//// [derivedClassTransitivity3.ts]
// subclassing is not transitive when you can remove required parameters and add optional parameters

class C<T> {
    foo(x: T, y: T) { }
}

class D<T> extends C<T> {
    foo(x: T) { } // ok to drop parameters
}

class E<T> extends D<T> {
    foo(x: T, y?: number) { } // ok to add optional parameters
}

var c: C<string>;
var d: D<string>;
var e: E<string>;
c = e;
var r = c.foo('', '');
var r2 = e.foo('', 1);

//// [derivedClassTransitivity3.js]
// subclassing is not transitive when you can remove required parameters and add optional parameters
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 C = (function () {
    function C() {
    }
    C.prototype.foo = function (x, y) { };
    return C;
})();
var D = (function (_super) {
    __extends(D, _super);
    function D() {
        _super.apply(this, arguments);
    }
    D.prototype.foo = function (x) { }; // ok to drop parameters
    return D;
})(C);
var E = (function (_super) {
    __extends(E, _super);
    function E() {
        _super.apply(this, arguments);
    }
    E.prototype.foo = function (x, y) { }; // ok to add optional parameters
    return E;
})(D);
var c;
var d;
var e;
c = e;
var r = c.foo('', '');
var r2 = e.foo('', 1);