import { barycentricCoordinates } from "../../Source/Cesium.js";
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import { Cartesian3 } from "../../Source/Cesium.js";
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import { Math as CesiumMath } from "../../Source/Cesium.js";
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describe("Core/barycentricCoordinates", function () {
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var p0 = new Cartesian3(-1.0, 0.0, 0.0);
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var p1 = new Cartesian3(1.0, 0.0, 0.0);
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var p2 = new Cartesian3(0.0, 1.0, 1.0);
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it("evaluates to p0", function () {
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var point = Cartesian3.clone(p0);
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expect(barycentricCoordinates(point, p0, p1, p2)).toEqual(
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Cartesian3.UNIT_X
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);
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});
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it("evaluates to p1", function () {
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var point = Cartesian3.clone(p1);
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expect(barycentricCoordinates(point, p0, p1, p2)).toEqual(
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Cartesian3.UNIT_Y
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);
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});
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it("evaluates to p2", function () {
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var point = Cartesian3.clone(p2);
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expect(barycentricCoordinates(point, p0, p1, p2)).toEqual(
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Cartesian3.UNIT_Z
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);
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});
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it("evaluates on the p0-p1 edge", function () {
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var point = Cartesian3.multiplyByScalar(
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Cartesian3.add(p1, p0, new Cartesian3()),
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0.5,
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new Cartesian3()
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);
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expect(barycentricCoordinates(point, p0, p1, p2)).toEqual(
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new Cartesian3(0.5, 0.5, 0.0)
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);
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});
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it("evaluates on the p0-p2 edge", function () {
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var point = Cartesian3.multiplyByScalar(
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Cartesian3.add(p2, p0, new Cartesian3()),
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0.5,
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new Cartesian3()
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);
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expect(barycentricCoordinates(point, p0, p1, p2)).toEqual(
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new Cartesian3(0.5, 0.0, 0.5)
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);
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});
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it("evaluates on the p1-p2 edge", function () {
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var point = Cartesian3.multiplyByScalar(
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Cartesian3.add(p2, p1, new Cartesian3()),
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0.5,
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new Cartesian3()
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);
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expect(barycentricCoordinates(point, p0, p1, p2)).toEqual(
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new Cartesian3(0.0, 0.5, 0.5)
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);
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});
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it("evaluates on the interior", function () {
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var scalar = 1.0 / 3.0;
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var point = Cartesian3.multiplyByScalar(
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Cartesian3.add(
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Cartesian3.add(p0, p1, new Cartesian3()),
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p2,
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new Cartesian3()
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),
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scalar,
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new Cartesian3()
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);
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expect(barycentricCoordinates(point, p0, p1, p2)).toEqualEpsilon(
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new Cartesian3(scalar, scalar, scalar),
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CesiumMath.EPSILON14
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);
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});
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it("evaluates without throwing a NaN", function () {
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var point = Cartesian3.multiplyByScalar(
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Cartesian3.add(p1, p1, p1),
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0.5,
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new Cartesian3()
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);
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var coord = barycentricCoordinates(point, p0, p1, p2);
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expect(coord.z).not.toBeNaN();
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});
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it("evaluates with equal length sides", function () {
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var p0 = new Cartesian3(
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9635312487071484,
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13827945400273020,
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-16479219993905144
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);
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var p1 = new Cartesian3(
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12832234.180639317,
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-10455085.701705107,
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750010.7274386138
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);
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var p2 = new Cartesian3(
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-9689011.10628853,
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-13420063.892507521,
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750010.7274386119
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);
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expect(barycentricCoordinates(p0, p0, p1, p2)).toEqual(Cartesian3.UNIT_X);
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expect(barycentricCoordinates(p1, p0, p1, p2)).toEqual(Cartesian3.UNIT_Y);
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expect(barycentricCoordinates(p2, p0, p1, p2)).toEqual(Cartesian3.UNIT_Z);
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});
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it("throws without point", function () {
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expect(function () {
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barycentricCoordinates();
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}).toThrowDeveloperError();
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});
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it("throws without p0", function () {
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expect(function () {
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barycentricCoordinates(new Cartesian3());
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}).toThrowDeveloperError();
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});
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it("throws without p1", function () {
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expect(function () {
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barycentricCoordinates(new Cartesian3(), new Cartesian3());
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}).toThrowDeveloperError();
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});
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it("throws without p2", function () {
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expect(function () {
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barycentricCoordinates(
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new Cartesian3(),
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new Cartesian3(),
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new Cartesian3()
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);
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}).toThrowDeveloperError();
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});
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});
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