import { Cartesian2 } from "../../Source/Cesium.js"; import { Math as CesiumMath } from "../../Source/Cesium.js"; import createPackableArraySpecs from "../createPackableArraySpecs.js"; import createPackableSpecs from "../createPackableSpecs.js"; describe("Core/Cartesian2", function () { it("construct with default values", function () { var cartesian = new Cartesian2(); expect(cartesian.x).toEqual(0.0); expect(cartesian.y).toEqual(0.0); }); it("construct with only an x value", function () { var cartesian = new Cartesian2(1.0); expect(cartesian.x).toEqual(1.0); expect(cartesian.y).toEqual(0.0); }); it("construct with all values", function () { var cartesian = new Cartesian2(1.0, 2.0); expect(cartesian.x).toEqual(1.0); expect(cartesian.y).toEqual(2.0); }); it("fromArray creates a Cartesian2", function () { var cartesian = new Cartesian2(); cartesian = Cartesian2.fromArray([1.0, 2.0]); expect(cartesian).toEqual(new Cartesian2(1.0, 2.0)); }); it("fromArray with an offset creates a Cartesian2", function () { var cartesian = new Cartesian2(); cartesian = Cartesian2.fromArray([0.0, 1.0, 2.0, 0.0], 1); expect(cartesian).toEqual(new Cartesian2(1.0, 2.0)); }); it("fromArray throws without values", function () { expect(function () { Cartesian2.fromArray(); }).toThrowDeveloperError(); }); it("clone with a result parameter", function () { var cartesian = new Cartesian2(1.0, 2.0); var result = new Cartesian2(); var returnedResult = Cartesian2.clone(cartesian, result); expect(cartesian).not.toBe(result); expect(result).toBe(returnedResult); expect(cartesian).toEqual(result); }); it("clone works with a result parameter that is an input parameter", function () { var cartesian = new Cartesian2(1.0, 2.0); var returnedResult = Cartesian2.clone(cartesian, cartesian); expect(cartesian).toBe(returnedResult); }); it("maximumComponent works when X is greater", function () { var cartesian = new Cartesian2(2.0, 1.0); expect(Cartesian2.maximumComponent(cartesian)).toEqual(cartesian.x); }); it("maximumComponent works when Y is greater", function () { var cartesian = new Cartesian2(1.0, 2.0); expect(Cartesian2.maximumComponent(cartesian)).toEqual(cartesian.y); }); it("minimumComponent works when X is lesser", function () { var cartesian = new Cartesian2(1.0, 2.0); expect(Cartesian2.minimumComponent(cartesian)).toEqual(cartesian.x); }); it("minimumComponent works when Y is lesser", function () { var cartesian = new Cartesian2(2.0, 1.0); expect(Cartesian2.minimumComponent(cartesian)).toEqual(cartesian.y); }); it("minimumByComponent", function () { var first = new Cartesian2(2.0, 0.0); var second = new Cartesian2(1.0, 0.0); var result = new Cartesian2(); var expected = new Cartesian2(1.0, 0.0); expect(Cartesian2.minimumByComponent(first, second, result)).toEqual( expected ); first = new Cartesian2(1.0, 0.0); second = new Cartesian2(2.0, 0.0); expected = new Cartesian2(1.0, 0.0); expect(Cartesian2.minimumByComponent(first, second, result)).toEqual( expected ); first = new Cartesian2(2.0, -15.0); second = new Cartesian2(1.0, -20.0); expected = new Cartesian2(1.0, -20.0); expect(Cartesian2.minimumByComponent(first, second, result)).toEqual( expected ); first = new Cartesian2(2.0, -20.0); second = new Cartesian2(1.0, -15.0); expected = new Cartesian2(1.0, -20.0); expect(Cartesian2.minimumByComponent(first, second, result)).toEqual( expected ); first = new Cartesian2(2.0, -15.0); second = new Cartesian2(1.0, -20.0); expected = new Cartesian2(1.0, -20.0); expect(Cartesian2.minimumByComponent(first, second, result)).toEqual( expected ); first = new Cartesian2(2.0, -15.0); second = new Cartesian2(1.0, -20.0); expected = new Cartesian2(1.0, -20.0); expect(Cartesian2.minimumByComponent(first, second, result)).toEqual( expected ); }); it("minimumByComponent with a result parameter that is an input parameter", function () { var first = new Cartesian2(2.0, 0.0); var second = new Cartesian2(1.0, 0.0); var result = new Cartesian2(1.0, 0.0); expect(Cartesian2.minimumByComponent(first, second, first)).toEqual(result); first.x = 1.0; second.x = 2.0; expect(Cartesian2.minimumByComponent(first, second, first)).toEqual(result); }); it("minimumByComponent with a result parameter that is an input parameter", function () { var first = new Cartesian2(2.0, 0.0); var second = new Cartesian2(1.0, 0.0); var result = new Cartesian2(1.0, 0.0); expect(Cartesian2.minimumByComponent(first, second, second)).toEqual( result ); first.x = 1.0; second.x = 2.0; expect(Cartesian2.minimumByComponent(first, second, second)).toEqual( result ); }); it("minimumByComponent throws without first", function () { expect(function () { Cartesian2.minimumByComponent(); }).toThrowDeveloperError(); }); it("minimumByComponent throws without second", function () { expect(function () { Cartesian2.minimumByComponent(new Cartesian2()); }).toThrowDeveloperError(); }); it("minimumByComponent works when first's or second's X is lesser", function () { var first = new Cartesian2(2.0, 0.0); var second = new Cartesian2(1.0, 0.0); var result = new Cartesian2(1.0, 0.0); expect(Cartesian2.minimumByComponent(first, second, result)).toEqual( result ); second.x = 3.0; result.x = 2.0; expect(Cartesian2.minimumByComponent(first, second, result)).toEqual( result ); }); it("minimumByComponent works when first's or second's Y is lesser", function () { var first = new Cartesian2(0.0, 2.0); var second = new Cartesian2(0.0, 1.0); var result = new Cartesian2(0.0, 1.0); expect(Cartesian2.minimumByComponent(first, second, result)).toEqual( result ); second.y = 3.0; result.y = 2.0; expect(Cartesian2.minimumByComponent(first, second, result)).toEqual( result ); }); it("maximumByComponent", function () { var first = new Cartesian2(2.0, 0.0); var second = new Cartesian2(1.0, 0.0); var result = new Cartesian2(); var expected = new Cartesian2(2.0, 0.0); expect(Cartesian2.maximumByComponent(first, second, result)).toEqual( expected ); first = new Cartesian2(1.0, 0.0); second = new Cartesian2(2.0, 0.0); expected = new Cartesian2(2.0, 0.0); expect(Cartesian2.maximumByComponent(first, second, result)).toEqual( expected ); first = new Cartesian2(2.0, -15.0); second = new Cartesian2(1.0, -20.0); expected = new Cartesian2(2.0, -15.0); expect(Cartesian2.maximumByComponent(first, second, result)).toEqual( expected ); first = new Cartesian2(2.0, -20.0); second = new Cartesian2(1.0, -15.0); expected = new Cartesian2(2.0, -15.0); expect(Cartesian2.maximumByComponent(first, second, result)).toEqual( expected ); first = new Cartesian2(2.0, -15.0); second = new Cartesian2(1.0, -20.0); expected = new Cartesian2(2.0, -15.0); expect(Cartesian2.maximumByComponent(first, second, result)).toEqual( expected ); first = new Cartesian2(2.0, -15.0); second = new Cartesian2(1.0, -20.0); expected = new Cartesian2(2.0, -15.0); expect(Cartesian2.maximumByComponent(first, second, result)).toEqual( expected ); }); it("maximumByComponent with a result parameter that is an input parameter", function () { var first = new Cartesian2(2.0, 0.0); var second = new Cartesian2(1.0, 0.0); var result = new Cartesian2(2.0, 0.0); expect(Cartesian2.maximumByComponent(first, second, first)).toEqual(result); first.x = 1.0; second.x = 2.0; expect(Cartesian2.maximumByComponent(first, second, first)).toEqual(result); }); it("maximumByComponent with a result parameter that is an input parameter", function () { var first = new Cartesian2(2.0, 0.0); var second = new Cartesian2(1.0, 0.0); var result = new Cartesian2(2.0, 0.0); expect(Cartesian2.maximumByComponent(first, second, second)).toEqual( result ); first.x = 1.0; second.x = 2.0; expect(Cartesian2.maximumByComponent(first, second, second)).toEqual( result ); }); it("maximumByComponent throws without first", function () { expect(function () { Cartesian2.maximumByComponent(); }).toThrowDeveloperError(); }); it("maximumByComponent throws without second", function () { expect(function () { Cartesian2.maximumByComponent(new Cartesian2()); }).toThrowDeveloperError(); }); it("maximumByComponent works when first's or second's X is greater", function () { var first = new Cartesian2(2.0, 0.0); var second = new Cartesian2(1.0, 0.0); var result = new Cartesian2(2.0, 0.0); expect(Cartesian2.maximumByComponent(first, second, result)).toEqual( result ); second.x = 3.0; result.x = 3.0; expect(Cartesian2.maximumByComponent(first, second, result)).toEqual( result ); }); it("maximumByComponent works when first's or second's Y is greater", function () { var first = new Cartesian2(0.0, 2.0); var second = new Cartesian2(0.0, 1.0); var result = new Cartesian2(0.0, 2.0); expect(Cartesian2.maximumByComponent(first, second, result)).toEqual( result ); second.y = 3.0; result.y = 3.0; expect(Cartesian2.maximumByComponent(first, second, result)).toEqual( result ); }); it("magnitudeSquared", function () { var cartesian = new Cartesian2(2.0, 3.0); expect(Cartesian2.magnitudeSquared(cartesian)).toEqual(13); }); it("magnitude", function () { var cartesian = new Cartesian2(2.0, 3.0); expect(Cartesian2.magnitude(cartesian)).toEqual(Math.sqrt(13.0)); }); it("distance", function () { var distance = Cartesian2.distance( new Cartesian2(1.0, 0.0), new Cartesian2(2.0, 0.0) ); expect(distance).toEqual(1.0); }); it("distance throws without left", function () { expect(function () { Cartesian2.distance(); }).toThrowDeveloperError(); }); it("distance throws without right", function () { expect(function () { Cartesian2.distance(Cartesian2.UNIT_X); }).toThrowDeveloperError(); }); it("distanceSquared", function () { var distanceSquared = Cartesian2.distanceSquared( new Cartesian2(1.0, 0.0), new Cartesian2(3.0, 0.0) ); expect(distanceSquared).toEqual(4.0); }); it("distanceSquared throws without left", function () { expect(function () { Cartesian2.distanceSquared(); }).toThrowDeveloperError(); }); it("distanceSquared throws without right", function () { expect(function () { Cartesian2.distanceSquared(Cartesian2.UNIT_X); }).toThrowDeveloperError(); }); it("normalize works with a result parameter", function () { var cartesian = new Cartesian2(2.0, 0.0); var expectedResult = new Cartesian2(1.0, 0.0); var result = new Cartesian2(); var returnedResult = Cartesian2.normalize(cartesian, result); expect(result).toBe(returnedResult); expect(result).toEqual(expectedResult); }); it("normalize works with a result parameter that is an input parameter", function () { var cartesian = new Cartesian2(2.0, 0.0); var expectedResult = new Cartesian2(1.0, 0.0); var returnedResult = Cartesian2.normalize(cartesian, cartesian); expect(cartesian).toBe(returnedResult); expect(cartesian).toEqual(expectedResult); }); it("normalize throws with zero vector", function () { expect(function () { Cartesian2.normalize(Cartesian2.ZERO, new Cartesian2()); }).toThrowDeveloperError(); }); it("multiplyComponents works with a result parameter", function () { var left = new Cartesian2(2.0, 3.0); var right = new Cartesian2(4.0, 5.0); var result = new Cartesian2(); var expectedResult = new Cartesian2(8.0, 15.0); var returnedResult = Cartesian2.multiplyComponents(left, right, result); expect(result).toBe(returnedResult); expect(result).toEqual(expectedResult); }); it("multiplyComponents works with a result parameter that is an input parameter", function () { var left = new Cartesian2(2.0, 3.0); var right = new Cartesian2(4.0, 5.0); var expectedResult = new Cartesian2(8.0, 15.0); var returnedResult = Cartesian2.multiplyComponents(left, right, left); expect(left).toBe(returnedResult); expect(left).toEqual(expectedResult); }); it("divideComponents works with a result parameter", function () { var left = new Cartesian2(2.0, 3.0); var right = new Cartesian2(4.0, 5.0); var result = new Cartesian2(); var expectedResult = new Cartesian2(0.5, 0.6); var returnedResult = Cartesian2.divideComponents(left, right, result); expect(result).toBe(returnedResult); expect(result).toEqual(expectedResult); }); it("divideComponents works with a result parameter that is an input parameter", function () { var left = new Cartesian2(2.0, 3.0); var right = new Cartesian2(4.0, 5.0); var expectedResult = new Cartesian2(0.5, 0.6); var returnedResult = Cartesian2.divideComponents(left, right, left); expect(left).toBe(returnedResult); expect(left).toEqual(expectedResult); }); it("dot", function () { var left = new Cartesian2(2.0, 3.0); var right = new Cartesian2(4.0, 5.0); var expectedResult = 23.0; var result = Cartesian2.dot(left, right); expect(result).toEqual(expectedResult); }); it("cross", function () { var left = new Cartesian2(0.0, 1.0); var right = new Cartesian2(1.0, 0.0); var expectedResult = -1.0; var result = Cartesian2.cross(left, right); expect(result).toEqual(expectedResult); }); it("add works with a result parameter", function () { var left = new Cartesian2(2.0, 3.0); var right = new Cartesian2(4.0, 5.0); var result = new Cartesian2(); var expectedResult = new Cartesian2(6.0, 8.0); var returnedResult = Cartesian2.add(left, right, result); expect(returnedResult).toBe(result); expect(result).toEqual(expectedResult); }); it("add works with a result parameter that is an input parameter", function () { var left = new Cartesian2(2.0, 3.0); var right = new Cartesian2(4.0, 5.0); var expectedResult = new Cartesian2(6.0, 8.0); var returnedResult = Cartesian2.add(left, right, left); expect(returnedResult).toBe(left); expect(left).toEqual(expectedResult); }); it("subtract works with a result parameter", function () { var left = new Cartesian2(2.0, 3.0); var right = new Cartesian2(1.0, 5.0); var result = new Cartesian2(); var expectedResult = new Cartesian2(1.0, -2.0); var returnedResult = Cartesian2.subtract(left, right, result); expect(returnedResult).toBe(result); expect(result).toEqual(expectedResult); }); it("subtract works with this result parameter", function () { var left = new Cartesian2(2.0, 3.0); var right = new Cartesian2(1.0, 5.0); var expectedResult = new Cartesian2(1.0, -2.0); var returnedResult = Cartesian2.subtract(left, right, left); expect(returnedResult).toBe(left); expect(left).toEqual(expectedResult); }); it("multiplyByScalar with a result parameter", function () { var cartesian = new Cartesian2(1, 2); var result = new Cartesian2(); var scalar = 2; var expectedResult = new Cartesian2(2, 4); var returnedResult = Cartesian2.multiplyByScalar(cartesian, scalar, result); expect(result).toBe(returnedResult); expect(result).toEqual(expectedResult); }); it("multiplyByScalar with a result parameter that is an input parameter", function () { var cartesian = new Cartesian2(1, 2); var scalar = 2; var expectedResult = new Cartesian2(2, 4); var returnedResult = Cartesian2.multiplyByScalar( cartesian, scalar, cartesian ); expect(cartesian).toBe(returnedResult); expect(cartesian).toEqual(expectedResult); }); it("divideByScalar with a result parameter", function () { var cartesian = new Cartesian2(1.0, 2.0); var result = new Cartesian2(); var scalar = 2; var expectedResult = new Cartesian2(0.5, 1.0); var returnedResult = Cartesian2.divideByScalar(cartesian, scalar, result); expect(result).toBe(returnedResult); expect(result).toEqual(expectedResult); }); it("divideByScalar with a result parameter that is an input parameter", function () { var cartesian = new Cartesian2(1.0, 2.0); var scalar = 2; var expectedResult = new Cartesian2(0.5, 1.0); var returnedResult = Cartesian2.divideByScalar( cartesian, scalar, cartesian ); expect(cartesian).toBe(returnedResult); expect(cartesian).toEqual(expectedResult); }); it("negate with a result parameter", function () { var cartesian = new Cartesian2(1.0, -2.0); var result = new Cartesian2(); var expectedResult = new Cartesian2(-1.0, 2.0); var returnedResult = Cartesian2.negate(cartesian, result); expect(result).toBe(returnedResult); expect(result).toEqual(expectedResult); }); it("negate with a result parameter that is an input parameter", function () { var cartesian = new Cartesian2(1.0, -2.0); var expectedResult = new Cartesian2(-1.0, 2.0); var returnedResult = Cartesian2.negate(cartesian, cartesian); expect(cartesian).toBe(returnedResult); expect(cartesian).toEqual(expectedResult); }); it("abs with a result parameter", function () { var cartesian = new Cartesian2(1.0, -2.0); var result = new Cartesian2(); var expectedResult = new Cartesian2(1.0, 2.0); var returnedResult = Cartesian2.abs(cartesian, result); expect(result).toBe(returnedResult); expect(result).toEqual(expectedResult); }); it("abs with a result parameter that is an input parameter", function () { var cartesian = new Cartesian2(1.0, -2.0); var expectedResult = new Cartesian2(1.0, 2.0); var returnedResult = Cartesian2.abs(cartesian, cartesian); expect(cartesian).toBe(returnedResult); expect(cartesian).toEqual(expectedResult); }); it("lerp works with a result parameter", function () { var start = new Cartesian2(4.0, 8.0); var end = new Cartesian2(8.0, 20.0); var t = 0.25; var result = new Cartesian2(); var expectedResult = new Cartesian2(5.0, 11.0); var returnedResult = Cartesian2.lerp(start, end, t, result); expect(result).toBe(returnedResult); expect(result).toEqual(expectedResult); }); it("lerp works with a result parameter that is an input parameter", function () { var start = new Cartesian2(4.0, 8.0); var end = new Cartesian2(8.0, 20.0); var t = 0.25; var expectedResult = new Cartesian2(5.0, 11.0); var returnedResult = Cartesian2.lerp(start, end, t, start); expect(start).toBe(returnedResult); expect(start).toEqual(expectedResult); }); it("lerp extrapolate forward", function () { var start = new Cartesian2(4.0, 8.0); var end = new Cartesian2(8.0, 20.0); var t = 2.0; var expectedResult = new Cartesian2(12.0, 32.0); var result = Cartesian2.lerp(start, end, t, new Cartesian2()); expect(result).toEqual(expectedResult); }); it("lerp extrapolate backward", function () { var start = new Cartesian2(4.0, 8.0); var end = new Cartesian2(8.0, 20.0); var t = -1.0; var expectedResult = new Cartesian2(0.0, -4.0); var result = Cartesian2.lerp(start, end, t, new Cartesian2()); expect(result).toEqual(expectedResult); }); it("angleBetween works for right angles", function () { var x = Cartesian2.UNIT_X; var y = Cartesian2.UNIT_Y; expect(Cartesian2.angleBetween(x, y)).toEqual(CesiumMath.PI_OVER_TWO); expect(Cartesian2.angleBetween(y, x)).toEqual(CesiumMath.PI_OVER_TWO); }); it("angleBetween works for acute angles", function () { var x = new Cartesian2(0.0, 1.0); var y = new Cartesian2(1.0, 1.0); expect(Cartesian2.angleBetween(x, y)).toEqualEpsilon( CesiumMath.PI_OVER_FOUR, CesiumMath.EPSILON14 ); expect(Cartesian2.angleBetween(y, x)).toEqualEpsilon( CesiumMath.PI_OVER_FOUR, CesiumMath.EPSILON14 ); }); it("angleBetween works for obtuse angles", function () { var x = new Cartesian2(0.0, 1.0); var y = new Cartesian2(-1.0, -1.0); expect(Cartesian2.angleBetween(x, y)).toEqualEpsilon( (CesiumMath.PI * 3.0) / 4.0, CesiumMath.EPSILON14 ); expect(Cartesian2.angleBetween(y, x)).toEqualEpsilon( (CesiumMath.PI * 3.0) / 4.0, CesiumMath.EPSILON14 ); }); it("angleBetween works for zero angles", function () { var x = Cartesian2.UNIT_X; expect(Cartesian2.angleBetween(x, x)).toEqual(0.0); }); it("most orthogonal angle is x", function () { var v = new Cartesian2(0.0, 1.0); expect(Cartesian2.mostOrthogonalAxis(v, new Cartesian2())).toEqual( Cartesian2.UNIT_X ); }); it("most orthogonal angle is y", function () { var v = new Cartesian2(1.0, 0.0); expect(Cartesian2.mostOrthogonalAxis(v, new Cartesian2())).toEqual( Cartesian2.UNIT_Y ); }); it("equals", function () { var cartesian = new Cartesian2(1.0, 2.0); expect(Cartesian2.equals(cartesian, new Cartesian2(1.0, 2.0))).toEqual( true ); expect(Cartesian2.equals(cartesian, new Cartesian2(2.0, 2.0))).toEqual( false ); expect(Cartesian2.equals(cartesian, new Cartesian2(2.0, 1.0))).toEqual( false ); expect(Cartesian2.equals(cartesian, undefined)).toEqual(false); }); it("equalsEpsilon", function () { var cartesian = new Cartesian2(1.0, 2.0); expect(cartesian.equalsEpsilon(new Cartesian2(1.0, 2.0), 0.0)).toEqual( true ); expect(cartesian.equalsEpsilon(new Cartesian2(1.0, 2.0), 1.0)).toEqual( true ); expect(cartesian.equalsEpsilon(new Cartesian2(2.0, 2.0), 1.0)).toEqual( true ); expect(cartesian.equalsEpsilon(new Cartesian2(1.0, 3.0), 1.0)).toEqual( true ); expect( cartesian.equalsEpsilon(new Cartesian2(1.0, 3.0), CesiumMath.EPSILON6) ).toEqual(false); expect(cartesian.equalsEpsilon(undefined, 1)).toEqual(false); cartesian = new Cartesian2(3000000.0, 4000000.0); expect( cartesian.equalsEpsilon(new Cartesian2(3000000.0, 4000000.0), 0.0) ).toEqual(true); expect( cartesian.equalsEpsilon( new Cartesian2(3000000.0, 4000000.2), CesiumMath.EPSILON7 ) ).toEqual(true); expect( cartesian.equalsEpsilon( new Cartesian2(3000000.2, 4000000.0), CesiumMath.EPSILON7 ) ).toEqual(true); expect( cartesian.equalsEpsilon( new Cartesian2(3000000.2, 4000000.2), CesiumMath.EPSILON7 ) ).toEqual(true); expect( cartesian.equalsEpsilon( new Cartesian2(3000000.2, 4000000.2), CesiumMath.EPSILON9 ) ).toEqual(false); expect(cartesian.equalsEpsilon(undefined, 1)).toEqual(false); expect(Cartesian2.equalsEpsilon(undefined, cartesian, 1)).toEqual(false); }); it("toString", function () { var cartesian = new Cartesian2(1.123, 2.345); expect(cartesian.toString()).toEqual("(1.123, 2.345)"); }); it("clone returns undefined with no parameter", function () { expect(Cartesian2.clone()).toBeUndefined(); }); it("maximumComponent throws with no parameter", function () { expect(function () { Cartesian2.maximumComponent(); }).toThrowDeveloperError(); }); it("minimumComponent throws with no parameter", function () { expect(function () { Cartesian2.minimumComponent(); }).toThrowDeveloperError(); }); it("magnitudeSquared throws with no parameter", function () { expect(function () { Cartesian2.magnitudeSquared(); }).toThrowDeveloperError(); }); it("magnitude throws with no parameter", function () { expect(function () { Cartesian2.magnitude(); }).toThrowDeveloperError(); }); it("normalize throws with no parameter", function () { expect(function () { Cartesian2.normalize(); }).toThrowDeveloperError(); }); it("dot throws with no left parameter", function () { expect(function () { Cartesian2.dot(undefined, new Cartesian2()); }).toThrowDeveloperError(); }); it("dot throws with no right parameter", function () { expect(function () { Cartesian2.dot(new Cartesian2(), undefined); }).toThrowDeveloperError(); }); it("multiplyComponents throw with no left parameter", function () { var right = new Cartesian2(4.0, 5.0); expect(function () { Cartesian2.multiplyComponents(undefined, right); }).toThrowDeveloperError(); }); it("multiplyComponents throw with no right parameter", function () { var left = new Cartesian2(4.0, 5.0); expect(function () { Cartesian2.multiplyComponents(left, undefined); }).toThrowDeveloperError(); }); it("divideComponents throw with no left parameter", function () { var right = new Cartesian2(4.0, 5.0); expect(function () { Cartesian2.divideComponents(undefined, right); }).toThrowDeveloperError(); }); it("divideComponents throw with no right parameter", function () { var left = new Cartesian2(4.0, 5.0); expect(function () { Cartesian2.divideComponents(left, undefined); }).toThrowDeveloperError(); }); it("add throws with no left parameter", function () { expect(function () { Cartesian2.add(undefined, new Cartesian2()); }).toThrowDeveloperError(); }); it("add throws with no right parameter", function () { expect(function () { Cartesian2.add(new Cartesian2(), undefined); }).toThrowDeveloperError(); }); it("subtract throws with no left parameter", function () { expect(function () { Cartesian2.subtract(undefined, new Cartesian2()); }).toThrowDeveloperError(); }); it("subtract throws with no right parameter", function () { expect(function () { Cartesian2.subtract(new Cartesian2(), undefined); }).toThrowDeveloperError(); }); it("multiplyByScalar throws with no cartesian parameter", function () { expect(function () { Cartesian2.multiplyByScalar(undefined, 2.0); }).toThrowDeveloperError(); }); it("multiplyByScalar throws with no scalar parameter", function () { expect(function () { Cartesian2.multiplyByScalar(new Cartesian2(), undefined); }).toThrowDeveloperError(); }); it("divideByScalar throws with no cartesian parameter", function () { expect(function () { Cartesian2.divideByScalar(undefined, 2.0); }).toThrowDeveloperError(); }); it("divideByScalar throws with no scalar parameter", function () { expect(function () { Cartesian2.divideByScalar(new Cartesian2(), undefined); }).toThrowDeveloperError(); }); it("negate throws with no cartesian parameter", function () { expect(function () { Cartesian2.negate(undefined); }).toThrowDeveloperError(); }); it("abs throws with no cartesian parameter", function () { expect(function () { Cartesian2.abs(undefined); }).toThrowDeveloperError(); }); it("lerp throws with no start parameter", function () { var end = new Cartesian2(8.0, 20.0); var t = 0.25; expect(function () { Cartesian2.lerp(undefined, end, t); }).toThrowDeveloperError(); }); it("lerp throws with no end parameter", function () { var start = new Cartesian2(4.0, 8.0); var t = 0.25; expect(function () { Cartesian2.lerp(start, undefined, t); }).toThrowDeveloperError(); }); it("lerp throws with no t parameter", function () { var start = new Cartesian2(4.0, 8.0); var end = new Cartesian2(8.0, 20.0); expect(function () { Cartesian2.lerp(start, end, undefined); }).toThrowDeveloperError(); }); it("angleBetween throws with no left parameter", function () { var right = new Cartesian2(8.0, 20.0); expect(function () { Cartesian2.angleBetween(undefined, right); }).toThrowDeveloperError(); }); it("angleBetween throws with no right parameter", function () { var left = new Cartesian2(4.0, 8.0); expect(function () { Cartesian2.angleBetween(left, undefined); }).toThrowDeveloperError(); }); it("mostOrthogonalAxis throws with no cartesian parameter", function () { expect(function () { Cartesian2.mostOrthogonalAxis(undefined); }).toThrowDeveloperError(); }); it("fromElements returns a cartesian2 with corrrect coordinates", function () { var cartesian2 = Cartesian2.fromElements(2, 2); var expectedResult = new Cartesian2(2, 2); expect(cartesian2).toEqual(expectedResult); }); it("fromElements result param returns cartesian2 with correct coordinates", function () { var cartesian2 = new Cartesian2(); Cartesian2.fromElements(2, 2, cartesian2); var expectedResult = new Cartesian2(2, 2); expect(cartesian2).toEqual(expectedResult); }); it("minimumByComponent throws with no result", function () { expect(function () { Cartesian2.minimumByComponent(new Cartesian2(), new Cartesian2()); }).toThrowDeveloperError(); }); it("maximumByComponent throws with no result", function () { expect(function () { Cartesian2.maximumByComponent(new Cartesian2(), new Cartesian2()); }).toThrowDeveloperError(); }); it("normalize throws with no result", function () { expect(function () { Cartesian2.normalize(new Cartesian2()); }).toThrowDeveloperError(); }); it("multiplyComponents throws with no result", function () { expect(function () { Cartesian2.multiplyComponents(new Cartesian2(), new Cartesian2()); }).toThrowDeveloperError(); }); it("divideComponents throws with no result", function () { expect(function () { Cartesian2.divideComponents(new Cartesian2(), new Cartesian2()); }).toThrowDeveloperError(); }); it("add throws with no result", function () { expect(function () { Cartesian2.add(new Cartesian2(), new Cartesian2()); }).toThrowDeveloperError(); }); it("subtact throws with no result", function () { expect(function () { Cartesian2.subtract(new Cartesian2(), new Cartesian2()); }).toThrowDeveloperError(); }); it("multiplyByScalar throws with no result", function () { expect(function () { Cartesian2.multiplyByScalar(new Cartesian2(), 2); }).toThrowDeveloperError(); }); it("divideByScalar throws with no result", function () { expect(function () { Cartesian2.divideByScalar(new Cartesian2(), 2); }).toThrowDeveloperError(); }); it("negate throws with no result", function () { expect(function () { Cartesian2.negate(new Cartesian2()); }).toThrowDeveloperError(); }); it("abs throws with no result", function () { expect(function () { Cartesian2.abs(new Cartesian2()); }).toThrowDeveloperError(); }); it("lerp throws with no result", function () { expect(function () { Cartesian2.lerp(new Cartesian2(), new Cartesian2(), 10); }).toThrowDeveloperError(); }); it("mostOrthogonalAxis throws with no result", function () { expect(function () { Cartesian2.mostOrthogonalAxis(new Cartesian2()); }).toThrowDeveloperError(); }); createPackableSpecs(Cartesian2, new Cartesian2(1, 2), [1, 2]); createPackableArraySpecs( Cartesian2, [new Cartesian2(1, 2), new Cartesian2(3, 4)], [1, 2, 3, 4], 2 ); });