//// [callSignatureAssignabilityInInheritance2.ts] // checking subtype relations for function types as it relates to contextual signature instantiation 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: (x: number) => number[]; a2: (x: number) => string[]; a3: (x: number) => void; a4: (x: string, y: number) => string; a5: (x: (arg: string) => number) => string; a6: (x: (arg: Base) => Derived) => Base; a7: (x: (arg: Base) => Derived) => (r: Base) => Derived; a8: (x: (arg: Base) => Derived, y: (arg2: Base) => Derived) => (r: Base) => Derived; a9: (x: (arg: Base) => Derived, y: (arg2: Base) => Derived) => (r: Base) => Derived; a10: (...x: Derived[]) => Derived; a11: (x: { foo: string }, y: { foo: string; bar: string }) => Base; a12: (x: Array, y: Array) => Array; a13: (x: Array, y: Array) => Array; a14: (x: { a: string; b: number }) => Object; a15: { (x: number): number[]; (x: string): string[]; }; a16: { (x: T): number[]; (x: U): number[]; }; a17: { (x: (a: number) => number): number[]; (x: (a: string) => string): string[]; }; a18: { (x: { (a: number): number; (a: string): string; }): any[]; (x: { (a: boolean): boolean; (a: Date): Date; }): any[]; }; } // S's interface I extends A { // N's a: (x: T) => T[]; // ok, instantiation of N is a subtype of M, T is number a2: (x: T) => string[]; // ok a3: (x: T) => T; // ok since Base returns void a4: (x: T, y: U) => T; // ok, instantiation of N is a subtype of M, T is string, U is number a5: (x: (arg: T) => U) => T; // ok, U is in a parameter position so inferences can be made a6: (x: (arg: T) => U) => T; // ok, same as a5 but with object type hierarchy a7: (x: (arg: T) => U) => (r: T) => U; // ok a8: (x: (arg: T) => U, y: (arg2: T) => U) => (r: T) => U; // ok a9: (x: (arg: T) => U, y: (arg2: { foo: string; bing: number }) => U) => (r: T) => U; // ok, same as a8 with compatible object literal a10: (...x: T[]) => T; // ok a11: (x: T, y: T) => T; // ok a12: >(x: Array, y: T) => Array; // ok, less specific parameter type a13: >(x: Array, y: T) => T; // ok, T = Array, satisfies constraint, contextual signature instantiation succeeds a14: (x: { a: T; b: T }) => T; // ok, best common type yields T = {} but that's satisfactory for this signature a15: (x: T) => T[]; // ok a16: (x: T) => number[]; // ok a17: (x: (a: T) => T) => T[]; // ok a18: (x: (a: T) => T) => T[]; // ok, no inferences for T but assignable to any } //// [callSignatureAssignabilityInInheritance2.js] // checking subtype relations for function types as it relates to contextual signature instantiation var __extends = (this && this.__extends) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; function __() { this.constructor = d; } __.prototype = b.prototype; d.prototype = new __(); }; var Base = (function () { function Base() { } return Base; })(); var Derived = (function (_super) { __extends(Derived, _super); function Derived() { _super.apply(this, arguments); } return Derived; })(Base); var Derived2 = (function (_super) { __extends(Derived2, _super); function Derived2() { _super.apply(this, arguments); } return Derived2; })(Derived); var OtherDerived = (function (_super) { __extends(OtherDerived, _super); function OtherDerived() { _super.apply(this, arguments); } return OtherDerived; })(Base);