mirror of
https://github.com/swc-project/swc.git
synced 2024-12-18 19:21:33 +03:00
243 lines
7.0 KiB
TypeScript
243 lines
7.0 KiB
TypeScript
// @target: esnext
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// @lib: esnext
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// @declaration: true
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// @useDefineForClassFields: false
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// declarations with call initializer
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const constCall = Symbol();
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let letCall = Symbol();
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var varCall = Symbol();
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// ambient declaration with type
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declare const constType: unique symbol;
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// declaration with type and call initializer
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const constTypeAndCall: unique symbol = Symbol();
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// declaration from initializer
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const constInitToConstCall = constCall;
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const constInitToLetCall = letCall;
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const constInitToVarCall = varCall;
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const constInitToConstDeclAmbient = constType;
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let letInitToConstCall = constCall;
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let letInitToLetCall = letCall;
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let letInitToVarCall = varCall;
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let letInitToConstDeclAmbient = constType;
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var varInitToConstCall = constCall;
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var varInitToLetCall = letCall;
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var varInitToVarCall = varCall;
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var varInitToConstDeclAmbient = constType;
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// declaration from initializer with type query
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const constInitToConstCallWithTypeQuery: typeof constCall = constCall;
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const constInitToConstDeclAmbientWithTypeQuery: typeof constType = constType;
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// function return inference
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function funcReturnConstCall() { return constCall; }
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function funcReturnLetCall() { return letCall; }
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function funcReturnVarCall() { return varCall; }
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// function return value with type query
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function funcReturnConstCallWithTypeQuery(): typeof constCall { return constCall; }
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// generator function yield inference
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function* genFuncYieldConstCall() { yield constCall; }
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function* genFuncYieldLetCall() { yield letCall; }
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function* genFuncYieldVarCall() { yield varCall; }
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// generator function yield with return type query
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function* genFuncYieldConstCallWithTypeQuery(): IterableIterator<typeof constCall> { yield constCall; }
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// async function return inference
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async function asyncFuncReturnConstCall() { return constCall; }
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async function asyncFuncReturnLetCall() { return letCall; }
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async function asyncFuncReturnVarCall() { return varCall; }
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// async generator function yield inference
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async function* asyncGenFuncYieldConstCall() { yield constCall; }
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async function* asyncGenFuncYieldLetCall() { yield letCall; }
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async function* asyncGenFuncYieldVarCall() { yield varCall; }
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// classes
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class C {
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static readonly readonlyStaticCall = Symbol();
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static readonly readonlyStaticType: unique symbol;
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static readonly readonlyStaticTypeAndCall: unique symbol = Symbol();
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static readwriteStaticCall = Symbol();
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readonly readonlyCall = Symbol();
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readwriteCall = Symbol();
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}
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declare const c: C;
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const constInitToCReadonlyStaticCall = C.readonlyStaticCall;
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const constInitToCReadonlyStaticType = C.readonlyStaticType;
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const constInitToCReadonlyStaticTypeAndCall = C.readonlyStaticTypeAndCall;
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const constInitToCReadwriteStaticCall = C.readwriteStaticCall;
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const constInitToCReadonlyStaticCallWithTypeQuery: typeof C.readonlyStaticCall = C.readonlyStaticCall;
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const constInitToCReadonlyStaticTypeWithTypeQuery: typeof C.readonlyStaticType = C.readonlyStaticType;
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const constInitToCReadonlyStaticTypeAndCallWithTypeQuery: typeof C.readonlyStaticTypeAndCall = C.readonlyStaticTypeAndCall;
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const constInitToCReadwriteStaticCallWithTypeQuery: typeof C.readwriteStaticCall = C.readwriteStaticCall;
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const constInitToCReadonlyCall = c.readonlyCall;
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const constInitToCReadwriteCall = c.readwriteCall;
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const constInitToCReadonlyCallWithTypeQuery: typeof c.readonlyCall = c.readonlyCall;
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const constInitToCReadwriteCallWithTypeQuery: typeof c.readwriteCall = c.readwriteCall;
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const constInitToCReadonlyCallWithIndexedAccess: C["readonlyCall"] = c.readonlyCall;
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const constInitToCReadwriteCallWithIndexedAccess: C["readwriteCall"] = c.readwriteCall;
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// interfaces
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interface I {
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readonly readonlyType: unique symbol;
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}
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declare const i: I;
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const constInitToIReadonlyType = i.readonlyType;
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const constInitToIReadonlyTypeWithTypeQuery: typeof i.readonlyType = i.readonlyType;
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const constInitToIReadonlyTypeWithIndexedAccess: I["readonlyType"] = i.readonlyType;
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// type literals
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type L = {
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readonly readonlyType: unique symbol;
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nested: {
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readonly readonlyNestedType: unique symbol;
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}
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};
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declare const l: L;
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const constInitToLReadonlyType = l.readonlyType;
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const constInitToLReadonlyNestedType = l.nested.readonlyNestedType;
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const constInitToLReadonlyTypeWithTypeQuery: typeof l.readonlyType = l.readonlyType;
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const constInitToLReadonlyNestedTypeWithTypeQuery: typeof l.nested.readonlyNestedType = l.nested.readonlyNestedType;
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const constInitToLReadonlyTypeWithIndexedAccess: L["readonlyType"] = l.readonlyType;
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const constInitToLReadonlyNestedTypeWithIndexedAccess: L["nested"]["readonlyNestedType"] = l.nested.readonlyNestedType;
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// type argument inference
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const promiseForConstCall = Promise.resolve(constCall);
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const arrayOfConstCall = [constCall];
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// unique symbol widening in expressions
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declare const s: unique symbol;
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declare namespace N { const s: unique symbol; }
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declare const o: { [s]: "a", [N.s]: "b" };
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declare function f<T>(x: T): T;
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declare function g(x: typeof s): void;
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declare function g(x: typeof N.s): void;
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// widening positions
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// argument inference
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f(s);
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f(N.s);
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f(N["s"]);
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// array literal elements
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[s];
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[N.s];
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[N["s"]];
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// property assignments/methods
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const o2 = {
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a: s,
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b: N.s,
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c: N["s"],
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method1() { return s; },
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async method2() { return s; },
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async * method3() { yield s; },
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* method4() { yield s; },
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method5(p = s) { return p; }
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};
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// property initializers
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class C0 {
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static readonly a = s;
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static readonly b = N.s;
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static readonly c = N["s"];
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static d = s;
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static e = N.s;
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static f = N["s"];
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readonly a = s;
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readonly b = N.s;
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readonly c = N["s"];
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d = s;
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e = N.s;
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f = N["s"];
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method1() { return s; }
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async method2() { return s; }
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async * method3() { yield s; }
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* method4() { yield s; }
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method5(p = s) { return p; }
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}
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// non-widening positions
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// element access
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o[s];
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o[N.s];
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o[N["s"]];
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// arguments (no-inference)
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f<typeof s>(s);
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f<typeof N.s>(N.s);
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f<typeof N.s>(N["s"]);
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g(s);
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g(N.s);
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g(N["s"]);
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// falsy expressions
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s || "";
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N.s || "";
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N["s"] || "";
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// conditionals
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Math.random() * 2 ? s : "a";
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Math.random() * 2 ? N.s : "a";
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Math.random() * 2 ? N["s"] : "a";
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// computed property names
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({
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[s]: "a",
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[N.s]: "b",
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});
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class C1 {
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static [s]: "a";
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static [N.s]: "b";
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[s]: "a";
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[N.s]: "b";
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}
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// contextual types
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interface Context {
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method1(): typeof s;
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method2(): Promise<typeof s>;
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method3(): AsyncIterableIterator<typeof s>;
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method4(): IterableIterator<typeof s>;
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method5(p?: typeof s): typeof s;
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}
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const o4: Context = {
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method1() {
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return s; // return type should not widen due to contextual type
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},
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async method2() {
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return s; // return type should not widen due to contextual type
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},
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async * method3() {
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yield s; // yield type should not widen due to contextual type
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},
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* method4() {
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yield s; // yield type should not widen due to contextual type
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},
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method5(p = s) { // parameter should not widen due to contextual type
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return p;
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}
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}; |