swc/crates/swc_ecma_parser/tests/tsc/subtypingWithConstructSignatures5.ts

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// checking subtype relations for function types as it relates to contextual signature instantiation
// same as subtypingWithConstructSignatures2 just with an extra level of indirection in the inheritance chain
class Base { foo: string; }
class Derived extends Base { bar: string; }
class Derived2 extends Derived { baz: string; }
class OtherDerived extends Base { bing: string; }
interface A { // T
// M's
a: new (x: number) => number[];
a2: new (x: number) => string[];
a3: new (x: number) => void;
a4: new (x: string, y: number) => string;
a5: new (x: (arg: string) => number) => string;
a6: new (x: (arg: Base) => Derived) => Base;
a7: new (x: (arg: Base) => Derived) => (r: Base) => Derived;
a8: new (x: (arg: Base) => Derived, y: (arg2: Base) => Derived) => (r: Base) => Derived;
a9: new (x: (arg: Base) => Derived, y: (arg2: Base) => Derived) => (r: Base) => Derived;
a10: new (...x: Derived[]) => Derived;
a11: new (x: { foo: string }, y: { foo: string; bar: string }) => Base;
a12: new (x: Array<Base>, y: Array<Derived2>) => Array<Derived>;
a13: new (x: Array<Base>, y: Array<Derived>) => Array<Derived>;
a14: new (x: { a: string; b: number }) => Object;
}
interface B extends A {
a: new <T>(x: T) => T[];
}
// S's
interface I extends B {
// N's
a: new <T>(x: T) => T[]; // ok, instantiation of N is a subtype of M, T is number
a2: new <T>(x: T) => string[]; // ok
a3: new <T>(x: T) => T; // ok since Base returns void
a4: new <T, U>(x: T, y: U) => T; // ok, instantiation of N is a subtype of M, T is string, U is number
a5: new <T, U>(x: (arg: T) => U) => T; // ok, U is in a parameter position so inferences can be made
a6: new <T extends Base, U extends Derived>(x: (arg: T) => U) => T; // ok, same as a5 but with object type hierarchy
a7: new <T extends Base, U extends Derived>(x: (arg: T) => U) => (r: T) => U; // ok
a8: new <T extends Base, U extends Derived>(x: (arg: T) => U, y: (arg2: T) => U) => (r: T) => U; // ok
a9: new <T extends Base, U extends Derived>(x: (arg: T) => U, y: (arg2: { foo: string; bing: number }) => U) => (r: T) => U; // ok, same as a8 with compatible object literal
a10: new <T extends Derived>(...x: T[]) => T; // ok
a11: new <T extends Base>(x: T, y: T) => T; // ok
a12: new <T extends Array<Base>>(x: Array<Base>, y: T) => Array<Derived>; // ok, less specific parameter type
a13: new <T extends Array<Derived>>(x: Array<Base>, y: T) => T; // ok, T = Array<Derived>, satisfies constraint, contextual signature instantiation succeeds
a14: new <T, U>(x: { a: T; b: U }) => T; // ok
}