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=== tests/cases/conformance/types/intersection/intersectionReduction.ts ===
declare const sym1: unique symbol;
>sym1 : unique symbol
declare const sym2: unique symbol;
>sym2 : unique symbol
type T1 = string & 'a'; // 'a'
>T1 : "a"
type T2 = 'a' & string & 'b'; // never
>T2 : never
type T3 = number & 10; // 10
>T3 : 10
type T4 = 10 & number & 20; // never
>T4 : never
type T5 = symbol & typeof sym1; // typeof sym1
>T5 : unique symbol
>sym1 : unique symbol
type T6 = typeof sym1 & symbol & typeof sym2; // never
>T6 : never
>sym1 : unique symbol
>sym2 : unique symbol
type T7 = string & 'a' & number & 10 & symbol & typeof sym1; // never
>T7 : never
>sym1 : unique symbol
type T10 = string & ('a' | 'b'); // 'a' | 'b'
>T10 : "a" | "b"
type T11 = (string | number) & ('a' | 10); // 'a' | 10
>T11 : "a" | 10
type N1 = 'a' & 'b';
>N1 : never
type N2 = { a: string } & null;
>N2 : null
>a : string
>null : null
type N3 = { a: string } & undefined;
>N3 : undefined
>a : string
type N4 = string & number;
>N4 : never
type N5 = number & object;
>N5 : never
type N6 = symbol & string;
>N6 : never
type N7 = void & string;
>N7 : never
type X = { x: string };
>X : { x: string; }
>x : string
type X1 = X | 'a' & 'b';
>X1 : X
type X2 = X | { a: string } & null;
>X2 : X
>a : string
>null : null
type X3 = X | { a: string } & undefined;
>X3 : X
>a : string
type X4 = X | string & number;
>X4 : X
type X5 = X | number & object;
>X5 : X
type X6 = X | symbol & string;
>X6 : X
type X7 = X | void & string;
>X7 : X
type A = { kind: 'a', foo: string };
>A : { kind: 'a'; foo: string; }
>kind : "a"
>foo : string
type B = { kind: 'b', foo: number };
>B : { kind: 'b'; foo: number; }
>kind : "b"
>foo : number
type C = { kind: 'c', foo: number };
>C : { kind: 'c'; foo: number; }
>kind : "c"
>foo : number
declare let ab: A & B;
>ab : never
ab.kind; // Error
>ab.kind : any
>ab : never
>kind : any
declare let x: A | (B & C); // A
>x : A
let a: A = x;
>a : A
>x : A
type AB = A & B; // never
>AB : never
type BC = B & C; // never
>BC : never
type U1 = Partial<A & B>; // never
>U1 : never
type U2 = Readonly<A & B>; // never
>U2 : never
type U3 = (A & B)['kind']; // never
>U3 : never
type U4 = A & B | B & C; // never
>U4 : never
type U5 = A | B & C; // A
>U5 : A
type K1 = keyof (A & B); // string | number | symbol
>K1 : string | number | symbol
type K2 = keyof A | keyof B; // 'kind' | 'foo'
>K2 : "kind" | "foo"
type Merge1<T, U> = { [P in keyof (T & U)]: P extends keyof T ? T[P] : U[P & keyof U] }
>Merge1 : Merge1<T, U>
type Merge2<T, U> = { [P in keyof T | keyof U]: P extends keyof T ? T[P] : U[P & keyof U] }
>Merge2 : Merge2<T, U>
type M1 = { a: 1, b: 2 } & { a: 2, c: 3 }; // never
>M1 : never
>a : 1
>b : 2
>a : 2
>c : 3
type M2 = Merge1<{ a: 1, b: 2 }, { a: 2, c: 3 }>; // {}
>M2 : {}
>a : 1
>b : 2
>a : 2
>c : 3
type M3 = Merge2<{ a: 1, b: 2 }, { a: 2, c: 3 }>; // { a: 1, b: 2, c: 3 }
>M3 : { a: 1; b: 2; c: 3; }
>a : 1
>b : 2
>a : 2
>c : 3
type D = { kind: 'd', foo: unknown };
>D : { kind: 'd'; foo: unknown; }
>kind : "d"
>foo : unknown
type E = { kind: 'e', foo: unknown };
>E : { kind: 'e'; foo: unknown; }
>kind : "e"
>foo : unknown
declare function f10<T>(x: { foo: T }): T;
>f10 : <T>(x: { foo: T;}) => T
>x : { foo: T; }
>foo : T
declare let a1: A | D;
>a1 : A | D
declare let a2: A | D & E;
>a2 : A
let r1 = f10(a1); // unknown
>r1 : unknown
>f10(a1) : unknown
>f10 : <T>(x: { foo: T; }) => T
>a1 : A | D
let r2 = f10(a2); // string
>r2 : string
>f10(a2) : string
>f10 : <T>(x: { foo: T; }) => T
>a2 : A
// Repro from #31663
const x1 = { a: 'foo', b: 42 };
>x1 : { a: string; b: number; }
>{ a: 'foo', b: 42 } : { a: string; b: number; }
>a : string
>'foo' : "foo"
>b : number
>42 : 42
const x2 = { a: 'foo', b: true };
>x2 : { a: string; b: boolean; }
>{ a: 'foo', b: true } : { a: string; b: boolean; }
>a : string
>'foo' : "foo"
>b : boolean
>true : true
declare let k: 'a' | 'b';
>k : "a" | "b"
x1[k] = 'bar' as any; // Error
>x1[k] = 'bar' as any : any
>x1[k] : never
>x1 : { a: string; b: number; }
>k : "a" | "b"
>'bar' as any : any
>'bar' : "bar"
x2[k] = 'bar' as any; // Error
>x2[k] = 'bar' as any : any
>x2[k] : never
>x2 : { a: string; b: boolean; }
>k : "a" | "b"
>'bar' as any : any
>'bar' : "bar"
const enum Tag1 {}
>Tag1 : Tag1
const enum Tag2 {}
>Tag2 : Tag2
declare let s1: string & Tag1;
>s1 : never
declare let s2: string & Tag2;
>s2 : never
declare let t1: string & Tag1 | undefined;
>t1 : undefined
declare let t2: string & Tag2 | undefined;
>t2 : undefined
s1 = s2;
>s1 = s2 : never
>s1 : never
>s2 : never
s2 = s1;
>s2 = s1 : never
>s2 : never
>s1 : never
t1 = t2;
>t1 = t2 : undefined
>t1 : undefined
>t2 : undefined
t2 = t1;
>t2 = t1 : undefined
>t2 : undefined
>t1 : undefined
// Repro from #36736
const f1 = (t: "a" | ("b" & "c")): "a" => t;
>f1 : (t: "a" | ("b" & "c")) => "a"
>(t: "a" | ("b" & "c")): "a" => t : (t: "a" | ("b" & "c")) => "a"
>t : "a"
>t : "a"
type Container<Type extends string> = {
>Container : Container<Type>
type: Type;
>type : Type
}
const f2 = (t: Container<"a"> | (Container<"b"> & Container<"c">)): Container<"a"> => t;
>f2 : (t: Container<"a"> | (Container<"b"> & Container<"c">)) => Container<"a">
>(t: Container<"a"> | (Container<"b"> & Container<"c">)): Container<"a"> => t : (t: Container<"a"> | (Container<"b"> & Container<"c">)) => Container<"a">
>t : Container<"a">
>t : Container<"a">
const f3 = (t: Container<"a"> | (Container<"b"> & { dataB: boolean } & Container<"a">)): Container<"a"> => t;
>f3 : (t: Container<"a"> | (Container<"b"> & { dataB: boolean;} & Container<"a">)) => Container<"a">
>(t: Container<"a"> | (Container<"b"> & { dataB: boolean } & Container<"a">)): Container<"a"> => t : (t: Container<"a"> | (Container<"b"> & { dataB: boolean;} & Container<"a">)) => Container<"a">
>t : Container<"a">
>dataB : boolean
>t : Container<"a">
const f4 = (t: number | (Container<"b"> & { dataB: boolean } & Container<"a">)): number => t;
>f4 : (t: number | (Container<"b"> & { dataB: boolean;} & Container<"a">)) => number
>(t: number | (Container<"b"> & { dataB: boolean } & Container<"a">)): number => t : (t: number | (Container<"b"> & { dataB: boolean;} & Container<"a">)) => number
>t : number
>dataB : boolean
>t : number
// Repro from #38549
interface A2 {
kind: "A";
>kind : "A"
a: number;
>a : number
}
interface B2 {
kind: "B";
>kind : "B"
b: number;
>b : number
}
declare const shouldBeB: (A2 | B2) & B2;
>shouldBeB : B2
const b: B2 = shouldBeB; // works
>b : B2
>shouldBeB : B2
function inGeneric<T extends A2 | B2>(alsoShouldBeB: T & B2) {
>inGeneric : <T extends A2 | B2>(alsoShouldBeB: T & B2) => void
>alsoShouldBeB : T & B2
const b: B2 = alsoShouldBeB;
>b : B2
>alsoShouldBeB : B2
}
// Repro from #38542
interface ABI {
kind: 'a' | 'b';
>kind : "a" | "b"
}
declare class CA { kind: 'a'; a: string; x: number };
>CA : CA
>kind : "a"
>a : string
>x : number
declare class CB { kind: 'b'; b: string; y: number };
>CB : CB
>kind : "b"
>b : string
>y : number
function bar<T extends CA | CB>(x: T & CA) {
>bar : <T extends CA | CB>(x: T & CA) => void
>x : T & CA
let ab: ABI = x;
>ab : ABI
>x : CA
}
|
