640 lines
20 KiB
JavaScript
640 lines
20 KiB
JavaScript
import { queryAll, extend, createStyleSheet, matches, closest } from '../utils/util.js'
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import { FRAGMENT_STYLE_REGEX } from '../utils/constants.js'
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// Counter used to generate unique IDs for auto-animated elements
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let autoAnimateCounter = 0;
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/**
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* Automatically animates matching elements across
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* slides with the [data-auto-animate] attribute.
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*/
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export default class AutoAnimate {
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constructor( Reveal ) {
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this.Reveal = Reveal;
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}
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/**
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* Runs an auto-animation between the given slides.
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*
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* @param {HTMLElement} fromSlide
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* @param {HTMLElement} toSlide
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*/
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run( fromSlide, toSlide ) {
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// Clean up after prior animations
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this.reset();
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let allSlides = this.Reveal.getSlides();
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let toSlideIndex = allSlides.indexOf( toSlide );
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let fromSlideIndex = allSlides.indexOf( fromSlide );
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// Ensure that both slides are auto-animate targets with the same data-auto-animate-id value
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// (including null if absent on both) and that data-auto-animate-restart isn't set on the
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// physically latter slide (independent of slide direction)
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if( fromSlide.hasAttribute( 'data-auto-animate' ) && toSlide.hasAttribute( 'data-auto-animate' )
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&& fromSlide.getAttribute( 'data-auto-animate-id' ) === toSlide.getAttribute( 'data-auto-animate-id' )
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&& !( toSlideIndex > fromSlideIndex ? toSlide : fromSlide ).hasAttribute( 'data-auto-animate-restart' ) ) {
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// Create a new auto-animate sheet
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this.autoAnimateStyleSheet = this.autoAnimateStyleSheet || createStyleSheet();
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let animationOptions = this.getAutoAnimateOptions( toSlide );
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// Set our starting state
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fromSlide.dataset.autoAnimate = 'pending';
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toSlide.dataset.autoAnimate = 'pending';
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// Flag the navigation direction, needed for fragment buildup
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animationOptions.slideDirection = toSlideIndex > fromSlideIndex ? 'forward' : 'backward';
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// If the from-slide is hidden because it has moved outside
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// the view distance, we need to temporarily show it while
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// measuring
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let fromSlideIsHidden = fromSlide.style.display === 'none';
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if( fromSlideIsHidden ) fromSlide.style.display = this.Reveal.getConfig().display;
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// Inject our auto-animate styles for this transition
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let css = this.getAutoAnimatableElements( fromSlide, toSlide ).map( elements => {
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return this.autoAnimateElements( elements.from, elements.to, elements.options || {}, animationOptions, autoAnimateCounter++ );
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} );
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if( fromSlideIsHidden ) fromSlide.style.display = 'none';
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// Animate unmatched elements, if enabled
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if( toSlide.dataset.autoAnimateUnmatched !== 'false' && this.Reveal.getConfig().autoAnimateUnmatched === true ) {
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// Our default timings for unmatched elements
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let defaultUnmatchedDuration = animationOptions.duration * 0.8,
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defaultUnmatchedDelay = animationOptions.duration * 0.2;
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this.getUnmatchedAutoAnimateElements( toSlide ).forEach( unmatchedElement => {
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let unmatchedOptions = this.getAutoAnimateOptions( unmatchedElement, animationOptions );
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let id = 'unmatched';
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// If there is a duration or delay set specifically for this
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// element our unmatched elements should adhere to those
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if( unmatchedOptions.duration !== animationOptions.duration || unmatchedOptions.delay !== animationOptions.delay ) {
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id = 'unmatched-' + autoAnimateCounter++;
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css.push( `[data-auto-animate="running"] [data-auto-animate-target="${id}"] { transition: opacity ${unmatchedOptions.duration}s ease ${unmatchedOptions.delay}s; }` );
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}
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unmatchedElement.dataset.autoAnimateTarget = id;
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}, this );
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// Our default transition for unmatched elements
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css.push( `[data-auto-animate="running"] [data-auto-animate-target="unmatched"] { transition: opacity ${defaultUnmatchedDuration}s ease ${defaultUnmatchedDelay}s; }` );
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}
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// Setting the whole chunk of CSS at once is the most
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// efficient way to do this. Using sheet.insertRule
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// is multiple factors slower.
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this.autoAnimateStyleSheet.innerHTML = css.join( '' );
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// Start the animation next cycle
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requestAnimationFrame( () => {
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if( this.autoAnimateStyleSheet ) {
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// This forces our newly injected styles to be applied in Firefox
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getComputedStyle( this.autoAnimateStyleSheet ).fontWeight;
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toSlide.dataset.autoAnimate = 'running';
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}
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} );
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this.Reveal.dispatchEvent({
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type: 'autoanimate',
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data: {
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fromSlide,
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toSlide,
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sheet: this.autoAnimateStyleSheet
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}
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});
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}
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}
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/**
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* Rolls back all changes that we've made to the DOM so
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* that as part of animating.
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*/
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reset() {
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// Reset slides
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queryAll( this.Reveal.getRevealElement(), '[data-auto-animate]:not([data-auto-animate=""])' ).forEach( element => {
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element.dataset.autoAnimate = '';
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} );
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// Reset elements
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queryAll( this.Reveal.getRevealElement(), '[data-auto-animate-target]' ).forEach( element => {
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delete element.dataset.autoAnimateTarget;
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} );
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// Remove the animation sheet
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if( this.autoAnimateStyleSheet && this.autoAnimateStyleSheet.parentNode ) {
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this.autoAnimateStyleSheet.parentNode.removeChild( this.autoAnimateStyleSheet );
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this.autoAnimateStyleSheet = null;
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}
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}
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/**
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* Creates a FLIP animation where the `to` element starts out
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* in the `from` element position and animates to its original
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* state.
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*
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* @param {HTMLElement} from
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* @param {HTMLElement} to
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* @param {Object} elementOptions Options for this element pair
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* @param {Object} animationOptions Options set at the slide level
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* @param {String} id Unique ID that we can use to identify this
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* auto-animate element in the DOM
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*/
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autoAnimateElements( from, to, elementOptions, animationOptions, id ) {
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// 'from' elements are given a data-auto-animate-target with no value,
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// 'to' elements are are given a data-auto-animate-target with an ID
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from.dataset.autoAnimateTarget = '';
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to.dataset.autoAnimateTarget = id;
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// Each element may override any of the auto-animate options
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// like transition easing, duration and delay via data-attributes
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let options = this.getAutoAnimateOptions( to, animationOptions );
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// If we're using a custom element matcher the element options
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// may contain additional transition overrides
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if( typeof elementOptions.delay !== 'undefined' ) options.delay = elementOptions.delay;
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if( typeof elementOptions.duration !== 'undefined' ) options.duration = elementOptions.duration;
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if( typeof elementOptions.easing !== 'undefined' ) options.easing = elementOptions.easing;
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let fromProps = this.getAutoAnimatableProperties( 'from', from, elementOptions ),
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toProps = this.getAutoAnimatableProperties( 'to', to, elementOptions );
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// Maintain fragment visibility for matching elements when
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// we're navigating forwards, this way the viewer won't need
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// to step through the same fragments twice
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if( to.classList.contains( 'fragment' ) ) {
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// Don't auto-animate the opacity of fragments to avoid
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// conflicts with fragment animations
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delete toProps.styles['opacity'];
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if( from.classList.contains( 'fragment' ) ) {
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let fromFragmentStyle = ( from.className.match( FRAGMENT_STYLE_REGEX ) || [''] )[0];
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let toFragmentStyle = ( to.className.match( FRAGMENT_STYLE_REGEX ) || [''] )[0];
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// Only skip the fragment if the fragment animation style
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// remains unchanged
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if( fromFragmentStyle === toFragmentStyle && animationOptions.slideDirection === 'forward' ) {
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to.classList.add( 'visible', 'disabled' );
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}
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}
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}
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// If translation and/or scaling are enabled, css transform
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// the 'to' element so that it matches the position and size
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// of the 'from' element
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if( elementOptions.translate !== false || elementOptions.scale !== false ) {
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let presentationScale = this.Reveal.getScale();
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let delta = {
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x: ( fromProps.x - toProps.x ) / presentationScale,
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y: ( fromProps.y - toProps.y ) / presentationScale,
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scaleX: fromProps.width / toProps.width,
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scaleY: fromProps.height / toProps.height
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};
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// Limit decimal points to avoid 0.0001px blur and stutter
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delta.x = Math.round( delta.x * 1000 ) / 1000;
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delta.y = Math.round( delta.y * 1000 ) / 1000;
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delta.scaleX = Math.round( delta.scaleX * 1000 ) / 1000;
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delta.scaleX = Math.round( delta.scaleX * 1000 ) / 1000;
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let translate = elementOptions.translate !== false && ( delta.x !== 0 || delta.y !== 0 ),
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scale = elementOptions.scale !== false && ( delta.scaleX !== 0 || delta.scaleY !== 0 );
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// No need to transform if nothing's changed
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if( translate || scale ) {
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let transform = [];
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if( translate ) transform.push( `translate(${delta.x}px, ${delta.y}px)` );
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if( scale ) transform.push( `scale(${delta.scaleX}, ${delta.scaleY})` );
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fromProps.styles['transform'] = transform.join( ' ' );
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fromProps.styles['transform-origin'] = 'top left';
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toProps.styles['transform'] = 'none';
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}
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}
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// Delete all unchanged 'to' styles
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for( let propertyName in toProps.styles ) {
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const toValue = toProps.styles[propertyName];
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const fromValue = fromProps.styles[propertyName];
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if( toValue === fromValue ) {
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delete toProps.styles[propertyName];
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}
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else {
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// If these property values were set via a custom matcher providing
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// an explicit 'from' and/or 'to' value, we always inject those values.
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if( toValue.explicitValue === true ) {
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toProps.styles[propertyName] = toValue.value;
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}
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if( fromValue.explicitValue === true ) {
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fromProps.styles[propertyName] = fromValue.value;
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}
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}
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}
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let css = '';
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let toStyleProperties = Object.keys( toProps.styles );
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// Only create animate this element IF at least one style
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// property has changed
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if( toStyleProperties.length > 0 ) {
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// Instantly move to the 'from' state
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fromProps.styles['transition'] = 'none';
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// Animate towards the 'to' state
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toProps.styles['transition'] = `all ${options.duration}s ${options.easing} ${options.delay}s`;
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toProps.styles['transition-property'] = toStyleProperties.join( ', ' );
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toProps.styles['will-change'] = toStyleProperties.join( ', ' );
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// Build up our custom CSS. We need to override inline styles
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// so we need to make our styles vErY IMPORTANT!1!!
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let fromCSS = Object.keys( fromProps.styles ).map( propertyName => {
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return propertyName + ': ' + fromProps.styles[propertyName] + ' !important;';
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} ).join( '' );
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let toCSS = Object.keys( toProps.styles ).map( propertyName => {
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return propertyName + ': ' + toProps.styles[propertyName] + ' !important;';
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} ).join( '' );
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css = '[data-auto-animate-target="'+ id +'"] {'+ fromCSS +'}' +
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'[data-auto-animate="running"] [data-auto-animate-target="'+ id +'"] {'+ toCSS +'}';
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}
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return css;
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}
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/**
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* Returns the auto-animate options for the given element.
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*
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* @param {HTMLElement} element Element to pick up options
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* from, either a slide or an animation target
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* @param {Object} [inheritedOptions] Optional set of existing
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* options
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*/
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getAutoAnimateOptions( element, inheritedOptions ) {
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let options = {
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easing: this.Reveal.getConfig().autoAnimateEasing,
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duration: this.Reveal.getConfig().autoAnimateDuration,
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delay: 0
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};
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options = extend( options, inheritedOptions );
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// Inherit options from parent elements
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if( element.parentNode ) {
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let autoAnimatedParent = closest( element.parentNode, '[data-auto-animate-target]' );
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if( autoAnimatedParent ) {
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options = this.getAutoAnimateOptions( autoAnimatedParent, options );
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}
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}
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if( element.dataset.autoAnimateEasing ) {
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options.easing = element.dataset.autoAnimateEasing;
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}
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if( element.dataset.autoAnimateDuration ) {
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options.duration = parseFloat( element.dataset.autoAnimateDuration );
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}
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if( element.dataset.autoAnimateDelay ) {
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options.delay = parseFloat( element.dataset.autoAnimateDelay );
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}
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return options;
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}
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/**
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* Returns an object containing all of the properties
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* that can be auto-animated for the given element and
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* their current computed values.
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*
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* @param {String} direction 'from' or 'to'
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*/
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getAutoAnimatableProperties( direction, element, elementOptions ) {
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let config = this.Reveal.getConfig();
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let properties = { styles: [] };
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// Position and size
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if( elementOptions.translate !== false || elementOptions.scale !== false ) {
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let bounds;
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// Custom auto-animate may optionally return a custom tailored
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// measurement function
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if( typeof elementOptions.measure === 'function' ) {
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bounds = elementOptions.measure( element );
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}
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else {
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if( config.center ) {
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// More precise, but breaks when used in combination
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// with zoom for scaling the deck ¯\_(ツ)_/¯
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bounds = element.getBoundingClientRect();
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}
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else {
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let scale = this.Reveal.getScale();
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bounds = {
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x: element.offsetLeft * scale,
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y: element.offsetTop * scale,
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width: element.offsetWidth * scale,
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height: element.offsetHeight * scale
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};
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}
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}
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properties.x = bounds.x;
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properties.y = bounds.y;
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properties.width = bounds.width;
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properties.height = bounds.height;
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}
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const computedStyles = getComputedStyle( element );
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// CSS styles
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( elementOptions.styles || config.autoAnimateStyles ).forEach( style => {
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let value;
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// `style` is either the property name directly, or an object
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// definition of a style property
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if( typeof style === 'string' ) style = { property: style };
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if( typeof style.from !== 'undefined' && direction === 'from' ) {
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value = { value: style.from, explicitValue: true };
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}
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else if( typeof style.to !== 'undefined' && direction === 'to' ) {
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value = { value: style.to, explicitValue: true };
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}
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else {
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// Use a unitless value for line-height so that it inherits properly
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if( style.property === 'line-height' ) {
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value = parseFloat( computedStyles['line-height'] ) / parseFloat( computedStyles['font-size'] );
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}
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if( isNaN(value) ) {
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value = computedStyles[style.property];
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}
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}
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if( value !== '' ) {
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properties.styles[style.property] = value;
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}
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} );
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return properties;
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}
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/**
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* Get a list of all element pairs that we can animate
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* between the given slides.
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*
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* @param {HTMLElement} fromSlide
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* @param {HTMLElement} toSlide
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*
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* @return {Array} Each value is an array where [0] is
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* the element we're animating from and [1] is the
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* element we're animating to
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*/
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getAutoAnimatableElements( fromSlide, toSlide ) {
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let matcher = typeof this.Reveal.getConfig().autoAnimateMatcher === 'function' ? this.Reveal.getConfig().autoAnimateMatcher : this.getAutoAnimatePairs;
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let pairs = matcher.call( this, fromSlide, toSlide );
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let reserved = [];
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// Remove duplicate pairs
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return pairs.filter( ( pair, index ) => {
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if( reserved.indexOf( pair.to ) === -1 ) {
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reserved.push( pair.to );
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return true;
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}
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} );
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}
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/**
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* Identifies matching elements between slides.
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*
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* You can specify a custom matcher function by using
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* the `autoAnimateMatcher` config option.
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*/
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getAutoAnimatePairs( fromSlide, toSlide ) {
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let pairs = [];
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const codeNodes = 'pre';
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const textNodes = 'h1, h2, h3, h4, h5, h6, p, li';
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const mediaNodes = 'img, video, iframe';
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// Explicit matches via data-id
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this.findAutoAnimateMatches( pairs, fromSlide, toSlide, '[data-id]', node => {
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return node.nodeName + ':::' + node.getAttribute( 'data-id' );
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} );
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// Text
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this.findAutoAnimateMatches( pairs, fromSlide, toSlide, textNodes, node => {
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return node.nodeName + ':::' + node.innerText;
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} );
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// Media
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this.findAutoAnimateMatches( pairs, fromSlide, toSlide, mediaNodes, node => {
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return node.nodeName + ':::' + ( node.getAttribute( 'src' ) || node.getAttribute( 'data-src' ) );
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} );
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// Code
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this.findAutoAnimateMatches( pairs, fromSlide, toSlide, codeNodes, node => {
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return node.nodeName + ':::' + node.innerText;
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} );
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pairs.forEach( pair => {
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// Disable scale transformations on text nodes, we transition
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// each individual text property instead
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if( matches( pair.from, textNodes ) ) {
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pair.options = { scale: false };
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}
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// Animate individual lines of code
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else if( matches( pair.from, codeNodes ) ) {
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// Transition the code block's width and height instead of scaling
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// to prevent its content from being squished
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pair.options = { scale: false, styles: [ 'width', 'height' ] };
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// Lines of code
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this.findAutoAnimateMatches( pairs, pair.from, pair.to, '.hljs .hljs-ln-code', node => {
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return node.textContent;
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}, {
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scale: false,
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styles: [],
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measure: this.getLocalBoundingBox.bind( this )
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} );
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// Line numbers
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this.findAutoAnimateMatches( pairs, pair.from, pair.to, '.hljs .hljs-ln-numbers[data-line-number]', node => {
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return node.getAttribute( 'data-line-number' );
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}, {
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scale: false,
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styles: [ 'width' ],
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measure: this.getLocalBoundingBox.bind( this )
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} );
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}
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|
|
}, this );
|
|
|
|
return pairs;
|
|
|
|
}
|
|
|
|
/**
|
|
* Helper method which returns a bounding box based on
|
|
* the given elements offset coordinates.
|
|
*
|
|
* @param {HTMLElement} element
|
|
* @return {Object} x, y, width, height
|
|
*/
|
|
getLocalBoundingBox( element ) {
|
|
|
|
const presentationScale = this.Reveal.getScale();
|
|
|
|
return {
|
|
x: Math.round( ( element.offsetLeft * presentationScale ) * 100 ) / 100,
|
|
y: Math.round( ( element.offsetTop * presentationScale ) * 100 ) / 100,
|
|
width: Math.round( ( element.offsetWidth * presentationScale ) * 100 ) / 100,
|
|
height: Math.round( ( element.offsetHeight * presentationScale ) * 100 ) / 100
|
|
};
|
|
|
|
}
|
|
|
|
/**
|
|
* Finds matching elements between two slides.
|
|
*
|
|
* @param {Array} pairs List of pairs to push matches to
|
|
* @param {HTMLElement} fromScope Scope within the from element exists
|
|
* @param {HTMLElement} toScope Scope within the to element exists
|
|
* @param {String} selector CSS selector of the element to match
|
|
* @param {Function} serializer A function that accepts an element and returns
|
|
* a stringified ID based on its contents
|
|
* @param {Object} animationOptions Optional config options for this pair
|
|
*/
|
|
findAutoAnimateMatches( pairs, fromScope, toScope, selector, serializer, animationOptions ) {
|
|
|
|
let fromMatches = {};
|
|
let toMatches = {};
|
|
|
|
[].slice.call( fromScope.querySelectorAll( selector ) ).forEach( ( element, i ) => {
|
|
const key = serializer( element );
|
|
if( typeof key === 'string' && key.length ) {
|
|
fromMatches[key] = fromMatches[key] || [];
|
|
fromMatches[key].push( element );
|
|
}
|
|
} );
|
|
|
|
[].slice.call( toScope.querySelectorAll( selector ) ).forEach( ( element, i ) => {
|
|
const key = serializer( element );
|
|
toMatches[key] = toMatches[key] || [];
|
|
toMatches[key].push( element );
|
|
|
|
let fromElement;
|
|
|
|
// Retrieve the 'from' element
|
|
if( fromMatches[key] ) {
|
|
const primaryIndex = toMatches[key].length - 1;
|
|
const secondaryIndex = fromMatches[key].length - 1;
|
|
|
|
// If there are multiple identical from elements, retrieve
|
|
// the one at the same index as our to-element.
|
|
if( fromMatches[key][ primaryIndex ] ) {
|
|
fromElement = fromMatches[key][ primaryIndex ];
|
|
fromMatches[key][ primaryIndex ] = null;
|
|
}
|
|
// If there are no matching from-elements at the same index,
|
|
// use the last one.
|
|
else if( fromMatches[key][ secondaryIndex ] ) {
|
|
fromElement = fromMatches[key][ secondaryIndex ];
|
|
fromMatches[key][ secondaryIndex ] = null;
|
|
}
|
|
}
|
|
|
|
// If we've got a matching pair, push it to the list of pairs
|
|
if( fromElement ) {
|
|
pairs.push({
|
|
from: fromElement,
|
|
to: element,
|
|
options: animationOptions
|
|
});
|
|
}
|
|
} );
|
|
|
|
}
|
|
|
|
/**
|
|
* Returns a all elements within the given scope that should
|
|
* be considered unmatched in an auto-animate transition. If
|
|
* fading of unmatched elements is turned on, these elements
|
|
* will fade when going between auto-animate slides.
|
|
*
|
|
* Note that parents of auto-animate targets are NOT considered
|
|
* unmatched since fading them would break the auto-animation.
|
|
*
|
|
* @param {HTMLElement} rootElement
|
|
* @return {Array}
|
|
*/
|
|
getUnmatchedAutoAnimateElements( rootElement ) {
|
|
|
|
return [].slice.call( rootElement.children ).reduce( ( result, element ) => {
|
|
|
|
const containsAnimatedElements = element.querySelector( '[data-auto-animate-target]' );
|
|
|
|
// The element is unmatched if
|
|
// - It is not an auto-animate target
|
|
// - It does not contain any auto-animate targets
|
|
if( !element.hasAttribute( 'data-auto-animate-target' ) && !containsAnimatedElements ) {
|
|
result.push( element );
|
|
}
|
|
|
|
if( element.querySelector( '[data-auto-animate-target]' ) ) {
|
|
result = result.concat( this.getUnmatchedAutoAnimateElements( element ) );
|
|
}
|
|
|
|
return result;
|
|
|
|
}, [] );
|
|
|
|
}
|
|
|
|
}
|