suite('timing-utilities', function() { test('normalize timing input', function() { assert.equal(normalizeTimingInput(1).duration, 1); assert.equal(normalizeTimingInput(1).easing(0.2), 0.2); assert.equal(normalizeTimingInput(undefined).duration, 0); }); test('calculating active duration', function() { assert.equal(calculateActiveDuration({duration: 1000, playbackRate: 4, iterations: 20}), 5000); assert.equal(calculateActiveDuration({duration: 500, playbackRate: 0.1, iterations: 300}), 1500000); }); test('conversion of timing functions', function() { var f = toTimingFunction('ease'); var g = toTimingFunction('cubic-bezier(.25, 0.1, 0.25, 1.)'); for (var i = 0; i < 1; i += 0.1) { assert.equal(f(i), g(i)); } assert.closeTo(f(0.1844), 0.2601, 0.01); assert.closeTo(g(0.1844), 0.2601, 0.01); f = toTimingFunction('cubic-bezier(0, 1, 1, 0)'); assert.closeTo(f(0.104), 0.392, 0.01); function isLinear(f) { assert.equal(f(0.1), 0.1); assert.equal(f(0.4), 0.4); assert.equal(f(0.9), 0.9); } f = toTimingFunction('cubic-bezier(0, 1, -1, 1)'); isLinear(f); f = toTimingFunction('an elephant'); isLinear(f); f = toTimingFunction('cubic-bezier(-1, 1, 1, 1)'); isLinear(f); f = toTimingFunction('cubic-bezier(1, 1, 1)'); isLinear(f); f = toTimingFunction('steps(10, end)'); assert.equal(f(0), 0); assert.equal(f(0.09), 0); assert.equal(f(0.1), 0.1); assert.equal(f(0.25), 0.2); }); test('calculating phase', function() { // calculatePhase(activeDuration, localTime, timing); assert.equal(calculatePhase(1000, 100, {delay: 0}), PhaseActive); assert.equal(calculatePhase(1000, 100, {delay: 200}), PhaseBefore); assert.equal(calculatePhase(1000, 2000, {delay: 200}), PhaseAfter); assert.equal(calculatePhase(1000, null, {delay: 200}), PhaseNone); }); test('calculating active time', function() { // calculateActiveTime(activeDuration, fillMode, localTime, phase, delay); assert.equal(calculateActiveTime(1000, 'forwards', 100, PhaseActive, 0), 100); assert.equal(calculateActiveTime(1000, 'forwards', 100, PhaseBefore, 200), null); assert.equal(calculateActiveTime(1000, 'both', 100, PhaseBefore, 200), 0); assert.equal(calculateActiveTime(1000, 'forwards', 500, PhaseActive, 200), 300); assert.equal(calculateActiveTime(1000, 'forwards', 1100, PhaseAfter, 200), 1000); assert.equal(calculateActiveTime(1000, 'none', 1100, PhaseAfter, 200), null); assert.equal(calculateActiveTime(Infinity, 'both', 5000000, PhaseActive, 2000000), 3000000); assert.equal(calculateActiveTime(Infinity, 'both', 50000, PhaseBefore, 2000000), 0); }); test('calculating scaled active time', function() { // calculateScaledActiveTime(activeDuration, activeTime, startOffset, timingInput); assert.equal(calculateScaledActiveTime(1000, 200, 300, {playbackRate: 1.5}), 600); assert.equal(calculateScaledActiveTime(1000, 200, 300, {playbackRate: -4}), 3500); assert.equal(calculateScaledActiveTime(Infinity, 400, 200, {playbackRate: 1}), 600); assert.equal(calculateScaledActiveTime(Infinity, 400, 200, {playbackRate: -4}), Infinity); }); test('calculating iteration time', function() { // calculateIterationTime(iterationDuration, repeatedDuration, scaledActiveTime, startOffset, timingInput); assert.equal(calculateIterationTime(500, 5000, 600, 100, {iterations: 10, iterationStart: 0}), 100); assert.equal(calculateIterationTime(500, 5000, Infinity, 100, {iterations: 10, iterationStart: 0}), 500); assert.equal(calculateIterationTime(500, 5000, 5100, 100, {iterations: 3.2, iterationStart: 0.8}), 500); }); test('calculating current iteration', function() { // calculateCurrentIteration(iterationDuration, iterationTime, scaledActiveTime, timingInput); assert.equal(calculateCurrentIteration(1000, 400, 4400, {iterations: 50, iterationStart: 0.8}), 4); assert.equal(calculateCurrentIteration(1000, 1000, 4400, {iterations: 50.2, iterationStart: 0.8}), 50); }); test('calculating transformed time', function() { // calculateTransformedTime(currentIteration, iterationDuration, iterationTime, timingInput); assert.equal(calculateTransformedTime(4, 1000, 200, {easing: function(x) { return x; }, direction: 'normal'}), 200); assert.equal(calculateTransformedTime(4, 1000, 200, {easing: function(x) { return x; }, direction: 'reverse'}), 800); assert.closeTo(calculateTransformedTime(4, 1000, 200, {easing: function(x) { return x * x; }, direction: 'reverse'}), 640, 0.0001); assert.closeTo(calculateTransformedTime(4, 1000, 600, {easing: function(x) { return x * x; }, direction: 'alternate'}), 360, 0.0001); assert.closeTo(calculateTransformedTime(3, 1000, 600, {easing: function(x) { return x * x; }, direction: 'alternate'}), 160, 0.0001); assert.closeTo(calculateTransformedTime(4, 1000, 600, {easing: function(x) { return x * x; }, direction: 'alternate-reverse'}), 160, 0.0001); assert.closeTo(calculateTransformedTime(3, 1000, 600, {easing: function(x) { return x * x; }, direction: 'alternate-reverse'}), 360, 0.0001); }); test('EffectTime', function() { var timing = normalizeTimingInput({duration: 1000, iterations: 4, iterationStart: 0.5, easing: 'linear', direction: 'alternate', delay: 100, fill: 'forwards'}); var timing2 = normalizeTimingInput({duration: 1000, iterations: 4, iterationStart: 0.5, easing: 'ease', direction: 'alternate', delay: 100, fill: 'forwards'}); var effectTF = effectTime(timing); var effectTF2 = effectTime(timing2); assert.equal(effectTF(0), null); assert.equal(effectTF(100), 0.5); assert.closeTo(effectTF2(100), 0.8, 0.005); assert.equal(effectTF(600), 1); assert.closeTo(effectTF2(600), 1, 0.005); assert.equal(effectTF(700), 0.9); assert.closeTo(effectTF2(700), 0.99, 0.005); assert.equal(effectTF(1600), 0); assert.closeTo(effectTF2(1600), 0, 0.005); assert.equal(effectTF(4000), 0.4); assert.closeTo(effectTF2(4000), 0.68, 0.005); assert.equal(effectTF(4100), 0.5); assert.closeTo(effectTF2(4100), 0.8, 0.005); assert.equal(effectTF(6000), 0.5); assert.closeTo(effectTF2(6000), 0.8, 0.005); }); });