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//// [overloadResolutionConstructors.ts]
class SomeBase {
private n;
public s: string;
}
class SomeDerived1 extends SomeBase {
private m;
}
class SomeDerived2 extends SomeBase {
private m;
}
class SomeDerived3 extends SomeBase {
private m;
}
interface fn1 {
new (s: string): string;
new (s: number): number;
}
var fn1: fn1;
// Ambiguous call picks the first overload in declaration order
var s = new fn1(undefined);
var s: string;
// No candidate overloads found
new fn1({}); // Error
// Generic and non - generic overload where generic overload is the only candidate when called with type arguments
interface fn2 {
new (s: string, n: number): number;
new <T>(n: number, t: T): T;
}
var fn2: fn2;
var d = new fn2<Date>(0, undefined);
var d: Date;
// Generic and non - generic overload where generic overload is the only candidate when called without type arguments
var s = new fn2(0, '');
// Generic and non - generic overload where non - generic overload is the only candidate when called with type arguments
new fn2<Date>('', 0); // Error
// Generic and non - generic overload where non - generic overload is the only candidate when called without type arguments
new fn2('', 0); // OK
// Generic overloads with differing arity called without type arguments
interface fn3 {
new<T>(n: T): string;
new<T, U>(s: string, t: T, u: U): U;
new<T, U, V>(v: V, u: U, t: T): number;
}
var fn3: fn3;
var s = new fn3(3);
var s = new fn3('', 3, '');
var n = new fn3(5, 5, 5);
var n: number;
// Generic overloads with differing arity called with type arguments matching each overload type parameter count
var s = new fn3<number>(4);
var s = new fn3<string, string>('', '', '');
var n = new fn3<number, string, string>('', '', 3);
// Generic overloads with differing arity called with type argument count that doesn't match any overload
new fn3<number, number, number, number>(); // Error
// Generic overloads with constraints called with type arguments that satisfy the constraints
interface fn4 {
new<T extends string, U extends number>(n: T, m: U);
new<T extends number, U extends string>(n: T, m: U);
}
var fn4: fn4;
new fn4<string, number>('', 3);
new fn4<string, number>(3, ''); // Error
new fn4<number, string>('', 3); // Error
new fn4<number, string>(3, '');
// Generic overloads with constraints called without type arguments but with types that satisfy the constraints
new fn4('', 3);
new fn4(3, '');
new fn4(3, undefined);
new fn4('', null);
// Generic overloads with constraints called with type arguments that do not satisfy the constraints
new fn4<boolean, Date>(null, null); // Error
// Generic overloads with constraints called without type arguments but with types that do not satisfy the constraints
new fn4(true, null); // Error
new fn4(null, true); // Error
// Non - generic overloads where contextual typing of function arguments has errors
interface fn5 {
new(f: (n: string) => void): string;
new(f: (n: number) => void): number;
}
var fn5: fn5;
var n = new fn5((n) => n.toFixed());
var s = new fn5((n) => n.substr(0));
//// [overloadResolutionConstructors.js]
var __extends = (this && this.__extends) || (function () {
var extendStatics = function (d, b) {
extendStatics = Object.setPrototypeOf ||
({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) ||
function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; };
return extendStatics(d, b);
};
return function (d, b) {
extendStatics(d, b);
function __() { this.constructor = d; }
d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __());
};
})();
var SomeBase = /** @class */ (function () {
function SomeBase() {
}
return SomeBase;
}());
var SomeDerived1 = /** @class */ (function (_super) {
__extends(SomeDerived1, _super);
function SomeDerived1() {
return _super !== null && _super.apply(this, arguments) || this;
}
return SomeDerived1;
}(SomeBase));
var SomeDerived2 = /** @class */ (function (_super) {
__extends(SomeDerived2, _super);
function SomeDerived2() {
return _super !== null && _super.apply(this, arguments) || this;
}
return SomeDerived2;
}(SomeBase));
var SomeDerived3 = /** @class */ (function (_super) {
__extends(SomeDerived3, _super);
function SomeDerived3() {
return _super !== null && _super.apply(this, arguments) || this;
}
return SomeDerived3;
}(SomeBase));
var fn1;
// Ambiguous call picks the first overload in declaration order
var s = new fn1(undefined);
var s;
// No candidate overloads found
new fn1({}); // Error
var fn2;
var d = new fn2(0, undefined);
var d;
// Generic and non - generic overload where generic overload is the only candidate when called without type arguments
var s = new fn2(0, '');
// Generic and non - generic overload where non - generic overload is the only candidate when called with type arguments
new fn2('', 0); // Error
// Generic and non - generic overload where non - generic overload is the only candidate when called without type arguments
new fn2('', 0); // OK
var fn3;
var s = new fn3(3);
var s = new fn3('', 3, '');
var n = new fn3(5, 5, 5);
var n;
// Generic overloads with differing arity called with type arguments matching each overload type parameter count
var s = new fn3(4);
var s = new fn3('', '', '');
var n = new fn3('', '', 3);
// Generic overloads with differing arity called with type argument count that doesn't match any overload
new fn3(); // Error
var fn4;
new fn4('', 3);
new fn4(3, ''); // Error
new fn4('', 3); // Error
new fn4(3, '');
// Generic overloads with constraints called without type arguments but with types that satisfy the constraints
new fn4('', 3);
new fn4(3, '');
new fn4(3, undefined);
new fn4('', null);
// Generic overloads with constraints called with type arguments that do not satisfy the constraints
new fn4(null, null); // Error
// Generic overloads with constraints called without type arguments but with types that do not satisfy the constraints
new fn4(true, null); // Error
new fn4(null, true); // Error
var fn5;
var n = new fn5(function (n) { return n.toFixed(); });
var s = new fn5(function (n) { return n.substr(0); });
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