dom.js
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'use strict';
Object.defineProperty(exports, '__esModule', { value: true });
var motionDom = require('motion-dom');
var motionUtils = require('motion-utils');
function isDOMKeyframes(keyframes) {
return typeof keyframes === "object" && !Array.isArray(keyframes);
}
function resolveSubjects(subject, keyframes, scope, selectorCache) {
if (subject == null) {
return [];
}
if (typeof subject === "string" && isDOMKeyframes(keyframes)) {
return motionDom.resolveElements(subject, scope, selectorCache);
}
else if (subject instanceof NodeList) {
return Array.from(subject);
}
else if (Array.isArray(subject)) {
return subject.filter((s) => s != null);
}
else {
return [subject];
}
}
function calculateRepeatDuration(duration, repeat, _repeatDelay) {
return duration * (repeat + 1);
}
/**
* Given a absolute or relative time definition and current/prev time state of the sequence,
* calculate an absolute time for the next keyframes.
*/
function calcNextTime(current, next, prev, labels) {
if (typeof next === "number") {
return next;
}
else if (next.startsWith("-") || next.startsWith("+")) {
return Math.max(0, current + parseFloat(next));
}
else if (next === "<") {
return prev;
}
else if (next.startsWith("<")) {
return Math.max(0, prev + parseFloat(next.slice(1)));
}
else {
return labels.get(next) ?? current;
}
}
function eraseKeyframes(sequence, startTime, endTime) {
for (let i = 0; i < sequence.length; i++) {
const keyframe = sequence[i];
if (keyframe.at > startTime && keyframe.at < endTime) {
motionUtils.removeItem(sequence, keyframe);
// If we remove this item we have to push the pointer back one
i--;
}
}
}
function addKeyframes(sequence, keyframes, easing, offset, startTime, endTime) {
/**
* Erase every existing value between currentTime and targetTime,
* this will essentially splice this timeline into any currently
* defined ones.
*/
eraseKeyframes(sequence, startTime, endTime);
for (let i = 0; i < keyframes.length; i++) {
sequence.push({
value: keyframes[i],
at: motionDom.mixNumber(startTime, endTime, offset[i]),
easing: motionUtils.getEasingForSegment(easing, i),
});
}
}
/**
* Take an array of times that represent repeated keyframes. For instance
* if we have original times of [0, 0.5, 1] then our repeated times will
* be [0, 0.5, 1, 1, 1.5, 2]. Loop over the times and scale them back
* down to a 0-1 scale.
*/
function normalizeTimes(times, repeat) {
for (let i = 0; i < times.length; i++) {
times[i] = times[i] / (repeat + 1);
}
}
function compareByTime(a, b) {
if (a.at === b.at) {
if (a.value === null)
return 1;
if (b.value === null)
return -1;
return 0;
}
else {
return a.at - b.at;
}
}
const defaultSegmentEasing = "easeInOut";
const MAX_REPEAT = 20;
function createAnimationsFromSequence(sequence, { defaultTransition = {}, ...sequenceTransition } = {}, scope, generators) {
const defaultDuration = defaultTransition.duration || 0.3;
const animationDefinitions = new Map();
const sequences = new Map();
const elementCache = {};
const timeLabels = new Map();
let prevTime = 0;
let currentTime = 0;
let totalDuration = 0;
/**
* Build the timeline by mapping over the sequence array and converting
* the definitions into keyframes and offsets with absolute time values.
* These will later get converted into relative offsets in a second pass.
*/
for (let i = 0; i < sequence.length; i++) {
const segment = sequence[i];
/**
* If this is a timeline label, mark it and skip the rest of this iteration.
*/
if (typeof segment === "string") {
timeLabels.set(segment, currentTime);
continue;
}
else if (!Array.isArray(segment)) {
timeLabels.set(segment.name, calcNextTime(currentTime, segment.at, prevTime, timeLabels));
continue;
}
let [subject, keyframes, transition = {}] = segment;
/**
* If a relative or absolute time value has been specified we need to resolve
* it in relation to the currentTime.
*/
if (transition.at !== undefined) {
currentTime = calcNextTime(currentTime, transition.at, prevTime, timeLabels);
}
/**
* Keep track of the maximum duration in this definition. This will be
* applied to currentTime once the definition has been parsed.
*/
let maxDuration = 0;
const resolveValueSequence = (valueKeyframes, valueTransition, valueSequence, elementIndex = 0, numSubjects = 0) => {
const valueKeyframesAsList = keyframesAsList(valueKeyframes);
const { delay = 0, times = motionDom.defaultOffset(valueKeyframesAsList), type = defaultTransition.type || "keyframes", repeat, repeatType, repeatDelay = 0, ...remainingTransition } = valueTransition;
let { ease = defaultTransition.ease || "easeOut", duration } = valueTransition;
/**
* Resolve stagger() if defined.
*/
const calculatedDelay = typeof delay === "function"
? delay(elementIndex, numSubjects)
: delay;
/**
* If this animation should and can use a spring, generate a spring easing function.
*/
const numKeyframes = valueKeyframesAsList.length;
const createGenerator = motionDom.isGenerator(type)
? type
: generators?.[type || "keyframes"];
if (numKeyframes <= 2 && createGenerator) {
/**
* As we're creating an easing function from a spring,
* ideally we want to generate it using the real distance
* between the two keyframes. However this isn't always
* possible - in these situations we use 0-100.
*/
let absoluteDelta = 100;
if (numKeyframes === 2 &&
isNumberKeyframesArray(valueKeyframesAsList)) {
const delta = valueKeyframesAsList[1] - valueKeyframesAsList[0];
absoluteDelta = Math.abs(delta);
}
const springTransition = {
...defaultTransition,
...remainingTransition,
};
if (duration !== undefined) {
springTransition.duration = motionUtils.secondsToMilliseconds(duration);
}
const springEasing = motionDom.createGeneratorEasing(springTransition, absoluteDelta, createGenerator);
ease = springEasing.ease;
duration = springEasing.duration;
}
duration ?? (duration = defaultDuration);
const startTime = currentTime + calculatedDelay;
/**
* If there's only one time offset of 0, fill in a second with length 1
*/
if (times.length === 1 && times[0] === 0) {
times[1] = 1;
}
/**
* Fill out if offset if fewer offsets than keyframes
*/
const remainder = times.length - valueKeyframesAsList.length;
remainder > 0 && motionDom.fillOffset(times, remainder);
/**
* If only one value has been set, ie [1], push a null to the start of
* the keyframe array. This will let us mark a keyframe at this point
* that will later be hydrated with the previous value.
*/
valueKeyframesAsList.length === 1 &&
valueKeyframesAsList.unshift(null);
/**
* Handle repeat options
*/
if (repeat) {
motionUtils.invariant(repeat < MAX_REPEAT, "Repeat count too high, must be less than 20", "repeat-count-high");
duration = calculateRepeatDuration(duration, repeat);
const originalKeyframes = [...valueKeyframesAsList];
const originalTimes = [...times];
ease = Array.isArray(ease) ? [...ease] : [ease];
const originalEase = [...ease];
for (let repeatIndex = 0; repeatIndex < repeat; repeatIndex++) {
valueKeyframesAsList.push(...originalKeyframes);
for (let keyframeIndex = 0; keyframeIndex < originalKeyframes.length; keyframeIndex++) {
times.push(originalTimes[keyframeIndex] + (repeatIndex + 1));
ease.push(keyframeIndex === 0
? "linear"
: motionUtils.getEasingForSegment(originalEase, keyframeIndex - 1));
}
}
normalizeTimes(times, repeat);
}
const targetTime = startTime + duration;
/**
* Add keyframes, mapping offsets to absolute time.
*/
addKeyframes(valueSequence, valueKeyframesAsList, ease, times, startTime, targetTime);
maxDuration = Math.max(calculatedDelay + duration, maxDuration);
totalDuration = Math.max(targetTime, totalDuration);
};
if (motionDom.isMotionValue(subject)) {
const subjectSequence = getSubjectSequence(subject, sequences);
resolveValueSequence(keyframes, transition, getValueSequence("default", subjectSequence));
}
else {
const subjects = resolveSubjects(subject, keyframes, scope, elementCache);
const numSubjects = subjects.length;
/**
* For every element in this segment, process the defined values.
*/
for (let subjectIndex = 0; subjectIndex < numSubjects; subjectIndex++) {
/**
* Cast necessary, but we know these are of this type
*/
keyframes = keyframes;
transition = transition;
const thisSubject = subjects[subjectIndex];
const subjectSequence = getSubjectSequence(thisSubject, sequences);
for (const key in keyframes) {
resolveValueSequence(keyframes[key], getValueTransition(transition, key), getValueSequence(key, subjectSequence), subjectIndex, numSubjects);
}
}
}
prevTime = currentTime;
currentTime += maxDuration;
}
/**
* For every element and value combination create a new animation.
*/
sequences.forEach((valueSequences, element) => {
for (const key in valueSequences) {
const valueSequence = valueSequences[key];
/**
* Arrange all the keyframes in ascending time order.
*/
valueSequence.sort(compareByTime);
const keyframes = [];
const valueOffset = [];
const valueEasing = [];
/**
* For each keyframe, translate absolute times into
* relative offsets based on the total duration of the timeline.
*/
for (let i = 0; i < valueSequence.length; i++) {
const { at, value, easing } = valueSequence[i];
keyframes.push(value);
valueOffset.push(motionUtils.progress(0, totalDuration, at));
valueEasing.push(easing || "easeOut");
}
/**
* If the first keyframe doesn't land on offset: 0
* provide one by duplicating the initial keyframe. This ensures
* it snaps to the first keyframe when the animation starts.
*/
if (valueOffset[0] !== 0) {
valueOffset.unshift(0);
keyframes.unshift(keyframes[0]);
valueEasing.unshift(defaultSegmentEasing);
}
/**
* If the last keyframe doesn't land on offset: 1
* provide one with a null wildcard value. This will ensure it
* stays static until the end of the animation.
*/
if (valueOffset[valueOffset.length - 1] !== 1) {
valueOffset.push(1);
keyframes.push(null);
}
if (!animationDefinitions.has(element)) {
animationDefinitions.set(element, {
keyframes: {},
transition: {},
});
}
const definition = animationDefinitions.get(element);
definition.keyframes[key] = keyframes;
/**
* Exclude `type` from defaultTransition since springs have been
* converted to duration-based easing functions in resolveValueSequence.
* Including `type: "spring"` would cause JSAnimation to error when
* the merged keyframes array has more than 2 keyframes.
*/
const { type: _type, ...remainingDefaultTransition } = defaultTransition;
definition.transition[key] = {
...remainingDefaultTransition,
duration: totalDuration,
ease: valueEasing,
times: valueOffset,
...sequenceTransition,
};
}
});
return animationDefinitions;
}
function getSubjectSequence(subject, sequences) {
!sequences.has(subject) && sequences.set(subject, {});
return sequences.get(subject);
}
function getValueSequence(name, sequences) {
if (!sequences[name])
sequences[name] = [];
return sequences[name];
}
function keyframesAsList(keyframes) {
return Array.isArray(keyframes) ? keyframes : [keyframes];
}
function getValueTransition(transition, key) {
return transition && transition[key]
? {
...transition,
...transition[key],
}
: { ...transition };
}
const isNumber = (keyframe) => typeof keyframe === "number";
const isNumberKeyframesArray = (keyframes) => keyframes.every(isNumber);
function createDOMVisualElement(element) {
const options = {
presenceContext: null,
props: {},
visualState: {
renderState: {
transform: {},
transformOrigin: {},
style: {},
vars: {},
attrs: {},
},
latestValues: {},
},
};
const node = motionDom.isSVGElement(element) && !motionDom.isSVGSVGElement(element)
? new motionDom.SVGVisualElement(options)
: new motionDom.HTMLVisualElement(options);
node.mount(element);
motionDom.visualElementStore.set(element, node);
}
function createObjectVisualElement(subject) {
const options = {
presenceContext: null,
props: {},
visualState: {
renderState: {
output: {},
},
latestValues: {},
},
};
const node = new motionDom.ObjectVisualElement(options);
node.mount(subject);
motionDom.visualElementStore.set(subject, node);
}
function isSingleValue(subject, keyframes) {
return (motionDom.isMotionValue(subject) ||
typeof subject === "number" ||
(typeof subject === "string" && !isDOMKeyframes(keyframes)));
}
/**
* Implementation
*/
function animateSubject(subject, keyframes, options, scope) {
const animations = [];
if (isSingleValue(subject, keyframes)) {
animations.push(motionDom.animateSingleValue(subject, isDOMKeyframes(keyframes)
? keyframes.default || keyframes
: keyframes, options ? options.default || options : options));
}
else {
// Gracefully handle null/undefined subjects (e.g., from querySelector returning null)
if (subject == null) {
return animations;
}
const subjects = resolveSubjects(subject, keyframes, scope);
const numSubjects = subjects.length;
motionUtils.invariant(Boolean(numSubjects), "No valid elements provided.", "no-valid-elements");
for (let i = 0; i < numSubjects; i++) {
const thisSubject = subjects[i];
const createVisualElement = thisSubject instanceof Element
? createDOMVisualElement
: createObjectVisualElement;
if (!motionDom.visualElementStore.has(thisSubject)) {
createVisualElement(thisSubject);
}
const visualElement = motionDom.visualElementStore.get(thisSubject);
const transition = { ...options };
/**
* Resolve stagger function if provided.
*/
if ("delay" in transition &&
typeof transition.delay === "function") {
transition.delay = transition.delay(i, numSubjects);
}
animations.push(...motionDom.animateTarget(visualElement, { ...keyframes, transition }, {}));
}
}
return animations;
}
function animateSequence(sequence, options, scope) {
const animations = [];
/**
* Pre-process: replace function segments with MotionValue segments,
* subscribe callbacks immediately
*/
const processedSequence = sequence.map((segment) => {
if (Array.isArray(segment) && typeof segment[0] === "function") {
const callback = segment[0];
const mv = motionDom.motionValue(0);
mv.on("change", callback);
if (segment.length === 1) {
return [mv, [0, 1]];
}
else if (segment.length === 2) {
return [mv, [0, 1], segment[1]];
}
else {
return [mv, segment[1], segment[2]];
}
}
return segment;
});
const animationDefinitions = createAnimationsFromSequence(processedSequence, options, scope, { spring: motionDom.spring });
animationDefinitions.forEach(({ keyframes, transition }, subject) => {
animations.push(...animateSubject(subject, keyframes, transition));
});
return animations;
}
function isSequence(value) {
return Array.isArray(value) && value.some(Array.isArray);
}
/**
* Creates an animation function that is optionally scoped
* to a specific element.
*/
function createScopedAnimate(options = {}) {
const { scope, reduceMotion } = options;
/**
* Implementation
*/
function scopedAnimate(subjectOrSequence, optionsOrKeyframes, options) {
let animations = [];
let animationOnComplete;
if (isSequence(subjectOrSequence)) {
const { onComplete, ...sequenceOptions } = optionsOrKeyframes || {};
if (typeof onComplete === "function") {
animationOnComplete = onComplete;
}
animations = animateSequence(subjectOrSequence, reduceMotion !== undefined
? { reduceMotion, ...sequenceOptions }
: sequenceOptions, scope);
}
else {
// Extract top-level onComplete so it doesn't get applied per-value
const { onComplete, ...rest } = options || {};
if (typeof onComplete === "function") {
animationOnComplete = onComplete;
}
animations = animateSubject(subjectOrSequence, optionsOrKeyframes, (reduceMotion !== undefined
? { reduceMotion, ...rest }
: rest), scope);
}
const animation = new motionDom.GroupAnimationWithThen(animations);
if (animationOnComplete) {
animation.finished.then(animationOnComplete);
}
if (scope) {
scope.animations.push(animation);
animation.finished.then(() => {
motionUtils.removeItem(scope.animations, animation);
});
}
return animation;
}
return scopedAnimate;
}
const animate = createScopedAnimate();
function animateElements(elementOrSelector, keyframes, options, scope) {
// Gracefully handle null/undefined elements (e.g., from querySelector returning null)
if (elementOrSelector == null) {
return [];
}
const elements = motionDom.resolveElements(elementOrSelector, scope);
const numElements = elements.length;
motionUtils.invariant(Boolean(numElements), "No valid elements provided.", "no-valid-elements");
/**
* WAAPI doesn't support interrupting animations.
*
* Therefore, starting animations requires a three-step process:
* 1. Stop existing animations (write styles to DOM)
* 2. Resolve keyframes (read styles from DOM)
* 3. Create new animations (write styles to DOM)
*
* The hybrid `animate()` function uses AsyncAnimation to resolve
* keyframes before creating new animations, which removes style
* thrashing. Here, we have much stricter filesize constraints.
* Therefore we do this in a synchronous way that ensures that
* at least within `animate()` calls there is no style thrashing.
*
* In the motion-native-animate-mini-interrupt benchmark this
* was 80% faster than a single loop.
*/
const animationDefinitions = [];
/**
* Step 1: Build options and stop existing animations (write)
*/
for (let i = 0; i < numElements; i++) {
const element = elements[i];
const elementTransition = { ...options };
/**
* Resolve stagger function if provided.
*/
if (typeof elementTransition.delay === "function") {
elementTransition.delay = elementTransition.delay(i, numElements);
}
for (const valueName in keyframes) {
let valueKeyframes = keyframes[valueName];
if (!Array.isArray(valueKeyframes)) {
valueKeyframes = [valueKeyframes];
}
const valueOptions = {
...motionDom.getValueTransition(elementTransition, valueName),
};
valueOptions.duration && (valueOptions.duration = motionUtils.secondsToMilliseconds(valueOptions.duration));
valueOptions.delay && (valueOptions.delay = motionUtils.secondsToMilliseconds(valueOptions.delay));
/**
* If there's an existing animation playing on this element then stop it
* before creating a new one.
*/
const map = motionDom.getAnimationMap(element);
const key = motionDom.animationMapKey(valueName, valueOptions.pseudoElement || "");
const currentAnimation = map.get(key);
currentAnimation && currentAnimation.stop();
animationDefinitions.push({
map,
key,
unresolvedKeyframes: valueKeyframes,
options: {
...valueOptions,
element,
name: valueName,
allowFlatten: !elementTransition.type && !elementTransition.ease,
},
});
}
}
/**
* Step 2: Resolve keyframes (read)
*/
for (let i = 0; i < animationDefinitions.length; i++) {
const { unresolvedKeyframes, options: animationOptions } = animationDefinitions[i];
const { element, name, pseudoElement } = animationOptions;
if (!pseudoElement && unresolvedKeyframes[0] === null) {
unresolvedKeyframes[0] = motionDom.getComputedStyle(element, name);
}
motionDom.fillWildcards(unresolvedKeyframes);
motionDom.applyPxDefaults(unresolvedKeyframes, name);
/**
* If we only have one keyframe, explicitly read the initial keyframe
* from the computed style. This is to ensure consistency with WAAPI behaviour
* for restarting animations, for instance .play() after finish, when it
* has one vs two keyframes.
*/
if (!pseudoElement && unresolvedKeyframes.length < 2) {
unresolvedKeyframes.unshift(motionDom.getComputedStyle(element, name));
}
animationOptions.keyframes = unresolvedKeyframes;
}
/**
* Step 3: Create new animations (write)
*/
const animations = [];
for (let i = 0; i < animationDefinitions.length; i++) {
const { map, key, options: animationOptions } = animationDefinitions[i];
const animation = new motionDom.NativeAnimation(animationOptions);
map.set(key, animation);
animation.finished.finally(() => map.delete(key));
animations.push(animation);
}
return animations;
}
const createScopedWaapiAnimate = (scope) => {
function scopedAnimate(elementOrSelector, keyframes, options) {
return new motionDom.GroupAnimationWithThen(animateElements(elementOrSelector, keyframes, options, scope));
}
return scopedAnimate;
};
const animateMini = /*@__PURE__*/ createScopedWaapiAnimate();
function canUseNativeTimeline(target) {
if (typeof window === "undefined")
return false;
return target ? motionDom.supportsViewTimeline() : motionDom.supportsScrollTimeline();
}
/**
* A time in milliseconds, beyond which we consider the scroll velocity to be 0.
*/
const maxElapsed = 50;
const createAxisInfo = () => ({
current: 0,
offset: [],
progress: 0,
scrollLength: 0,
targetOffset: 0,
targetLength: 0,
containerLength: 0,
velocity: 0,
});
const createScrollInfo = () => ({
time: 0,
x: createAxisInfo(),
y: createAxisInfo(),
});
const keys = {
x: {
length: "Width",
position: "Left",
},
y: {
length: "Height",
position: "Top",
},
};
function updateAxisInfo(element, axisName, info, time) {
const axis = info[axisName];
const { length, position } = keys[axisName];
const prev = axis.current;
const prevTime = info.time;
axis.current = Math.abs(element[`scroll${position}`]);
axis.scrollLength = element[`scroll${length}`] - element[`client${length}`];
axis.offset.length = 0;
axis.offset[0] = 0;
axis.offset[1] = axis.scrollLength;
axis.progress = motionUtils.progress(0, axis.scrollLength, axis.current);
const elapsed = time - prevTime;
axis.velocity =
elapsed > maxElapsed
? 0
: motionUtils.velocityPerSecond(axis.current - prev, elapsed);
}
function updateScrollInfo(element, info, time) {
updateAxisInfo(element, "x", info, time);
updateAxisInfo(element, "y", info, time);
info.time = time;
}
function calcInset(element, container) {
const inset = { x: 0, y: 0 };
let current = element;
while (current && current !== container) {
if (motionDom.isHTMLElement(current)) {
inset.x += current.offsetLeft;
inset.y += current.offsetTop;
current = current.offsetParent;
}
else if (current.tagName === "svg") {
/**
* This isn't an ideal approach to measuring the offset of <svg /> tags.
* It would be preferable, given they behave like HTMLElements in most ways
* to use offsetLeft/Top. But these don't exist on <svg />. Likewise we
* can't use .getBBox() like most SVG elements as these provide the offset
* relative to the SVG itself, which for <svg /> is usually 0x0.
*/
const svgBoundingBox = current.getBoundingClientRect();
current = current.parentElement;
const parentBoundingBox = current.getBoundingClientRect();
inset.x += svgBoundingBox.left - parentBoundingBox.left;
inset.y += svgBoundingBox.top - parentBoundingBox.top;
}
else if (current instanceof SVGGraphicsElement) {
const { x, y } = current.getBBox();
inset.x += x;
inset.y += y;
let svg = null;
let parent = current.parentNode;
while (!svg) {
if (parent.tagName === "svg") {
svg = parent;
}
parent = current.parentNode;
}
current = svg;
}
else {
break;
}
}
return inset;
}
const namedEdges = {
start: 0,
center: 0.5,
end: 1,
};
function resolveEdge(edge, length, inset = 0) {
let delta = 0;
/**
* If we have this edge defined as a preset, replace the definition
* with the numerical value.
*/
if (edge in namedEdges) {
edge = namedEdges[edge];
}
/**
* Handle unit values
*/
if (typeof edge === "string") {
const asNumber = parseFloat(edge);
if (edge.endsWith("px")) {
delta = asNumber;
}
else if (edge.endsWith("%")) {
edge = asNumber / 100;
}
else if (edge.endsWith("vw")) {
delta = (asNumber / 100) * document.documentElement.clientWidth;
}
else if (edge.endsWith("vh")) {
delta = (asNumber / 100) * document.documentElement.clientHeight;
}
else {
edge = asNumber;
}
}
/**
* If the edge is defined as a number, handle as a progress value.
*/
if (typeof edge === "number") {
delta = length * edge;
}
return inset + delta;
}
const defaultOffset = [0, 0];
function resolveOffset(offset, containerLength, targetLength, targetInset) {
let offsetDefinition = Array.isArray(offset) ? offset : defaultOffset;
let targetPoint = 0;
let containerPoint = 0;
if (typeof offset === "number") {
/**
* If we're provided offset: [0, 0.5, 1] then each number x should become
* [x, x], so we default to the behaviour of mapping 0 => 0 of both target
* and container etc.
*/
offsetDefinition = [offset, offset];
}
else if (typeof offset === "string") {
offset = offset.trim();
if (offset.includes(" ")) {
offsetDefinition = offset.split(" ");
}
else {
/**
* If we're provided a definition like "100px" then we want to apply
* that only to the top of the target point, leaving the container at 0.
* Whereas a named offset like "end" should be applied to both.
*/
offsetDefinition = [offset, namedEdges[offset] ? offset : `0`];
}
}
targetPoint = resolveEdge(offsetDefinition[0], targetLength, targetInset);
containerPoint = resolveEdge(offsetDefinition[1], containerLength);
return targetPoint - containerPoint;
}
const ScrollOffset = {
Enter: [
[0, 1],
[1, 1],
],
Exit: [
[0, 0],
[1, 0],
],
Any: [
[1, 0],
[0, 1],
],
All: [
[0, 0],
[1, 1],
],
};
const point = { x: 0, y: 0 };
function getTargetSize(target) {
return "getBBox" in target && target.tagName !== "svg"
? target.getBBox()
: { width: target.clientWidth, height: target.clientHeight };
}
function resolveOffsets(container, info, options) {
const { offset: offsetDefinition = ScrollOffset.All } = options;
const { target = container, axis = "y" } = options;
const lengthLabel = axis === "y" ? "height" : "width";
const inset = target !== container ? calcInset(target, container) : point;
/**
* Measure the target and container. If they're the same thing then we
* use the container's scrollWidth/Height as the target, from there
* all other calculations can remain the same.
*/
const targetSize = target === container
? { width: container.scrollWidth, height: container.scrollHeight }
: getTargetSize(target);
const containerSize = {
width: container.clientWidth,
height: container.clientHeight,
};
/**
* Reset the length of the resolved offset array rather than creating a new one.
* TODO: More reusable data structures for targetSize/containerSize would also be good.
*/
info[axis].offset.length = 0;
/**
* Populate the offset array by resolving the user's offset definition into
* a list of pixel scroll offets.
*/
let hasChanged = !info[axis].interpolate;
const numOffsets = offsetDefinition.length;
for (let i = 0; i < numOffsets; i++) {
const offset = resolveOffset(offsetDefinition[i], containerSize[lengthLabel], targetSize[lengthLabel], inset[axis]);
if (!hasChanged && offset !== info[axis].interpolatorOffsets[i]) {
hasChanged = true;
}
info[axis].offset[i] = offset;
}
/**
* If the pixel scroll offsets have changed, create a new interpolator function
* to map scroll value into a progress.
*/
if (hasChanged) {
info[axis].interpolate = motionDom.interpolate(info[axis].offset, motionDom.defaultOffset(offsetDefinition), { clamp: false });
info[axis].interpolatorOffsets = [...info[axis].offset];
}
info[axis].progress = motionUtils.clamp(0, 1, info[axis].interpolate(info[axis].current));
}
function measure(container, target = container, info) {
/**
* Find inset of target within scrollable container
*/
info.x.targetOffset = 0;
info.y.targetOffset = 0;
if (target !== container) {
let node = target;
while (node && node !== container) {
info.x.targetOffset += node.offsetLeft;
info.y.targetOffset += node.offsetTop;
node = node.offsetParent;
}
}
info.x.targetLength =
target === container ? target.scrollWidth : target.clientWidth;
info.y.targetLength =
target === container ? target.scrollHeight : target.clientHeight;
info.x.containerLength = container.clientWidth;
info.y.containerLength = container.clientHeight;
/**
* In development mode ensure scroll containers aren't position: static as this makes
* it difficult to measure their relative positions.
*/
if (process.env.NODE_ENV !== "production") {
if (container && target && target !== container) {
motionUtils.warnOnce(getComputedStyle(container).position !== "static", "Please ensure that the container has a non-static position, like 'relative', 'fixed', or 'absolute' to ensure scroll offset is calculated correctly.");
}
}
}
function createOnScrollHandler(element, onScroll, info, options = {}) {
return {
measure: (time) => {
measure(element, options.target, info);
updateScrollInfo(element, info, time);
if (options.offset || options.target) {
resolveOffsets(element, info, options);
}
},
notify: () => onScroll(info),
};
}
const scrollListeners = new WeakMap();
const resizeListeners = new WeakMap();
const onScrollHandlers = new WeakMap();
const scrollSize = new WeakMap();
const dimensionCheckProcesses = new WeakMap();
const getEventTarget = (element) => element === document.scrollingElement ? window : element;
function scrollInfo(onScroll, { container = document.scrollingElement, trackContentSize = false, ...options } = {}) {
if (!container)
return motionUtils.noop;
let containerHandlers = onScrollHandlers.get(container);
/**
* Get the onScroll handlers for this container.
* If one isn't found, create a new one.
*/
if (!containerHandlers) {
containerHandlers = new Set();
onScrollHandlers.set(container, containerHandlers);
}
/**
* Create a new onScroll handler for the provided callback.
*/
const info = createScrollInfo();
const containerHandler = createOnScrollHandler(container, onScroll, info, options);
containerHandlers.add(containerHandler);
/**
* Check if there's a scroll event listener for this container.
* If not, create one.
*/
if (!scrollListeners.has(container)) {
const measureAll = () => {
for (const handler of containerHandlers) {
handler.measure(motionDom.frameData.timestamp);
}
motionDom.frame.preUpdate(notifyAll);
};
const notifyAll = () => {
for (const handler of containerHandlers) {
handler.notify();
}
};
const listener = () => motionDom.frame.read(measureAll);
scrollListeners.set(container, listener);
const target = getEventTarget(container);
window.addEventListener("resize", listener);
if (container !== document.documentElement) {
resizeListeners.set(container, motionDom.resize(container, listener));
}
target.addEventListener("scroll", listener);
listener();
}
/**
* Enable content size tracking if requested and not already enabled.
*/
if (trackContentSize && !dimensionCheckProcesses.has(container)) {
const listener = scrollListeners.get(container);
// Store initial scroll dimensions (object is reused to avoid allocation)
const size = {
width: container.scrollWidth,
height: container.scrollHeight,
};
scrollSize.set(container, size);
// Add frame-based scroll dimension checking to detect content changes
const checkScrollDimensions = () => {
const newWidth = container.scrollWidth;
const newHeight = container.scrollHeight;
if (size.width !== newWidth || size.height !== newHeight) {
listener();
size.width = newWidth;
size.height = newHeight;
}
};
// Schedule with keepAlive=true to run every frame
const dimensionCheckProcess = motionDom.frame.read(checkScrollDimensions, true);
dimensionCheckProcesses.set(container, dimensionCheckProcess);
}
const listener = scrollListeners.get(container);
motionDom.frame.read(listener, false, true);
return () => {
motionDom.cancelFrame(listener);
/**
* Check if we even have any handlers for this container.
*/
const currentHandlers = onScrollHandlers.get(container);
if (!currentHandlers)
return;
currentHandlers.delete(containerHandler);
if (currentHandlers.size)
return;
/**
* If no more handlers, remove the scroll listener too.
*/
const scrollListener = scrollListeners.get(container);
scrollListeners.delete(container);
if (scrollListener) {
getEventTarget(container).removeEventListener("scroll", scrollListener);
resizeListeners.get(container)?.();
window.removeEventListener("resize", scrollListener);
}
// Clean up scroll dimension checking
const dimensionCheckProcess = dimensionCheckProcesses.get(container);
if (dimensionCheckProcess) {
motionDom.cancelFrame(dimensionCheckProcess);
dimensionCheckProcesses.delete(container);
}
scrollSize.delete(container);
};
}
/**
* Maps from ProgressIntersection pairs used by Motion's preset offsets to
* ViewTimeline named ranges. Returns undefined for unrecognised patterns,
* which signals the caller to fall back to JS-based scroll tracking.
*/
const presets = [
[ScrollOffset.Enter, "entry"],
[ScrollOffset.Exit, "exit"],
[ScrollOffset.Any, "cover"],
[ScrollOffset.All, "contain"],
];
const stringToProgress = {
start: 0,
end: 1,
};
function parseStringOffset(s) {
const parts = s.trim().split(/\s+/);
if (parts.length !== 2)
return undefined;
const a = stringToProgress[parts[0]];
const b = stringToProgress[parts[1]];
if (a === undefined || b === undefined)
return undefined;
return [a, b];
}
function normaliseOffset(offset) {
if (offset.length !== 2)
return undefined;
const result = [];
for (const item of offset) {
if (Array.isArray(item)) {
result.push(item);
}
else if (typeof item === "string") {
const parsed = parseStringOffset(item);
if (!parsed)
return undefined;
result.push(parsed);
}
else {
return undefined;
}
}
return result;
}
function matchesPreset(offset, preset) {
const normalised = normaliseOffset(offset);
if (!normalised)
return false;
for (let i = 0; i < 2; i++) {
const o = normalised[i];
const p = preset[i];
if (o[0] !== p[0] || o[1] !== p[1])
return false;
}
return true;
}
function offsetToViewTimelineRange(offset) {
if (!offset) {
return { rangeStart: "contain 0%", rangeEnd: "contain 100%" };
}
for (const [preset, name] of presets) {
if (matchesPreset(offset, preset)) {
return { rangeStart: `${name} 0%`, rangeEnd: `${name} 100%` };
}
}
return undefined;
}
const timelineCache = new Map();
function scrollTimelineFallback(options) {
const currentTime = { value: 0 };
const cancel = scrollInfo((info) => {
currentTime.value = info[options.axis].progress * 100;
}, options);
return { currentTime, cancel };
}
function getTimeline({ source, container, ...options }) {
const { axis } = options;
if (source)
container = source;
let containerCache = timelineCache.get(container);
if (!containerCache) {
containerCache = new Map();
timelineCache.set(container, containerCache);
}
const targetKey = options.target ?? "self";
let targetCache = containerCache.get(targetKey);
if (!targetCache) {
targetCache = {};
containerCache.set(targetKey, targetCache);
}
const axisKey = axis + (options.offset ?? []).join(",");
if (!targetCache[axisKey]) {
if (options.target && canUseNativeTimeline(options.target)) {
const range = offsetToViewTimelineRange(options.offset);
if (range) {
targetCache[axisKey] = new ViewTimeline({
subject: options.target,
axis,
});
}
else {
targetCache[axisKey] = scrollTimelineFallback({
container,
...options,
});
}
}
else if (canUseNativeTimeline()) {
targetCache[axisKey] = new ScrollTimeline({
source: container,
axis,
});
}
else {
targetCache[axisKey] = scrollTimelineFallback({
container,
...options,
});
}
}
return targetCache[axisKey];
}
function attachToAnimation(animation, options) {
const timeline = getTimeline(options);
const range = options.target
? offsetToViewTimelineRange(options.offset)
: undefined;
/**
* Use native timeline when:
* - No target: ScrollTimeline (existing behaviour)
* - Target with mappable offset: ViewTimeline with named range
* - Target with unmappable offset: fall back to JS observe
*/
const useNative = options.target
? canUseNativeTimeline(options.target) && !!range
: canUseNativeTimeline();
return animation.attachTimeline({
timeline: useNative ? timeline : undefined,
...(range &&
useNative && {
rangeStart: range.rangeStart,
rangeEnd: range.rangeEnd,
}),
observe: (valueAnimation) => {
valueAnimation.pause();
return motionDom.observeTimeline((progress) => {
valueAnimation.time =
valueAnimation.iterationDuration * progress;
}, timeline);
},
});
}
/**
* If the onScroll function has two arguments, it's expecting
* more specific information about the scroll from scrollInfo.
*/
function isOnScrollWithInfo(onScroll) {
return onScroll.length === 2;
}
function attachToFunction(onScroll, options) {
if (isOnScrollWithInfo(onScroll)) {
return scrollInfo((info) => {
onScroll(info[options.axis].progress, info);
}, options);
}
else {
return motionDom.observeTimeline(onScroll, getTimeline(options));
}
}
function scroll(onScroll, { axis = "y", container = document.scrollingElement, ...options } = {}) {
if (!container)
return motionUtils.noop;
const optionsWithDefaults = { axis, container, ...options };
return typeof onScroll === "function"
? attachToFunction(onScroll, optionsWithDefaults)
: attachToAnimation(onScroll, optionsWithDefaults);
}
const thresholds = {
some: 0,
all: 1,
};
function inView(elementOrSelector, onStart, { root, margin: rootMargin, amount = "some" } = {}) {
const elements = motionDom.resolveElements(elementOrSelector);
const activeIntersections = new WeakMap();
const onIntersectionChange = (entries) => {
entries.forEach((entry) => {
const onEnd = activeIntersections.get(entry.target);
/**
* If there's no change to the intersection, we don't need to
* do anything here.
*/
if (entry.isIntersecting === Boolean(onEnd))
return;
if (entry.isIntersecting) {
const newOnEnd = onStart(entry.target, entry);
if (typeof newOnEnd === "function") {
activeIntersections.set(entry.target, newOnEnd);
}
else {
observer.unobserve(entry.target);
}
}
else if (typeof onEnd === "function") {
onEnd(entry);
activeIntersections.delete(entry.target);
}
});
};
const observer = new IntersectionObserver(onIntersectionChange, {
root,
rootMargin,
threshold: typeof amount === "number" ? amount : thresholds[amount],
});
elements.forEach((element) => observer.observe(element));
return () => observer.disconnect();
}
const distance = (a, b) => Math.abs(a - b);
function distance2D(a, b) {
// Multi-dimensional
const xDelta = distance(a.x, b.x);
const yDelta = distance(a.y, b.y);
return Math.sqrt(xDelta ** 2 + yDelta ** 2);
}
Object.defineProperty(exports, "delay", {
enumerable: true,
get: function () { return motionDom.delayInSeconds; }
});
exports.animate = animate;
exports.animateMini = animateMini;
exports.createScopedAnimate = createScopedAnimate;
exports.distance = distance;
exports.distance2D = distance2D;
exports.inView = inView;
exports.scroll = scroll;
exports.scrollInfo = scrollInfo;
Object.keys(motionDom).forEach(function (k) {
if (k !== 'default' && !Object.prototype.hasOwnProperty.call(exports, k)) Object.defineProperty(exports, k, {
enumerable: true,
get: function () { return motionDom[k]; }
});
});
Object.keys(motionUtils).forEach(function (k) {
if (k !== 'default' && !Object.prototype.hasOwnProperty.call(exports, k)) Object.defineProperty(exports, k, {
enumerable: true,
get: function () { return motionUtils[k]; }
});
});
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