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/* Any copyright is dedicated to the Public Domain.
/**
* Use this variable if you specify duration or some other properties
* for script animation.
* E.g., div.animate({ opacity: [0, 1] }, 100 * MS_PER_SEC);
*
* NOTE: Creating animations with short duration may cause intermittent
* failures in asynchronous test. For example, the short duration animation
* might be finished when animation.ready has been fulfilled because of slow
* platforms or busyness of the main thread.
* Setting short duration to cancel its animation does not matter but
* if you don't want to cancel the animation, consider using longer duration.
*/
const MS_PER_SEC = 1000;
/* The recommended minimum precision to use for time values[1].
*
*/
var TIME_PRECISION = 0.0005; // ms
/*
* Allow implementations to substitute an alternative method for comparing
* times based on their precision requirements.
*/
function assert_times_equal(actual, expected, description) {
assert_approx_equals(actual, expected, TIME_PRECISION * 2, description);
}
/*
* Compare a time value based on its precision requirements with a fixed value.
*/
function assert_time_equals_literal(actual, expected, description) {
assert_approx_equals(actual, expected, TIME_PRECISION, description);
}
/*
* Compare two keyframes
*/
function assert_frames_equal(actual, expected, name) {
// TODO: Make this skip the 'composite' member when it is not specified in
// `expected` or when the implementation does not support it.
assert_array_equals(
Object.keys(actual).sort(),
Object.keys(expected).sort(),
`properties on ${name} should match`
);
// Iterates sorted keys to ensure stable failures.
for (const prop of Object.keys(actual).sort()) {
if (
// 'offset' can be null
(prop === 'offset' && typeof actual[prop] === 'number') ||
prop === 'computedOffset'
) {
assert_approx_equals(
actual[prop],
expected[prop],
0.00001,
"value for '" + prop + "' on " + name
);
} else {
assert_equals(
actual[prop],
expected[prop],
`value for '${prop}' on ${name} should match`
);
}
}
}
/*
* Compare two lists of keyframes
*/
function assert_frame_lists_equal(actual, expected) {
assert_equals(
actual.length,
expected.length,
'Number of keyframes should match'
);
for (let i = 0; i < actual.length; i++) {
assert_frames_equal(actual[i], expected[i], `Keyframe #${i}`);
}
}
/**
* Appends an element to the document body.
*
* @param t The testharness.js Test object. If provided, this will be used
* to register a cleanup callback to remove the div when the test
* finishes.
*
* @param name A string specifying the element name.
*
* @param attrs A dictionary object with attribute names and values to set on
* the div.
*/
function addElement(t, name, attrs) {
var element = document.createElement(name);
if (attrs) {
for (var attrName in attrs) {
element.setAttribute(attrName, attrs[attrName]);
}
}
document.body.appendChild(element);
if (t && typeof t.add_cleanup === 'function') {
t.add_cleanup(() => element.remove());
}
return element;
}
/**
* Appends a div to the document body.
*
* @param t The testharness.js Test object. If provided, this will be used
* to register a cleanup callback to remove the div when the test
* finishes.
*
* @param attrs A dictionary object with attribute names and values to set on
* the div.
*/
function addDiv(t, attrs) {
return addElement(t, "div", attrs);
}
/**
* Appends a style div to the document head.
*
* @param t The testharness.js Test object. If provided, this will be used
* to register a cleanup callback to remove the style element
* when the test finishes.
*
* @param rules A dictionary object with selector names and rules to set on
* the style sheet.
*/
function addStyle(t, rules) {
var extraStyle = document.createElement('style');
document.head.appendChild(extraStyle);
if (rules) {
var sheet = extraStyle.sheet;
for (var selector in rules) {
sheet.insertRule(selector + '{' + rules[selector] + '}',
sheet.cssRules.length);
}
}
if (t && typeof t.add_cleanup === 'function') {
t.add_cleanup(function() {
extraStyle.remove();
});
}
}
/**
* Promise wrapper for requestAnimationFrame.
*/
function waitForFrame() {
return new Promise(function(resolve, reject) {
window.requestAnimationFrame(resolve);
});
}
/**
* Waits for a requestAnimationFrame callback in the next refresh driver tick.
*/
function waitForNextFrame() {
const timeAtStart = document.timeline.currentTime;
return new Promise(resolve => {
window.requestAnimationFrame(() => {
if (timeAtStart === document.timeline.currentTime) {
window.requestAnimationFrame(resolve);
} else {
resolve();
}
});
});
}
/**
* Returns a Promise that is resolved after the given number of consecutive
* animation frames have occured (using requestAnimationFrame callbacks).
*
* @param frameCount The number of animation frames.
* @param onFrame An optional function to be processed in each animation frame.
*/
function waitForAnimationFrames(frameCount, onFrame) {
const timeAtStart = document.timeline.currentTime;
return new Promise(function(resolve, reject) {
function handleFrame() {
if (onFrame && typeof onFrame === 'function') {
onFrame();
}
if (timeAtStart != document.timeline.currentTime &&
--frameCount <= 0) {
resolve();
} else {
window.requestAnimationFrame(handleFrame); // wait another frame
}
}
window.requestAnimationFrame(handleFrame);
});
}
/**
* Timeout function used for tests with EventWatchers when all animation events
* should be received on the next animation frame. If two frames pass before
* receiving the expected events, then we can immediate fail the test.
*/
function fastEventsTimeout() {
return waitForAnimationFrames(2);
};
/**
* Timeout function used for tests with EventWatchers. The client agent has no
* strict requirement for how long it takes to resolve the ready promise. Once
* the promise is resolved a secondary timeout promise is armed that may have
* a tight deadline measured in animation frames.
*/
function armTimeoutWhenReady(animation, timeoutPromise) {
return () => {
if (animation.pending)
return animation.ready.then(() => { return timeoutPromise(); });
else
return timeoutPromise();
};
}
/**
* Wrapper that takes a sequence of N animations and returns:
*
* Promise.all([animations[0].ready, animations[1].ready, ... animations[N-1].ready]);
*/
function waitForAllAnimations(animations) {
return Promise.all(animations.map(animation => animation.ready));
}
/**
* Flush the computed style for the given element. This is useful, for example,
* when we are testing a transition and need the initial value of a property
* to be computed so that when we synchronouslyet set it to a different value
* we actually get a transition instead of that being the initial value.
*/
function flushComputedStyle(elem) {
var cs = getComputedStyle(elem);
cs.marginLeft;
}