mirror of
https://github.com/swc-project/swc.git
synced 2024-12-28 08:04:43 +03:00
661 lines
17 KiB
TypeScript
661 lines
17 KiB
TypeScript
// @strictNullChecks: true
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// @declaration: true
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class Shape {
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name: string;
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width: number;
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height: number;
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visible: boolean;
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}
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class TaggedShape extends Shape {
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tag: string;
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}
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class Item {
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name: string;
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price: number;
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}
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class Options {
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visible: "yes" | "no";
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}
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type Dictionary<T> = { [x: string]: T };
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type NumericallyIndexed<T> = { [x: number]: T };
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const enum E { A, B, C }
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type K00 = keyof any; // string
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type K01 = keyof string; // "toString" | "charAt" | ...
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type K02 = keyof number; // "toString" | "toFixed" | "toExponential" | ...
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type K03 = keyof boolean; // "valueOf"
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type K04 = keyof void; // never
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type K05 = keyof undefined; // never
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type K06 = keyof null; // never
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type K07 = keyof never; // string | number | symbol
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type K08 = keyof unknown; // never
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type K10 = keyof Shape; // "name" | "width" | "height" | "visible"
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type K11 = keyof Shape[]; // "length" | "toString" | ...
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type K12 = keyof Dictionary<Shape>; // string
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type K13 = keyof {}; // never
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type K14 = keyof Object; // "constructor" | "toString" | ...
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type K15 = keyof E; // "toString" | "toFixed" | "toExponential" | ...
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type K16 = keyof [string, number]; // "0" | "1" | "length" | "toString" | ...
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type K17 = keyof (Shape | Item); // "name"
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type K18 = keyof (Shape & Item); // "name" | "width" | "height" | "visible" | "price"
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type K19 = keyof NumericallyIndexed<Shape> // never
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type KeyOf<T> = keyof T;
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type K20 = KeyOf<Shape>; // "name" | "width" | "height" | "visible"
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type K21 = KeyOf<Dictionary<Shape>>; // string
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type NAME = "name";
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type WIDTH_OR_HEIGHT = "width" | "height";
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type Q10 = Shape["name"]; // string
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type Q11 = Shape["width" | "height"]; // number
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type Q12 = Shape["name" | "visible"]; // string | boolean
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type Q20 = Shape[NAME]; // string
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type Q21 = Shape[WIDTH_OR_HEIGHT]; // number
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type Q30 = [string, number][0]; // string
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type Q31 = [string, number][1]; // number
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type Q32 = [string, number][number]; // string | number
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type Q33 = [string, number][E.A]; // string
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type Q34 = [string, number][E.B]; // number
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type Q35 = [string, number]["0"]; // string
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type Q36 = [string, number]["1"]; // string
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type Q40 = (Shape | Options)["visible"]; // boolean | "yes" | "no"
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type Q41 = (Shape & Options)["visible"]; // true & "yes" | true & "no" | false & "yes" | false & "no"
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type Q50 = Dictionary<Shape>["howdy"]; // Shape
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type Q51 = Dictionary<Shape>[123]; // Shape
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type Q52 = Dictionary<Shape>[E.B]; // Shape
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declare let cond: boolean;
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function getProperty<T, K extends keyof T>(obj: T, key: K) {
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return obj[key];
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}
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function setProperty<T, K extends keyof T>(obj: T, key: K, value: T[K]) {
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obj[key] = value;
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}
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function f10(shape: Shape) {
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let name = getProperty(shape, "name"); // string
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let widthOrHeight = getProperty(shape, cond ? "width" : "height"); // number
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let nameOrVisible = getProperty(shape, cond ? "name" : "visible"); // string | boolean
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setProperty(shape, "name", "rectangle");
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setProperty(shape, cond ? "width" : "height", 10);
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setProperty(shape, cond ? "name" : "visible", true); // Technically not safe
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}
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function f11(a: Shape[]) {
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let len = getProperty(a, "length"); // number
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setProperty(a, "length", len);
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}
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function f12(t: [Shape, boolean]) {
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let len = getProperty(t, "length");
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let s2 = getProperty(t, "0"); // Shape
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let b2 = getProperty(t, "1"); // boolean
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}
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function f13(foo: any, bar: any) {
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let x = getProperty(foo, "x"); // any
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let y = getProperty(foo, "100"); // any
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let z = getProperty(foo, bar); // any
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}
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class Component<PropType> {
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props: PropType;
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getProperty<K extends keyof PropType>(key: K) {
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return this.props[key];
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}
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setProperty<K extends keyof PropType>(key: K, value: PropType[K]) {
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this.props[key] = value;
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}
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}
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function f20(component: Component<Shape>) {
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let name = component.getProperty("name"); // string
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let widthOrHeight = component.getProperty(cond ? "width" : "height"); // number
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let nameOrVisible = component.getProperty(cond ? "name" : "visible"); // string | boolean
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component.setProperty("name", "rectangle");
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component.setProperty(cond ? "width" : "height", 10)
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component.setProperty(cond ? "name" : "visible", true); // Technically not safe
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}
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function pluck<T, K extends keyof T>(array: T[], key: K) {
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return array.map(x => x[key]);
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}
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function f30(shapes: Shape[]) {
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let names = pluck(shapes, "name"); // string[]
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let widths = pluck(shapes, "width"); // number[]
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let nameOrVisibles = pluck(shapes, cond ? "name" : "visible"); // (string | boolean)[]
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}
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function f31<K extends keyof Shape>(key: K) {
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const shape: Shape = { name: "foo", width: 5, height: 10, visible: true };
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return shape[key]; // Shape[K]
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}
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function f32<K extends "width" | "height">(key: K) {
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const shape: Shape = { name: "foo", width: 5, height: 10, visible: true };
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return shape[key]; // Shape[K]
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}
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function f33<S extends Shape, K extends keyof S>(shape: S, key: K) {
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let name = getProperty(shape, "name");
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let prop = getProperty(shape, key);
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return prop;
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}
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function f34(ts: TaggedShape) {
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let tag1 = f33(ts, "tag");
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let tag2 = getProperty(ts, "tag");
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}
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class C {
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public x: string;
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protected y: string;
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private z: string;
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}
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// Indexed access expressions have always permitted access to private and protected members.
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// For consistency we also permit such access in indexed access types.
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function f40(c: C) {
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type X = C["x"];
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type Y = C["y"];
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type Z = C["z"];
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let x: X = c["x"];
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let y: Y = c["y"];
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let z: Z = c["z"];
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}
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function f50<T>(k: keyof T, s: string) {
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const x1 = s as keyof T;
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const x2 = k as string;
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}
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function f51<T, K extends keyof T>(k: K, s: string) {
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const x1 = s as keyof T;
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const x2 = k as string;
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}
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function f52<T>(obj: { [x: string]: boolean }, k: Exclude<keyof T, symbol>, s: string, n: number) {
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const x1 = obj[s];
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const x2 = obj[n];
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const x3 = obj[k];
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}
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function f53<T, K extends Exclude<keyof T, symbol>>(obj: { [x: string]: boolean }, k: K, s: string, n: number) {
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const x1 = obj[s];
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const x2 = obj[n];
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const x3 = obj[k];
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}
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function f54<T>(obj: T, key: keyof T) {
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for (let s in obj[key]) {
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}
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const b = "foo" in obj[key];
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}
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function f55<T, K extends keyof T>(obj: T, key: K) {
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for (let s in obj[key]) {
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}
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const b = "foo" in obj[key];
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}
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function f60<T>(source: T, target: T) {
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for (let k in source) {
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target[k] = source[k];
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}
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}
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function f70(func: <T, U>(k1: keyof (T | U), k2: keyof (T & U)) => void) {
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func<{ a: any, b: any }, { a: any, c: any }>('a', 'a');
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func<{ a: any, b: any }, { a: any, c: any }>('a', 'b');
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func<{ a: any, b: any }, { a: any, c: any }>('a', 'c');
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}
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function f71(func: <T, U>(x: T, y: U) => Partial<T & U>) {
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let x = func({ a: 1, b: "hello" }, { c: true });
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x.a; // number | undefined
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x.b; // string | undefined
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x.c; // boolean | undefined
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}
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function f72(func: <T, U, K extends keyof T | keyof U>(x: T, y: U, k: K) => (T & U)[K]) {
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let a = func({ a: 1, b: "hello" }, { c: true }, 'a'); // number
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let b = func({ a: 1, b: "hello" }, { c: true }, 'b'); // string
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let c = func({ a: 1, b: "hello" }, { c: true }, 'c'); // boolean
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}
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function f73(func: <T, U, K extends keyof (T & U)>(x: T, y: U, k: K) => (T & U)[K]) {
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let a = func({ a: 1, b: "hello" }, { c: true }, 'a'); // number
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let b = func({ a: 1, b: "hello" }, { c: true }, 'b'); // string
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let c = func({ a: 1, b: "hello" }, { c: true }, 'c'); // boolean
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}
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function f74(func: <T, U, K extends keyof (T | U)>(x: T, y: U, k: K) => (T | U)[K]) {
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let a = func({ a: 1, b: "hello" }, { a: 2, b: true }, 'a'); // number
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let b = func({ a: 1, b: "hello" }, { a: 2, b: true }, 'b'); // string | boolean
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}
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function f80<T extends { a: { x: any } }>(obj: T) {
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let a1 = obj.a; // { x: any }
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let a2 = obj['a']; // { x: any }
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let a3 = obj['a'] as T['a']; // T["a"]
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let x1 = obj.a.x; // any
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let x2 = obj['a']['x']; // any
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let x3 = obj['a']['x'] as T['a']['x']; // T["a"]["x"]
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}
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function f81<T extends { a: { x: any } }>(obj: T) {
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return obj['a']['x'] as T['a']['x'];
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}
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function f82() {
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let x1 = f81({ a: { x: "hello" } }); // string
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let x2 = f81({ a: { x: 42 } }); // number
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}
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function f83<T extends { [x: string]: { x: any } }, K extends keyof T>(obj: T, key: K) {
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return obj[key]['x'] as T[K]['x'];
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}
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function f84() {
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let x1 = f83({ foo: { x: "hello" } }, "foo"); // string
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let x2 = f83({ bar: { x: 42 } }, "bar"); // number
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}
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class C1 {
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x: number;
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get<K extends keyof this>(key: K) {
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return this[key];
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}
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set<K extends keyof this>(key: K, value: this[K]) {
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this[key] = value;
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}
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foo() {
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let x1 = this.x; // number
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let x2 = this["x"]; // number
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let x3 = this.get("x"); // this["x"]
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let x4 = getProperty(this, "x"); // this["x"]
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this.x = 42;
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this["x"] = 42;
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this.set("x", 42);
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setProperty(this, "x", 42);
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}
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}
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type S2 = {
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a: string;
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b: string;
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};
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function f90<T extends S2, K extends keyof S2>(x1: S2[keyof S2], x2: T[keyof S2], x3: S2[K]) {
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x1 = x2;
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x1 = x3;
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x2 = x1;
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x2 = x3;
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x3 = x1;
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x3 = x2;
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x1.length;
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x2.length;
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x3.length;
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}
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function f91<T, K extends keyof T>(x: T, y: T[keyof T], z: T[K]) {
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let a: {};
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a = x;
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a = y;
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a = z;
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}
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function f92<T, K extends keyof T>(x: T, y: T[keyof T], z: T[K]) {
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let a: {} | null | undefined;
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a = x;
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a = y;
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a = z;
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}
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// Repros from #12011
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class Base {
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get<K extends keyof this>(prop: K) {
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return this[prop];
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}
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set<K extends keyof this>(prop: K, value: this[K]) {
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this[prop] = value;
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}
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}
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class Person extends Base {
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parts: number;
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constructor(parts: number) {
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super();
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this.set("parts", parts);
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}
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getParts() {
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return this.get("parts")
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}
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}
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class OtherPerson {
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parts: number;
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constructor(parts: number) {
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setProperty(this, "parts", parts);
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}
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getParts() {
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return getProperty(this, "parts")
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}
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}
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// Modified repro from #12544
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function path<T, K1 extends keyof T>(obj: T, key1: K1): T[K1];
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function path<T, K1 extends keyof T, K2 extends keyof T[K1]>(obj: T, key1: K1, key2: K2): T[K1][K2];
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function path<T, K1 extends keyof T, K2 extends keyof T[K1], K3 extends keyof T[K1][K2]>(obj: T, key1: K1, key2: K2, key3: K3): T[K1][K2][K3];
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function path(obj: any, ...keys: (string | number)[]): any;
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function path(obj: any, ...keys: (string | number)[]): any {
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let result = obj;
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for (let k of keys) {
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result = result[k];
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}
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return result;
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}
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type Thing = {
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a: { x: number, y: string },
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b: boolean
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};
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function f1(thing: Thing) {
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let x1 = path(thing, 'a'); // { x: number, y: string }
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let x2 = path(thing, 'a', 'y'); // string
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let x3 = path(thing, 'b'); // boolean
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let x4 = path(thing, ...['a', 'x']); // any
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}
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// Repro from comment in #12114
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const assignTo2 = <T, K1 extends keyof T, K2 extends keyof T[K1]>(object: T, key1: K1, key2: K2) =>
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(value: T[K1][K2]) => object[key1][key2] = value;
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// Modified repro from #12573
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declare function one<T>(handler: (t: T) => void): T
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var empty = one(() => {}) // inferred as {}, expected
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type Handlers<T> = { [K in keyof T]: (t: T[K]) => void }
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declare function on<T>(handlerHash: Handlers<T>): T
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var hashOfEmpty1 = on({ test: () => {} }); // {}
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var hashOfEmpty2 = on({ test: (x: boolean) => {} }); // { test: boolean }
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// Repro from #12624
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interface Options1<Data, Computed> {
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data?: Data
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computed?: Computed;
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}
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declare class Component1<Data, Computed> {
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constructor(options: Options1<Data, Computed>);
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get<K extends keyof (Data & Computed)>(key: K): (Data & Computed)[K];
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}
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let c1 = new Component1({
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data: {
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hello: ""
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}
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});
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c1.get("hello");
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// Repro from #12625
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interface Options2<Data, Computed> {
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data?: Data
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computed?: Computed;
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}
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declare class Component2<Data, Computed> {
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constructor(options: Options2<Data, Computed>);
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get<K extends keyof Data | keyof Computed>(key: K): (Data & Computed)[K];
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}
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// Repro from #12641
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interface R {
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p: number;
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}
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function f<K extends keyof R>(p: K) {
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let a: any;
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a[p].add; // any
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}
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// Repro from #12651
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type MethodDescriptor = {
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name: string;
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args: any[];
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returnValue: any;
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}
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declare function dispatchMethod<M extends MethodDescriptor>(name: M['name'], args: M['args']): M['returnValue'];
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type SomeMethodDescriptor = {
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name: "someMethod";
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args: [string, number];
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returnValue: string[];
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}
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let result = dispatchMethod<SomeMethodDescriptor>("someMethod", ["hello", 35]);
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// Repro from #13073
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type KeyTypes = "a" | "b"
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let MyThingy: { [key in KeyTypes]: string[] };
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function addToMyThingy<S extends KeyTypes>(key: S) {
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MyThingy[key].push("a");
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}
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// Repro from #13102
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type Handler<T> = {
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onChange: (name: keyof T) => void;
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};
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function onChangeGenericFunction<T>(handler: Handler<T & {preset: number}>) {
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handler.onChange('preset')
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}
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// Repro from #13285
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function updateIds<T extends Record<K, string>, K extends string>(
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obj: T,
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idFields: K[],
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idMapping: Partial<Record<T[K], T[K]>>
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): Record<K, string> {
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for (const idField of idFields) {
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const newId: T[K] | undefined = idMapping[obj[idField]];
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if (newId) {
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obj[idField] = newId;
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}
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|
}
|
|
return obj;
|
|
}
|
|
|
|
// Repro from #13285
|
|
|
|
function updateIds2<T extends { [x: string]: string }, K extends keyof T>(
|
|
obj: T,
|
|
key: K,
|
|
stringMap: { [oldId: string]: string }
|
|
) {
|
|
var x = obj[key];
|
|
stringMap[x]; // Should be OK.
|
|
}
|
|
|
|
// Repro from #13514
|
|
|
|
declare function head<T extends Array<any>>(list: T): T[0];
|
|
|
|
// Repro from #13604
|
|
|
|
class A<T> {
|
|
props: T & { foo: string };
|
|
}
|
|
|
|
class B extends A<{ x: number}> {
|
|
f(p: this["props"]) {
|
|
p.x;
|
|
}
|
|
}
|
|
|
|
// Repro from #13749
|
|
|
|
class Form<T> {
|
|
private childFormFactories: {[K in keyof T]: (v: T[K]) => Form<T[K]>}
|
|
|
|
public set<K extends keyof T>(prop: K, value: T[K]) {
|
|
this.childFormFactories[prop](value)
|
|
}
|
|
}
|
|
|
|
// Repro from #13787
|
|
|
|
class SampleClass<P> {
|
|
public props: Readonly<P>;
|
|
constructor(props: P) {
|
|
this.props = Object.freeze(props);
|
|
}
|
|
}
|
|
|
|
interface Foo {
|
|
foo: string;
|
|
}
|
|
|
|
declare function merge<T, U>(obj1: T, obj2: U): T & U;
|
|
|
|
class AnotherSampleClass<T> extends SampleClass<T & Foo> {
|
|
constructor(props: T) {
|
|
const foo: Foo = { foo: "bar" };
|
|
super(merge(props, foo));
|
|
}
|
|
|
|
public brokenMethod() {
|
|
this.props.foo.concat;
|
|
}
|
|
}
|
|
new AnotherSampleClass({});
|
|
|
|
// Positive repro from #17166
|
|
function f3<T, K extends Extract<keyof T, string>>(t: T, k: K, tk: T[K]): void {
|
|
for (let key in t) {
|
|
key = k // ok, K ==> keyof T
|
|
t[key] = tk; // ok, T[K] ==> T[keyof T]
|
|
}
|
|
}
|
|
|
|
// # 21185
|
|
type Predicates<TaggedRecord> = {
|
|
[T in keyof TaggedRecord]: (variant: TaggedRecord[keyof TaggedRecord]) => variant is TaggedRecord[T]
|
|
}
|
|
|
|
// Repros from #23592
|
|
|
|
type Example<T extends { [K in keyof T]: { prop: any } }> = { [K in keyof T]: T[K]["prop"] };
|
|
type Result = Example<{ a: { prop: string }; b: { prop: number } }>;
|
|
|
|
type Helper2<T> = { [K in keyof T]: Extract<T[K], { prop: any }> };
|
|
type Example2<T> = { [K in keyof Helper2<T>]: Helper2<T>[K]["prop"] };
|
|
type Result2 = Example2<{ 1: { prop: string }; 2: { prop: number } }>;
|
|
|
|
// Repro from #23618
|
|
|
|
type DBBoolTable<K extends string> = { [k in K]: 0 | 1 }
|
|
enum Flag {
|
|
FLAG_1 = "flag_1",
|
|
FLAG_2 = "flag_2"
|
|
}
|
|
|
|
type SimpleDBRecord<Flag extends string> = { staticField: number } & DBBoolTable<Flag>
|
|
function getFlagsFromSimpleRecord<Flag extends string>(record: SimpleDBRecord<Flag>, flags: Flag[]) {
|
|
return record[flags[0]];
|
|
}
|
|
|
|
type DynamicDBRecord<Flag extends string> = ({ dynamicField: number } | { dynamicField: string }) & DBBoolTable<Flag>
|
|
function getFlagsFromDynamicRecord<Flag extends string>(record: DynamicDBRecord<Flag>, flags: Flag[]) {
|
|
return record[flags[0]];
|
|
}
|
|
|
|
// Repro from #21368
|
|
|
|
interface I {
|
|
foo: string;
|
|
}
|
|
|
|
declare function take<T>(p: T): void;
|
|
|
|
function fn<T extends I, K extends keyof T>(o: T, k: K) {
|
|
take<{} | null | undefined>(o[k]);
|
|
take<any>(o[k]);
|
|
}
|
|
|
|
// Repro from #23133
|
|
|
|
class Unbounded<T> {
|
|
foo(x: T[keyof T]) {
|
|
let y: {} | undefined | null = x;
|
|
}
|
|
}
|
|
|
|
// Repro from #23940
|
|
|
|
interface I7 {
|
|
x: any;
|
|
}
|
|
type Foo7<T extends number> = T;
|
|
declare function f7<K extends keyof I7>(type: K): Foo7<I7[K]>;
|
|
|
|
// Repro from #21770
|
|
|
|
type Dict<T extends string> = { [key in T]: number };
|
|
type DictDict<V extends string, T extends string> = { [key in V]: Dict<T> };
|
|
|
|
function ff1<V extends string, T extends string>(dd: DictDict<V, T>, k1: V, k2: T): number {
|
|
return dd[k1][k2];
|
|
}
|
|
|
|
function ff2<V extends string, T extends string>(dd: DictDict<V, T>, k1: V, k2: T): number {
|
|
const d: Dict<T> = dd[k1];
|
|
return d[k2];
|
|
}
|
|
|
|
// Repro from #26409
|
|
|
|
const cf1 = <T extends { [P in K]: string; } & { cool: string; }, K extends keyof T>(t: T, k: K) =>
|
|
{
|
|
const s: string = t[k];
|
|
t.cool;
|
|
};
|
|
|
|
const cf2 = <T extends { [P in K | "cool"]: string; }, K extends keyof T>(t: T, k: K) =>
|
|
{
|
|
const s: string = t[k];
|
|
t.cool;
|
|
};
|