/** * @license * Copyright The Closure Library Authors. * SPDX-License-Identifier: Apache-2.0 */ ////////////////////////// NOTE ABOUT EDITING THIS FILE /////////////////////// // // // Any edits to this file must be applied to vec2d_test.js by running: // // swap_type.sh vec2f_test.js > vec2d_test.js // // // ////////////////////////// NOTE ABOUT EDITING THIS FILE /////////////////////// goog.module('goog.vec.vec2fTest'); goog.setTestOnly(); const testSuite = goog.require('goog.testing.testSuite'); const vec2f = goog.require('goog.vec.vec2f'); testSuite({ testCreate() { const v = vec2f.create(); assertElementsEquals([0, 0], v); }, testCreateFromArray() { const v = vec2f.createFromArray([1, 2]); assertElementsEquals([1, 2], v); }, testCreateFromValues() { const v = vec2f.createFromValues(1, 2); assertElementsEquals([1, 2], v); }, testClone() { const v0 = vec2f.createFromValues(1, 2); const v1 = vec2f.clone(v0); assertElementsEquals([1, 2], v1); }, testSet() { const v = vec2f.create(); vec2f.setFromValues(v, 1, 2); assertElementsEquals([1, 2], v); vec2f.setFromArray(v, [4, 5]); assertElementsEquals([4, 5], v); const w = vec2f.create(); vec2f.setFromValues(w, 1, 2); assertElementsEquals([1, 2], w); vec2f.setFromArray(w, [4, 5]); assertElementsEquals([4, 5], w); }, testAdd() { const v0 = vec2f.setFromArray(vec2f.create(), [1, 2]); const v1 = vec2f.setFromArray(vec2f.create(), [4, 5]); const v2 = vec2f.setFromVec2f(vec2f.create(), v0); vec2f.add(v2, v1, v2); assertElementsEquals([1, 2], v0); assertElementsEquals([4, 5], v1); assertElementsEquals([5, 7], v2); vec2f.add(vec2f.add(v0, v1, v2), v0, v2); assertElementsEquals([6, 9], v2); }, testSubtract() { const v0 = vec2f.setFromArray(vec2f.create(), [1, 2]); const v1 = vec2f.setFromArray(vec2f.create(), [4, 5]); let v2 = vec2f.setFromVec2f(vec2f.create(), v0); vec2f.subtract(v2, v1, v2); assertElementsEquals([1, 2], v0); assertElementsEquals([4, 5], v1); assertElementsEquals([-3, -3], v2); vec2f.setFromValues(v2, 0, 0); vec2f.subtract(v1, v0, v2); assertElementsEquals([3, 3], v2); v2 = vec2f.setFromVec2f(vec2f.create(), v0); vec2f.subtract(v2, v1, v2); assertElementsEquals([-3, -3], v2); vec2f.subtract(vec2f.subtract(v1, v0, v2), v0, v2); assertElementsEquals([2, 1], v2); }, testMultiply() { const v0 = vec2f.setFromArray(vec2f.create(), [1, 2]); const v1 = vec2f.setFromArray(vec2f.create(), [4, 5]); const v2 = vec2f.setFromVec2f(vec2f.create(), v0); vec2f.componentMultiply(v2, v1, v2); assertElementsEquals([1, 2], v0); assertElementsEquals([4, 5], v1); assertElementsEquals([4, 10], v2); vec2f.componentMultiply(vec2f.componentMultiply(v0, v1, v2), v0, v2); assertElementsEquals([4, 20], v2); }, testDivide() { const v0 = vec2f.setFromArray(vec2f.create(), [1, 2]); const v1 = vec2f.setFromArray(vec2f.create(), [4, 5]); let v2 = vec2f.setFromVec2f(vec2f.create(), v0); vec2f.componentDivide(v2, v1, v2); assertElementsRoughlyEqual([1, 2], v0, 10e-5); assertElementsRoughlyEqual([4, 5], v1, 10e-5); assertElementsRoughlyEqual([.25, .4], v2, 10e-5); vec2f.setFromValues(v2, 0, 0); vec2f.componentDivide(v1, v0, v2); assertElementsRoughlyEqual([4, 2.5], v2, 10e-5); v2 = vec2f.setFromVec2f(vec2f.create(), v0); vec2f.componentDivide(v2, v1, v2); assertElementsRoughlyEqual([.25, .4], v2, 10e-5); vec2f.componentDivide(vec2f.componentDivide(v1, v0, v2), v0, v2); assertElementsRoughlyEqual([4, 1.25], v2, 10e-5); }, testNegate() { const v0 = vec2f.setFromArray(vec2f.create(), [1, 2]); const v1 = vec2f.create(); vec2f.negate(v0, v1); assertElementsEquals([-1, -2], v1); assertElementsEquals([1, 2], v0); vec2f.negate(v0, v0); assertElementsEquals([-1, -2], v0); }, testAbs() { const v0 = vec2f.setFromArray(vec2f.create(), [-1, -2]); const v1 = vec2f.create(); vec2f.abs(v0, v1); assertElementsEquals([1, 2], v1); assertElementsEquals([-1, -2], v0); vec2f.abs(v0, v0); assertElementsEquals([1, 2], v0); }, testScale() { const v0 = vec2f.setFromArray(vec2f.create(), [1, 2]); const v1 = vec2f.create(); vec2f.scale(v0, 4, v1); assertElementsEquals([4, 8], v1); assertElementsEquals([1, 2], v0); vec2f.setFromArray(v1, v0); vec2f.scale(v1, 5, v1); assertElementsEquals([5, 10], v1); }, testMagnitudeSquared() { const v0 = vec2f.setFromArray(vec2f.create(), [1, 2]); assertEquals(5, vec2f.magnitudeSquared(v0)); }, testMagnitude() { const v0 = vec2f.setFromArray(vec2f.create(), [1, 2]); assertEquals(Math.sqrt(5), vec2f.magnitude(v0)); }, testNormalize() { const v0 = vec2f.setFromArray(vec2f.create(), [2, 3]); const v1 = vec2f.create(); const v2 = vec2f.create(); vec2f.scale(v0, 1 / vec2f.magnitude(v0), v2); vec2f.normalize(v0, v1); assertElementsEquals(v2, v1); assertElementsEquals([2, 3], v0); vec2f.setFromArray(v1, v0); vec2f.normalize(v1, v1); assertElementsEquals(v2, v1); }, testDot() { const v0 = vec2f.setFromArray(vec2f.create(), [1, 2]); const v1 = vec2f.setFromArray(vec2f.create(), [4, 5]); assertEquals(14, vec2f.dot(v0, v1)); assertEquals(14, vec2f.dot(v1, v0)); }, testDistanceSquared() { const v0 = vec2f.setFromValues(vec2f.create(), 1, 2); const v1 = vec2f.setFromValues(vec2f.create(), 1, 2); assertEquals(0, vec2f.distanceSquared(v0, v1)); vec2f.setFromValues(v0, 1, 2); vec2f.setFromValues(v1, -1, -2); assertEquals(20, vec2f.distanceSquared(v0, v1)); }, testDistance() { const v0 = vec2f.setFromValues(vec2f.create(), 1, 2); const v1 = vec2f.setFromValues(vec2f.create(), 1, 2); assertEquals(0, vec2f.distance(v0, v1)); vec2f.setFromValues(v0, 2, 3); vec2f.setFromValues(v1, -2, 0); assertEquals(5, vec2f.distance(v0, v1)); }, testDirection() { const v0 = vec2f.setFromValues(vec2f.create(), 1, 2); const v1 = vec2f.setFromValues(vec2f.create(), 1, 2); const dirVec = vec2f.setFromValues(vec2f.create(), 4, 5); vec2f.direction(v0, v1, dirVec); assertElementsEquals([0, 0], dirVec); vec2f.setFromValues(v0, 0, 0); vec2f.setFromValues(v1, 1, 0); vec2f.direction(v0, v1, dirVec); assertElementsEquals([1, 0], dirVec); vec2f.setFromValues(v0, 1, 1); vec2f.setFromValues(v1, 0, 0); vec2f.direction(v0, v1, dirVec); assertElementsRoughlyEqual( [-0.707106781, -0.707106781], dirVec, goog.vec.EPSILON); }, testLerp() { const v0 = vec2f.setFromValues(vec2f.create(), 1, 2); const v1 = vec2f.setFromValues(vec2f.create(), 10, 20); const v2 = vec2f.setFromVec2f(vec2f.create(), v0); vec2f.lerp(v2, v1, 0, v2); assertElementsEquals([1, 2], v2); vec2f.lerp(v2, v1, 1, v2); assertElementsEquals([10, 20], v2); vec2f.lerp(v0, v1, .5, v2); assertElementsEquals([5.5, 11], v2); }, testMax() { const v0 = vec2f.setFromValues(vec2f.create(), 10, 20); const v1 = vec2f.setFromValues(vec2f.create(), 5, 25); const v2 = vec2f.create(); vec2f.max(v0, v1, v2); assertElementsEquals([10, 25], v2); vec2f.max(v1, v0, v1); assertElementsEquals([10, 25], v1); vec2f.max(v2, 20, v2); assertElementsEquals([20, 25], v2); }, testMin() { const v0 = vec2f.setFromValues(vec2f.create(), 10, 20); const v1 = vec2f.setFromValues(vec2f.create(), 5, 25); const v2 = vec2f.create(); vec2f.min(v0, v1, v2); assertElementsEquals([5, 20], v2); vec2f.min(v1, v0, v1); assertElementsEquals([5, 20], v1); vec2f.min(v2, 10, v2); assertElementsEquals([5, 10], v2); }, testEquals() { const v0 = vec2f.setFromValues(vec2f.create(), 1, 2); let v1 = vec2f.setFromVec2f(vec2f.create(), v0); assertElementsEquals(v0, v1); v1[0] = 4; assertFalse(vec2f.equals(v0, v1)); v1 = vec2f.setFromVec2f(vec2f.create(), v0); v1[1] = 4; assertFalse(vec2f.equals(v0, v1)); }, });