tools/cc-frame-viewer/third_party/gl-matrix/spec/gl-matrix/vec2-spec.js - Issue 12251005: [cc-frame-viewer] Add gl-matrix to third_party [redux]

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Issue 12251005: [cc-frame-viewer] Add gl-matrix to third_party [redux] (Closed) Base URL: svn://svn.chromium.org/chrome/trunk/src

Patch Set: Created 7 years, 10 months ago

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Index: tools/cc-frame-viewer/third_party/gl-matrix/spec/gl-matrix/vec2-spec.js

diff --git a/tools/cc-frame-viewer/third_party/gl-matrix/spec/gl-matrix/vec2-spec.js b/tools/cc-frame-viewer/third_party/gl-matrix/spec/gl-matrix/vec2-spec.js

new file mode 100644

index 0000000000000000000000000000000000000000..3cd958b2aebac24be7e481c25940cfca4ba22858

--- /dev/null

+++ b/tools/cc-frame-viewer/third_party/gl-matrix/spec/gl-matrix/vec2-spec.js

@@ -0,0 +1,506 @@

+Redistribution and use in source and binary forms, with or without modification,

+are permitted provided that the following conditions are met:

+ * Redistributions of source code must retain the above copyright notice, this

+ list of conditions and the following disclaimer.

+ * Redistributions in binary form must reproduce the above copyright notice,

+ this list of conditions and the following disclaimer in the documentation

+ and/or other materials provided with the distribution.

+THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND

+ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED

+WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE

+DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR

+ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES

+(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;

+LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON

+ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT

+(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS

+SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */

+describe("vec2", function() {

+ var out, vecA, vecB, result;

+ beforeEach(function() { vecA = [1, 2]; vecB = [3, 4]; out = [0, 0]; });

+ describe("create", function() {

+ beforeEach(function() { result = vec2.create(); });

+ it("should return a 2 element array initialized to 0s", function() { expect(result).toBeEqualish([0, 0]); });

+ });

+ describe("clone", function() {

+ beforeEach(function() { result = vec2.clone(vecA); });

+ it("should return a 2 element array initialized to the values in vecA", function() { expect(result).toBeEqualish(vecA); });

+ });

+ describe("fromValues", function() {

+ beforeEach(function() { result = vec2.fromValues(1, 2); });

+ it("should return a 2 element array initialized to the values passed", function() { expect(result).toBeEqualish([1, 2]); });

+ });

+ describe("copy", function() {

+ beforeEach(function() { result = vec2.copy(out, vecA); });

+ it("should place values into out", function() { expect(out).toBeEqualish([1, 2]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ });

+ describe("set", function() {

+ beforeEach(function() { result = vec2.set(out, 1, 2); });

+ it("should place values into out", function() { expect(out).toBeEqualish([1, 2]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ });

+ describe("add", function() {

+ describe("with a separate output vector", function() {

+ beforeEach(function() { result = vec2.add(out, vecA, vecB); });

+ it("should place values into out", function() { expect(out).toBeEqualish([4, 6]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ });

+ describe("when vecA is the output vector", function() {

+ beforeEach(function() { result = vec2.add(vecA, vecA, vecB); });

+ it("should place values into vecA", function() { expect(vecA).toBeEqualish([4, 6]); });

+ it("should return vecA", function() { expect(result).toBe(vecA); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ });

+ describe("when vecB is the output vector", function() {

+ beforeEach(function() { result = vec2.add(vecB, vecA, vecB); });

+ it("should place values into vecB", function() { expect(vecB).toBeEqualish([4, 6]); });

+ it("should return vecB", function() { expect(result).toBe(vecB); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ });

+ describe("subtract", function() {

+ it("should have an alias called 'sub'", function() { expect(vec2.sub).toEqual(vec2.subtract); });

+ describe("with a separate output vector", function() {

+ beforeEach(function() { result = vec2.subtract(out, vecA, vecB); });

+ it("should place values into out", function() { expect(out).toBeEqualish([-2, -2]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ });

+ describe("when vecA is the output vector", function() {

+ beforeEach(function() { result = vec2.subtract(vecA, vecA, vecB); });

+ it("should place values into vecA", function() { expect(vecA).toBeEqualish([-2, -2]); });

+ it("should return vecA", function() { expect(result).toBe(vecA); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ });

+ describe("when vecB is the output vector", function() {

+ beforeEach(function() { result = vec2.subtract(vecB, vecA, vecB); });

+ it("should place values into vecB", function() { expect(vecB).toBeEqualish([-2, -2]); });

+ it("should return vecB", function() { expect(result).toBe(vecB); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ });

+ describe("multiply", function() {

+ it("should have an alias called 'mul'", function() { expect(vec2.mul).toEqual(vec2.multiply); });

+ describe("with a separate output vector", function() {

+ beforeEach(function() { result = vec2.multiply(out, vecA, vecB); });

+ it("should place values into out", function() { expect(out).toBeEqualish([3, 8]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ });

+ describe("when vecA is the output vector", function() {

+ beforeEach(function() { result = vec2.multiply(vecA, vecA, vecB); });

+ it("should place values into vecA", function() { expect(vecA).toBeEqualish([3, 8]); });

+ it("should return vecA", function() { expect(result).toBe(vecA); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ });

+ describe("when vecB is the output vector", function() {

+ beforeEach(function() { result = vec2.multiply(vecB, vecA, vecB); });

+ it("should place values into vecB", function() { expect(vecB).toBeEqualish([3, 8]); });

+ it("should return vecB", function() { expect(result).toBe(vecB); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ });

+ describe("divide", function() {

+ it("should have an alias called 'div'", function() { expect(vec2.div).toEqual(vec2.divide); });

+ describe("with a separate output vector", function() {

+ beforeEach(function() { result = vec2.divide(out, vecA, vecB); });

+ it("should place values into out", function() { expect(out).toBeEqualish([0.3333333, 0.5]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ });

+ describe("when vecA is the output vector", function() {

+ beforeEach(function() { result = vec2.divide(vecA, vecA, vecB); });

+ it("should place values into vecA", function() { expect(vecA).toBeEqualish([0.3333333, 0.5]); });

+ it("should return vecA", function() { expect(result).toBe(vecA); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ });

+ describe("when vecB is the output vector", function() {

+ beforeEach(function() { result = vec2.divide(vecB, vecA, vecB); });

+ it("should place values into vecB", function() { expect(vecB).toBeEqualish([0.3333333, 0.5]); });

+ it("should return vecB", function() { expect(result).toBe(vecB); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ });

+ describe("min", function() {

+ beforeEach(function() { vecA = [1, 4]; vecB = [3, 2]; });

+ describe("with a separate output vector", function() {

+ beforeEach(function() { result = vec2.min(out, vecA, vecB); });

+ it("should place values into out", function() { expect(out).toBeEqualish([1, 2]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 4]); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 2]); });

+ });

+ describe("when vecA is the output vector", function() {

+ beforeEach(function() { result = vec2.min(vecA, vecA, vecB); });

+ it("should place values into vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ it("should return vecA", function() { expect(result).toBe(vecA); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 2]); });

+ });

+ describe("when vecB is the output vector", function() {

+ beforeEach(function() { result = vec2.min(vecB, vecA, vecB); });

+ it("should place values into vecB", function() { expect(vecB).toBeEqualish([1, 2]); });

+ it("should return vecB", function() { expect(result).toBe(vecB); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 4]); });

+ });

+ describe("max", function() {

+ beforeEach(function() { vecA = [1, 4]; vecB = [3, 2]; });

+ describe("with a separate output vector", function() {

+ beforeEach(function() { result = vec2.max(out, vecA, vecB); });

+ it("should place values into out", function() { expect(out).toBeEqualish([3, 4]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 4]); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 2]); });

+ });

+ describe("when vecA is the output vector", function() {

+ beforeEach(function() { result = vec2.max(vecA, vecA, vecB); });

+ it("should place values into vecA", function() { expect(vecA).toBeEqualish([3, 4]); });

+ it("should return vecA", function() { expect(result).toBe(vecA); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 2]); });

+ });

+ describe("when vecB is the output vector", function() {

+ beforeEach(function() { result = vec2.max(vecB, vecA, vecB); });

+ it("should place values into vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ it("should return vecB", function() { expect(result).toBe(vecB); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 4]); });

+ });

+ describe("scale", function() {

+ describe("with a separate output vector", function() {

+ beforeEach(function() { result = vec2.scale(out, vecA, 2); });

+ it("should place values into out", function() { expect(out).toBeEqualish([2, 4]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ });

+ describe("when vecA is the output vector", function() {

+ beforeEach(function() { result = vec2.scale(vecA, vecA, 2); });

+ it("should place values into vecA", function() { expect(vecA).toBeEqualish([2, 4]); });

+ it("should return vecA", function() { expect(result).toBe(vecA); });

+ });

+ describe("distance", function() {

+ it("should have an alias called 'dist'", function() { expect(vec2.dist).toEqual(vec2.distance); });

+ beforeEach(function() { result = vec2.distance(vecA, vecB); });

+ it("should return the distance", function() { expect(result).toBeCloseTo(2.828427); });

+ });

+ describe("squaredDistance", function() {

+ it("should have an alias called 'sqrDist'", function() { expect(vec2.sqrDist).toEqual(vec2.squaredDistance); });

+ beforeEach(function() { result = vec2.squaredDistance(vecA, vecB); });

+ it("should return the squared distance", function() { expect(result).toEqual(8); });

+ });

+ describe("length", function() {

+ it("should have an alias called 'len'", function() { expect(vec2.len).toEqual(vec2.length); });

+ beforeEach(function() { result = vec2.length(vecA); });

+ it("should return the length", function() { expect(result).toBeCloseTo(2.236067); });

+ });

+ describe("squaredLength", function() {

+ it("should have an alias called 'sqrLen'", function() { expect(vec2.sqrLen).toEqual(vec2.squaredLength); });

+ beforeEach(function() { result = vec2.squaredLength(vecA); });

+ it("should return the squared length", function() { expect(result).toEqual(5); });

+ });

+ describe("negate", function() {

+ describe("with a separate output vector", function() {

+ beforeEach(function() { result = vec2.negate(out, vecA); });

+ it("should place values into out", function() { expect(out).toBeEqualish([-1, -2]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ });

+ describe("when vecA is the output vector", function() {

+ beforeEach(function() { result = vec2.negate(vecA, vecA); });

+ it("should place values into vecA", function() { expect(vecA).toBeEqualish([-1, -2]); });

+ it("should return vecA", function() { expect(result).toBe(vecA); });

+ });

+ describe("normalize", function() {

+ beforeEach(function() { vecA = [5, 0]; });

+ describe("with a separate output vector", function() {

+ beforeEach(function() { result = vec2.normalize(out, vecA); });

+ it("should place values into out", function() { expect(out).toBeEqualish([1, 0]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([5, 0]); });

+ });

+ describe("when vecA is the output vector", function() {

+ beforeEach(function() { result = vec2.normalize(vecA, vecA); });

+ it("should place values into vecA", function() { expect(vecA).toBeEqualish([1, 0]); });

+ it("should return vecA", function() { expect(result).toBe(vecA); });

+ });

+ describe("dot", function() {

+ beforeEach(function() { result = vec2.dot(vecA, vecB); });

+ it("should return the dot product", function() { expect(result).toEqual(11); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ });

+ describe("cross", function() {

+ var out3;

+ beforeEach(function() {

+ out3 = [0, 0, 0];

+ result = vec2.cross(out3, vecA, vecB);

+ });

+ it("should place values into out", function() { expect(out3).toBeEqualish([0, 0, -2]); });

+ it("should return out", function() { expect(result).toBe(out3); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ });

+ describe("lerp", function() {

+ describe("with a separate output vector", function() {

+ beforeEach(function() { result = vec2.lerp(out, vecA, vecB, 0.5); });

+ it("should place values into out", function() { expect(out).toBeEqualish([2, 3]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ });

+ describe("when vecA is the output vector", function() {

+ beforeEach(function() { result = vec2.lerp(vecA, vecA, vecB, 0.5); });

+ it("should place values into vecA", function() { expect(vecA).toBeEqualish([2, 3]); });

+ it("should return vecA", function() { expect(result).toBe(vecA); });

+ it("should not modify vecB", function() { expect(vecB).toBeEqualish([3, 4]); });

+ });

+ describe("when vecB is the output vector", function() {

+ beforeEach(function() { result = vec2.lerp(vecB, vecA, vecB, 0.5); });

+ it("should place values into vecB", function() { expect(vecB).toBeEqualish([2, 3]); });

+ it("should return vecB", function() { expect(result).toBe(vecB); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ });

+ describe("transformMat2", function() {

+ var matA;

+ beforeEach(function() { matA = [1, 2, 3, 4]; });

+ describe("with a separate output vector", function() {

+ beforeEach(function() { result = vec2.transformMat2(out, vecA, matA); });

+ it("should place values into out", function() { expect(out).toBeEqualish([7, 10]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ it("should not modify matA", function() { expect(matA).toBeEqualish([1, 2, 3, 4]); });

+ });

+ describe("when vecA is the output vector", function() {

+ beforeEach(function() { result = vec2.transformMat2(vecA, vecA, matA); });

+ it("should place values into vecA", function() { expect(vecA).toBeEqualish([7, 10]); });

+ it("should return vecA", function() { expect(result).toBe(vecA); });

+ it("should not modify matA", function() { expect(matA).toBeEqualish([1, 2, 3, 4]); });

+ });

+ describe("transformMat2d", function() {

+ var matA;

+ beforeEach(function() { matA = [1, 2, 3, 4, 5, 6]; });

+ describe("with a separate output vector", function() {

+ beforeEach(function() { result = vec2.transformMat2d(out, vecA, matA); });

+ it("should place values into out", function() { expect(out).toBeEqualish([12, 16]); });

+ it("should return out", function() { expect(result).toBe(out); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ it("should not modify matA", function() { expect(matA).toBeEqualish([1, 2, 3, 4, 5, 6]); });

+ });

+ describe("when vecA is the output vector", function() {

+ beforeEach(function() { result = vec2.transformMat2d(vecA, vecA, matA); });

+ it("should place values into vecA", function() { expect(vecA).toBeEqualish([12, 16]); });

+ it("should return vecA", function() { expect(result).toBe(vecA); });

+ it("should not modify matA", function() { expect(matA).toBeEqualish([1, 2, 3, 4, 5, 6]); });

+ });

+ describe("forEach", function() {

+ var vecArray;

+ beforeEach(function() {

+ vecArray = [

+ 1, 2,

+ 3, 4,

+ 0, 0

+ ];

+ });

+ describe("when performing operations that take no extra arguments", function() {

+ beforeEach(function() { result = vec2.forEach(vecArray, 0, 0, 0, vec2.normalize); });

+ it("should update all values", function() {

+ expect(vecArray).toBeEqualish([

+ 0.447214, 0.894427,

+ 0.6, 0.8,

+ 0, 0

+ ]);

+ });

+ it("should return vecArray", function() { expect(result).toBe(vecArray); });

+ });

+ describe("when performing operations that takes one extra arguments", function() {

+ beforeEach(function() { result = vec2.forEach(vecArray, 0, 0, 0, vec2.add, vecA); });

+ it("should update all values", function() {

+ expect(vecArray).toBeEqualish([

+ 2, 4,

+ 4, 6,

+ 1, 2

+ ]);

+ });

+ it("should return vecArray", function() { expect(result).toBe(vecArray); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ });

+ describe("when specifying an offset", function() {

+ beforeEach(function() { result = vec2.forEach(vecArray, 0, 2, 0, vec2.add, vecA); });

+ it("should update all values except the first vector", function() {

+ expect(vecArray).toBeEqualish([

+ 1, 2,

+ 4, 6,

+ 1, 2

+ ]);

+ });

+ it("should return vecArray", function() { expect(result).toBe(vecArray); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ });

+ describe("when specifying a count", function() {

+ beforeEach(function() { result = vec2.forEach(vecArray, 0, 0, 2, vec2.add, vecA); });

+ it("should update all values except the last vector", function() {

+ expect(vecArray).toBeEqualish([

+ 2, 4,

+ 4, 6,

+ 0, 0

+ ]);

+ });

+ it("should return vecArray", function() { expect(result).toBe(vecArray); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ });

+ describe("when specifying a stride", function() {

+ beforeEach(function() { result = vec2.forEach(vecArray, 4, 0, 0, vec2.add, vecA); });

+ it("should update all values except the second vector", function() {

+ expect(vecArray).toBeEqualish([

+ 2, 4,

+ 3, 4,

+ 1, 2

+ ]);

+ });

+ it("should return vecArray", function() { expect(result).toBe(vecArray); });

+ it("should not modify vecA", function() { expect(vecA).toBeEqualish([1, 2]); });

+ });

+ describe("when calling a function that does not modify the out variable", function() {

+ beforeEach(function() {

+ result = vec2.forEach(vecArray, 0, 0, 0, function(out, vec) {});

+ });

+ it("values should remain unchanged", function() {

+ expect(vecArray).toBeEqualish([

+ 1, 2,

+ 3, 4,

+ 0, 0,

+ ]);

+ });

+ it("should return vecArray", function() { expect(result).toBe(vecArray); });

+ });

+ describe("str", function() {

+ beforeEach(function() { result = vec2.str(vecA); });

+ it("should return a string representation of the vector", function() { expect(result).toEqual("vec2(1, 2)"); });

+ });

+});