e.js	--- esid: sec-grammar-notation description: > The `set` contextual keyword must not contain Unicode escape sequences. info: \| Terminal symbols of the lexical, RegExp, and numeric string grammars are shown in fixed width font, both in the productions of the grammars and throughout this specification whenever the text directly refers to such a terminal symbol. These are to appear in a script exactly as written. All terminal symbol code points specified in this way are to be understood as the appropriate Unicode code points from the Basic Latin range, as opposed to any similar-looking code points from other Unicode ranges. negative: phase: parse type: SyntaxError ---	903
escaped-set-s.js	--- esid: sec-grammar-notation description: > The `set` contextual keyword must not contain Unicode escape sequences. info: \| Terminal symbols of the lexical, RegExp, and numeric string grammars are shown in fixed width font, both in the productions of the grammars and throughout this specification whenever the text directly refers to such a terminal symbol. These are to appear in a script exactly as written. All terminal symbol code points specified in this way are to be understood as the appropriate Unicode code points from the Basic Latin range, as opposed to any similar-looking code points from other Unicode ranges. negative: phase: parse type: SyntaxError ---	903
escaped-set-t.js	--- esid: sec-grammar-notation description: > The `set` contextual keyword must not contain Unicode escape sequences. info: \| Terminal symbols of the lexical, RegExp, and numeric string grammars are shown in fixed width font, both in the productions of the grammars and throughout this specification whenever the text directly refers to such a terminal symbol. These are to appear in a script exactly as written. All terminal symbol code points specified in this way are to be understood as the appropriate Unicode code points from the Basic Latin range, as opposed to any similar-looking code points from other Unicode ranges. negative: phase: parse type: SyntaxError ---	903
escaped-set.js	--- esid: sec-grammar-notation description: > The `set` contextual keyword must not contain Unicode escape sequences. info: \| Terminal symbols are shown in fixed width font, both in the productions of the grammars and throughout this specification whenever the text directly refers to such a terminal symbol. These are to appear in a script exactly as written. All terminal symbol code points specified in this way are to be understood as the appropriate Unicode code points from the Basic Latin range, as opposed to any similar-looking code points from other Unicode ranges. negative: phase: parse type: SyntaxError ---	863
fn-name-fn.js	--- es6id: 12.2.6.9 description: Assignment of function `name` attribute (MethodDefinition) info: \| 6. If IsAnonymousFunctionDefinition(AssignmentExpression) is true, then a. Let hasNameProperty be HasOwnProperty(propValue, "name"). b. ReturnIfAbrupt(hasNameProperty). c. If hasNameProperty is false, perform SetFunctionName(propValue, propKey). includes: [propertyHelper.js] features: [Symbol] ---	1079
fn-name-gen.js	--- es6id: 14.4.13 description: > Assignment of function `name` attribute (GeneratorMethod) info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } [...] 9. Perform SetFunctionName(closure, propKey). includes: [propertyHelper.js] features: [generators, Symbol] ---	968
forbidden-ext
gen-meth-array-destructuring-param-strict-body.js		5598
gen-meth-dflt-params-abrupt.js	--- description: Abrupt completion returned by evaluation of initializer (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [default-parameters, generators] flags: [generated] info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2351
gen-meth-dflt-params-arg-val-not-undefined.js	--- description: Use of initializer when argument value is not `undefined` (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [default-parameters, generators] flags: [generated] info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. [...] ---	3234
gen-meth-dflt-params-arg-val-undefined.js	--- description: Use of initializer when argument value is `undefined` (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [default-parameters, generators] flags: [generated] info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. [...] ---	2497
gen-meth-dflt-params-duplicates.js	--- description: It is a Syntax Error if BoundNames of FormalParameters contains any duplicate elements. (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [default-parameters, generators] flags: [generated] negative: phase: parse type: SyntaxError info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2185
gen-meth-dflt-params-ref-later.js	--- description: Referencing a parameter that occurs later in the ParameterList (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [default-parameters, generators] flags: [generated] info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2334
gen-meth-dflt-params-ref-prior.js	--- description: Referencing a parameter that occurs earlier in the ParameterList (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [default-parameters, generators] flags: [generated] info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2530
gen-meth-dflt-params-ref-self.js	--- description: Referencing a parameter from within its own initializer (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [default-parameters, generators] flags: [generated] info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2323
gen-meth-dflt-params-rest.js	--- description: RestParameter does not support an initializer (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [default-parameters, generators] flags: [generated] negative: phase: parse type: SyntaxError info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 14.1 Function Definitions Syntax FunctionRestParameter[Yield] : BindingRestElement[?Yield] 13.3.3 Destructuring Binding Patterns Syntax BindingRestElement[Yield] : ...BindingIdentifier[?Yield] ...BindingPattern[?Yield] ---	2004
gen-meth-dflt-params-trailing-comma.js	--- description: A trailing comma should not increase the respective length, using default parameters (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [generators] flags: [generated] info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : FormalParameterList[?Yield, ?Await] , ---	2196
gen-meth-eval-var-scope-syntax-err.js	--- description: sloppy direct eval in params introduces var (generator method in sloppy code) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [default-parameters, generators] flags: [generated, noStrict] info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] Runtime Semantics: IteratorBindingInitialization FormalParameter : BindingElement 1. Return the result of performing IteratorBindingInitialization for BindingElement with arguments iteratorRecord and environment. ---	2138
gen-meth-object-destructuring-param-strict-body.js		5601
gen-meth-params-trailing-comma-multiple.js	--- description: A trailing comma should not increase the respective length, using multiple parameters (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [generators] flags: [generated] info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : FormalParameterList[?Yield, ?Await] , ---	2189
gen-meth-params-trailing-comma-single.js	--- description: A trailing comma should not increase the respective length, using a single parameter (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [generators] flags: [generated] info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : FormalParameterList[?Yield, ?Await] , ---	2151
gen-meth-rest-param-strict-body.js		5607
gen-meth-rest-params-trailing-comma-early-error.js	--- description: It's a syntax error if a FunctionRestParameter is followed by a trailing comma (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation features: [generators] flags: [generated] negative: phase: parse type: SyntaxError info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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] ---	2113
gen-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. (Generator method) esid: prod-GeneratorMethod features: [generators] flags: [generated] negative: phase: parse type: SyntaxError info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName[?Yield, ?Await] ( UniqueFormalParameters[+Yield, ~Await] ) { GeneratorBody } BindingIdentifier : Identifier It is a Syntax Error if this production has a [Yield] parameter and StringValue of Identifier is "yield". ---	878
gen-yield-as-binding-identifier.js	--- description: yield is a reserved keyword within generator function bodies and may not be used as a binding identifier. (Generator method) esid: prod-GeneratorMethod features: [generators] flags: [generated] negative: phase: parse type: SyntaxError info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName[?Yield, ?Await] ( UniqueFormalParameters[+Yield, ~Await] ) { GeneratorBody } BindingIdentifier : Identifier It is a Syntax Error if this production has a [Yield] parameter and StringValue of Identifier is "yield". ---	865
gen-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. (Generator method) esid: prod-GeneratorMethod features: [generators] flags: [generated] negative: phase: parse type: SyntaxError info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName[?Yield, ?Await] ( UniqueFormalParameters[+Yield, ~Await] ) { GeneratorBody } IdentifierReference : Identifier It is a Syntax Error if this production has a [Yield] parameter and StringValue of Identifier is "yield". ---	886
gen-yield-as-identifier-reference.js	--- description: yield is a reserved keyword within generator function bodies and may not be used as an identifier reference. (Generator method) esid: prod-GeneratorMethod features: [generators] flags: [generated] negative: phase: parse type: SyntaxError info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName[?Yield, ?Await] ( UniqueFormalParameters[+Yield, ~Await] ) { GeneratorBody } IdentifierReference : Identifier It is a Syntax Error if this production has a [Yield] parameter and StringValue of Identifier is "yield". ---	873
gen-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. (Generator method) esid: prod-GeneratorMethod features: [generators] flags: [generated] negative: phase: parse type: SyntaxError info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName[?Yield, ?Await] ( UniqueFormalParameters[+Yield, ~Await] ) { GeneratorBody } LabelIdentifier : Identifier It is a Syntax Error if this production has a [Yield] parameter and StringValue of Identifier is "yield". ---	870
gen-yield-as-label-identifier.js	--- description: yield is a reserved keyword within generator function bodies and may not be used as a label identifier. (Generator method) esid: prod-GeneratorMethod features: [generators] flags: [generated] negative: phase: parse type: SyntaxError info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName[?Yield, ?Await] ( UniqueFormalParameters[+Yield, ~Await] ) { GeneratorBody } LabelIdentifier : Identifier It is a Syntax Error if this production has a [Yield] parameter and StringValue of Identifier is "yield". ---	857
gen-yield-identifier-non-strict.js	--- description: Use of yield as a valid identifier in a function body inside a generator body in non strict mode (Generator method - valid for non-strict only cases) esid: prod-GeneratorMethod features: [generators] flags: [generated, noStrict] info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName ( UniqueFormalParameters ) { GeneratorBody } ---	1023
gen-yield-identifier-spread-non-strict.js	--- description: Mixed use of object spread and yield as a valid identifier in a function body inside a generator body in non strict mode (Generator method - valid for non-strict only cases) esid: prod-GeneratorMethod features: [Symbol, object-spread, generators] flags: [generated, noStrict] info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName ( UniqueFormalParameters ) { GeneratorBody } Spread Properties PropertyDefinition[Yield]: (...) ...AssignmentExpression[In, ?Yield] ---	1635
gen-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. (Generator method) esid: prod-GeneratorMethod features: [object-spread, generators] flags: [generated, onlyStrict] negative: phase: parse type: SyntaxError info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName[?Yield, ?Await] ( UniqueFormalParameters[+Yield, ~Await] ) { GeneratorBody } Spread Properties PropertyDefinition[Yield]: (...) ...AssignmentExpression[In, ?Yield] ---	1082
gen-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. (Generator method) esid: prod-GeneratorMethod features: [generators] flags: [generated, onlyStrict] negative: phase: parse type: SyntaxError info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName[?Yield, ?Await] ( UniqueFormalParameters[+Yield, ~Await] ) { GeneratorBody } ---	910
gen-yield-spread-arr-multiple.js	--- description: Use yield value in a array spread position (Generator method) esid: prod-GeneratorMethod features: [generators] flags: [generated] includes: [compareArray.js] info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName[?Yield, ?Await] ( UniqueFormalParameters[+Yield, ~Await] ) { GeneratorBody } Array Initializer SpreadElement[Yield, Await]: ...AssignmentExpression[+In, ?Yield, ?Await] ---	1022
gen-yield-spread-arr-single.js	--- description: Use yield value in a array spread position (Generator method) esid: prod-GeneratorMethod features: [generators] flags: [generated] info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName[?Yield, ?Await] ( UniqueFormalParameters[+Yield, ~Await] ) { GeneratorBody } Array Initializer SpreadElement[Yield, Await]: ...AssignmentExpression[+In, ?Yield, ?Await] ---	1178
gen-yield-spread-obj.js	--- description: Use yield value in a object spread position (Generator method) esid: prod-GeneratorMethod features: [object-spread, generators] flags: [generated] info: \| 14.4 Generator Function Definitions GeneratorMethod[Yield, Await]: PropertyName[?Yield, ?Await] ( UniqueFormalParameters[+Yield, ~Await] ) { GeneratorBody } Spread Properties PropertyDefinition[Yield]: (...) ...AssignmentExpression[In, ?Yield] ---	1111
generator-invoke-ctor.js	--- description: > Generator functions declared as methods cannot be used as constructors. es6id: 14.4.13 features: [generators] ---	415
generator-invoke-fn-no-strict.js	--- description: > In the absence of the "use strict" directive, generator functions declared as methods obey "global" ThisMode semantics. es6id: 14.4.13 flags: [noStrict] features: [generators] ---	562
generator-invoke-fn-strict.js	--- description: > In the presence of the "use strict" directive, generator functions declared as methods obey "strict" ThisMode semantics. es6id: 14.4.13 flags: [noStrict] features: [generators] ---	538
generator-length-dflt.js	--- es6id: 14.1.6 description: > Default parameters' effect on function length info: \| Function length is counted by the non initialized parameters in the left. 9.2.4 FunctionInitialize (F, kind, ParameterList, Body, Scope) [...] 2. Let len be the ExpectedArgumentCount of ParameterList. 3. Perform ! DefinePropertyOrThrow(F, "length", PropertyDescriptor{[[Value]]: len, [[Writable]]: false, [[Enumerable]]: false, [[Configurable]]: true}). [...] FormalsList : FormalParameter 1. If HasInitializer of FormalParameter is true return 0 2. Return 1. FormalsList : FormalsList , FormalParameter 1. Let count be the ExpectedArgumentCount of FormalsList. 2. If HasInitializer of FormalsList is true or HasInitializer of FormalParameter is true, return count. 3. Return count+1. features: [generators, default-parameters] includes: [propertyHelper.js] ---	1643
generator-length.js	--- description: > Generator functions declared as methods have a `length` property that describes the number of formal parameters. es6id: 14.4.13 includes: [propertyHelper.js] features: [generators] ---	537
generator-name-prop-string.js	--- description: > Generator functions declared as methods are assigned a `name` property according to the string value of their property name. es6id: 14.4.13 includes: [propertyHelper.js] features: [generators] ---	547
generator-name-prop-symbol.js	--- description: > Generator functions declared as methods are assigned a `name` property according to the string value of their property name. es6id: 14.4.13 includes: [propertyHelper.js] features: [Symbol, generators] ---	576
generator-no-yield.js	--- description: > Generators declared with GeneratorMethod syntax do not require a `yield` expression. features: [generators] es6id: 14.4 ---	467
generator-param-id-yield.js	--- description: > The BindingIdentifier of a SingleNameBinding witihn the FormalParameters of a GeneratorMethod may not be the `yield` keyword. es6id: 14.4 features: [generators] flags: [noStrict] negative: phase: parse type: SyntaxError ---	476
generator-param-init-yield.js	--- description: > The Initializer of a SingleNameBinding witihn the FormalParameters of a GeneratorMethod may not contain the `yield` keyword. es6id: 14.4 features: [generators] flags: [noStrict] negative: phase: parse type: SyntaxError ---	504
generator-param-redecl-const.js	--- info: \| GeneratorMethod early SyntaxError when lexical declaration inside generator shadows parameter name features: [generators] es6id: 14.4.1 author: Sam Mikes description: GeneratorMethod error with lexical shadowing negative: phase: parse type: SyntaxError ---	475
generator-param-redecl-let.js	--- info: \| GeneratorMethod early SyntaxError when lexical declaration inside generator shadows parameter name features: [generators] es6id: 14.4.1 author: Sam Mikes description: GeneratorMethod error with lexical shadowing negative: phase: parse type: SyntaxError ---	473
generator-params.js	--- description: > Generator functions declared as methods honor their declared formal parameters. es6id: 14.4.13 features: [generators] ---	611
generator-prop-name-eval-error.js	--- description: > Errors thrown during method definition are forwarded to the runtime. es6id: 14.4.13 features: [generators] ---	413
generator-prop-name-yield-expr.js	--- description: > When the `yield` keyword occurs within the PropertyName of a GeneratorMethod within a generator function, it behaves as a YieldExpression. es6id: 14.4 features: [generators] flags: [noStrict] ---	874
generator-prop-name-yield-id.js	--- description: > When the `yield` keyword occurs within the PropertyName of a GeneratorMethod outside of a generator function, it behaves as an Identifier. es6id: 14.4 features: [generators] flags: [noStrict] ---	574
generator-property-desc.js	--- description: > Generator functions declared as methods are defined as enumerable, writable, configurable properties on the initialized object. es6id: 14.4.13 includes: [propertyHelper.js] features: [generators] ---	518
generator-prototype-prop.js	--- description: > Generator functions declared as methods define a `prototype` property. es6id: 14.4.13 includes: [propertyHelper.js] features: [generators] ---	636
generator-prototype.js	--- description: > The prototype of generator functions declared as methods is the Generator Prototype. es6id: 14.4.13 features: [generators] ---	446
generator-return.js	--- description: > `return` is a valid statement within generator function bodies. features: [generators] es6id: 14.4 ---	568
generator-super-call-body.js	--- info: \| GeneratorMethod early SyntaxError when super is called directly inside generator body features: [generators] es6id: 14.4.1 author: Sam Mikes description: GeneratorMethod error if HasDirectSuper in body negative: phase: parse type: SyntaxError ---	461
generator-super-call-param.js	--- info: \| GeneratorMethod early SyntaxError when super is called directly inside generator args features: [generators] es6id: 14.4.1 author: Sam Mikes description: GeneratorMethod error if HasDirectSuper in args negative: phase: parse type: SyntaxError ---	454
generator-super-prop-body.js	--- info: \| GeneratorMethod can reference SuperProperty in body features: [generators] es6id: 14.4.1 author: Sam Mikes description: GeneratorMethod body uses SuperProperty (allowed) ---	462
generator-super-prop-param.js	--- info: \| GeneratorMethod can reference SuperProperty in default parameters es6id: 14.4.1 author: Sam Mikes description: GeneratorMethod uses SuperProperty (allowed) features: [default-parameters, generators, super] ---	493
generator-use-strict-with-non-simple-param.js	--- esid: sec-generator-function-definitions-static-semantics-early-errors description: > A SyntaxError is thrown if a generator method contains a non-simple parameter list and a UseStrict directive. info: \| Static Semantics: Early Errors It is a Syntax Error if ContainsUseStrict of GeneratorBody is true and IsSimpleParameterList of StrictFormalParameters is false. negative: phase: parse type: SyntaxError features: [generators] ---	682
meth-array-destructuring-param-strict-body.js		5357
meth-dflt-params-abrupt.js	--- description: Abrupt completion returned by evaluation of initializer (method) esid: sec-runtime-semantics-definemethod features: [default-parameters] flags: [generated] info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2100
meth-dflt-params-arg-val-not-undefined.js	--- description: Use of initializer when argument value is not `undefined` (method) esid: sec-runtime-semantics-definemethod features: [default-parameters] flags: [generated] info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. [...] ---	2976
meth-dflt-params-arg-val-undefined.js	--- description: Use of initializer when argument value is `undefined` (method) esid: sec-runtime-semantics-definemethod features: [default-parameters] flags: [generated] info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. [...] ---	2239
meth-dflt-params-duplicates.js	--- description: It is a Syntax Error if BoundNames of FormalParameters contains any duplicate elements. (method) esid: sec-runtime-semantics-definemethod features: [default-parameters] flags: [generated] negative: phase: parse type: SyntaxError info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	1944
meth-dflt-params-ref-later.js	--- description: Referencing a parameter that occurs later in the ParameterList (method) esid: sec-runtime-semantics-definemethod features: [default-parameters] flags: [generated] info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2083
meth-dflt-params-ref-prior.js	--- description: Referencing a parameter that occurs earlier in the ParameterList (method) esid: sec-runtime-semantics-definemethod features: [default-parameters] flags: [generated] info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2272
meth-dflt-params-ref-self.js	--- description: Referencing a parameter from within its own initializer (method) esid: sec-runtime-semantics-definemethod features: [default-parameters] flags: [generated] info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2072
meth-dflt-params-rest.js	--- description: RestParameter does not support an initializer (method) esid: sec-runtime-semantics-definemethod features: [default-parameters] flags: [generated] negative: phase: parse type: SyntaxError info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 14.1 Function Definitions Syntax FunctionRestParameter[Yield] : BindingRestElement[?Yield] 13.3.3 Destructuring Binding Patterns Syntax BindingRestElement[Yield] : ...BindingIdentifier[?Yield] ...BindingPattern[?Yield] ---	1763
meth-dflt-params-trailing-comma.js	--- description: A trailing comma should not increase the respective length, using default parameters (method) esid: sec-runtime-semantics-definemethod flags: [generated] info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : FormalParameterList[?Yield, ?Await] , ---	1927
meth-eval-var-scope-syntax-err.js	--- description: sloppy direct eval in params introduces var (method in sloppy code) esid: sec-runtime-semantics-definemethod features: [default-parameters] flags: [generated, noStrict] info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] Runtime Semantics: IteratorBindingInitialization FormalParameter : BindingElement 1. Return the result of performing IteratorBindingInitialization for BindingElement with arguments iteratorRecord and environment. ---	1887
meth-object-destructuring-param-strict-body.js		5360
meth-params-trailing-comma-multiple.js	--- description: A trailing comma should not increase the respective length, using multiple parameters (method) esid: sec-runtime-semantics-definemethod flags: [generated] info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : FormalParameterList[?Yield, ?Await] , ---	1920
meth-params-trailing-comma-single.js	--- description: A trailing comma should not increase the respective length, using a single parameter (method) esid: sec-runtime-semantics-definemethod flags: [generated] info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] Trailing comma in the parameters list 14.1 Function Definitions FormalParameters[Yield, Await] : FormalParameterList[?Yield, ?Await] , ---	1882
meth-rest-param-strict-body.js		5366
meth-rest-params-trailing-comma-early-error.js	--- description: It's a syntax error if a FunctionRestParameter is followed by a trailing comma (method) esid: sec-runtime-semantics-definemethod flags: [generated] negative: phase: parse type: SyntaxError info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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] ---	1861
name-invoke-ctor.js	--- description: > Functions declared as methods may not be used as constructors. es6id: 14.3.8 ---	359
name-invoke-fn-no-strict.js	--- description: > In the absence of the "use strict" directive, functions declared as methods obey "global" ThisMode semantics. es6id: 14.3.8 flags: [noStrict] ---	520
name-invoke-fn-strict.js	--- description: > In the presence of the "use strict" directive, functions declared as methods obey "strict" ThisMode semantics. es6id: 14.3.8 flags: [noStrict] ---	496
name-length-dflt.js	--- es6id: 14.1.6 description: > Default parameters' effect on function length info: \| Function length is counted by the non initialized parameters in the left. 9.2.4 FunctionInitialize (F, kind, ParameterList, Body, Scope) [...] 2. Let len be the ExpectedArgumentCount of ParameterList. 3. Perform ! DefinePropertyOrThrow(F, "length", PropertyDescriptor{[[Value]]: len, [[Writable]]: false, [[Enumerable]]: false, [[Configurable]]: true}). [...] FormalsList : FormalParameter 1. If HasInitializer of FormalParameter is true return 0 2. Return 1. FormalsList : FormalsList , FormalParameter 1. Let count be the ExpectedArgumentCount of FormalsList. 2. If HasInitializer of FormalsList is true or HasInitializer of FormalParameter is true, return count. 3. Return count+1. features: [default-parameters] includes: [propertyHelper.js] ---	1627
name-length.js	--- description: > Functions declared as methods have a `length` property that describes the number of formal parameters. es6id: 14.3.8 includes: [propertyHelper.js] ---	502
name-name-prop-string.js	--- description: > Functions declared as methods are assigned a `name` property according to the string value of their property name. es6id: 14.3.8 includes: [propertyHelper.js] ---	512
name-name-prop-symbol.js	--- description: > Functions declared as methods are assigned a `name` property according to the string value of their property name. es6id: 14.3.8 includes: [propertyHelper.js] features: [Symbol] ---	552
name-param-id-yield.js	--- description: > The BindingIdentifier of a SingleNameBinding witihn the FormalParameters of a non-generator MethodDefinition may be the `yield` keyword. es6id: 14.3 flags: [noStrict] ---	465
name-param-init-yield.js	--- description: > When the `yield` keyword occurs within the Initializer of a SingleNameBinding within the FormalParameters of a non-generator MethodDefinition, it behaves as an Identifier. es6id: 14.3 flags: [noStrict] ---	526
name-param-redecl.js	--- description: > It is a Syntax Error if any element of the BoundNames of StrictFormalParameters also occurs in the LexicallyDeclaredNames of FunctionBody. es6id: 14.3.1 negative: phase: parse type: SyntaxError ---	479
name-params.js	--- description: > Functions declared as methods honor their declared formal parameters. es6id: 14.3.8 ---	565
name-prop-name-eval-error.js	--- description: > Errors thrown during method definition are forwarded to the runtime. es6id: 14.3.8 ---	388
name-prop-name-yield-expr.js	--- description: > When the `yield` keyword occurs within the PropertyName of a non-generator MethodDefinition within a generator function, it behaves as a YieldExpression. es6id: 14.3 features: [generators] flags: [noStrict] ---	888
name-prop-name-yield-id.js	--- description: > When the `yield` keyword occurs within the PropertyName of a non-generator MethodDefinition outside of a generator function, it behaves as an Identifier. es6id: 14.3 flags: [noStrict] ---	565
name-property-desc.js	--- description: > Functions declared as methods are defined as enumerable, writable, configurable properties on the initialized object. es6id: 14.3.8 includes: [propertyHelper.js] ---	483
name-prototype-prop.js	--- description: > Functions declared as methods do not define a `prototype` property. es6id: 14.3.9 ---	457
name-prototype.js	--- description: > The prototype of functions declared as methods is the Function prototype. es6id: 14.3.8 ---	381
name-super-call-body.js	--- description: > It is a Syntax Error if HasDirectSuper of MethodDefinition is true. esid: sec-object-initializer-static-semantics-early-errors negative: phase: parse type: SyntaxError ---	430
name-super-call-param.js	--- description: > It is a Syntax Error if HasDirectSuper of MethodDefinition is true. esid: sec-object-initializer-static-semantics-early-errors negative: phase: parse type: SyntaxError ---	429
name-super-prop-body.js	--- description: > The HomeObject of Functions declared as methods is the Object prototype. es6id: 14.3.8 features: [super] ---	439
name-super-prop-param.js	--- description: > The HomeObject of Functions declared as methods is the Object prototype. es6id: 14.3.8 features: [super] ---	444
object-method-returns-promise.js	--- author: Brian Terlson <brian.terlson@microsoft.com> esid: pending description: > Async function method definitions return promises features: [async-functions] ---	453
params-dflt-gen-meth-args-unmapped.js	--- description: Referencing the arguments object from a default parameter (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation es6id: 14.4.13 features: [generators, default-parameters] info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2898
params-dflt-gen-meth-ref-arguments.js	--- description: Referencing the arguments object from a default parameter (generator method) esid: sec-generator-function-definitions-runtime-semantics-propertydefinitionevaluation es6id: 14.4.13 features: [generators, default-parameters] info: \| GeneratorMethod : PropertyName ( StrictFormalParameters ) { GeneratorBody } 1. Let propKey be the result of evaluating PropertyName. 2. ReturnIfAbrupt(propKey). 3. If the function code for this GeneratorMethod 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 GeneratorFunctionCreate(Method, StrictFormalParameters, GeneratorBody, scope, strict). [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2468
params-dflt-meth-args-unmapped.js	--- description: Referencing the arguments object from a default parameter (method) esid: sec-runtime-semantics-definemethod es6id: 14.3.8 features: [default-parameters] info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2645
params-dflt-meth-ref-arguments.js	--- description: Referencing the arguments object from a default parameter (method) esid: sec-runtime-semantics-definemethod es6id: 14.3.8 features: [default-parameters] info: \| MethodDefinition : PropertyName ( StrictFormalParameters ) { FunctionBody } [...] 6. Let closure be FunctionCreate(kind, StrictFormalParameters, FunctionBody, scope, strict). If functionPrototype was passed as a parameter then pass its value as the functionPrototype optional argument of FunctionCreate. [...] 9.2.1 [[Call]] ( thisArgument, argumentsList) [...] 7. Let result be OrdinaryCallEvaluateBody(F, argumentsList). [...] 9.2.1.3 OrdinaryCallEvaluateBody ( F, argumentsList ) 1. Let status be FunctionDeclarationInstantiation(F, argumentsList). [...] 9.2.12 FunctionDeclarationInstantiation(func, argumentsList) [...] 23. Let iteratorRecord be Record {[[iterator]]: CreateListIterator(argumentsList), [[done]]: false}. 24. If hasDuplicates is true, then [...] 25. Else, b. Let formalStatus be IteratorBindingInitialization for formals with iteratorRecord and env as arguments. [...] 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. ---	2214
private-name-early-error-async-fn-inside-class.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > Throws an early SyntaxError if a method definition has a private name even inside a class body (async method). info: \| Static Semantics: Early Errors PropertyDefinition : MethodDefinition It is a Syntax Error if PrivateBoundNames of MethodDefinition is non-empty. negative: phase: parse type: SyntaxError features: [class-methods-private, async-functions, class, class-fields-public] ---	711
private-name-early-error-async-fn.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > Throws an early SyntaxError if a method definition has a private name (async method). info: \| Static Semantics: Early Errors PropertyDefinition : MethodDefinition It is a Syntax Error if PrivateBoundNames of MethodDefinition is non-empty. negative: phase: parse type: SyntaxError features: [class-methods-private, async-functions] ---	641
private-name-early-error-async-gen-inside-class.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > Throws an early SyntaxError if a method definition has a private name even inside a class body. (async generator) info: \| Static Semantics: Early Errors PropertyDefinition : MethodDefinition It is a Syntax Error if PrivateBoundNames of MethodDefinition is non-empty. negative: phase: parse type: SyntaxError features: [class-methods-private, async-iteration, class, class-fields-public] ---	716
private-name-early-error-async-gen.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > Throws an early SyntaxError if a method definition has a private name. (async generator) info: \| Static Semantics: Early Errors PropertyDefinition : MethodDefinition It is a Syntax Error if PrivateBoundNames of MethodDefinition is non-empty. negative: phase: parse type: SyntaxError features: [class-methods-private, async-iteration] ---	646
private-name-early-error-gen-inside-class.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > Throws an early SyntaxError if a method definition has a private name even inside a class body. (generator) info: \| Static Semantics: Early Errors PropertyDefinition : MethodDefinition It is a Syntax Error if PrivateBoundNames of MethodDefinition is non-empty. negative: phase: parse type: SyntaxError features: [class-methods-private, generators, class, class-fields-public] ---	699
private-name-early-error-gen.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > Throws an early SyntaxError if a method definition has a private name. (generator) info: \| Static Semantics: Early Errors PropertyDefinition : MethodDefinition It is a Syntax Error if PrivateBoundNames of MethodDefinition is non-empty. negative: phase: parse type: SyntaxError features: [class-methods-private, generators] ---	629
private-name-early-error-get-method-inside-class.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > Throws an early SyntaxError if a method definition has a private name even inside a class body. (getter method) info: \| Static Semantics: Early Errors PropertyDefinition : MethodDefinition It is a Syntax Error if PrivateBoundNames of MethodDefinition is non-empty. negative: phase: parse type: SyntaxError features: [class-methods-private, class, class-fields-public] ---	693
private-name-early-error-get-method.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > Throws an early SyntaxError if a method definition has a private name. (getter method) info: \| Static Semantics: Early Errors PropertyDefinition : MethodDefinition It is a Syntax Error if PrivateBoundNames of MethodDefinition is non-empty. negative: phase: parse type: SyntaxError features: [class-methods-private] ---	623
private-name-early-error-method-inside-class.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > Throws an early SyntaxError if a method definition has a private name even inside a class body. (ordinary method) info: \| Static Semantics: Early Errors PropertyDefinition : MethodDefinition It is a Syntax Error if PrivateBoundNames of MethodDefinition is non-empty. negative: phase: parse type: SyntaxError features: [class-methods-private, class, class-fields-public] ---	691
private-name-early-error-method.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > Throws an early SyntaxError if a method definition has a private name. (ordinary method) info: \| Static Semantics: Early Errors PropertyDefinition : MethodDefinition It is a Syntax Error if PrivateBoundNames of MethodDefinition is non-empty. negative: phase: parse type: SyntaxError features: [class-methods-private] ---	621
private-name-early-error-set-method-inside-class.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > Throws an early SyntaxError if a method definition has a private name even inside a class body. (getter method) info: \| Static Semantics: Early Errors PropertyDefinition : MethodDefinition It is a Syntax Error if PrivateBoundNames of MethodDefinition is non-empty. negative: phase: parse type: SyntaxError features: [class-methods-private, class, class-fields-public] ---	694
private-name-early-error-set-method.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > Throws an early SyntaxError if a method definition has a private name. (getter method) info: \| Static Semantics: Early Errors PropertyDefinition : MethodDefinition It is a Syntax Error if PrivateBoundNames of MethodDefinition is non-empty. negative: phase: parse type: SyntaxError features: [class-methods-private] ---	624
setter-use-strict-with-non-simple-param.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > A SyntaxError is thrown if a setter method contains a non-simple parameter list and a UseStrict directive. info: \| Static Semantics: Early Errors It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of PropertySetParameterList is false. negative: phase: parse type: SyntaxError ---	648
shell.js		0
static-init-await-binding-accessor.js	--- esid: sec-class-definitions-static-semantics-early-errors description: The `await` keyword is interpreted as an identifier within the body of accessor methods info: \| ClassStaticBlockBody : ClassStaticBlockStatementList [...] - It is a Syntax Error if ContainsAwait of ClassStaticBlockStatementList is true. features: [class-static-block] ---	578
static-init-await-binding-generator.js	--- esid: sec-class-definitions-static-semantics-early-errors description: The `await` keyword is interpreted as an identifier within the parameter list of generator methods info: \| ClassStaticBlockBody : ClassStaticBlockStatementList [...] - It is a Syntax Error if ContainsAwait of ClassStaticBlockStatementList is true. features: [class-static-block] ---	584
static-init-await-binding-normal.js	--- esid: sec-class-definitions-static-semantics-early-errors description: The `await` keyword is interpreted as an identifier within the parameter list of methods info: \| ClassStaticBlockBody : ClassStaticBlockStatementList [...] - It is a Syntax Error if ContainsAwait of ClassStaticBlockStatementList is true. features: [class-static-block] ---	573
static-init-await-reference-accessor.js	--- esid: sec-class-definitions-static-semantics-early-errors description: The `await` keyword is interpreted as an identifier within accessor methods info: \| ClassStaticBlockBody : ClassStaticBlockStatementList [...] - It is a Syntax Error if ContainsAwait of ClassStaticBlockStatementList is true. features: [class-static-block] ---	784
static-init-await-reference-generator.js	--- esid: sec-class-definitions-static-semantics-early-errors description: The `await` keyword is interpreted as an identifier within generator methods info: \| ClassStaticBlockBody : ClassStaticBlockStatementList [...] - It is a Syntax Error if ContainsAwait of ClassStaticBlockStatementList is true. features: [class-static-block] ---	775
static-init-await-reference-normal.js	--- esid: sec-class-definitions-static-semantics-early-errors description: The `await` keyword is interpreted as an identifier within methods info: \| ClassStaticBlockBody : ClassStaticBlockStatementList [...] - It is a Syntax Error if ContainsAwait of ClassStaticBlockStatementList is true. features: [class-static-block] ---	757
use-strict-with-non-simple-param.js	--- esid: sec-method-definitions-static-semantics-early-errors description: > A SyntaxError is thrown if a method contains a non-simple parameter list and a UseStrict directive. info: \| Static Semantics: Early Errors It is a Syntax Error if ContainsUseStrict of FunctionBody is true and IsSimpleParameterList of StrictFormalParameters is false. negative: phase: parse type: SyntaxError ---	636
yield-as-expression-with-rhs.js	--- description: > `yield` is a valid expression within generator function bodies. features: [generators] es6id: 14.4 ---	3057
yield-as-expression-without-rhs.js	--- description: > `yield` is a valid expression within generator function bodies. features: [generators] es6id: 14.4 ---	3117
yield-as-function-expression-binding-identifier.js	--- description: > `yield` may be used as the binding identifier of a function expression within generator bodies. features: [generators] es6id: 14.1 flags: [noStrict] ---	520
yield-as-generator-method-binding-identifier.js	--- description: > `yield` is a valid BindingIdentifier for GeneratorMethods features: [generators] es6id: 12.1.1 ---	833
yield-as-identifier-in-nested-function.js	--- description: > `yield` is not a reserved keyword within normal function bodies declared within generator function bodies. features: [generators] es6id: 12.1.1 flags: [noStrict] ---	547
yield-as-literal-property-name.js	--- description: > `yield` may be used as a literal property name in an object literal within generator function bodies. features: [generators] es6id: 12.1.1 ---	518
yield-as-logical-or-expression.js	--- description: > `yield` expressions are not LogicalOrExpressions. features: [generators] es6id: 12.1.1 negative: phase: parse type: SyntaxError ---	408
yield-as-parameter.js	--- description: > `yield` is a reserved keyword within generator function bodies and may not be used as the binding identifier of a parameter. features: [generators] es6id: 12.1.1 negative: phase: parse type: SyntaxError ---	462
yield-as-property-name.js	--- description: > `yield` may be used as a literal property name in an object literal within generator function bodies. features: [generators] es6id: 12.1.1 ---	503
yield-as-statement.js	--- description: > `yield` is a valid statement within generator function bodies. features: [generators] es6id: 14.4 ---	1237
yield-as-yield-operand.js	--- description: > `yield` expressions may be used as the right-hand-side of other `yield` expressions. features: [generators] es6id: 14.4 ---	859
yield-newline.js	--- description: > Newlines terminate `yield` expressions. features: [generators] es6id: 14.4 ---	660
yield-return.js	--- info: \| Generator can be declared with GeneratorMethod syntax features: [generators] es6id: 14.4 author: Sam Mikes description: can declare generator methods ---	434
yield-star-after-newline.js	--- description: > A newline may not precede the `*` token in a `yield` expression. features: [generators] es6id: 14.4 negative: phase: parse type: SyntaxError ---	412
yield-star-before-newline.js	--- description: > The right-hand side of a `yield *` expression may appear on a new line. features: [generators] es6id: 14.4 ---	492
yield-weak-binding.js	--- description: > `yield` expressions bind weakly features: [generators] es6id: 14.4 negative: phase: parse type: SyntaxError ---	378