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destructuringParameterDeclaration1ES6.types
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destructuringParameterDeclaration1ES6.types
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=== tests/cases/conformance/es6/destructuring/destructuringParameterDeclaration1ES6.ts ===
// Conformance for emitting ES6
// A parameter declaration may specify either an identifier or a binding pattern.
// The identifiers specified in parameter declarations and binding patterns
// in a parameter list must be unique within that parameter list.
// If the declaration includes a type annotation, the parameter is of that type
function a1([a, b, [[c]]]: [number, number, string[][]]) { }
>a1 : ([a, b, [[c]]]: [number, number, string[][]]) => void
>a : number
>b : number
>c : string
function a2(o: { x: number, a: number }) { }
>a2 : (o: { x: number; a: number;}) => void
>o : { x: number; a: number; }
>x : number
>a : number
function a3({j, k, l: {m, n}, q: [a, b, c]}: { j: number, k: string, l: { m: boolean, n: number }, q: (number|string)[] }) { };
>a3 : ({ j, k, l: { m, n }, q: [a, b, c] }: { j: number; k: string; l: { m: boolean; n: number; }; q: (number | string)[];}) => void
>j : number
>k : string
>l : any
>m : boolean
>n : number
>q : any
>a : string | number
>b : string | number
>c : string | number
>j : number
>k : string
>l : { m: boolean; n: number; }
>m : boolean
>n : number
>q : (string | number)[]
function a4({x, a}: { x: number, a: number }) { }
>a4 : ({ x, a }: { x: number; a: number;}) => void
>x : number
>a : number
>x : number
>a : number
a1([1, 2, [["world"]]]);
>a1([1, 2, [["world"]]]) : void
>a1 : ([a, b, [[c]]]: [number, number, string[][]]) => void
>[1, 2, [["world"]]] : [number, number, string[][]]
>1 : 1
>2 : 2
>[["world"]] : string[][]
>["world"] : string[]
>"world" : "world"
a1([1, 2, [["world"]], 3]);
>a1([1, 2, [["world"]], 3]) : void
>a1 : ([a, b, [[c]]]: [number, number, string[][]]) => void
>[1, 2, [["world"]], 3] : [number, number, string[][], number]
>1 : 1
>2 : 2
>[["world"]] : string[][]
>["world"] : string[]
>"world" : "world"
>3 : 3
// If the declaration includes an initializer expression (which is permitted only
// when the parameter list occurs in conjunction with a function body),
// the parameter type is the widened form (section 3.11) of the type of the initializer expression.
function b1(z = [undefined, null]) { };
>b1 : (z?: any[]) => void
>z : any[]
>[undefined, null] : null[]
>undefined : undefined
>null : null
function b2(z = null, o = { x: 0, y: undefined }) { }
>b2 : (z?: any, o?: { x: number; y: any; }) => void
>z : any
>null : null
>o : { x: number; y: any; }
>{ x: 0, y: undefined } : { x: number; y: undefined; }
>x : number
>0 : 0
>y : undefined
>undefined : undefined
function b3({z: {x, y: {j}}} = { z: { x: "hi", y: { j: 1 } } }) { }
>b3 : ({ z: { x, y: { j } } }?: { z: { x: string; y: { j: number; }; }; }) => void
>z : any
>x : string
>y : any
>j : number
>{ z: { x: "hi", y: { j: 1 } } } : { z: { x: string; y: { j: number; }; }; }
>z : { x: string; y: { j: number; }; }
>{ x: "hi", y: { j: 1 } } : { x: string; y: { j: number; }; }
>x : string
>"hi" : "hi"
>y : { j: number; }
>{ j: 1 } : { j: number; }
>j : number
>1 : 1
interface F1 {
b5(z, y, [, a, b], {p, m: { q, r}});
>b5 : (z: any, y: any, [, a, b]: [any, any, any], { p, m: { q, r } }: { p: any; m: { q: any; r: any; }; }) => any
>z : any
>y : any
> : undefined
>a : any
>b : any
>p : any
>m : any
>q : any
>r : any
}
function b6([a, z, y] = [undefined, null, undefined]) { }
>b6 : ([a, z, y]?: [any, any, any]) => void
>a : any
>z : any
>y : any
>[undefined, null, undefined] : [undefined, null, undefined]
>undefined : undefined
>null : null
>undefined : undefined
function b7([[a], b, [[c, d]]] = [[undefined], undefined, [[undefined, undefined]]]) { }
>b7 : ([[a], b, [[c, d]]]?: [[any], any, [[any, any]]]) => void
>a : any
>b : any
>c : any
>d : any
>[[undefined], undefined, [[undefined, undefined]]] : [[undefined], undefined, [[undefined, undefined]]]
>[undefined] : [undefined]
>undefined : undefined
>undefined : undefined
>[[undefined, undefined]] : [[undefined, undefined]]
>[undefined, undefined] : [undefined, undefined]
>undefined : undefined
>undefined : undefined
b1([1, 2, 3]); // z is widen to the type any[]
>b1([1, 2, 3]) : void
>b1 : (z?: any[]) => void
>[1, 2, 3] : number[]
>1 : 1
>2 : 2
>3 : 3
b2("string", { x: 200, y: "string" });
>b2("string", { x: 200, y: "string" }) : void
>b2 : (z?: any, o?: { x: number; y: any; }) => void
>"string" : "string"
>{ x: 200, y: "string" } : { x: number; y: string; }
>x : number
>200 : 200
>y : string
>"string" : "string"
b2("string", { x: 200, y: true });
>b2("string", { x: 200, y: true }) : void
>b2 : (z?: any, o?: { x: number; y: any; }) => void
>"string" : "string"
>{ x: 200, y: true } : { x: number; y: boolean; }
>x : number
>200 : 200
>y : boolean
>true : true
// If the declaration specifies a binding pattern, the parameter type is the implied type of that binding pattern (section 5.1.3)
enum Foo { a }
>Foo : Foo
>a : Foo.a
function c0({z: {x, y: {j}}}) { }
>c0 : ({ z: { x, y: { j } } }: { z: { x: any; y: { j: any; }; }; }) => void
>z : any
>x : any
>y : any
>j : any
function c1({z} = { z: 10 }) { }
>c1 : ({ z }?: { z: number; }) => void
>z : number
>{ z: 10 } : { z: number; }
>z : number
>10 : 10
function c2({z = 10}) { }
>c2 : ({ z }: { z?: number; }) => void
>z : number
>10 : 10
function c3({b}: { b: number|string} = { b: "hello" }) { }
>c3 : ({ b }?: { b: number | string;}) => void
>b : string | number
>b : string | number
>{ b: "hello" } : { b: string; }
>b : string
>"hello" : "hello"
function c5([a, b, [[c]]]) { }
>c5 : ([a, b, [[c]]]: [any, any, [[any]]]) => void
>a : any
>b : any
>c : any
function c6([a, b, [[c=1]]]) { }
>c6 : ([a, b, [[c]]]: [any, any, [[number?]]]) => void
>a : any
>b : any
>c : number
>1 : 1
c0({z : { x: 1, y: { j: "world" } }}); // Implied type is { z: {x: any, y: {j: any}} }
>c0({z : { x: 1, y: { j: "world" } }}) : void
>c0 : ({ z: { x, y: { j } } }: { z: { x: any; y: { j: any; }; }; }) => void
>{z : { x: 1, y: { j: "world" } }} : { z: { x: number; y: { j: string; }; }; }
>z : { x: number; y: { j: string; }; }
>{ x: 1, y: { j: "world" } } : { x: number; y: { j: string; }; }
>x : number
>1 : 1
>y : { j: string; }
>{ j: "world" } : { j: string; }
>j : string
>"world" : "world"
c0({z : { x: "string", y: { j: true } }}); // Implied type is { z: {x: any, y: {j: any}} }
>c0({z : { x: "string", y: { j: true } }}) : void
>c0 : ({ z: { x, y: { j } } }: { z: { x: any; y: { j: any; }; }; }) => void
>{z : { x: "string", y: { j: true } }} : { z: { x: string; y: { j: boolean; }; }; }
>z : { x: string; y: { j: boolean; }; }
>{ x: "string", y: { j: true } } : { x: string; y: { j: boolean; }; }
>x : string
>"string" : "string"
>y : { j: boolean; }
>{ j: true } : { j: boolean; }
>j : boolean
>true : true
c1(); // Implied type is {z:number}?
>c1() : void
>c1 : ({ z }?: { z: number; }) => void
c1({ z: 1 }) // Implied type is {z:number}?
>c1({ z: 1 }) : void
>c1 : ({ z }?: { z: number; }) => void
>{ z: 1 } : { z: number; }
>z : number
>1 : 1
c2({}); // Implied type is {z?: number}
>c2({}) : void
>c2 : ({ z }: { z?: number; }) => void
>{} : {}
c2({z:1}); // Implied type is {z?: number}
>c2({z:1}) : void
>c2 : ({ z }: { z?: number; }) => void
>{z:1} : { z: number; }
>z : number
>1 : 1
c3({ b: 1 }); // Implied type is { b: number|string }.
>c3({ b: 1 }) : void
>c3 : ({ b }?: { b: string | number; }) => void
>{ b: 1 } : { b: number; }
>b : number
>1 : 1
c5([1, 2, [["string"]]]); // Implied type is is [any, any, [[any]]]
>c5([1, 2, [["string"]]]) : void
>c5 : ([a, b, [[c]]]: [any, any, [[any]]]) => void
>[1, 2, [["string"]]] : [number, number, [[string]]]
>1 : 1
>2 : 2
>[["string"]] : [[string]]
>["string"] : [string]
>"string" : "string"
c5([1, 2, [["string"]], false, true]); // Implied type is is [any, any, [[any]]]
>c5([1, 2, [["string"]], false, true]) : void
>c5 : ([a, b, [[c]]]: [any, any, [[any]]]) => void
>[1, 2, [["string"]], false, true] : [number, number, [[string]], boolean, boolean]
>1 : 1
>2 : 2
>[["string"]] : [[string]]
>["string"] : [string]
>"string" : "string"
>false : false
>true : true
// A parameter can be marked optional by following its name or binding pattern with a question mark (?)
// or by including an initializer.
interface F2 {
d3([a, b, c]?);
>d3 : ([a, b, c]?: [any, any, any]) => any
>a : any
>b : any
>c : any
d4({x, y, z}?);
>d4 : ({ x, y, z }?: { x: any; y: any; z: any; }) => any
>x : any
>y : any
>z : any
e0([a, b, c]);
>e0 : ([a, b, c]: [any, any, any]) => any
>a : any
>b : any
>c : any
}
class C2 implements F2 {
>C2 : C2
constructor() { }
d3() { }
>d3 : () => void
d4() { }
>d4 : () => void
e0([a, b, c]) { }
>e0 : ([a, b, c]: [any, any, any]) => void
>a : any
>b : any
>c : any
}
class C3 implements F2 {
>C3 : C3
d3([a, b, c]) { }
>d3 : ([a, b, c]: [any, any, any]) => void
>a : any
>b : any
>c : any
d4({x, y, z}) { }
>d4 : ({ x, y, z }: { x: any; y: any; z: any; }) => void
>x : any
>y : any
>z : any
e0([a, b, c]) { }
>e0 : ([a, b, c]: [any, any, any]) => void
>a : any
>b : any
>c : any
}
function d5({x, y} = { x: 1, y: 2 }) { }
>d5 : ({ x, y }?: { x: number; y: number; }) => void
>x : number
>y : number
>{ x: 1, y: 2 } : { x: number; y: number; }
>x : number
>1 : 1
>y : number
>2 : 2
d5(); // Parameter is optional as its declaration included an initializer
>d5() : void
>d5 : ({ x, y }?: { x: number; y: number; }) => void
// Destructuring parameter declarations do not permit type annotations on the individual binding patterns,
// as such annotations would conflict with the already established meaning of colons in object literals.
// Type annotations must instead be written on the top- level parameter declaration
function e1({x: number}) { } // x has type any NOT number
>e1 : ({ x: number }: { x: any; }) => void
>x : any
>number : any
function e2({x}: { x: number }) { } // x is type number
>e2 : ({ x }: { x: number;}) => void
>x : number
>x : number
function e3({x}: { x?: number }) { } // x is an optional with type number
>e3 : ({ x }: { x?: number;}) => void
>x : number
>x : number
function e4({x: [number,string,any] }) { } // x has type [any, any, any]
>e4 : ({ x: [number, string, any] }: { x: [any, any, any]; }) => void
>x : any
>number : any
>string : any
>any : any
function e5({x: [a, b, c]}: { x: [number, number, number] }) { } // x has type [any, any, any]
>e5 : ({ x: [a, b, c] }: { x: [number, number, number];}) => void
>x : any
>a : number
>b : number
>c : number
>x : [number, number, number]
function e6({x: [number, number, number]}) { } // error, duplicate identifier;
>e6 : ({ x: [number, number, number] }: { x: [any, any, any]; }) => void
>x : any
>number : any
>number : any
>number : any