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diff --git a/testing/web-platform/tests/web-animations/animation-model/keyframe-effects/effect-value-iteration-composite-operation.html b/testing/web-platform/tests/web-animations/animation-model/keyframe-effects/effect-value-iteration-composite-operation.html new file mode 100644 index 0000000000..abfda86f4d --- /dev/null +++ b/testing/web-platform/tests/web-animations/animation-model/keyframe-effects/effect-value-iteration-composite-operation.html @@ -0,0 +1,824 @@ +<!doctype html> +<meta charset=utf-8> +<title>The effect value of a keyframe effect: Applying the iteration composite + operation</title> +<link rel="help" href="https://drafts.csswg.org/web-animations/#the-effect-value-of-a-keyframe-animation-effect"> +<link rel="help" href="https://drafts.csswg.org/web-animations/#effect-accumulation-section"> +<script src=/resources/testharness.js></script> +<script src=/resources/testharnessreport.js></script> +<script src="../../testcommon.js"></script> +<div id="log"></div> +<script> +'use strict'; + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ alignContent: ['flex-start', 'flex-end'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).alignContent, 'flex-end', + 'Animated align-content style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).alignContent, 'flex-start', + 'Animated align-content style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).alignContent, 'flex-end', + 'Animated align-content style at 50s of the third iteration'); +}, 'iteration composition of discrete type animation (align-content)'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ marginLeft: ['0px', '10px'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).marginLeft, '5px', + 'Animated margin-left style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).marginLeft, '20px', + 'Animated margin-left style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).marginLeft, '25px', + 'Animated margin-left style at 50s of the third iteration'); +}, 'iteration composition of <length> type animation'); + +test(t => { + const parent = createDiv(t); + parent.style.width = '100px'; + const div = createDiv(t); + parent.appendChild(div); + + const anim = + div.animate({ width: ['0%', '50%'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).width, '25px', + 'Animated width style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).width, '100px', + 'Animated width style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).width, '125px', + 'Animated width style at 50s of the third iteration'); +}, 'iteration composition of <percentage> type animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ color: ['rgb(0, 0, 0)', 'rgb(120, 120, 120)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).color, 'rgb(60, 60, 60)', + 'Animated color style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).color, 'rgb(240, 240, 240)', + 'Animated color style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).color, 'rgb(255, 255, 255)', + 'Animated color style at 50s of the third iteration'); +}, 'iteration composition of <color> type animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ color: ['rgb(0, 120, 0)', 'rgb(60, 60, 60)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).color, 'rgb(30, 90, 30)', + 'Animated color style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).color, 'rgb(120, 240, 120)', + 'Animated color style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + // The green color is (240 + 180) / 2 = 210 + assert_equals(getComputedStyle(div).color, 'rgb(150, 210, 150)', + 'Animated color style at 50s of the third iteration'); +}, 'iteration composition of <color> type animation that green component is ' + + 'decreasing'); + + test(t => { + const div = createDiv(t); + const anim = + div.animate({ flexGrow: [0, 10] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).flexGrow, '5', + 'Animated flex-grow style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).flexGrow, '20', + 'Animated flex-grow style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).flexGrow, '25', + 'Animated flex-grow style at 50s of the third iteration'); +}, 'iteration composition of <number> type animation'); + +test(t => { + const div = createDiv(t); + div.style.position = 'absolute'; + const anim = + div.animate({ clip: ['rect(0px, 0px, 0px, 0px)', + 'rect(10px, 10px, 10px, 10px)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).clip, 'rect(5px, 5px, 5px, 5px)', + 'Animated clip style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).clip, 'rect(20px, 20px, 20px, 20px)', + 'Animated clip style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).clip, 'rect(25px, 25px, 25px, 25px)', + 'Animated clip style at 50s of the third iteration'); +}, 'iteration composition of <shape> type animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ width: ['calc(0vw + 0px)', 'calc(0vw + 10px)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).width, '5px', + 'Animated calc width style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).width, '20px', + 'Animated calc width style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).width, '25px', + 'Animated calc width style at 50s of the third iteration'); +}, 'iteration composition of <calc()> value animation'); + +test(t => { + const parent = createDiv(t); + parent.style.width = '100px'; + const div = createDiv(t); + parent.appendChild(div); + + const anim = + div.animate({ width: ['calc(0% + 0px)', 'calc(10% + 10px)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).width, '10px', + // 100px * 5% + 5px + 'Animated calc width style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).width, + '40px', // 100px * (10% + 10%) + (10px + 10px) + 'Animated calc width style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).width, + '50px', // (40px + 60px) / 2 + 'Animated calc width style at 50s of the third iteration'); +}, 'iteration composition of <calc()> value animation that the values can\'t' + + 'be reduced'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ opacity: [0, 0.4] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).opacity, '0.2', + 'Animated opacity style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).opacity, '0.8', + 'Animated opacity style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).opacity, '1', // (0.8 + 1.2) * 0.5 + 'Animated opacity style at 50s of the third iteration'); +}, 'iteration composition of opacity animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ boxShadow: ['rgb(0, 0, 0) 0px 0px 0px 0px', + 'rgb(120, 120, 120) 10px 10px 10px 0px'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).boxShadow, + 'rgb(60, 60, 60) 5px 5px 5px 0px', + 'Animated box-shadow style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).boxShadow, + 'rgb(240, 240, 240) 20px 20px 20px 0px', + 'Animated box-shadow style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).boxShadow, + 'rgb(255, 255, 255) 25px 25px 25px 0px', + 'Animated box-shadow style at 50s of the third iteration'); +}, 'iteration composition of box-shadow animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ filter: ['blur(0px)', 'blur(10px)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, 'blur(5px)', + 'Animated filter blur style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).filter, 'blur(20px)', + 'Animated filter blur style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, 'blur(25px)', + 'Animated filter blur style at 50s of the third iteration'); +}, 'iteration composition of filter blur animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ filter: ['brightness(1)', + 'brightness(180%)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, + 'brightness(1.4)', + 'Animated filter brightness style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).filter, + 'brightness(2.6)', // brightness(1) + brightness(0.8) + brightness(0.8) + 'Animated filter brightness style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, + 'brightness(3)', // (brightness(2.6) + brightness(3.4)) * 0.5 + 'Animated filter brightness style at 50s of the third iteration'); +}, 'iteration composition of filter brightness for different unit animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ filter: ['brightness(0)', + 'brightness(1)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, + 'brightness(0.5)', + 'Animated filter brightness style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).filter, + 'brightness(0)', // brightness(1) is an identity element, not accumulated. + 'Animated filter brightness style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, + 'brightness(0.5)', // brightness(1) is an identity element, not accumulated. + 'Animated filter brightness style at 50s of the third iteration'); +}, 'iteration composition of filter brightness animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ filter: ['drop-shadow(rgb(0, 0, 0) 0px 0px 0px)', + 'drop-shadow(rgb(120, 120, 120) 10px 10px 10px)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, + 'drop-shadow(rgb(60, 60, 60) 5px 5px 5px)', + 'Animated filter drop-shadow style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).filter, + 'drop-shadow(rgb(240, 240, 240) 20px 20px 20px)', + 'Animated filter drop-shadow style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, + 'drop-shadow(rgb(255, 255, 255) 25px 25px 25px)', + 'Animated filter drop-shadow style at 50s of the third iteration'); +}, 'iteration composition of filter drop-shadow animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ filter: ['brightness(1) contrast(1)', + 'brightness(2) contrast(2)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, + 'brightness(1.5) contrast(1.5)', + 'Animated filter list at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).filter, + 'brightness(3) contrast(3)', + 'Animated filter list at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, + 'brightness(3.5) contrast(3.5)', + 'Animated filter list at 50s of the third iteration'); +}, 'iteration composition of same filter list animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ filter: ['brightness(1) contrast(1)', + 'contrast(2) brightness(2)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, + 'contrast(2) brightness(2)', // discrete + 'Animated filter list at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).filter, + // We can't accumulate 'contrast(2) brightness(2)' onto + // the first list 'brightness(1) contrast(1)' because of + // mismatch of the order. + 'brightness(1) contrast(1)', + 'Animated filter list at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, + // We *can* accumulate 'contrast(2) brightness(2)' onto + // the same list 'contrast(2) brightness(2)' here. + 'contrast(4) brightness(4)', // discrete + 'Animated filter list at 50s of the third iteration'); +}, 'iteration composition of discrete filter list because of mismatch ' + + 'of the order'); + + test(t => { + const div = createDiv(t); + const anim = + div.animate({ filter: ['sepia(0)', + 'sepia(1) contrast(2)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, + 'sepia(0.5) contrast(1.5)', + 'Animated filter list at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).filter, + 'sepia(1) contrast(3)', + 'Animated filter list at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).filter, + 'sepia(1) contrast(3.5)', + 'Animated filter list at 50s of the third iteration'); +}, 'iteration composition of different length filter list animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ transform: ['rotate(0deg)', 'rotate(180deg)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(0, 1, -1, 0, 0, 0)', // rotate(90deg) + 'Animated transform(rotate) style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(1, 0, 0, 1, 0, 0)', // rotate(360deg) + 'Animated transform(rotate) style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(0, 1, -1, 0, 0, 0)', // rotate(450deg) + 'Animated transform(rotate) style at 50s of the third iteration'); +}, 'iteration composition of transform(rotate) animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ transform: ['scale(0)', 'scale(1)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(0.5, 0, 0, 0.5, 0, 0)', // scale(0.5) + 'Animated transform(scale) style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(0, 0, 0, 0, 0, 0)', // scale(0); scale(1) is an identity element, + // not accumulated. + 'Animated transform(scale) style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(0.5, 0, 0, 0.5, 0, 0)', // scale(0.5); scale(1) an identity + // element, not accumulated. + 'Animated transform(scale) style at 50s of the third iteration'); +}, 'iteration composition of transform: [ scale(0), scale(1) ] animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ transform: ['scale(1)', 'scale(2)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(1.5, 0, 0, 1.5, 0, 0)', // scale(1.5) + 'Animated transform(scale) style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(3, 0, 0, 3, 0, 0)', // scale(1 + (2 -1) + (2 -1)) + 'Animated transform(scale) style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(3.5, 0, 0, 3.5, 0, 0)', // (scale(3) + scale(4)) * 0.5 + 'Animated transform(scale) style at 50s of the third iteration'); +}, 'iteration composition of transform: [ scale(1), scale(2) ] animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ transform: ['scale(0)', 'scale(2)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(1, 0, 0, 1, 0, 0)', // scale(1) + 'Animated transform(scale) style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(2, 0, 0, 2, 0, 0)', // (scale(0) + scale(2-1)*2) + 'Animated transform(scale) style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(3, 0, 0, 3, 0, 0)', // (scale(2) + scale(4)) * 0.5 + 'Animated transform(scale) style at 50s of the third iteration'); +}, 'iteration composition of transform: scale(2) animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ transform: ['rotate(0deg) translateX(0px)', + 'rotate(180deg) translateX(10px)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(0, 1, -1, 0, 0, 5)', // rotate(90deg) translateX(5px) + 'Animated transform list at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(1, 0, 0, 1, 20, 0)', // rotate(360deg) translateX(20px) + 'Animated transform list at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(0, 1, -1, 0, 0, 25)', // rotate(450deg) translateX(25px) + 'Animated transform list at 50s of the third iteration'); +}, 'iteration composition of transform list animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ transform: ['matrix(2, 0, 0, 2, 0, 0)', + 'matrix(3, 0, 0, 3, 30, 0)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(2.5, 0, 0, 2.5, 15, 0)', + 'Animated transform of matrix function at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_matrix_equals(getComputedStyle(div).transform, + // scale(2) + (scale(3-1)*2) + translateX(30px)*2 + 'matrix(6, 0, 0, 6, 60, 0)', + 'Animated transform of matrix function at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + // from: matrix(6, 0, 0, 6, 60, 0) + // to: matrix(7, 0, 0, 7, 90, 0) + // = scale(3) + (scale(3-1)*2) + translateX(30px)*3 + 'matrix(6.5, 0, 0, 6.5, 75, 0)', + 'Animated transform of matrix function at 50s of the third iteration'); +}, 'iteration composition of transform of matrix function'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ transform: ['translateX(0px) scale(2)', + 'scale(3) translateX(10px)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + // Interpolate between matrix(2, 0, 0, 2, 0, 0) = translateX(0px) scale(2) + // and matrix(3, 0, 0, 3, 30, 0) = scale(3) translateX(10px) + 'matrix(2.5, 0, 0, 2.5, 15, 0)', + 'Animated transform list at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_matrix_equals(getComputedStyle(div).transform, + // 'from' and 'to' value are mismatched, so accumulate + // matrix(2, 0, 0, 2, 0, 0) onto matrix(3, 0, 0, 3, 30, 0) * 2 + // = scale(2) + (scale(3-1)*2) + translateX(30px)*2 + 'matrix(6, 0, 0, 6, 60, 0)', + 'Animated transform list at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + // Interpolate between matrix(6, 0, 0, 6, 60, 0) + // and matrix(7, 0, 0, 7, 210, 0) = scale(7) translate(30px) + 'matrix(6.5, 0, 0, 6.5, 135, 0)', + 'Animated transform list at 50s of the third iteration'); +}, 'iteration composition of transform list animation whose order is' + + ' mismatched'); + +test(t => { + const div = createDiv(t); + // Even if each transform list does not have functions which exist in + // other pair of the list, we don't fill any missing functions at all. + const anim = + div.animate({ transform: ['translateX(0px)', + 'scale(2) translateX(10px)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + // Interpolate between matrix(1, 0, 0, 1, 0, 0) = translateX(0px) + // and matrix(2, 0, 0, 2, 20, 0) = scale(2) translateX(10px) + 'matrix(1.5, 0, 0, 1.5, 10, 0)', + 'Animated transform list at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_matrix_equals(getComputedStyle(div).transform, + // 'from' and 'to' value are mismatched, so accumulate + // matrix(1, 0, 0, 1, 0, 0) onto matrix(2, 0, 0, 2, 20, 0) * 2 + // = scale(1) + (scale(2-1)*2) + translateX(20px)*2 + 'matrix(3, 0, 0, 3, 40, 0)', + 'Animated transform list at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + // Interpolate between matrix(3, 0, 0, 3, 40, 0) + // and matrix(4, 0, 0, 4, 120, 0) = + // scale(2 + (2-1)*2) translate(10px * 3) + 'matrix(3.5, 0, 0, 3.5, 80, 0)', + 'Animated transform list at 50s of the third iteration'); +}, 'iteration composition of transform list animation whose order is' + + ' mismatched because of missing functions'); + + test(t => { + const div = createDiv(t); + const anim = + div.animate({ transform: ['none', + 'translateX(10px)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + // translateX(none) -> translateX(10px) @ 50% + 'matrix(1, 0, 0, 1, 5, 0)', + 'Animated transform list at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_matrix_equals(getComputedStyle(div).transform, + // translateX(10px * 2 + none) -> translateX(10px * 2 + 10px) @ 0% + 'matrix(1, 0, 0, 1, 20, 0)', + 'Animated transform list at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + // translateX(10px * 2 + none) -> translateX(10px * 2 + 10px) @ 50% + 'matrix(1, 0, 0, 1, 25, 0)', + 'Animated transform list at 50s of the third iteration'); +}, 'iteration composition of transform from none to translate'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ transform: ['matrix3d(1, 0, 0, 0, ' + + '0, 1, 0, 0, ' + + '0, 0, 1, 0, ' + + '0, 0, 30, 1)', + 'matrix3d(1, 0, 0, 0, ' + + '0, 1, 0, 0, ' + + '0, 0, 1, 0, ' + + '0, 0, 50, 1)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix3d(1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 40, 1)', + 'Animated transform of matrix3d function at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_matrix_equals(getComputedStyle(div).transform, + // translateZ(30px) + (translateZ(50px)*2) + 'matrix3d(1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 130, 1)', + 'Animated transform of matrix3d function at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + // from: matrix3d(1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 130, 1) + // to: matrix3d(1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 150, 1) + 'matrix3d(1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 140, 1)', + 'Animated transform of matrix3d function at 50s of the third iteration'); +}, 'iteration composition of transform of matrix3d function'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ transform: ['rotate3d(1, 1, 0, 0deg)', + 'rotate3d(1, 1, 0, 90deg)'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = 0; + assert_matrix_equals(getComputedStyle(div).transform, + 'matrix(1, 0, 0, 1, 0, 0)', // Actually not rotated at all. + 'Animated transform of rotate3d function at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_matrix_equals(getComputedStyle(div).transform, + rotate3dToMatrix3d(1, 1, 0, Math.PI), // 180deg + 'Animated transform of rotate3d function at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_matrix_equals(getComputedStyle(div).transform, + rotate3dToMatrix3d(1, 1, 0, 225 * Math.PI / 180), //((270 + 180) * 0.5)deg + 'Animated transform of rotate3d function at 50s of the third iteration'); +}, 'iteration composition of transform of rotate3d function'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ marginLeft: ['10px', '20px'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).marginLeft, '15px', + 'Animated margin-left style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).marginLeft, '50px', // 10px + 20px + 20px + 'Animated margin-left style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).marginLeft, '55px', // (50px + 60px) * 0.5 + 'Animated margin-left style at 50s of the third iteration'); +}, 'iteration composition starts with non-zero value animation'); + +test(t => { + const div = createDiv(t); + const anim = + div.animate({ marginLeft: ['10px', '-10px'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).marginLeft, + '0px', + 'Animated margin-left style at 50s of the first iteration'); + anim.currentTime = anim.effect.getComputedTiming().duration * 2; + assert_equals(getComputedStyle(div).marginLeft, + '-10px', // 10px + -10px + -10px + 'Animated margin-left style at 0s of the third iteration'); + anim.currentTime += anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).marginLeft, + '-20px', // (-10px + -30px) * 0.5 + 'Animated margin-left style at 50s of the third iteration'); +}, 'iteration composition with negative final value animation'); + +test(t => { + const div = createDiv(t); + const anim = div.animate({ marginLeft: ['0px', '10px'] }, + { duration: 100 * MS_PER_SEC, + easing: 'linear', + iterations: 10, + iterationComposite: 'accumulate' }); + anim.pause(); + + anim.currentTime = + anim.effect.getComputedTiming().duration * 2 + + anim.effect.getComputedTiming().duration / 2; + assert_equals(getComputedStyle(div).marginLeft, '25px', + 'Animated style at 50s of the third iteration'); + + // double its duration. + anim.effect.updateTiming({ + duration: anim.effect.getComputedTiming().duration * 2 + }); + assert_equals(getComputedStyle(div).marginLeft, '12.5px', + 'Animated style at 25s of the first iteration'); + + // half of original. + anim.effect.updateTiming({ + duration: anim.effect.getComputedTiming().duration / 4 + }); + assert_equals(getComputedStyle(div).marginLeft, '50px', + 'Animated style at 50s of the fourth iteration'); +}, 'duration changes with an iteration composition operation of accumulate'); + +</script> |