f72193eedc
Fixes #9744.
181 lines
5.8 KiB
TypeScript
181 lines
5.8 KiB
TypeScript
// @target: es6
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class C {
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n: number;
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explicitThis(this: this, m: number): number {
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return this.n + m;
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}
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implicitThis(m: number): number {
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return this.n + m;
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}
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explicitC(this: C, m: number): number {
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return this.n + m;
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}
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explicitProperty(this: {n: number}, m: number): number {
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return this.n + m;
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}
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explicitVoid(this: void, m: number): number {
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return this.n + m; // 'n' doesn't exist on type 'void'.
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}
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}
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class D {
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x: number;
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explicitThis(this: this, m: number): number {
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return this.x + m;
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}
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explicitD(this: D, m: number): number {
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return this.x + m;
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}
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}
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interface I {
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a: number;
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explicitVoid1(this: void): number;
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explicitVoid2(this: void): number;
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explicitStructural(this: {a: number}): number;
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explicitInterface(this: I): number;
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explicitThis(this: this): number; // TODO: Allow `this` types for interfaces
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}
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let impl: I = {
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a: 12,
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explicitVoid1() {
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return this.a; // error, no 'a' in 'void'
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},
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explicitVoid2: () => this.a, // ok, `this:any` because it refers to an outer object
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explicitStructural: () => 12,
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explicitInterface: () => 12,
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explicitThis() {
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return this.a;
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},
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}
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let implExplicitStructural = impl.explicitStructural;
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implExplicitStructural(); // error, no 'a' in 'void'
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let implExplicitInterface = impl.explicitInterface;
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implExplicitInterface(); // error, no 'a' in 'void'
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function explicitStructural(this: { y: number }, x: number): number {
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return x + this.y;
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}
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function propertyName(this: { y: number }, x: number): number {
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return x + this.notFound;
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}
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function voidThisSpecified(this: void, x: number): number {
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return x + this.notSpecified;
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}
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let ok: {y: number, f: (this: { y: number }, x: number) => number} = { y: 12, explicitStructural };
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let wrongPropertyType: {y: string, f: (this: { y: number }, x: number) => number} = { y: 'foo', explicitStructural };
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let wrongPropertyName: {wrongName: number, f: (this: { y: number }, x: number) => number} = { wrongName: 12, explicitStructural };
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ok.f(); // not enough arguments
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ok.f('wrong type');
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ok.f(13, 'too many arguments');
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wrongPropertyType.f(13);
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wrongPropertyName.f(13);
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let c = new C();
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c.explicitC(); // not enough arguments
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c.explicitC('wrong type');
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c.explicitC(13, 'too many arguments');
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c.explicitThis(); // not enough arguments
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c.explicitThis('wrong type 2');
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c.explicitThis(14, 'too many arguments 2');
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c.implicitThis(); // not enough arguments
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c.implicitThis('wrong type 2');
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c.implicitThis(14, 'too many arguments 2');
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c.explicitProperty(); // not enough arguments
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c.explicitProperty('wrong type 3');
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c.explicitProperty(15, 'too many arguments 3');
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// oops, this triggers contextual typing, which needs to be updated to understand that =>'s `this` is void.
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let specifiedToVoid: (this: void, x: number) => number = explicitStructural;
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let reconstructed: {
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n: number,
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explicitThis(this: C, m: number): number, // note: this: this is not allowed in an object literal type.
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explicitC(this: C, m: number): number,
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explicitProperty: (this: {n : number}, m: number) => number,
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explicitVoid(this: void, m: number): number,
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} = {
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n: 12,
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explicitThis: c.explicitThis,
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explicitC: c.explicitC,
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explicitProperty: c.explicitProperty,
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explicitVoid: c.explicitVoid
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};;
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// lambdas have this: void for assignability purposes (and this unbound (free) for body checking)
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let d = new D();
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let explicitXProperty: (this: { x: number }, m: number) => number;
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// from differing object types
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c.explicitC = function(this: D, m: number) { return this.x + m };
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c.explicitProperty = explicitXProperty;
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c.explicitC = d.explicitD;
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c.explicitC = d.explicitThis;
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c.explicitThis = d.explicitD;
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c.explicitThis = d.explicitThis;
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c.explicitProperty = d.explicitD;
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c.explicitThis = d.explicitThis;
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c.explicitVoid = d.explicitD;
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c.explicitVoid = d.explicitThis;
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/// class-based polymorphic assignability (with inheritance!) ///
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class Base1 {
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x: number
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public polymorphic(this: this): number { return this.x; }
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explicit(this: Base1): number { return this.x; }
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static explicitStatic(this: typeof Base1): number { return this.x; }
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}
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class Derived1 extends Base1 {
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y: number
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}
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class Base2 {
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y: number
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polymorphic(this: this): number { return this.y; }
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explicit(this: Base1): number { return this.x; }
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}
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class Derived2 extends Base2 {
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x: number
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}
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let b1 = new Base1();
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let d1 = new Derived1();
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let b2 = new Base2();
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let d2 = new Derived2();
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b1.polymorphic = b2.polymorphic // error, 'this.y' not in Base1: { x }
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b1.explicit = b2.polymorphic // error, 'y' not in Base1: { x }
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d1.explicit = b2.polymorphic // error, 'y' not in Base1: { x }
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////// use this-type for construction with new ////
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function VoidThis(this: void) {
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}
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let voidThis = new VoidThis();
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///// syntax-ish errors /////
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class ThisConstructor {
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constructor(this: ThisConstructor, private n: number) {
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}
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}
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interface ThisConstructorInterface {
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new(this: ThisConstructor, n: number);
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}
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var thisConstructorType: new (this: number) => number;
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function notFirst(a: number, this: C): number { return this.n; }
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///// parse errors /////
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function modifiers(async this: C): number { return this.n; }
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function restParam(...this: C): number { return this.n; }
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function optional(this?: C): number { return this.n; }
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function decorated(@deco() this: C): number { return this.n; }
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function initializer(this: C = new C()): number { return this.n; }
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// can't name parameters 'this' in a lambda.
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c.explicitProperty = (this, m) => m + this.n;
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const f2 = <T>(this: {n: number}, m: number) => m + this.n;
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const f3 = async (this: {n: number}, m: number) => m + this.n;
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const f4 = async <T>(this: {n: number}, m: number) => m + this.n;
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