/** * @license Angular v5.2.11 * (c) 2010-2018 Google, Inc. https://angular.io/ * License: MIT */ import { AUTO_STYLE, NoopAnimationPlayer, sequence, style, ɵAnimationGroupPlayer, ɵPRE_STYLE } from '@angular/animations'; /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @param {?} players * @return {?} */ function optimizeGroupPlayer(players) { switch (players.length) { case 0: return new NoopAnimationPlayer(); case 1: return players[0]; default: return new ɵAnimationGroupPlayer(players); } } /** * @param {?} driver * @param {?} normalizer * @param {?} element * @param {?} keyframes * @param {?=} preStyles * @param {?=} postStyles * @return {?} */ function normalizeKeyframes(driver, normalizer, element, keyframes, preStyles = {}, postStyles = {}) { const /** @type {?} */ errors = []; const /** @type {?} */ normalizedKeyframes = []; let /** @type {?} */ previousOffset = -1; let /** @type {?} */ previousKeyframe = null; keyframes.forEach(kf => { const /** @type {?} */ offset = /** @type {?} */ (kf['offset']); const /** @type {?} */ isSameOffset = offset == previousOffset; const /** @type {?} */ normalizedKeyframe = (isSameOffset && previousKeyframe) || {}; Object.keys(kf).forEach(prop => { let /** @type {?} */ normalizedProp = prop; let /** @type {?} */ normalizedValue = kf[prop]; if (prop !== 'offset') { normalizedProp = normalizer.normalizePropertyName(normalizedProp, errors); switch (normalizedValue) { case ɵPRE_STYLE: normalizedValue = preStyles[prop]; break; case AUTO_STYLE: normalizedValue = postStyles[prop]; break; default: normalizedValue = normalizer.normalizeStyleValue(prop, normalizedProp, normalizedValue, errors); break; } } normalizedKeyframe[normalizedProp] = normalizedValue; }); if (!isSameOffset) { normalizedKeyframes.push(normalizedKeyframe); } previousKeyframe = normalizedKeyframe; previousOffset = offset; }); if (errors.length) { const /** @type {?} */ LINE_START = '\n - '; throw new Error(`Unable to animate due to the following errors:${LINE_START}${errors.join(LINE_START)}`); } return normalizedKeyframes; } /** * @param {?} player * @param {?} eventName * @param {?} event * @param {?} callback * @return {?} */ function listenOnPlayer(player, eventName, event, callback) { switch (eventName) { case 'start': player.onStart(() => callback(event && copyAnimationEvent(event, 'start', player.totalTime))); break; case 'done': player.onDone(() => callback(event && copyAnimationEvent(event, 'done', player.totalTime))); break; case 'destroy': player.onDestroy(() => callback(event && copyAnimationEvent(event, 'destroy', player.totalTime))); break; } } /** * @param {?} e * @param {?=} phaseName * @param {?=} totalTime * @return {?} */ function copyAnimationEvent(e, phaseName, totalTime) { const /** @type {?} */ event = makeAnimationEvent(e.element, e.triggerName, e.fromState, e.toState, phaseName || e.phaseName, totalTime == undefined ? e.totalTime : totalTime); const /** @type {?} */ data = (/** @type {?} */ (e))['_data']; if (data != null) { (/** @type {?} */ (event))['_data'] = data; } return event; } /** * @param {?} element * @param {?} triggerName * @param {?} fromState * @param {?} toState * @param {?=} phaseName * @param {?=} totalTime * @return {?} */ function makeAnimationEvent(element, triggerName, fromState, toState, phaseName = '', totalTime = 0) { return { element, triggerName, fromState, toState, phaseName, totalTime }; } /** * @param {?} map * @param {?} key * @param {?} defaultValue * @return {?} */ function getOrSetAsInMap(map, key, defaultValue) { let /** @type {?} */ value; if (map instanceof Map) { value = map.get(key); if (!value) { map.set(key, value = defaultValue); } } else { value = map[key]; if (!value) { value = map[key] = defaultValue; } } return value; } /** * @param {?} command * @return {?} */ function parseTimelineCommand(command) { const /** @type {?} */ separatorPos = command.indexOf(':'); const /** @type {?} */ id = command.substring(1, separatorPos); const /** @type {?} */ action = command.substr(separatorPos + 1); return [id, action]; } let _contains = (elm1, elm2) => false; let _matches = (element, selector) => false; let _query = (element, selector, multi) => { return []; }; if (typeof Element != 'undefined') { // this is well supported in all browsers _contains = (elm1, elm2) => { return /** @type {?} */ (elm1.contains(elm2)); }; if (Element.prototype.matches) { _matches = (element, selector) => element.matches(selector); } else { const /** @type {?} */ proto = /** @type {?} */ (Element.prototype); const /** @type {?} */ fn = proto.matchesSelector || proto.mozMatchesSelector || proto.msMatchesSelector || proto.oMatchesSelector || proto.webkitMatchesSelector; if (fn) { _matches = (element, selector) => fn.apply(element, [selector]); } } _query = (element, selector, multi) => { let /** @type {?} */ results = []; if (multi) { results.push(...element.querySelectorAll(selector)); } else { const /** @type {?} */ elm = element.querySelector(selector); if (elm) { results.push(elm); } } return results; }; } /** * @param {?} prop * @return {?} */ function containsVendorPrefix(prop) { // Webkit is the only real popular vendor prefix nowadays // cc: http://shouldiprefix.com/ return prop.substring(1, 6) == 'ebkit'; // webkit or Webkit } let _CACHED_BODY = null; let _IS_WEBKIT = false; /** * @param {?} prop * @return {?} */ function validateStyleProperty(prop) { if (!_CACHED_BODY) { _CACHED_BODY = getBodyNode() || {}; _IS_WEBKIT = /** @type {?} */ ((_CACHED_BODY)).style ? ('WebkitAppearance' in /** @type {?} */ ((_CACHED_BODY)).style) : false; } let /** @type {?} */ result = true; if (/** @type {?} */ ((_CACHED_BODY)).style && !containsVendorPrefix(prop)) { result = prop in /** @type {?} */ ((_CACHED_BODY)).style; if (!result && _IS_WEBKIT) { const /** @type {?} */ camelProp = 'Webkit' + prop.charAt(0).toUpperCase() + prop.substr(1); result = camelProp in /** @type {?} */ ((_CACHED_BODY)).style; } } return result; } /** * @return {?} */ function getBodyNode() { if (typeof document != 'undefined') { return document.body; } return null; } const matchesElement = _matches; const containsElement = _contains; const invokeQuery = _query; /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * \@experimental */ class NoopAnimationDriver { /** * @param {?} prop * @return {?} */ validateStyleProperty(prop) { return validateStyleProperty(prop); } /** * @param {?} element * @param {?} selector * @return {?} */ matchesElement(element, selector) { return matchesElement(element, selector); } /** * @param {?} elm1 * @param {?} elm2 * @return {?} */ containsElement(elm1, elm2) { return containsElement(elm1, elm2); } /** * @param {?} element * @param {?} selector * @param {?} multi * @return {?} */ query(element, selector, multi) { return invokeQuery(element, selector, multi); } /** * @param {?} element * @param {?} prop * @param {?=} defaultValue * @return {?} */ computeStyle(element, prop, defaultValue) { return defaultValue || ''; } /** * @param {?} element * @param {?} keyframes * @param {?} duration * @param {?} delay * @param {?} easing * @param {?=} previousPlayers * @return {?} */ animate(element, keyframes, duration, delay, easing, previousPlayers = []) { return new NoopAnimationPlayer(); } } /** * \@experimental * @abstract */ class AnimationDriver { } AnimationDriver.NOOP = new NoopAnimationDriver(); /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ const ONE_SECOND = 1000; const SUBSTITUTION_EXPR_START = '{{'; const SUBSTITUTION_EXPR_END = '}}'; const ENTER_CLASSNAME = 'ng-enter'; const LEAVE_CLASSNAME = 'ng-leave'; const NG_TRIGGER_CLASSNAME = 'ng-trigger'; const NG_TRIGGER_SELECTOR = '.ng-trigger'; const NG_ANIMATING_CLASSNAME = 'ng-animating'; const NG_ANIMATING_SELECTOR = '.ng-animating'; /** * @param {?} value * @return {?} */ function resolveTimingValue(value) { if (typeof value == 'number') return value; const /** @type {?} */ matches = (/** @type {?} */ (value)).match(/^(-?[\.\d]+)(m?s)/); if (!matches || matches.length < 2) return 0; return _convertTimeValueToMS(parseFloat(matches[1]), matches[2]); } /** * @param {?} value * @param {?} unit * @return {?} */ function _convertTimeValueToMS(value, unit) { switch (unit) { case 's': return value * ONE_SECOND; default: // ms or something else return value; } } /** * @param {?} timings * @param {?} errors * @param {?=} allowNegativeValues * @return {?} */ function resolveTiming(timings, errors, allowNegativeValues) { return timings.hasOwnProperty('duration') ? /** @type {?} */ (timings) : parseTimeExpression(/** @type {?} */ (timings), errors, allowNegativeValues); } /** * @param {?} exp * @param {?} errors * @param {?=} allowNegativeValues * @return {?} */ function parseTimeExpression(exp, errors, allowNegativeValues) { const /** @type {?} */ regex = /^(-?[\.\d]+)(m?s)(?:\s+(-?[\.\d]+)(m?s))?(?:\s+([-a-z]+(?:\(.+?\))?))?$/i; let /** @type {?} */ duration; let /** @type {?} */ delay = 0; let /** @type {?} */ easing = ''; if (typeof exp === 'string') { const /** @type {?} */ matches = exp.match(regex); if (matches === null) { errors.push(`The provided timing value "${exp}" is invalid.`); return { duration: 0, delay: 0, easing: '' }; } duration = _convertTimeValueToMS(parseFloat(matches[1]), matches[2]); const /** @type {?} */ delayMatch = matches[3]; if (delayMatch != null) { delay = _convertTimeValueToMS(Math.floor(parseFloat(delayMatch)), matches[4]); } const /** @type {?} */ easingVal = matches[5]; if (easingVal) { easing = easingVal; } } else { duration = /** @type {?} */ (exp); } if (!allowNegativeValues) { let /** @type {?} */ containsErrors = false; let /** @type {?} */ startIndex = errors.length; if (duration < 0) { errors.push(`Duration values below 0 are not allowed for this animation step.`); containsErrors = true; } if (delay < 0) { errors.push(`Delay values below 0 are not allowed for this animation step.`); containsErrors = true; } if (containsErrors) { errors.splice(startIndex, 0, `The provided timing value "${exp}" is invalid.`); } } return { duration, delay, easing }; } /** * @param {?} obj * @param {?=} destination * @return {?} */ function copyObj(obj, destination = {}) { Object.keys(obj).forEach(prop => { destination[prop] = obj[prop]; }); return destination; } /** * @param {?} styles * @return {?} */ function normalizeStyles(styles) { const /** @type {?} */ normalizedStyles = {}; if (Array.isArray(styles)) { styles.forEach(data => copyStyles(data, false, normalizedStyles)); } else { copyStyles(styles, false, normalizedStyles); } return normalizedStyles; } /** * @param {?} styles * @param {?} readPrototype * @param {?=} destination * @return {?} */ function copyStyles(styles, readPrototype, destination = {}) { if (readPrototype) { // we make use of a for-in loop so that the // prototypically inherited properties are // revealed from the backFill map for (let /** @type {?} */ prop in styles) { destination[prop] = styles[prop]; } } else { copyObj(styles, destination); } return destination; } /** * @param {?} element * @param {?} styles * @return {?} */ function setStyles(element, styles) { if (element['style']) { Object.keys(styles).forEach(prop => { const /** @type {?} */ camelProp = dashCaseToCamelCase(prop); element.style[camelProp] = styles[prop]; }); } } /** * @param {?} element * @param {?} styles * @return {?} */ function eraseStyles(element, styles) { if (element['style']) { Object.keys(styles).forEach(prop => { const /** @type {?} */ camelProp = dashCaseToCamelCase(prop); element.style[camelProp] = ''; }); } } /** * @param {?} steps * @return {?} */ function normalizeAnimationEntry(steps) { if (Array.isArray(steps)) { if (steps.length == 1) return steps[0]; return sequence(steps); } return /** @type {?} */ (steps); } /** * @param {?} value * @param {?} options * @param {?} errors * @return {?} */ function validateStyleParams(value, options, errors) { const /** @type {?} */ params = options.params || {}; const /** @type {?} */ matches = extractStyleParams(value); if (matches.length) { matches.forEach(varName => { if (!params.hasOwnProperty(varName)) { errors.push(`Unable to resolve the local animation param ${varName} in the given list of values`); } }); } } const PARAM_REGEX = new RegExp(`${SUBSTITUTION_EXPR_START}\\s*(.+?)\\s*${SUBSTITUTION_EXPR_END}`, 'g'); /** * @param {?} value * @return {?} */ function extractStyleParams(value) { let /** @type {?} */ params = []; if (typeof value === 'string') { const /** @type {?} */ val = value.toString(); let /** @type {?} */ match; while (match = PARAM_REGEX.exec(val)) { params.push(/** @type {?} */ (match[1])); } PARAM_REGEX.lastIndex = 0; } return params; } /** * @param {?} value * @param {?} params * @param {?} errors * @return {?} */ function interpolateParams(value, params, errors) { const /** @type {?} */ original = value.toString(); const /** @type {?} */ str = original.replace(PARAM_REGEX, (_, varName) => { let /** @type {?} */ localVal = params[varName]; // this means that the value was never overidden by the data passed in by the user if (!params.hasOwnProperty(varName)) { errors.push(`Please provide a value for the animation param ${varName}`); localVal = ''; } return localVal.toString(); }); // we do this to assert that numeric values stay as they are return str == original ? value : str; } /** * @param {?} iterator * @return {?} */ function iteratorToArray(iterator) { const /** @type {?} */ arr = []; let /** @type {?} */ item = iterator.next(); while (!item.done) { arr.push(item.value); item = iterator.next(); } return arr; } /** * @param {?} source * @param {?} destination * @return {?} */ const DASH_CASE_REGEXP = /-+([a-z0-9])/g; /** * @param {?} input * @return {?} */ function dashCaseToCamelCase(input) { return input.replace(DASH_CASE_REGEXP, (...m) => m[1].toUpperCase()); } /** * @param {?} duration * @param {?} delay * @return {?} */ function allowPreviousPlayerStylesMerge(duration, delay) { return duration === 0 || delay === 0; } /** * @param {?} visitor * @param {?} node * @param {?} context * @return {?} */ function visitDslNode(visitor, node, context) { switch (node.type) { case 7 /* Trigger */: return visitor.visitTrigger(node, context); case 0 /* State */: return visitor.visitState(node, context); case 1 /* Transition */: return visitor.visitTransition(node, context); case 2 /* Sequence */: return visitor.visitSequence(node, context); case 3 /* Group */: return visitor.visitGroup(node, context); case 4 /* Animate */: return visitor.visitAnimate(node, context); case 5 /* Keyframes */: return visitor.visitKeyframes(node, context); case 6 /* Style */: return visitor.visitStyle(node, context); case 8 /* Reference */: return visitor.visitReference(node, context); case 9 /* AnimateChild */: return visitor.visitAnimateChild(node, context); case 10 /* AnimateRef */: return visitor.visitAnimateRef(node, context); case 11 /* Query */: return visitor.visitQuery(node, context); case 12 /* Stagger */: return visitor.visitStagger(node, context); default: throw new Error(`Unable to resolve animation metadata node #${node.type}`); } } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ const ANY_STATE = '*'; /** * @param {?} transitionValue * @param {?} errors * @return {?} */ function parseTransitionExpr(transitionValue, errors) { const /** @type {?} */ expressions = []; if (typeof transitionValue == 'string') { (/** @type {?} */ (transitionValue)) .split(/\s*,\s*/) .forEach(str => parseInnerTransitionStr(str, expressions, errors)); } else { expressions.push(/** @type {?} */ (transitionValue)); } return expressions; } /** * @param {?} eventStr * @param {?} expressions * @param {?} errors * @return {?} */ function parseInnerTransitionStr(eventStr, expressions, errors) { if (eventStr[0] == ':') { const /** @type {?} */ result = parseAnimationAlias(eventStr, errors); if (typeof result == 'function') { expressions.push(result); return; } eventStr = /** @type {?} */ (result); } const /** @type {?} */ match = eventStr.match(/^(\*|[-\w]+)\s*()\s*(\*|[-\w]+)$/); if (match == null || match.length < 4) { errors.push(`The provided transition expression "${eventStr}" is not supported`); return expressions; } const /** @type {?} */ fromState = match[1]; const /** @type {?} */ separator = match[2]; const /** @type {?} */ toState = match[3]; expressions.push(makeLambdaFromStates(fromState, toState)); const /** @type {?} */ isFullAnyStateExpr = fromState == ANY_STATE && toState == ANY_STATE; if (separator[0] == '<' && !isFullAnyStateExpr) { expressions.push(makeLambdaFromStates(toState, fromState)); } } /** * @param {?} alias * @param {?} errors * @return {?} */ function parseAnimationAlias(alias, errors) { switch (alias) { case ':enter': return 'void => *'; case ':leave': return '* => void'; case ':increment': return (fromState, toState) => parseFloat(toState) > parseFloat(fromState); case ':decrement': return (fromState, toState) => parseFloat(toState) < parseFloat(fromState); default: errors.push(`The transition alias value "${alias}" is not supported`); return '* => *'; } } // DO NOT REFACTOR ... keep the follow set instantiations // with the values intact (closure compiler for some reason // removes follow-up lines that add the values outside of // the constructor... const TRUE_BOOLEAN_VALUES = new Set(['true', '1']); const FALSE_BOOLEAN_VALUES = new Set(['false', '0']); /** * @param {?} lhs * @param {?} rhs * @return {?} */ function makeLambdaFromStates(lhs, rhs) { const /** @type {?} */ LHS_MATCH_BOOLEAN = TRUE_BOOLEAN_VALUES.has(lhs) || FALSE_BOOLEAN_VALUES.has(lhs); const /** @type {?} */ RHS_MATCH_BOOLEAN = TRUE_BOOLEAN_VALUES.has(rhs) || FALSE_BOOLEAN_VALUES.has(rhs); return (fromState, toState) => { let /** @type {?} */ lhsMatch = lhs == ANY_STATE || lhs == fromState; let /** @type {?} */ rhsMatch = rhs == ANY_STATE || rhs == toState; if (!lhsMatch && LHS_MATCH_BOOLEAN && typeof fromState === 'boolean') { lhsMatch = fromState ? TRUE_BOOLEAN_VALUES.has(lhs) : FALSE_BOOLEAN_VALUES.has(lhs); } if (!rhsMatch && RHS_MATCH_BOOLEAN && typeof toState === 'boolean') { rhsMatch = toState ? TRUE_BOOLEAN_VALUES.has(rhs) : FALSE_BOOLEAN_VALUES.has(rhs); } return lhsMatch && rhsMatch; }; } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ const SELF_TOKEN = ':self'; const SELF_TOKEN_REGEX = new RegExp(`\s*${SELF_TOKEN}\s*,?`, 'g'); /** * @param {?} driver * @param {?} metadata * @param {?} errors * @return {?} */ function buildAnimationAst(driver, metadata, errors) { return new AnimationAstBuilderVisitor(driver).build(metadata, errors); } const ROOT_SELECTOR = ''; class AnimationAstBuilderVisitor { /** * @param {?} _driver */ constructor(_driver) { this._driver = _driver; } /** * @param {?} metadata * @param {?} errors * @return {?} */ build(metadata, errors) { const /** @type {?} */ context = new AnimationAstBuilderContext(errors); this._resetContextStyleTimingState(context); return /** @type {?} */ (visitDslNode(this, normalizeAnimationEntry(metadata), context)); } /** * @param {?} context * @return {?} */ _resetContextStyleTimingState(context) { context.currentQuerySelector = ROOT_SELECTOR; context.collectedStyles = {}; context.collectedStyles[ROOT_SELECTOR] = {}; context.currentTime = 0; } /** * @param {?} metadata * @param {?} context * @return {?} */ visitTrigger(metadata, context) { let /** @type {?} */ queryCount = context.queryCount = 0; let /** @type {?} */ depCount = context.depCount = 0; const /** @type {?} */ states = []; const /** @type {?} */ transitions = []; if (metadata.name.charAt(0) == '@') { context.errors.push('animation triggers cannot be prefixed with an `@` sign (e.g. trigger(\'@foo\', [...]))'); } metadata.definitions.forEach(def => { this._resetContextStyleTimingState(context); if (def.type == 0 /* State */) { const /** @type {?} */ stateDef = /** @type {?} */ (def); const /** @type {?} */ name = stateDef.name; name.split(/\s*,\s*/).forEach(n => { stateDef.name = n; states.push(this.visitState(stateDef, context)); }); stateDef.name = name; } else if (def.type == 1 /* Transition */) { const /** @type {?} */ transition = this.visitTransition(/** @type {?} */ (def), context); queryCount += transition.queryCount; depCount += transition.depCount; transitions.push(transition); } else { context.errors.push('only state() and transition() definitions can sit inside of a trigger()'); } }); return { type: 7 /* Trigger */, name: metadata.name, states, transitions, queryCount, depCount, options: null }; } /** * @param {?} metadata * @param {?} context * @return {?} */ visitState(metadata, context) { const /** @type {?} */ styleAst = this.visitStyle(metadata.styles, context); const /** @type {?} */ astParams = (metadata.options && metadata.options.params) || null; if (styleAst.containsDynamicStyles) { const /** @type {?} */ missingSubs = new Set(); const /** @type {?} */ params = astParams || {}; styleAst.styles.forEach(value => { if (isObject(value)) { const /** @type {?} */ stylesObj = /** @type {?} */ (value); Object.keys(stylesObj).forEach(prop => { extractStyleParams(stylesObj[prop]).forEach(sub => { if (!params.hasOwnProperty(sub)) { missingSubs.add(sub); } }); }); } }); if (missingSubs.size) { const /** @type {?} */ missingSubsArr = iteratorToArray(missingSubs.values()); context.errors.push(`state("${metadata.name}", ...) must define default values for all the following style substitutions: ${missingSubsArr.join(', ')}`); } } return { type: 0 /* State */, name: metadata.name, style: styleAst, options: astParams ? { params: astParams } : null }; } /** * @param {?} metadata * @param {?} context * @return {?} */ visitTransition(metadata, context) { context.queryCount = 0; context.depCount = 0; const /** @type {?} */ animation = visitDslNode(this, normalizeAnimationEntry(metadata.animation), context); const /** @type {?} */ matchers = parseTransitionExpr(metadata.expr, context.errors); return { type: 1 /* Transition */, matchers, animation, queryCount: context.queryCount, depCount: context.depCount, options: normalizeAnimationOptions(metadata.options) }; } /** * @param {?} metadata * @param {?} context * @return {?} */ visitSequence(metadata, context) { return { type: 2 /* Sequence */, steps: metadata.steps.map(s => visitDslNode(this, s, context)), options: normalizeAnimationOptions(metadata.options) }; } /** * @param {?} metadata * @param {?} context * @return {?} */ visitGroup(metadata, context) { const /** @type {?} */ currentTime = context.currentTime; let /** @type {?} */ furthestTime = 0; const /** @type {?} */ steps = metadata.steps.map(step => { context.currentTime = currentTime; const /** @type {?} */ innerAst = visitDslNode(this, step, context); furthestTime = Math.max(furthestTime, context.currentTime); return innerAst; }); context.currentTime = furthestTime; return { type: 3 /* Group */, steps, options: normalizeAnimationOptions(metadata.options) }; } /** * @param {?} metadata * @param {?} context * @return {?} */ visitAnimate(metadata, context) { const /** @type {?} */ timingAst = constructTimingAst(metadata.timings, context.errors); context.currentAnimateTimings = timingAst; let /** @type {?} */ styleAst; let /** @type {?} */ styleMetadata = metadata.styles ? metadata.styles : style({}); if (styleMetadata.type == 5 /* Keyframes */) { styleAst = this.visitKeyframes(/** @type {?} */ (styleMetadata), context); } else { let /** @type {?} */ styleMetadata = /** @type {?} */ (metadata.styles); let /** @type {?} */ isEmpty = false; if (!styleMetadata) { isEmpty = true; const /** @type {?} */ newStyleData = {}; if (timingAst.easing) { newStyleData['easing'] = timingAst.easing; } styleMetadata = style(newStyleData); } context.currentTime += timingAst.duration + timingAst.delay; const /** @type {?} */ _styleAst = this.visitStyle(styleMetadata, context); _styleAst.isEmptyStep = isEmpty; styleAst = _styleAst; } context.currentAnimateTimings = null; return { type: 4 /* Animate */, timings: timingAst, style: styleAst, options: null }; } /** * @param {?} metadata * @param {?} context * @return {?} */ visitStyle(metadata, context) { const /** @type {?} */ ast = this._makeStyleAst(metadata, context); this._validateStyleAst(ast, context); return ast; } /** * @param {?} metadata * @param {?} context * @return {?} */ _makeStyleAst(metadata, context) { const /** @type {?} */ styles = []; if (Array.isArray(metadata.styles)) { (/** @type {?} */ (metadata.styles)).forEach(styleTuple => { if (typeof styleTuple == 'string') { if (styleTuple == AUTO_STYLE) { styles.push(/** @type {?} */ (styleTuple)); } else { context.errors.push(`The provided style string value ${styleTuple} is not allowed.`); } } else { styles.push(/** @type {?} */ (styleTuple)); } }); } else { styles.push(metadata.styles); } let /** @type {?} */ containsDynamicStyles = false; let /** @type {?} */ collectedEasing = null; styles.forEach(styleData => { if (isObject(styleData)) { const /** @type {?} */ styleMap = /** @type {?} */ (styleData); const /** @type {?} */ easing = styleMap['easing']; if (easing) { collectedEasing = /** @type {?} */ (easing); delete styleMap['easing']; } if (!containsDynamicStyles) { for (let /** @type {?} */ prop in styleMap) { const /** @type {?} */ value = styleMap[prop]; if (value.toString().indexOf(SUBSTITUTION_EXPR_START) >= 0) { containsDynamicStyles = true; break; } } } } }); return { type: 6 /* Style */, styles, easing: collectedEasing, offset: metadata.offset, containsDynamicStyles, options: null }; } /** * @param {?} ast * @param {?} context * @return {?} */ _validateStyleAst(ast, context) { const /** @type {?} */ timings = context.currentAnimateTimings; let /** @type {?} */ endTime = context.currentTime; let /** @type {?} */ startTime = context.currentTime; if (timings && startTime > 0) { startTime -= timings.duration + timings.delay; } ast.styles.forEach(tuple => { if (typeof tuple == 'string') return; Object.keys(tuple).forEach(prop => { if (!this._driver.validateStyleProperty(prop)) { context.errors.push(`The provided animation property "${prop}" is not a supported CSS property for animations`); return; } const /** @type {?} */ collectedStyles = context.collectedStyles[/** @type {?} */ ((context.currentQuerySelector))]; const /** @type {?} */ collectedEntry = collectedStyles[prop]; let /** @type {?} */ updateCollectedStyle = true; if (collectedEntry) { if (startTime != endTime && startTime >= collectedEntry.startTime && endTime <= collectedEntry.endTime) { context.errors.push(`The CSS property "${prop}" that exists between the times of "${collectedEntry.startTime}ms" and "${collectedEntry.endTime}ms" is also being animated in a parallel animation between the times of "${startTime}ms" and "${endTime}ms"`); updateCollectedStyle = false; } // we always choose the smaller start time value since we // want to have a record of the entire animation window where // the style property is being animated in between startTime = collectedEntry.startTime; } if (updateCollectedStyle) { collectedStyles[prop] = { startTime, endTime }; } if (context.options) { validateStyleParams(tuple[prop], context.options, context.errors); } }); }); } /** * @param {?} metadata * @param {?} context * @return {?} */ visitKeyframes(metadata, context) { const /** @type {?} */ ast = { type: 5 /* Keyframes */, styles: [], options: null }; if (!context.currentAnimateTimings) { context.errors.push(`keyframes() must be placed inside of a call to animate()`); return ast; } const /** @type {?} */ MAX_KEYFRAME_OFFSET = 1; let /** @type {?} */ totalKeyframesWithOffsets = 0; const /** @type {?} */ offsets = []; let /** @type {?} */ offsetsOutOfOrder = false; let /** @type {?} */ keyframesOutOfRange = false; let /** @type {?} */ previousOffset = 0; const /** @type {?} */ keyframes = metadata.steps.map(styles => { const /** @type {?} */ style$$1 = this._makeStyleAst(styles, context); let /** @type {?} */ offsetVal = style$$1.offset != null ? style$$1.offset : consumeOffset(style$$1.styles); let /** @type {?} */ offset = 0; if (offsetVal != null) { totalKeyframesWithOffsets++; offset = style$$1.offset = offsetVal; } keyframesOutOfRange = keyframesOutOfRange || offset < 0 || offset > 1; offsetsOutOfOrder = offsetsOutOfOrder || offset < previousOffset; previousOffset = offset; offsets.push(offset); return style$$1; }); if (keyframesOutOfRange) { context.errors.push(`Please ensure that all keyframe offsets are between 0 and 1`); } if (offsetsOutOfOrder) { context.errors.push(`Please ensure that all keyframe offsets are in order`); } const /** @type {?} */ length = metadata.steps.length; let /** @type {?} */ generatedOffset = 0; if (totalKeyframesWithOffsets > 0 && totalKeyframesWithOffsets < length) { context.errors.push(`Not all style() steps within the declared keyframes() contain offsets`); } else if (totalKeyframesWithOffsets == 0) { generatedOffset = MAX_KEYFRAME_OFFSET / (length - 1); } const /** @type {?} */ limit = length - 1; const /** @type {?} */ currentTime = context.currentTime; const /** @type {?} */ currentAnimateTimings = /** @type {?} */ ((context.currentAnimateTimings)); const /** @type {?} */ animateDuration = currentAnimateTimings.duration; keyframes.forEach((kf, i) => { const /** @type {?} */ offset = generatedOffset > 0 ? (i == limit ? 1 : (generatedOffset * i)) : offsets[i]; const /** @type {?} */ durationUpToThisFrame = offset * animateDuration; context.currentTime = currentTime + currentAnimateTimings.delay + durationUpToThisFrame; currentAnimateTimings.duration = durationUpToThisFrame; this._validateStyleAst(kf, context); kf.offset = offset; ast.styles.push(kf); }); return ast; } /** * @param {?} metadata * @param {?} context * @return {?} */ visitReference(metadata, context) { return { type: 8 /* Reference */, animation: visitDslNode(this, normalizeAnimationEntry(metadata.animation), context), options: normalizeAnimationOptions(metadata.options) }; } /** * @param {?} metadata * @param {?} context * @return {?} */ visitAnimateChild(metadata, context) { context.depCount++; return { type: 9 /* AnimateChild */, options: normalizeAnimationOptions(metadata.options) }; } /** * @param {?} metadata * @param {?} context * @return {?} */ visitAnimateRef(metadata, context) { return { type: 10 /* AnimateRef */, animation: this.visitReference(metadata.animation, context), options: normalizeAnimationOptions(metadata.options) }; } /** * @param {?} metadata * @param {?} context * @return {?} */ visitQuery(metadata, context) { const /** @type {?} */ parentSelector = /** @type {?} */ ((context.currentQuerySelector)); const /** @type {?} */ options = /** @type {?} */ ((metadata.options || {})); context.queryCount++; context.currentQuery = metadata; const [selector, includeSelf] = normalizeSelector(metadata.selector); context.currentQuerySelector = parentSelector.length ? (parentSelector + ' ' + selector) : selector; getOrSetAsInMap(context.collectedStyles, context.currentQuerySelector, {}); const /** @type {?} */ animation = visitDslNode(this, normalizeAnimationEntry(metadata.animation), context); context.currentQuery = null; context.currentQuerySelector = parentSelector; return { type: 11 /* Query */, selector, limit: options.limit || 0, optional: !!options.optional, includeSelf, animation, originalSelector: metadata.selector, options: normalizeAnimationOptions(metadata.options) }; } /** * @param {?} metadata * @param {?} context * @return {?} */ visitStagger(metadata, context) { if (!context.currentQuery) { context.errors.push(`stagger() can only be used inside of query()`); } const /** @type {?} */ timings = metadata.timings === 'full' ? { duration: 0, delay: 0, easing: 'full' } : resolveTiming(metadata.timings, context.errors, true); return { type: 12 /* Stagger */, animation: visitDslNode(this, normalizeAnimationEntry(metadata.animation), context), timings, options: null }; } } /** * @param {?} selector * @return {?} */ function normalizeSelector(selector) { const /** @type {?} */ hasAmpersand = selector.split(/\s*,\s*/).find(token => token == SELF_TOKEN) ? true : false; if (hasAmpersand) { selector = selector.replace(SELF_TOKEN_REGEX, ''); } // the :enter and :leave selectors are filled in at runtime during timeline building selector = selector.replace(/@\*/g, NG_TRIGGER_SELECTOR) .replace(/@\w+/g, match => NG_TRIGGER_SELECTOR + '-' + match.substr(1)) .replace(/:animating/g, NG_ANIMATING_SELECTOR); return [selector, hasAmpersand]; } /** * @param {?} obj * @return {?} */ function normalizeParams(obj) { return obj ? copyObj(obj) : null; } class AnimationAstBuilderContext { /** * @param {?} errors */ constructor(errors) { this.errors = errors; this.queryCount = 0; this.depCount = 0; this.currentTransition = null; this.currentQuery = null; this.currentQuerySelector = null; this.currentAnimateTimings = null; this.currentTime = 0; this.collectedStyles = {}; this.options = null; } } /** * @param {?} styles * @return {?} */ function consumeOffset(styles) { if (typeof styles == 'string') return null; let /** @type {?} */ offset = null; if (Array.isArray(styles)) { styles.forEach(styleTuple => { if (isObject(styleTuple) && styleTuple.hasOwnProperty('offset')) { const /** @type {?} */ obj = /** @type {?} */ (styleTuple); offset = parseFloat(/** @type {?} */ (obj['offset'])); delete obj['offset']; } }); } else if (isObject(styles) && styles.hasOwnProperty('offset')) { const /** @type {?} */ obj = /** @type {?} */ (styles); offset = parseFloat(/** @type {?} */ (obj['offset'])); delete obj['offset']; } return offset; } /** * @param {?} value * @return {?} */ function isObject(value) { return !Array.isArray(value) && typeof value == 'object'; } /** * @param {?} value * @param {?} errors * @return {?} */ function constructTimingAst(value, errors) { let /** @type {?} */ timings = null; if (value.hasOwnProperty('duration')) { timings = /** @type {?} */ (value); } else if (typeof value == 'number') { const /** @type {?} */ duration = resolveTiming(/** @type {?} */ (value), errors).duration; return makeTimingAst(/** @type {?} */ (duration), 0, ''); } const /** @type {?} */ strValue = /** @type {?} */ (value); const /** @type {?} */ isDynamic = strValue.split(/\s+/).some(v => v.charAt(0) == '{' && v.charAt(1) == '{'); if (isDynamic) { const /** @type {?} */ ast = /** @type {?} */ (makeTimingAst(0, 0, '')); ast.dynamic = true; ast.strValue = strValue; return /** @type {?} */ (ast); } timings = timings || resolveTiming(strValue, errors); return makeTimingAst(timings.duration, timings.delay, timings.easing); } /** * @param {?} options * @return {?} */ function normalizeAnimationOptions(options) { if (options) { options = copyObj(options); if (options['params']) { options['params'] = /** @type {?} */ ((normalizeParams(options['params']))); } } else { options = {}; } return options; } /** * @param {?} duration * @param {?} delay * @param {?} easing * @return {?} */ function makeTimingAst(duration, delay, easing) { return { duration, delay, easing }; } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @record */ /** * @param {?} element * @param {?} keyframes * @param {?} preStyleProps * @param {?} postStyleProps * @param {?} duration * @param {?} delay * @param {?=} easing * @param {?=} subTimeline * @return {?} */ function createTimelineInstruction(element, keyframes, preStyleProps, postStyleProps, duration, delay, easing = null, subTimeline = false) { return { type: 1 /* TimelineAnimation */, element, keyframes, preStyleProps, postStyleProps, duration, delay, totalTime: duration + delay, easing, subTimeline }; } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ class ElementInstructionMap { constructor() { this._map = new Map(); } /** * @param {?} element * @return {?} */ consume(element) { let /** @type {?} */ instructions = this._map.get(element); if (instructions) { this._map.delete(element); } else { instructions = []; } return instructions; } /** * @param {?} element * @param {?} instructions * @return {?} */ append(element, instructions) { let /** @type {?} */ existingInstructions = this._map.get(element); if (!existingInstructions) { this._map.set(element, existingInstructions = []); } existingInstructions.push(...instructions); } /** * @param {?} element * @return {?} */ has(element) { return this._map.has(element); } /** * @return {?} */ clear() { this._map.clear(); } } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ const ONE_FRAME_IN_MILLISECONDS = 1; const ENTER_TOKEN = ':enter'; const ENTER_TOKEN_REGEX = new RegExp(ENTER_TOKEN, 'g'); const LEAVE_TOKEN = ':leave'; const LEAVE_TOKEN_REGEX = new RegExp(LEAVE_TOKEN, 'g'); /** * @param {?} driver * @param {?} rootElement * @param {?} ast * @param {?} enterClassName * @param {?} leaveClassName * @param {?=} startingStyles * @param {?=} finalStyles * @param {?=} options * @param {?=} subInstructions * @param {?=} errors * @return {?} */ function buildAnimationTimelines(driver, rootElement, ast, enterClassName, leaveClassName, startingStyles = {}, finalStyles = {}, options, subInstructions, errors = []) { return new AnimationTimelineBuilderVisitor().buildKeyframes(driver, rootElement, ast, enterClassName, leaveClassName, startingStyles, finalStyles, options, subInstructions, errors); } class AnimationTimelineBuilderVisitor { /** * @param {?} driver * @param {?} rootElement * @param {?} ast * @param {?} enterClassName * @param {?} leaveClassName * @param {?} startingStyles * @param {?} finalStyles * @param {?} options * @param {?=} subInstructions * @param {?=} errors * @return {?} */ buildKeyframes(driver, rootElement, ast, enterClassName, leaveClassName, startingStyles, finalStyles, options, subInstructions, errors = []) { subInstructions = subInstructions || new ElementInstructionMap(); const /** @type {?} */ context = new AnimationTimelineContext(driver, rootElement, subInstructions, enterClassName, leaveClassName, errors, []); context.options = options; context.currentTimeline.setStyles([startingStyles], null, context.errors, options); visitDslNode(this, ast, context); // this checks to see if an actual animation happened const /** @type {?} */ timelines = context.timelines.filter(timeline => timeline.containsAnimation()); if (timelines.length && Object.keys(finalStyles).length) { const /** @type {?} */ tl = timelines[timelines.length - 1]; if (!tl.allowOnlyTimelineStyles()) { tl.setStyles([finalStyles], null, context.errors, options); } } return timelines.length ? timelines.map(timeline => timeline.buildKeyframes()) : [createTimelineInstruction(rootElement, [], [], [], 0, 0, '', false)]; } /** * @param {?} ast * @param {?} context * @return {?} */ visitTrigger(ast, context) { // these values are not visited in this AST } /** * @param {?} ast * @param {?} context * @return {?} */ visitState(ast, context) { // these values are not visited in this AST } /** * @param {?} ast * @param {?} context * @return {?} */ visitTransition(ast, context) { // these values are not visited in this AST } /** * @param {?} ast * @param {?} context * @return {?} */ visitAnimateChild(ast, context) { const /** @type {?} */ elementInstructions = context.subInstructions.consume(context.element); if (elementInstructions) { const /** @type {?} */ innerContext = context.createSubContext(ast.options); const /** @type {?} */ startTime = context.currentTimeline.currentTime; const /** @type {?} */ endTime = this._visitSubInstructions(elementInstructions, innerContext, /** @type {?} */ (innerContext.options)); if (startTime != endTime) { // we do this on the upper context because we created a sub context for // the sub child animations context.transformIntoNewTimeline(endTime); } } context.previousNode = ast; } /** * @param {?} ast * @param {?} context * @return {?} */ visitAnimateRef(ast, context) { const /** @type {?} */ innerContext = context.createSubContext(ast.options); innerContext.transformIntoNewTimeline(); this.visitReference(ast.animation, innerContext); context.transformIntoNewTimeline(innerContext.currentTimeline.currentTime); context.previousNode = ast; } /** * @param {?} instructions * @param {?} context * @param {?} options * @return {?} */ _visitSubInstructions(instructions, context, options) { const /** @type {?} */ startTime = context.currentTimeline.currentTime; let /** @type {?} */ furthestTime = startTime; // this is a special-case for when a user wants to skip a sub // animation from being fired entirely. const /** @type {?} */ duration = options.duration != null ? resolveTimingValue(options.duration) : null; const /** @type {?} */ delay = options.delay != null ? resolveTimingValue(options.delay) : null; if (duration !== 0) { instructions.forEach(instruction => { const /** @type {?} */ instructionTimings = context.appendInstructionToTimeline(instruction, duration, delay); furthestTime = Math.max(furthestTime, instructionTimings.duration + instructionTimings.delay); }); } return furthestTime; } /** * @param {?} ast * @param {?} context * @return {?} */ visitReference(ast, context) { context.updateOptions(ast.options, true); visitDslNode(this, ast.animation, context); context.previousNode = ast; } /** * @param {?} ast * @param {?} context * @return {?} */ visitSequence(ast, context) { const /** @type {?} */ subContextCount = context.subContextCount; let /** @type {?} */ ctx = context; const /** @type {?} */ options = ast.options; if (options && (options.params || options.delay)) { ctx = context.createSubContext(options); ctx.transformIntoNewTimeline(); if (options.delay != null) { if (ctx.previousNode.type == 6 /* Style */) { ctx.currentTimeline.snapshotCurrentStyles(); ctx.previousNode = DEFAULT_NOOP_PREVIOUS_NODE; } const /** @type {?} */ delay = resolveTimingValue(options.delay); ctx.delayNextStep(delay); } } if (ast.steps.length) { ast.steps.forEach(s => visitDslNode(this, s, ctx)); // this is here just incase the inner steps only contain or end with a style() call ctx.currentTimeline.applyStylesToKeyframe(); // this means that some animation function within the sequence // ended up creating a sub timeline (which means the current // timeline cannot overlap with the contents of the sequence) if (ctx.subContextCount > subContextCount) { ctx.transformIntoNewTimeline(); } } context.previousNode = ast; } /** * @param {?} ast * @param {?} context * @return {?} */ visitGroup(ast, context) { const /** @type {?} */ innerTimelines = []; let /** @type {?} */ furthestTime = context.currentTimeline.currentTime; const /** @type {?} */ delay = ast.options && ast.options.delay ? resolveTimingValue(ast.options.delay) : 0; ast.steps.forEach(s => { const /** @type {?} */ innerContext = context.createSubContext(ast.options); if (delay) { innerContext.delayNextStep(delay); } visitDslNode(this, s, innerContext); furthestTime = Math.max(furthestTime, innerContext.currentTimeline.currentTime); innerTimelines.push(innerContext.currentTimeline); }); // this operation is run after the AST loop because otherwise // if the parent timeline's collected styles were updated then // it would pass in invalid data into the new-to-be forked items innerTimelines.forEach(timeline => context.currentTimeline.mergeTimelineCollectedStyles(timeline)); context.transformIntoNewTimeline(furthestTime); context.previousNode = ast; } /** * @param {?} ast * @param {?} context * @return {?} */ _visitTiming(ast, context) { if ((/** @type {?} */ (ast)).dynamic) { const /** @type {?} */ strValue = (/** @type {?} */ (ast)).strValue; const /** @type {?} */ timingValue = context.params ? interpolateParams(strValue, context.params, context.errors) : strValue; return resolveTiming(timingValue, context.errors); } else { return { duration: ast.duration, delay: ast.delay, easing: ast.easing }; } } /** * @param {?} ast * @param {?} context * @return {?} */ visitAnimate(ast, context) { const /** @type {?} */ timings = context.currentAnimateTimings = this._visitTiming(ast.timings, context); const /** @type {?} */ timeline = context.currentTimeline; if (timings.delay) { context.incrementTime(timings.delay); timeline.snapshotCurrentStyles(); } const /** @type {?} */ style$$1 = ast.style; if (style$$1.type == 5 /* Keyframes */) { this.visitKeyframes(style$$1, context); } else { context.incrementTime(timings.duration); this.visitStyle(/** @type {?} */ (style$$1), context); timeline.applyStylesToKeyframe(); } context.currentAnimateTimings = null; context.previousNode = ast; } /** * @param {?} ast * @param {?} context * @return {?} */ visitStyle(ast, context) { const /** @type {?} */ timeline = context.currentTimeline; const /** @type {?} */ timings = /** @type {?} */ ((context.currentAnimateTimings)); // this is a special case for when a style() call // directly follows an animate() call (but not inside of an animate() call) if (!timings && timeline.getCurrentStyleProperties().length) { timeline.forwardFrame(); } const /** @type {?} */ easing = (timings && timings.easing) || ast.easing; if (ast.isEmptyStep) { timeline.applyEmptyStep(easing); } else { timeline.setStyles(ast.styles, easing, context.errors, context.options); } context.previousNode = ast; } /** * @param {?} ast * @param {?} context * @return {?} */ visitKeyframes(ast, context) { const /** @type {?} */ currentAnimateTimings = /** @type {?} */ ((context.currentAnimateTimings)); const /** @type {?} */ startTime = (/** @type {?} */ ((context.currentTimeline))).duration; const /** @type {?} */ duration = currentAnimateTimings.duration; const /** @type {?} */ innerContext = context.createSubContext(); const /** @type {?} */ innerTimeline = innerContext.currentTimeline; innerTimeline.easing = currentAnimateTimings.easing; ast.styles.forEach(step => { const /** @type {?} */ offset = step.offset || 0; innerTimeline.forwardTime(offset * duration); innerTimeline.setStyles(step.styles, step.easing, context.errors, context.options); innerTimeline.applyStylesToKeyframe(); }); // this will ensure that the parent timeline gets all the styles from // the child even if the new timeline below is not used context.currentTimeline.mergeTimelineCollectedStyles(innerTimeline); // we do this because the window between this timeline and the sub timeline // should ensure that the styles within are exactly the same as they were before context.transformIntoNewTimeline(startTime + duration); context.previousNode = ast; } /** * @param {?} ast * @param {?} context * @return {?} */ visitQuery(ast, context) { // in the event that the first step before this is a style step we need // to ensure the styles are applied before the children are animated const /** @type {?} */ startTime = context.currentTimeline.currentTime; const /** @type {?} */ options = /** @type {?} */ ((ast.options || {})); const /** @type {?} */ delay = options.delay ? resolveTimingValue(options.delay) : 0; if (delay && (context.previousNode.type === 6 /* Style */ || (startTime == 0 && context.currentTimeline.getCurrentStyleProperties().length))) { context.currentTimeline.snapshotCurrentStyles(); context.previousNode = DEFAULT_NOOP_PREVIOUS_NODE; } let /** @type {?} */ furthestTime = startTime; const /** @type {?} */ elms = context.invokeQuery(ast.selector, ast.originalSelector, ast.limit, ast.includeSelf, options.optional ? true : false, context.errors); context.currentQueryTotal = elms.length; let /** @type {?} */ sameElementTimeline = null; elms.forEach((element, i) => { context.currentQueryIndex = i; const /** @type {?} */ innerContext = context.createSubContext(ast.options, element); if (delay) { innerContext.delayNextStep(delay); } if (element === context.element) { sameElementTimeline = innerContext.currentTimeline; } visitDslNode(this, ast.animation, innerContext); // this is here just incase the inner steps only contain or end // with a style() call (which is here to signal that this is a preparatory // call to style an element before it is animated again) innerContext.currentTimeline.applyStylesToKeyframe(); const /** @type {?} */ endTime = innerContext.currentTimeline.currentTime; furthestTime = Math.max(furthestTime, endTime); }); context.currentQueryIndex = 0; context.currentQueryTotal = 0; context.transformIntoNewTimeline(furthestTime); if (sameElementTimeline) { context.currentTimeline.mergeTimelineCollectedStyles(sameElementTimeline); context.currentTimeline.snapshotCurrentStyles(); } context.previousNode = ast; } /** * @param {?} ast * @param {?} context * @return {?} */ visitStagger(ast, context) { const /** @type {?} */ parentContext = /** @type {?} */ ((context.parentContext)); const /** @type {?} */ tl = context.currentTimeline; const /** @type {?} */ timings = ast.timings; const /** @type {?} */ duration = Math.abs(timings.duration); const /** @type {?} */ maxTime = duration * (context.currentQueryTotal - 1); let /** @type {?} */ delay = duration * context.currentQueryIndex; let /** @type {?} */ staggerTransformer = timings.duration < 0 ? 'reverse' : timings.easing; switch (staggerTransformer) { case 'reverse': delay = maxTime - delay; break; case 'full': delay = parentContext.currentStaggerTime; break; } const /** @type {?} */ timeline = context.currentTimeline; if (delay) { timeline.delayNextStep(delay); } const /** @type {?} */ startingTime = timeline.currentTime; visitDslNode(this, ast.animation, context); context.previousNode = ast; // time = duration + delay // the reason why this computation is so complex is because // the inner timeline may either have a delay value or a stretched // keyframe depending on if a subtimeline is not used or is used. parentContext.currentStaggerTime = (tl.currentTime - startingTime) + (tl.startTime - parentContext.currentTimeline.startTime); } } const DEFAULT_NOOP_PREVIOUS_NODE = /** @type {?} */ ({}); class AnimationTimelineContext { /** * @param {?} _driver * @param {?} element * @param {?} subInstructions * @param {?} _enterClassName * @param {?} _leaveClassName * @param {?} errors * @param {?} timelines * @param {?=} initialTimeline */ constructor(_driver, element, subInstructions, _enterClassName, _leaveClassName, errors, timelines, initialTimeline) { this._driver = _driver; this.element = element; this.subInstructions = subInstructions; this._enterClassName = _enterClassName; this._leaveClassName = _leaveClassName; this.errors = errors; this.timelines = timelines; this.parentContext = null; this.currentAnimateTimings = null; this.previousNode = DEFAULT_NOOP_PREVIOUS_NODE; this.subContextCount = 0; this.options = {}; this.currentQueryIndex = 0; this.currentQueryTotal = 0; this.currentStaggerTime = 0; this.currentTimeline = initialTimeline || new TimelineBuilder(this._driver, element, 0); timelines.push(this.currentTimeline); } /** * @return {?} */ get params() { return this.options.params; } /** * @param {?} options * @param {?=} skipIfExists * @return {?} */ updateOptions(options, skipIfExists) { if (!options) return; const /** @type {?} */ newOptions = /** @type {?} */ (options); let /** @type {?} */ optionsToUpdate = this.options; // NOTE: this will get patched up when other animation methods support duration overrides if (newOptions.duration != null) { (/** @type {?} */ (optionsToUpdate)).duration = resolveTimingValue(newOptions.duration); } if (newOptions.delay != null) { optionsToUpdate.delay = resolveTimingValue(newOptions.delay); } const /** @type {?} */ newParams = newOptions.params; if (newParams) { let /** @type {?} */ paramsToUpdate = /** @type {?} */ ((optionsToUpdate.params)); if (!paramsToUpdate) { paramsToUpdate = this.options.params = {}; } Object.keys(newParams).forEach(name => { if (!skipIfExists || !paramsToUpdate.hasOwnProperty(name)) { paramsToUpdate[name] = interpolateParams(newParams[name], paramsToUpdate, this.errors); } }); } } /** * @return {?} */ _copyOptions() { const /** @type {?} */ options = {}; if (this.options) { const /** @type {?} */ oldParams = this.options.params; if (oldParams) { const /** @type {?} */ params = options['params'] = {}; Object.keys(oldParams).forEach(name => { params[name] = oldParams[name]; }); } } return options; } /** * @param {?=} options * @param {?=} element * @param {?=} newTime * @return {?} */ createSubContext(options = null, element, newTime) { const /** @type {?} */ target = element || this.element; const /** @type {?} */ context = new AnimationTimelineContext(this._driver, target, this.subInstructions, this._enterClassName, this._leaveClassName, this.errors, this.timelines, this.currentTimeline.fork(target, newTime || 0)); context.previousNode = this.previousNode; context.currentAnimateTimings = this.currentAnimateTimings; context.options = this._copyOptions(); context.updateOptions(options); context.currentQueryIndex = this.currentQueryIndex; context.currentQueryTotal = this.currentQueryTotal; context.parentContext = this; this.subContextCount++; return context; } /** * @param {?=} newTime * @return {?} */ transformIntoNewTimeline(newTime) { this.previousNode = DEFAULT_NOOP_PREVIOUS_NODE; this.currentTimeline = this.currentTimeline.fork(this.element, newTime); this.timelines.push(this.currentTimeline); return this.currentTimeline; } /** * @param {?} instruction * @param {?} duration * @param {?} delay * @return {?} */ appendInstructionToTimeline(instruction, duration, delay) { const /** @type {?} */ updatedTimings = { duration: duration != null ? duration : instruction.duration, delay: this.currentTimeline.currentTime + (delay != null ? delay : 0) + instruction.delay, easing: '' }; const /** @type {?} */ builder = new SubTimelineBuilder(this._driver, instruction.element, instruction.keyframes, instruction.preStyleProps, instruction.postStyleProps, updatedTimings, instruction.stretchStartingKeyframe); this.timelines.push(builder); return updatedTimings; } /** * @param {?} time * @return {?} */ incrementTime(time) { this.currentTimeline.forwardTime(this.currentTimeline.duration + time); } /** * @param {?} delay * @return {?} */ delayNextStep(delay) { // negative delays are not yet supported if (delay > 0) { this.currentTimeline.delayNextStep(delay); } } /** * @param {?} selector * @param {?} originalSelector * @param {?} limit * @param {?} includeSelf * @param {?} optional * @param {?} errors * @return {?} */ invokeQuery(selector, originalSelector, limit, includeSelf, optional, errors) { let /** @type {?} */ results = []; if (includeSelf) { results.push(this.element); } if (selector.length > 0) { // if :self is only used then the selector is empty selector = selector.replace(ENTER_TOKEN_REGEX, '.' + this._enterClassName); selector = selector.replace(LEAVE_TOKEN_REGEX, '.' + this._leaveClassName); const /** @type {?} */ multi = limit != 1; let /** @type {?} */ elements = this._driver.query(this.element, selector, multi); if (limit !== 0) { elements = limit < 0 ? elements.slice(elements.length + limit, elements.length) : elements.slice(0, limit); } results.push(...elements); } if (!optional && results.length == 0) { errors.push(`\`query("${originalSelector}")\` returned zero elements. (Use \`query("${originalSelector}", { optional: true })\` if you wish to allow this.)`); } return results; } } class TimelineBuilder { /** * @param {?} _driver * @param {?} element * @param {?} startTime * @param {?=} _elementTimelineStylesLookup */ constructor(_driver, element, startTime, _elementTimelineStylesLookup) { this._driver = _driver; this.element = element; this.startTime = startTime; this._elementTimelineStylesLookup = _elementTimelineStylesLookup; this.duration = 0; this._previousKeyframe = {}; this._currentKeyframe = {}; this._keyframes = new Map(); this._styleSummary = {}; this._pendingStyles = {}; this._backFill = {}; this._currentEmptyStepKeyframe = null; if (!this._elementTimelineStylesLookup) { this._elementTimelineStylesLookup = new Map(); } this._localTimelineStyles = Object.create(this._backFill, {}); this._globalTimelineStyles = /** @type {?} */ ((this._elementTimelineStylesLookup.get(element))); if (!this._globalTimelineStyles) { this._globalTimelineStyles = this._localTimelineStyles; this._elementTimelineStylesLookup.set(element, this._localTimelineStyles); } this._loadKeyframe(); } /** * @return {?} */ containsAnimation() { switch (this._keyframes.size) { case 0: return false; case 1: return this.getCurrentStyleProperties().length > 0; default: return true; } } /** * @return {?} */ getCurrentStyleProperties() { return Object.keys(this._currentKeyframe); } /** * @return {?} */ get currentTime() { return this.startTime + this.duration; } /** * @param {?} delay * @return {?} */ delayNextStep(delay) { // in the event that a style() step is placed right before a stagger() // and that style() step is the very first style() value in the animation // then we need to make a copy of the keyframe [0, copy, 1] so that the delay // properly applies the style() values to work with the stagger... const /** @type {?} */ hasPreStyleStep = this._keyframes.size == 1 && Object.keys(this._pendingStyles).length; if (this.duration || hasPreStyleStep) { this.forwardTime(this.currentTime + delay); if (hasPreStyleStep) { this.snapshotCurrentStyles(); } } else { this.startTime += delay; } } /** * @param {?} element * @param {?=} currentTime * @return {?} */ fork(element, currentTime) { this.applyStylesToKeyframe(); return new TimelineBuilder(this._driver, element, currentTime || this.currentTime, this._elementTimelineStylesLookup); } /** * @return {?} */ _loadKeyframe() { if (this._currentKeyframe) { this._previousKeyframe = this._currentKeyframe; } this._currentKeyframe = /** @type {?} */ ((this._keyframes.get(this.duration))); if (!this._currentKeyframe) { this._currentKeyframe = Object.create(this._backFill, {}); this._keyframes.set(this.duration, this._currentKeyframe); } } /** * @return {?} */ forwardFrame() { this.duration += ONE_FRAME_IN_MILLISECONDS; this._loadKeyframe(); } /** * @param {?} time * @return {?} */ forwardTime(time) { this.applyStylesToKeyframe(); this.duration = time; this._loadKeyframe(); } /** * @param {?} prop * @param {?} value * @return {?} */ _updateStyle(prop, value) { this._localTimelineStyles[prop] = value; this._globalTimelineStyles[prop] = value; this._styleSummary[prop] = { time: this.currentTime, value }; } /** * @return {?} */ allowOnlyTimelineStyles() { return this._currentEmptyStepKeyframe !== this._currentKeyframe; } /** * @param {?} easing * @return {?} */ applyEmptyStep(easing) { if (easing) { this._previousKeyframe['easing'] = easing; } // special case for animate(duration): // all missing styles are filled with a `*` value then // if any destination styles are filled in later on the same // keyframe then they will override the overridden styles // We use `_globalTimelineStyles` here because there may be // styles in previous keyframes that are not present in this timeline Object.keys(this._globalTimelineStyles).forEach(prop => { this._backFill[prop] = this._globalTimelineStyles[prop] || AUTO_STYLE; this._currentKeyframe[prop] = AUTO_STYLE; }); this._currentEmptyStepKeyframe = this._currentKeyframe; } /** * @param {?} input * @param {?} easing * @param {?} errors * @param {?=} options * @return {?} */ setStyles(input, easing, errors, options) { if (easing) { this._previousKeyframe['easing'] = easing; } const /** @type {?} */ params = (options && options.params) || {}; const /** @type {?} */ styles = flattenStyles(input, this._globalTimelineStyles); Object.keys(styles).forEach(prop => { const /** @type {?} */ val = interpolateParams(styles[prop], params, errors); this._pendingStyles[prop] = val; if (!this._localTimelineStyles.hasOwnProperty(prop)) { this._backFill[prop] = this._globalTimelineStyles.hasOwnProperty(prop) ? this._globalTimelineStyles[prop] : AUTO_STYLE; } this._updateStyle(prop, val); }); } /** * @return {?} */ applyStylesToKeyframe() { const /** @type {?} */ styles = this._pendingStyles; const /** @type {?} */ props = Object.keys(styles); if (props.length == 0) return; this._pendingStyles = {}; props.forEach(prop => { const /** @type {?} */ val = styles[prop]; this._currentKeyframe[prop] = val; }); Object.keys(this._localTimelineStyles).forEach(prop => { if (!this._currentKeyframe.hasOwnProperty(prop)) { this._currentKeyframe[prop] = this._localTimelineStyles[prop]; } }); } /** * @return {?} */ snapshotCurrentStyles() { Object.keys(this._localTimelineStyles).forEach(prop => { const /** @type {?} */ val = this._localTimelineStyles[prop]; this._pendingStyles[prop] = val; this._updateStyle(prop, val); }); } /** * @return {?} */ getFinalKeyframe() { return this._keyframes.get(this.duration); } /** * @return {?} */ get properties() { const /** @type {?} */ properties = []; for (let /** @type {?} */ prop in this._currentKeyframe) { properties.push(prop); } return properties; } /** * @param {?} timeline * @return {?} */ mergeTimelineCollectedStyles(timeline) { Object.keys(timeline._styleSummary).forEach(prop => { const /** @type {?} */ details0 = this._styleSummary[prop]; const /** @type {?} */ details1 = timeline._styleSummary[prop]; if (!details0 || details1.time > details0.time) { this._updateStyle(prop, details1.value); } }); } /** * @return {?} */ buildKeyframes() { this.applyStylesToKeyframe(); const /** @type {?} */ preStyleProps = new Set(); const /** @type {?} */ postStyleProps = new Set(); const /** @type {?} */ isEmpty = this._keyframes.size === 1 && this.duration === 0; let /** @type {?} */ finalKeyframes = []; this._keyframes.forEach((keyframe, time) => { const /** @type {?} */ finalKeyframe = copyStyles(keyframe, true); Object.keys(finalKeyframe).forEach(prop => { const /** @type {?} */ value = finalKeyframe[prop]; if (value == ɵPRE_STYLE) { preStyleProps.add(prop); } else if (value == AUTO_STYLE) { postStyleProps.add(prop); } }); if (!isEmpty) { finalKeyframe['offset'] = time / this.duration; } finalKeyframes.push(finalKeyframe); }); const /** @type {?} */ preProps = preStyleProps.size ? iteratorToArray(preStyleProps.values()) : []; const /** @type {?} */ postProps = postStyleProps.size ? iteratorToArray(postStyleProps.values()) : []; // special case for a 0-second animation (which is designed just to place styles onscreen) if (isEmpty) { const /** @type {?} */ kf0 = finalKeyframes[0]; const /** @type {?} */ kf1 = copyObj(kf0); kf0['offset'] = 0; kf1['offset'] = 1; finalKeyframes = [kf0, kf1]; } return createTimelineInstruction(this.element, finalKeyframes, preProps, postProps, this.duration, this.startTime, this.easing, false); } } class SubTimelineBuilder extends TimelineBuilder { /** * @param {?} driver * @param {?} element * @param {?} keyframes * @param {?} preStyleProps * @param {?} postStyleProps * @param {?} timings * @param {?=} _stretchStartingKeyframe */ constructor(driver, element, keyframes, preStyleProps, postStyleProps, timings, _stretchStartingKeyframe = false) { super(driver, element, timings.delay); this.element = element; this.keyframes = keyframes; this.preStyleProps = preStyleProps; this.postStyleProps = postStyleProps; this._stretchStartingKeyframe = _stretchStartingKeyframe; this.timings = { duration: timings.duration, delay: timings.delay, easing: timings.easing }; } /** * @return {?} */ containsAnimation() { return this.keyframes.length > 1; } /** * @return {?} */ buildKeyframes() { let /** @type {?} */ keyframes = this.keyframes; let { delay, duration, easing } = this.timings; if (this._stretchStartingKeyframe && delay) { const /** @type {?} */ newKeyframes = []; const /** @type {?} */ totalTime = duration + delay; const /** @type {?} */ startingGap = delay / totalTime; // the original starting keyframe now starts once the delay is done const /** @type {?} */ newFirstKeyframe = copyStyles(keyframes[0], false); newFirstKeyframe['offset'] = 0; newKeyframes.push(newFirstKeyframe); const /** @type {?} */ oldFirstKeyframe = copyStyles(keyframes[0], false); oldFirstKeyframe['offset'] = roundOffset(startingGap); newKeyframes.push(oldFirstKeyframe); /* When the keyframe is stretched then it means that the delay before the animation starts is gone. Instead the first keyframe is placed at the start of the animation and it is then copied to where it starts when the original delay is over. This basically means nothing animates during that delay, but the styles are still renderered. For this to work the original offset values that exist in the original keyframes must be "warped" so that they can take the new keyframe + delay into account. delay=1000, duration=1000, keyframes = 0 .5 1 turns into delay=0, duration=2000, keyframes = 0 .33 .66 1 */ // offsets between 1 ... n -1 are all warped by the keyframe stretch const /** @type {?} */ limit = keyframes.length - 1; for (let /** @type {?} */ i = 1; i <= limit; i++) { let /** @type {?} */ kf = copyStyles(keyframes[i], false); const /** @type {?} */ oldOffset = /** @type {?} */ (kf['offset']); const /** @type {?} */ timeAtKeyframe = delay + oldOffset * duration; kf['offset'] = roundOffset(timeAtKeyframe / totalTime); newKeyframes.push(kf); } // the new starting keyframe should be added at the start duration = totalTime; delay = 0; easing = ''; keyframes = newKeyframes; } return createTimelineInstruction(this.element, keyframes, this.preStyleProps, this.postStyleProps, duration, delay, easing, true); } } /** * @param {?} offset * @param {?=} decimalPoints * @return {?} */ function roundOffset(offset, decimalPoints = 3) { const /** @type {?} */ mult = Math.pow(10, decimalPoints - 1); return Math.round(offset * mult) / mult; } /** * @param {?} input * @param {?} allStyles * @return {?} */ function flattenStyles(input, allStyles) { const /** @type {?} */ styles = {}; let /** @type {?} */ allProperties; input.forEach(token => { if (token === '*') { allProperties = allProperties || Object.keys(allStyles); allProperties.forEach(prop => { styles[prop] = AUTO_STYLE; }); } else { copyStyles(/** @type {?} */ (token), false, styles); } }); return styles; } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ class Animation { /** * @param {?} _driver * @param {?} input */ constructor(_driver, input) { this._driver = _driver; const /** @type {?} */ errors = []; const /** @type {?} */ ast = buildAnimationAst(_driver, input, errors); if (errors.length) { const /** @type {?} */ errorMessage = `animation validation failed:\n${errors.join("\n")}`; throw new Error(errorMessage); } this._animationAst = ast; } /** * @param {?} element * @param {?} startingStyles * @param {?} destinationStyles * @param {?} options * @param {?=} subInstructions * @return {?} */ buildTimelines(element, startingStyles, destinationStyles, options, subInstructions) { const /** @type {?} */ start = Array.isArray(startingStyles) ? normalizeStyles(startingStyles) : /** @type {?} */ (startingStyles); const /** @type {?} */ dest = Array.isArray(destinationStyles) ? normalizeStyles(destinationStyles) : /** @type {?} */ (destinationStyles); const /** @type {?} */ errors = []; subInstructions = subInstructions || new ElementInstructionMap(); const /** @type {?} */ result = buildAnimationTimelines(this._driver, element, this._animationAst, ENTER_CLASSNAME, LEAVE_CLASSNAME, start, dest, options, subInstructions, errors); if (errors.length) { const /** @type {?} */ errorMessage = `animation building failed:\n${errors.join("\n")}`; throw new Error(errorMessage); } return result; } } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * \@experimental Animation support is experimental. * @abstract */ class AnimationStyleNormalizer { } /** * \@experimental Animation support is experimental. */ class NoopAnimationStyleNormalizer { /** * @param {?} propertyName * @param {?} errors * @return {?} */ normalizePropertyName(propertyName, errors) { return propertyName; } /** * @param {?} userProvidedProperty * @param {?} normalizedProperty * @param {?} value * @param {?} errors * @return {?} */ normalizeStyleValue(userProvidedProperty, normalizedProperty, value, errors) { return /** @type {?} */ (value); } } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ class WebAnimationsStyleNormalizer extends AnimationStyleNormalizer { /** * @param {?} propertyName * @param {?} errors * @return {?} */ normalizePropertyName(propertyName, errors) { return dashCaseToCamelCase(propertyName); } /** * @param {?} userProvidedProperty * @param {?} normalizedProperty * @param {?} value * @param {?} errors * @return {?} */ normalizeStyleValue(userProvidedProperty, normalizedProperty, value, errors) { let /** @type {?} */ unit = ''; const /** @type {?} */ strVal = value.toString().trim(); if (DIMENSIONAL_PROP_MAP[normalizedProperty] && value !== 0 && value !== '0') { if (typeof value === 'number') { unit = 'px'; } else { const /** @type {?} */ valAndSuffixMatch = value.match(/^[+-]?[\d\.]+([a-z]*)$/); if (valAndSuffixMatch && valAndSuffixMatch[1].length == 0) { errors.push(`Please provide a CSS unit value for ${userProvidedProperty}:${value}`); } } } return strVal + unit; } } const DIMENSIONAL_PROP_MAP = makeBooleanMap('width,height,minWidth,minHeight,maxWidth,maxHeight,left,top,bottom,right,fontSize,outlineWidth,outlineOffset,paddingTop,paddingLeft,paddingBottom,paddingRight,marginTop,marginLeft,marginBottom,marginRight,borderRadius,borderWidth,borderTopWidth,borderLeftWidth,borderRightWidth,borderBottomWidth,textIndent,perspective' .split(',')); /** * @param {?} keys * @return {?} */ function makeBooleanMap(keys) { const /** @type {?} */ map = {}; keys.forEach(key => map[key] = true); return map; } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @record */ /** * @param {?} element * @param {?} triggerName * @param {?} fromState * @param {?} toState * @param {?} isRemovalTransition * @param {?} fromStyles * @param {?} toStyles * @param {?} timelines * @param {?} queriedElements * @param {?} preStyleProps * @param {?} postStyleProps * @param {?=} errors * @return {?} */ function createTransitionInstruction(element, triggerName, fromState, toState, isRemovalTransition, fromStyles, toStyles, timelines, queriedElements, preStyleProps, postStyleProps, errors) { return { type: 0 /* TransitionAnimation */, element, triggerName, isRemovalTransition, fromState, fromStyles, toState, toStyles, timelines, queriedElements, preStyleProps, postStyleProps, errors }; } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ const EMPTY_OBJECT = {}; class AnimationTransitionFactory { /** * @param {?} _triggerName * @param {?} ast * @param {?} _stateStyles */ constructor(_triggerName, ast, _stateStyles) { this._triggerName = _triggerName; this.ast = ast; this._stateStyles = _stateStyles; } /** * @param {?} currentState * @param {?} nextState * @return {?} */ match(currentState, nextState) { return oneOrMoreTransitionsMatch(this.ast.matchers, currentState, nextState); } /** * @param {?} stateName * @param {?} params * @param {?} errors * @return {?} */ buildStyles(stateName, params, errors) { const /** @type {?} */ backupStateStyler = this._stateStyles['*']; const /** @type {?} */ stateStyler = this._stateStyles[stateName]; const /** @type {?} */ backupStyles = backupStateStyler ? backupStateStyler.buildStyles(params, errors) : {}; return stateStyler ? stateStyler.buildStyles(params, errors) : backupStyles; } /** * @param {?} driver * @param {?} element * @param {?} currentState * @param {?} nextState * @param {?} enterClassName * @param {?} leaveClassName * @param {?=} currentOptions * @param {?=} nextOptions * @param {?=} subInstructions * @return {?} */ build(driver, element, currentState, nextState, enterClassName, leaveClassName, currentOptions, nextOptions, subInstructions) { const /** @type {?} */ errors = []; const /** @type {?} */ transitionAnimationParams = this.ast.options && this.ast.options.params || EMPTY_OBJECT; const /** @type {?} */ currentAnimationParams = currentOptions && currentOptions.params || EMPTY_OBJECT; const /** @type {?} */ currentStateStyles = this.buildStyles(currentState, currentAnimationParams, errors); const /** @type {?} */ nextAnimationParams = nextOptions && nextOptions.params || EMPTY_OBJECT; const /** @type {?} */ nextStateStyles = this.buildStyles(nextState, nextAnimationParams, errors); const /** @type {?} */ queriedElements = new Set(); const /** @type {?} */ preStyleMap = new Map(); const /** @type {?} */ postStyleMap = new Map(); const /** @type {?} */ isRemoval = nextState === 'void'; const /** @type {?} */ animationOptions = { params: Object.assign({}, transitionAnimationParams, nextAnimationParams) }; const /** @type {?} */ timelines = buildAnimationTimelines(driver, element, this.ast.animation, enterClassName, leaveClassName, currentStateStyles, nextStateStyles, animationOptions, subInstructions, errors); if (errors.length) { return createTransitionInstruction(element, this._triggerName, currentState, nextState, isRemoval, currentStateStyles, nextStateStyles, [], [], preStyleMap, postStyleMap, errors); } timelines.forEach(tl => { const /** @type {?} */ elm = tl.element; const /** @type {?} */ preProps = getOrSetAsInMap(preStyleMap, elm, {}); tl.preStyleProps.forEach(prop => preProps[prop] = true); const /** @type {?} */ postProps = getOrSetAsInMap(postStyleMap, elm, {}); tl.postStyleProps.forEach(prop => postProps[prop] = true); if (elm !== element) { queriedElements.add(elm); } }); const /** @type {?} */ queriedElementsList = iteratorToArray(queriedElements.values()); return createTransitionInstruction(element, this._triggerName, currentState, nextState, isRemoval, currentStateStyles, nextStateStyles, timelines, queriedElementsList, preStyleMap, postStyleMap); } } /** * @param {?} matchFns * @param {?} currentState * @param {?} nextState * @return {?} */ function oneOrMoreTransitionsMatch(matchFns, currentState, nextState) { return matchFns.some(fn => fn(currentState, nextState)); } class AnimationStateStyles { /** * @param {?} styles * @param {?} defaultParams */ constructor(styles, defaultParams) { this.styles = styles; this.defaultParams = defaultParams; } /** * @param {?} params * @param {?} errors * @return {?} */ buildStyles(params, errors) { const /** @type {?} */ finalStyles = {}; const /** @type {?} */ combinedParams = copyObj(this.defaultParams); Object.keys(params).forEach(key => { const /** @type {?} */ value = params[key]; if (value != null) { combinedParams[key] = value; } }); this.styles.styles.forEach(value => { if (typeof value !== 'string') { const /** @type {?} */ styleObj = /** @type {?} */ (value); Object.keys(styleObj).forEach(prop => { let /** @type {?} */ val = styleObj[prop]; if (val.length > 1) { val = interpolateParams(val, combinedParams, errors); } finalStyles[prop] = val; }); } }); return finalStyles; } } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * \@experimental Animation support is experimental. * @param {?} name * @param {?} ast * @return {?} */ function buildTrigger(name, ast) { return new AnimationTrigger(name, ast); } /** * \@experimental Animation support is experimental. */ class AnimationTrigger { /** * @param {?} name * @param {?} ast */ constructor(name, ast) { this.name = name; this.ast = ast; this.transitionFactories = []; this.states = {}; ast.states.forEach(ast => { const /** @type {?} */ defaultParams = (ast.options && ast.options.params) || {}; this.states[ast.name] = new AnimationStateStyles(ast.style, defaultParams); }); balanceProperties(this.states, 'true', '1'); balanceProperties(this.states, 'false', '0'); ast.transitions.forEach(ast => { this.transitionFactories.push(new AnimationTransitionFactory(name, ast, this.states)); }); this.fallbackTransition = createFallbackTransition(name, this.states); } /** * @return {?} */ get containsQueries() { return this.ast.queryCount > 0; } /** * @param {?} currentState * @param {?} nextState * @return {?} */ matchTransition(currentState, nextState) { const /** @type {?} */ entry = this.transitionFactories.find(f => f.match(currentState, nextState)); return entry || null; } /** * @param {?} currentState * @param {?} params * @param {?} errors * @return {?} */ matchStyles(currentState, params, errors) { return this.fallbackTransition.buildStyles(currentState, params, errors); } } /** * @param {?} triggerName * @param {?} states * @return {?} */ function createFallbackTransition(triggerName, states) { const /** @type {?} */ matchers = [(fromState, toState) => true]; const /** @type {?} */ animation = { type: 2 /* Sequence */, steps: [], options: null }; const /** @type {?} */ transition = { type: 1 /* Transition */, animation, matchers, options: null, queryCount: 0, depCount: 0 }; return new AnimationTransitionFactory(triggerName, transition, states); } /** * @param {?} obj * @param {?} key1 * @param {?} key2 * @return {?} */ function balanceProperties(obj, key1, key2) { if (obj.hasOwnProperty(key1)) { if (!obj.hasOwnProperty(key2)) { obj[key2] = obj[key1]; } } else if (obj.hasOwnProperty(key2)) { obj[key1] = obj[key2]; } } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ const EMPTY_INSTRUCTION_MAP = new ElementInstructionMap(); class TimelineAnimationEngine { /** * @param {?} _driver * @param {?} _normalizer */ constructor(_driver, _normalizer) { this._driver = _driver; this._normalizer = _normalizer; this._animations = {}; this._playersById = {}; this.players = []; } /** * @param {?} id * @param {?} metadata * @return {?} */ register(id, metadata) { const /** @type {?} */ errors = []; const /** @type {?} */ ast = buildAnimationAst(this._driver, metadata, errors); if (errors.length) { throw new Error(`Unable to build the animation due to the following errors: ${errors.join("\n")}`); } else { this._animations[id] = ast; } } /** * @param {?} i * @param {?} preStyles * @param {?=} postStyles * @return {?} */ _buildPlayer(i, preStyles, postStyles) { const /** @type {?} */ element = i.element; const /** @type {?} */ keyframes = normalizeKeyframes(this._driver, this._normalizer, element, i.keyframes, preStyles, postStyles); return this._driver.animate(element, keyframes, i.duration, i.delay, i.easing, []); } /** * @param {?} id * @param {?} element * @param {?=} options * @return {?} */ create(id, element, options = {}) { const /** @type {?} */ errors = []; const /** @type {?} */ ast = this._animations[id]; let /** @type {?} */ instructions; const /** @type {?} */ autoStylesMap = new Map(); if (ast) { instructions = buildAnimationTimelines(this._driver, element, ast, ENTER_CLASSNAME, LEAVE_CLASSNAME, {}, {}, options, EMPTY_INSTRUCTION_MAP, errors); instructions.forEach(inst => { const /** @type {?} */ styles = getOrSetAsInMap(autoStylesMap, inst.element, {}); inst.postStyleProps.forEach(prop => styles[prop] = null); }); } else { errors.push('The requested animation doesn\'t exist or has already been destroyed'); instructions = []; } if (errors.length) { throw new Error(`Unable to create the animation due to the following errors: ${errors.join("\n")}`); } autoStylesMap.forEach((styles, element) => { Object.keys(styles).forEach(prop => { styles[prop] = this._driver.computeStyle(element, prop, AUTO_STYLE); }); }); const /** @type {?} */ players = instructions.map(i => { const /** @type {?} */ styles = autoStylesMap.get(i.element); return this._buildPlayer(i, {}, styles); }); const /** @type {?} */ player = optimizeGroupPlayer(players); this._playersById[id] = player; player.onDestroy(() => this.destroy(id)); this.players.push(player); return player; } /** * @param {?} id * @return {?} */ destroy(id) { const /** @type {?} */ player = this._getPlayer(id); player.destroy(); delete this._playersById[id]; const /** @type {?} */ index = this.players.indexOf(player); if (index >= 0) { this.players.splice(index, 1); } } /** * @param {?} id * @return {?} */ _getPlayer(id) { const /** @type {?} */ player = this._playersById[id]; if (!player) { throw new Error(`Unable to find the timeline player referenced by ${id}`); } return player; } /** * @param {?} id * @param {?} element * @param {?} eventName * @param {?} callback * @return {?} */ listen(id, element, eventName, callback) { // triggerName, fromState, toState are all ignored for timeline animations const /** @type {?} */ baseEvent = makeAnimationEvent(element, '', '', ''); listenOnPlayer(this._getPlayer(id), eventName, baseEvent, callback); return () => { }; } /** * @param {?} id * @param {?} element * @param {?} command * @param {?} args * @return {?} */ command(id, element, command, args) { if (command == 'register') { this.register(id, /** @type {?} */ (args[0])); return; } if (command == 'create') { const /** @type {?} */ options = /** @type {?} */ ((args[0] || {})); this.create(id, element, options); return; } const /** @type {?} */ player = this._getPlayer(id); switch (command) { case 'play': player.play(); break; case 'pause': player.pause(); break; case 'reset': player.reset(); break; case 'restart': player.restart(); break; case 'finish': player.finish(); break; case 'init': player.init(); break; case 'setPosition': player.setPosition(parseFloat(/** @type {?} */ (args[0]))); break; case 'destroy': this.destroy(id); break; } } } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ const QUEUED_CLASSNAME = 'ng-animate-queued'; const QUEUED_SELECTOR = '.ng-animate-queued'; const DISABLED_CLASSNAME = 'ng-animate-disabled'; const DISABLED_SELECTOR = '.ng-animate-disabled'; const STAR_CLASSNAME = 'ng-star-inserted'; const STAR_SELECTOR = '.ng-star-inserted'; const EMPTY_PLAYER_ARRAY = []; const NULL_REMOVAL_STATE = { namespaceId: '', setForRemoval: null, hasAnimation: false, removedBeforeQueried: false }; const NULL_REMOVED_QUERIED_STATE = { namespaceId: '', setForRemoval: null, hasAnimation: false, removedBeforeQueried: true }; /** * @record */ const REMOVAL_FLAG = '__ng_removed'; /** * @record */ class StateValue { /** * @param {?} input * @param {?=} namespaceId */ constructor(input, namespaceId = '') { this.namespaceId = namespaceId; const /** @type {?} */ isObj = input && input.hasOwnProperty('value'); const /** @type {?} */ value = isObj ? input['value'] : input; this.value = normalizeTriggerValue(value); if (isObj) { const /** @type {?} */ options = copyObj(/** @type {?} */ (input)); delete options['value']; this.options = /** @type {?} */ (options); } else { this.options = {}; } if (!this.options.params) { this.options.params = {}; } } /** * @return {?} */ get params() { return /** @type {?} */ (this.options.params); } /** * @param {?} options * @return {?} */ absorbOptions(options) { const /** @type {?} */ newParams = options.params; if (newParams) { const /** @type {?} */ oldParams = /** @type {?} */ ((this.options.params)); Object.keys(newParams).forEach(prop => { if (oldParams[prop] == null) { oldParams[prop] = newParams[prop]; } }); } } } const VOID_VALUE = 'void'; const DEFAULT_STATE_VALUE = new StateValue(VOID_VALUE); const DELETED_STATE_VALUE = new StateValue('DELETED'); class AnimationTransitionNamespace { /** * @param {?} id * @param {?} hostElement * @param {?} _engine */ constructor(id, hostElement, _engine) { this.id = id; this.hostElement = hostElement; this._engine = _engine; this.players = []; this._triggers = {}; this._queue = []; this._elementListeners = new Map(); this._hostClassName = 'ng-tns-' + id; addClass(hostElement, this._hostClassName); } /** * @param {?} element * @param {?} name * @param {?} phase * @param {?} callback * @return {?} */ listen(element, name, phase, callback) { if (!this._triggers.hasOwnProperty(name)) { throw new Error(`Unable to listen on the animation trigger event "${phase}" because the animation trigger "${name}" doesn\'t exist!`); } if (phase == null || phase.length == 0) { throw new Error(`Unable to listen on the animation trigger "${name}" because the provided event is undefined!`); } if (!isTriggerEventValid(phase)) { throw new Error(`The provided animation trigger event "${phase}" for the animation trigger "${name}" is not supported!`); } const /** @type {?} */ listeners = getOrSetAsInMap(this._elementListeners, element, []); const /** @type {?} */ data = { name, phase, callback }; listeners.push(data); const /** @type {?} */ triggersWithStates = getOrSetAsInMap(this._engine.statesByElement, element, {}); if (!triggersWithStates.hasOwnProperty(name)) { addClass(element, NG_TRIGGER_CLASSNAME); addClass(element, NG_TRIGGER_CLASSNAME + '-' + name); triggersWithStates[name] = DEFAULT_STATE_VALUE; } return () => { // the event listener is removed AFTER the flush has occurred such // that leave animations callbacks can fire (otherwise if the node // is removed in between then the listeners would be deregistered) this._engine.afterFlush(() => { const /** @type {?} */ index = listeners.indexOf(data); if (index >= 0) { listeners.splice(index, 1); } if (!this._triggers[name]) { delete triggersWithStates[name]; } }); }; } /** * @param {?} name * @param {?} ast * @return {?} */ register(name, ast) { if (this._triggers[name]) { // throw return false; } else { this._triggers[name] = ast; return true; } } /** * @param {?} name * @return {?} */ _getTrigger(name) { const /** @type {?} */ trigger = this._triggers[name]; if (!trigger) { throw new Error(`The provided animation trigger "${name}" has not been registered!`); } return trigger; } /** * @param {?} element * @param {?} triggerName * @param {?} value * @param {?=} defaultToFallback * @return {?} */ trigger(element, triggerName, value, defaultToFallback = true) { const /** @type {?} */ trigger = this._getTrigger(triggerName); const /** @type {?} */ player = new TransitionAnimationPlayer(this.id, triggerName, element); let /** @type {?} */ triggersWithStates = this._engine.statesByElement.get(element); if (!triggersWithStates) { addClass(element, NG_TRIGGER_CLASSNAME); addClass(element, NG_TRIGGER_CLASSNAME + '-' + triggerName); this._engine.statesByElement.set(element, triggersWithStates = {}); } let /** @type {?} */ fromState = triggersWithStates[triggerName]; const /** @type {?} */ toState = new StateValue(value, this.id); const /** @type {?} */ isObj = value && value.hasOwnProperty('value'); if (!isObj && fromState) { toState.absorbOptions(fromState.options); } triggersWithStates[triggerName] = toState; if (!fromState) { fromState = DEFAULT_STATE_VALUE; } else if (fromState === DELETED_STATE_VALUE) { return player; } const /** @type {?} */ isRemoval = toState.value === VOID_VALUE; // normally this isn't reached by here, however, if an object expression // is passed in then it may be a new object each time. Comparing the value // is important since that will stay the same despite there being a new object. // The removal arc here is special cased because the same element is triggered // twice in the event that it contains animations on the outer/inner portions // of the host container if (!isRemoval && fromState.value === toState.value) { // this means that despite the value not changing, some inner params // have changed which means that the animation final styles need to be applied if (!objEquals(fromState.params, toState.params)) { const /** @type {?} */ errors = []; const /** @type {?} */ fromStyles = trigger.matchStyles(fromState.value, fromState.params, errors); const /** @type {?} */ toStyles = trigger.matchStyles(toState.value, toState.params, errors); if (errors.length) { this._engine.reportError(errors); } else { this._engine.afterFlush(() => { eraseStyles(element, fromStyles); setStyles(element, toStyles); }); } } return; } const /** @type {?} */ playersOnElement = getOrSetAsInMap(this._engine.playersByElement, element, []); playersOnElement.forEach(player => { // only remove the player if it is queued on the EXACT same trigger/namespace // we only also deal with queued players here because if the animation has // started then we want to keep the player alive until the flush happens // (which is where the previousPlayers are passed into the new palyer) if (player.namespaceId == this.id && player.triggerName == triggerName && player.queued) { player.destroy(); } }); let /** @type {?} */ transition = trigger.matchTransition(fromState.value, toState.value); let /** @type {?} */ isFallbackTransition = false; if (!transition) { if (!defaultToFallback) return; transition = trigger.fallbackTransition; isFallbackTransition = true; } this._engine.totalQueuedPlayers++; this._queue.push({ element, triggerName, transition, fromState, toState, player, isFallbackTransition }); if (!isFallbackTransition) { addClass(element, QUEUED_CLASSNAME); player.onStart(() => { removeClass(element, QUEUED_CLASSNAME); }); } player.onDone(() => { let /** @type {?} */ index = this.players.indexOf(player); if (index >= 0) { this.players.splice(index, 1); } const /** @type {?} */ players = this._engine.playersByElement.get(element); if (players) { let /** @type {?} */ index = players.indexOf(player); if (index >= 0) { players.splice(index, 1); } } }); this.players.push(player); playersOnElement.push(player); return player; } /** * @param {?} name * @return {?} */ deregister(name) { delete this._triggers[name]; this._engine.statesByElement.forEach((stateMap, element) => { delete stateMap[name]; }); this._elementListeners.forEach((listeners, element) => { this._elementListeners.set(element, listeners.filter(entry => { return entry.name != name; })); }); } /** * @param {?} element * @return {?} */ clearElementCache(element) { this._engine.statesByElement.delete(element); this._elementListeners.delete(element); const /** @type {?} */ elementPlayers = this._engine.playersByElement.get(element); if (elementPlayers) { elementPlayers.forEach(player => player.destroy()); this._engine.playersByElement.delete(element); } } /** * @param {?} rootElement * @param {?} context * @param {?=} animate * @return {?} */ _signalRemovalForInnerTriggers(rootElement, context, animate = false) { // emulate a leave animation for all inner nodes within this node. // If there are no animations found for any of the nodes then clear the cache // for the element. this._engine.driver.query(rootElement, NG_TRIGGER_SELECTOR, true).forEach(elm => { // this means that an inner remove() operation has already kicked off // the animation on this element... if (elm[REMOVAL_FLAG]) return; const /** @type {?} */ namespaces = this._engine.fetchNamespacesByElement(elm); if (namespaces.size) { namespaces.forEach(ns => ns.triggerLeaveAnimation(elm, context, false, true)); } else { this.clearElementCache(elm); } }); } /** * @param {?} element * @param {?} context * @param {?=} destroyAfterComplete * @param {?=} defaultToFallback * @return {?} */ triggerLeaveAnimation(element, context, destroyAfterComplete, defaultToFallback) { const /** @type {?} */ triggerStates = this._engine.statesByElement.get(element); if (triggerStates) { const /** @type {?} */ players = []; Object.keys(triggerStates).forEach(triggerName => { // this check is here in the event that an element is removed // twice (both on the host level and the component level) if (this._triggers[triggerName]) { const /** @type {?} */ player = this.trigger(element, triggerName, VOID_VALUE, defaultToFallback); if (player) { players.push(player); } } }); if (players.length) { this._engine.markElementAsRemoved(this.id, element, true, context); if (destroyAfterComplete) { optimizeGroupPlayer(players).onDone(() => this._engine.processLeaveNode(element)); } return true; } } return false; } /** * @param {?} element * @return {?} */ prepareLeaveAnimationListeners(element) { const /** @type {?} */ listeners = this._elementListeners.get(element); if (listeners) { const /** @type {?} */ visitedTriggers = new Set(); listeners.forEach(listener => { const /** @type {?} */ triggerName = listener.name; if (visitedTriggers.has(triggerName)) return; visitedTriggers.add(triggerName); const /** @type {?} */ trigger = this._triggers[triggerName]; const /** @type {?} */ transition = trigger.fallbackTransition; const /** @type {?} */ elementStates = /** @type {?} */ ((this._engine.statesByElement.get(element))); const /** @type {?} */ fromState = elementStates[triggerName] || DEFAULT_STATE_VALUE; const /** @type {?} */ toState = new StateValue(VOID_VALUE); const /** @type {?} */ player = new TransitionAnimationPlayer(this.id, triggerName, element); this._engine.totalQueuedPlayers++; this._queue.push({ element, triggerName, transition, fromState, toState, player, isFallbackTransition: true }); }); } } /** * @param {?} element * @param {?} context * @return {?} */ removeNode(element, context) { const /** @type {?} */ engine = this._engine; if (element.childElementCount) { this._signalRemovalForInnerTriggers(element, context, true); } // this means that a * => VOID animation was detected and kicked off if (this.triggerLeaveAnimation(element, context, true)) return; // find the player that is animating and make sure that the // removal is delayed until that player has completed let /** @type {?} */ containsPotentialParentTransition = false; if (engine.totalAnimations) { const /** @type {?} */ currentPlayers = engine.players.length ? engine.playersByQueriedElement.get(element) : []; // when this `if statement` does not continue forward it means that // a previous animation query has selected the current element and // is animating it. In this situation want to continue fowards and // allow the element to be queued up for animation later. if (currentPlayers && currentPlayers.length) { containsPotentialParentTransition = true; } else { let /** @type {?} */ parent = element; while (parent = parent.parentNode) { const /** @type {?} */ triggers = engine.statesByElement.get(parent); if (triggers) { containsPotentialParentTransition = true; break; } } } } // at this stage we know that the element will either get removed // during flush or will be picked up by a parent query. Either way // we need to fire the listeners for this element when it DOES get // removed (once the query parent animation is done or after flush) this.prepareLeaveAnimationListeners(element); // whether or not a parent has an animation we need to delay the deferral of the leave // operation until we have more information (which we do after flush() has been called) if (containsPotentialParentTransition) { engine.markElementAsRemoved(this.id, element, false, context); } else { // we do this after the flush has occurred such // that the callbacks can be fired engine.afterFlush(() => this.clearElementCache(element)); engine.destroyInnerAnimations(element); engine._onRemovalComplete(element, context); } } /** * @param {?} element * @param {?} parent * @return {?} */ insertNode(element, parent) { addClass(element, this._hostClassName); } /** * @param {?} microtaskId * @return {?} */ drainQueuedTransitions(microtaskId) { const /** @type {?} */ instructions = []; this._queue.forEach(entry => { const /** @type {?} */ player = entry.player; if (player.destroyed) return; const /** @type {?} */ element = entry.element; const /** @type {?} */ listeners = this._elementListeners.get(element); if (listeners) { listeners.forEach((listener) => { if (listener.name == entry.triggerName) { const /** @type {?} */ baseEvent = makeAnimationEvent(element, entry.triggerName, entry.fromState.value, entry.toState.value); (/** @type {?} */ (baseEvent))['_data'] = microtaskId; listenOnPlayer(entry.player, listener.phase, baseEvent, listener.callback); } }); } if (player.markedForDestroy) { this._engine.afterFlush(() => { // now we can destroy the element properly since the event listeners have // been bound to the player player.destroy(); }); } else { instructions.push(entry); } }); this._queue = []; return instructions.sort((a, b) => { // if depCount == 0 them move to front // otherwise if a contains b then move back const /** @type {?} */ d0 = a.transition.ast.depCount; const /** @type {?} */ d1 = b.transition.ast.depCount; if (d0 == 0 || d1 == 0) { return d0 - d1; } return this._engine.driver.containsElement(a.element, b.element) ? 1 : -1; }); } /** * @param {?} context * @return {?} */ destroy(context) { this.players.forEach(p => p.destroy()); this._signalRemovalForInnerTriggers(this.hostElement, context); } /** * @param {?} element * @return {?} */ elementContainsData(element) { let /** @type {?} */ containsData = false; if (this._elementListeners.has(element)) containsData = true; containsData = (this._queue.find(entry => entry.element === element) ? true : false) || containsData; return containsData; } } /** * @record */ class TransitionAnimationEngine { /** * @param {?} driver * @param {?} _normalizer */ constructor(driver, _normalizer) { this.driver = driver; this._normalizer = _normalizer; this.players = []; this.newHostElements = new Map(); this.playersByElement = new Map(); this.playersByQueriedElement = new Map(); this.statesByElement = new Map(); this.disabledNodes = new Set(); this.totalAnimations = 0; this.totalQueuedPlayers = 0; this._namespaceLookup = {}; this._namespaceList = []; this._flushFns = []; this._whenQuietFns = []; this.namespacesByHostElement = new Map(); this.collectedEnterElements = []; this.collectedLeaveElements = []; this.onRemovalComplete = (element, context) => { }; } /** * \@internal * @param {?} element * @param {?} context * @return {?} */ _onRemovalComplete(element, context) { this.onRemovalComplete(element, context); } /** * @return {?} */ get queuedPlayers() { const /** @type {?} */ players = []; this._namespaceList.forEach(ns => { ns.players.forEach(player => { if (player.queued) { players.push(player); } }); }); return players; } /** * @param {?} namespaceId * @param {?} hostElement * @return {?} */ createNamespace(namespaceId, hostElement) { const /** @type {?} */ ns = new AnimationTransitionNamespace(namespaceId, hostElement, this); if (hostElement.parentNode) { this._balanceNamespaceList(ns, hostElement); } else { // defer this later until flush during when the host element has // been inserted so that we know exactly where to place it in // the namespace list this.newHostElements.set(hostElement, ns); // given that this host element is apart of the animation code, it // may or may not be inserted by a parent node that is an of an // animation renderer type. If this happens then we can still have // access to this item when we query for :enter nodes. If the parent // is a renderer then the set data-structure will normalize the entry this.collectEnterElement(hostElement); } return this._namespaceLookup[namespaceId] = ns; } /** * @param {?} ns * @param {?} hostElement * @return {?} */ _balanceNamespaceList(ns, hostElement) { const /** @type {?} */ limit = this._namespaceList.length - 1; if (limit >= 0) { let /** @type {?} */ found = false; for (let /** @type {?} */ i = limit; i >= 0; i--) { const /** @type {?} */ nextNamespace = this._namespaceList[i]; if (this.driver.containsElement(nextNamespace.hostElement, hostElement)) { this._namespaceList.splice(i + 1, 0, ns); found = true; break; } } if (!found) { this._namespaceList.splice(0, 0, ns); } } else { this._namespaceList.push(ns); } this.namespacesByHostElement.set(hostElement, ns); return ns; } /** * @param {?} namespaceId * @param {?} hostElement * @return {?} */ register(namespaceId, hostElement) { let /** @type {?} */ ns = this._namespaceLookup[namespaceId]; if (!ns) { ns = this.createNamespace(namespaceId, hostElement); } return ns; } /** * @param {?} namespaceId * @param {?} name * @param {?} trigger * @return {?} */ registerTrigger(namespaceId, name, trigger) { let /** @type {?} */ ns = this._namespaceLookup[namespaceId]; if (ns && ns.register(name, trigger)) { this.totalAnimations++; } } /** * @param {?} namespaceId * @param {?} context * @return {?} */ destroy(namespaceId, context) { if (!namespaceId) return; const /** @type {?} */ ns = this._fetchNamespace(namespaceId); this.afterFlush(() => { this.namespacesByHostElement.delete(ns.hostElement); delete this._namespaceLookup[namespaceId]; const /** @type {?} */ index = this._namespaceList.indexOf(ns); if (index >= 0) { this._namespaceList.splice(index, 1); } }); this.afterFlushAnimationsDone(() => ns.destroy(context)); } /** * @param {?} id * @return {?} */ _fetchNamespace(id) { return this._namespaceLookup[id]; } /** * @param {?} element * @return {?} */ fetchNamespacesByElement(element) { // normally there should only be one namespace per element, however // if @triggers are placed on both the component element and then // its host element (within the component code) then there will be // two namespaces returned. We use a set here to simply the dedupe // of namespaces incase there are multiple triggers both the elm and host const /** @type {?} */ namespaces = new Set(); const /** @type {?} */ elementStates = this.statesByElement.get(element); if (elementStates) { const /** @type {?} */ keys = Object.keys(elementStates); for (let /** @type {?} */ i = 0; i < keys.length; i++) { const /** @type {?} */ nsId = elementStates[keys[i]].namespaceId; if (nsId) { const /** @type {?} */ ns = this._fetchNamespace(nsId); if (ns) { namespaces.add(ns); } } } } return namespaces; } /** * @param {?} namespaceId * @param {?} element * @param {?} name * @param {?} value * @return {?} */ trigger(namespaceId, element, name, value) { if (isElementNode(element)) { this._fetchNamespace(namespaceId).trigger(element, name, value); return true; } return false; } /** * @param {?} namespaceId * @param {?} element * @param {?} parent * @param {?} insertBefore * @return {?} */ insertNode(namespaceId, element, parent, insertBefore) { if (!isElementNode(element)) return; // special case for when an element is removed and reinserted (move operation) // when this occurs we do not want to use the element for deletion later const /** @type {?} */ details = /** @type {?} */ (element[REMOVAL_FLAG]); if (details && details.setForRemoval) { details.setForRemoval = false; } // in the event that the namespaceId is blank then the caller // code does not contain any animation code in it, but it is // just being called so that the node is marked as being inserted if (namespaceId) { const /** @type {?} */ ns = this._fetchNamespace(namespaceId); // This if-statement is a workaround for router issue #21947. // The router sometimes hits a race condition where while a route // is being instantiated a new navigation arrives, triggering leave // animation of DOM that has not been fully initialized, until this // is resolved, we need to handle the scenario when DOM is not in a // consistent state during the animation. if (ns) { ns.insertNode(element, parent); } } // only *directives and host elements are inserted before if (insertBefore) { this.collectEnterElement(element); } } /** * @param {?} element * @return {?} */ collectEnterElement(element) { this.collectedEnterElements.push(element); } /** * @param {?} element * @param {?} value * @return {?} */ markElementAsDisabled(element, value) { if (value) { if (!this.disabledNodes.has(element)) { this.disabledNodes.add(element); addClass(element, DISABLED_CLASSNAME); } } else if (this.disabledNodes.has(element)) { this.disabledNodes.delete(element); removeClass(element, DISABLED_CLASSNAME); } } /** * @param {?} namespaceId * @param {?} element * @param {?} context * @return {?} */ removeNode(namespaceId, element, context) { if (!isElementNode(element)) { this._onRemovalComplete(element, context); return; } const /** @type {?} */ ns = namespaceId ? this._fetchNamespace(namespaceId) : null; if (ns) { ns.removeNode(element, context); } else { this.markElementAsRemoved(namespaceId, element, false, context); } } /** * @param {?} namespaceId * @param {?} element * @param {?=} hasAnimation * @param {?=} context * @return {?} */ markElementAsRemoved(namespaceId, element, hasAnimation, context) { this.collectedLeaveElements.push(element); element[REMOVAL_FLAG] = { namespaceId, setForRemoval: context, hasAnimation, removedBeforeQueried: false }; } /** * @param {?} namespaceId * @param {?} element * @param {?} name * @param {?} phase * @param {?} callback * @return {?} */ listen(namespaceId, element, name, phase, callback) { if (isElementNode(element)) { return this._fetchNamespace(namespaceId).listen(element, name, phase, callback); } return () => { }; } /** * @param {?} entry * @param {?} subTimelines * @param {?} enterClassName * @param {?} leaveClassName * @return {?} */ _buildInstruction(entry, subTimelines, enterClassName, leaveClassName) { return entry.transition.build(this.driver, entry.element, entry.fromState.value, entry.toState.value, enterClassName, leaveClassName, entry.fromState.options, entry.toState.options, subTimelines); } /** * @param {?} containerElement * @return {?} */ destroyInnerAnimations(containerElement) { let /** @type {?} */ elements = this.driver.query(containerElement, NG_TRIGGER_SELECTOR, true); elements.forEach(element => this.destroyActiveAnimationsForElement(element)); if (this.playersByQueriedElement.size == 0) return; elements = this.driver.query(containerElement, NG_ANIMATING_SELECTOR, true); elements.forEach(element => this.finishActiveQueriedAnimationOnElement(element)); } /** * @param {?} element * @return {?} */ destroyActiveAnimationsForElement(element) { const /** @type {?} */ players = this.playersByElement.get(element); if (players) { players.forEach(player => { // special case for when an element is set for destruction, but hasn't started. // in this situation we want to delay the destruction until the flush occurs // so that any event listeners attached to the player are triggered. if (player.queued) { player.markedForDestroy = true; } else { player.destroy(); } }); } const /** @type {?} */ stateMap = this.statesByElement.get(element); if (stateMap) { Object.keys(stateMap).forEach(triggerName => stateMap[triggerName] = DELETED_STATE_VALUE); } } /** * @param {?} element * @return {?} */ finishActiveQueriedAnimationOnElement(element) { const /** @type {?} */ players = this.playersByQueriedElement.get(element); if (players) { players.forEach(player => player.finish()); } } /** * @return {?} */ whenRenderingDone() { return new Promise(resolve => { if (this.players.length) { return optimizeGroupPlayer(this.players).onDone(() => resolve()); } else { resolve(); } }); } /** * @param {?} element * @return {?} */ processLeaveNode(element) { const /** @type {?} */ details = /** @type {?} */ (element[REMOVAL_FLAG]); if (details && details.setForRemoval) { // this will prevent it from removing it twice element[REMOVAL_FLAG] = NULL_REMOVAL_STATE; if (details.namespaceId) { this.destroyInnerAnimations(element); const /** @type {?} */ ns = this._fetchNamespace(details.namespaceId); if (ns) { ns.clearElementCache(element); } } this._onRemovalComplete(element, details.setForRemoval); } if (this.driver.matchesElement(element, DISABLED_SELECTOR)) { this.markElementAsDisabled(element, false); } this.driver.query(element, DISABLED_SELECTOR, true).forEach(node => { this.markElementAsDisabled(element, false); }); } /** * @param {?=} microtaskId * @return {?} */ flush(microtaskId = -1) { let /** @type {?} */ players = []; if (this.newHostElements.size) { this.newHostElements.forEach((ns, element) => this._balanceNamespaceList(ns, element)); this.newHostElements.clear(); } if (this.totalAnimations && this.collectedEnterElements.length) { for (let /** @type {?} */ i = 0; i < this.collectedEnterElements.length; i++) { const /** @type {?} */ elm = this.collectedEnterElements[i]; addClass(elm, STAR_CLASSNAME); } } if (this._namespaceList.length && (this.totalQueuedPlayers || this.collectedLeaveElements.length)) { const /** @type {?} */ cleanupFns = []; try { players = this._flushAnimations(cleanupFns, microtaskId); } finally { for (let /** @type {?} */ i = 0; i < cleanupFns.length; i++) { cleanupFns[i](); } } } else { for (let /** @type {?} */ i = 0; i < this.collectedLeaveElements.length; i++) { const /** @type {?} */ element = this.collectedLeaveElements[i]; this.processLeaveNode(element); } } this.totalQueuedPlayers = 0; this.collectedEnterElements.length = 0; this.collectedLeaveElements.length = 0; this._flushFns.forEach(fn => fn()); this._flushFns = []; if (this._whenQuietFns.length) { // we move these over to a variable so that // if any new callbacks are registered in another // flush they do not populate the existing set const /** @type {?} */ quietFns = this._whenQuietFns; this._whenQuietFns = []; if (players.length) { optimizeGroupPlayer(players).onDone(() => { quietFns.forEach(fn => fn()); }); } else { quietFns.forEach(fn => fn()); } } } /** * @param {?} errors * @return {?} */ reportError(errors) { throw new Error(`Unable to process animations due to the following failed trigger transitions\n ${errors.join('\n')}`); } /** * @param {?} cleanupFns * @param {?} microtaskId * @return {?} */ _flushAnimations(cleanupFns, microtaskId) { const /** @type {?} */ subTimelines = new ElementInstructionMap(); const /** @type {?} */ skippedPlayers = []; const /** @type {?} */ skippedPlayersMap = new Map(); const /** @type {?} */ queuedInstructions = []; const /** @type {?} */ queriedElements = new Map(); const /** @type {?} */ allPreStyleElements = new Map(); const /** @type {?} */ allPostStyleElements = new Map(); const /** @type {?} */ disabledElementsSet = new Set(); this.disabledNodes.forEach(node => { disabledElementsSet.add(node); const /** @type {?} */ nodesThatAreDisabled = this.driver.query(node, QUEUED_SELECTOR, true); for (let /** @type {?} */ i = 0; i < nodesThatAreDisabled.length; i++) { disabledElementsSet.add(nodesThatAreDisabled[i]); } }); const /** @type {?} */ bodyNode = getBodyNode(); const /** @type {?} */ allTriggerElements = Array.from(this.statesByElement.keys()); const /** @type {?} */ enterNodeMap = buildRootMap(allTriggerElements, this.collectedEnterElements); // this must occur before the instructions are built below such that // the :enter queries match the elements (since the timeline queries // are fired during instruction building). const /** @type {?} */ enterNodeMapIds = new Map(); let /** @type {?} */ i = 0; enterNodeMap.forEach((nodes, root) => { const /** @type {?} */ className = ENTER_CLASSNAME + i++; enterNodeMapIds.set(root, className); nodes.forEach(node => addClass(node, className)); }); const /** @type {?} */ allLeaveNodes = []; const /** @type {?} */ mergedLeaveNodes = new Set(); const /** @type {?} */ leaveNodesWithoutAnimations = new Set(); for (let /** @type {?} */ i = 0; i < this.collectedLeaveElements.length; i++) { const /** @type {?} */ element = this.collectedLeaveElements[i]; const /** @type {?} */ details = /** @type {?} */ (element[REMOVAL_FLAG]); if (details && details.setForRemoval) { allLeaveNodes.push(element); mergedLeaveNodes.add(element); if (details.hasAnimation) { this.driver.query(element, STAR_SELECTOR, true).forEach(elm => mergedLeaveNodes.add(elm)); } else { leaveNodesWithoutAnimations.add(element); } } } const /** @type {?} */ leaveNodeMapIds = new Map(); const /** @type {?} */ leaveNodeMap = buildRootMap(allTriggerElements, Array.from(mergedLeaveNodes)); leaveNodeMap.forEach((nodes, root) => { const /** @type {?} */ className = LEAVE_CLASSNAME + i++; leaveNodeMapIds.set(root, className); nodes.forEach(node => addClass(node, className)); }); cleanupFns.push(() => { enterNodeMap.forEach((nodes, root) => { const /** @type {?} */ className = /** @type {?} */ ((enterNodeMapIds.get(root))); nodes.forEach(node => removeClass(node, className)); }); leaveNodeMap.forEach((nodes, root) => { const /** @type {?} */ className = /** @type {?} */ ((leaveNodeMapIds.get(root))); nodes.forEach(node => removeClass(node, className)); }); allLeaveNodes.forEach(element => { this.processLeaveNode(element); }); }); const /** @type {?} */ allPlayers = []; const /** @type {?} */ erroneousTransitions = []; for (let /** @type {?} */ i = this._namespaceList.length - 1; i >= 0; i--) { const /** @type {?} */ ns = this._namespaceList[i]; ns.drainQueuedTransitions(microtaskId).forEach(entry => { const /** @type {?} */ player = entry.player; allPlayers.push(player); const /** @type {?} */ element = entry.element; if (!bodyNode || !this.driver.containsElement(bodyNode, element)) { player.destroy(); return; } const /** @type {?} */ leaveClassName = /** @type {?} */ ((leaveNodeMapIds.get(element))); const /** @type {?} */ enterClassName = /** @type {?} */ ((enterNodeMapIds.get(element))); const /** @type {?} */ instruction = /** @type {?} */ ((this._buildInstruction(entry, subTimelines, enterClassName, leaveClassName))); if (instruction.errors && instruction.errors.length) { erroneousTransitions.push(instruction); return; } // if a unmatched transition is queued to go then it SHOULD NOT render // an animation and cancel the previously running animations. if (entry.isFallbackTransition) { player.onStart(() => eraseStyles(element, instruction.fromStyles)); player.onDestroy(() => setStyles(element, instruction.toStyles)); skippedPlayers.push(player); return; } // this means that if a parent animation uses this animation as a sub trigger // then it will instruct the timeline builder to not add a player delay, but // instead stretch the first keyframe gap up until the animation starts. The // reason this is important is to prevent extra initialization styles from being // required by the user in the animation. instruction.timelines.forEach(tl => tl.stretchStartingKeyframe = true); subTimelines.append(element, instruction.timelines); const /** @type {?} */ tuple = { instruction, player, element }; queuedInstructions.push(tuple); instruction.queriedElements.forEach(element => getOrSetAsInMap(queriedElements, element, []).push(player)); instruction.preStyleProps.forEach((stringMap, element) => { const /** @type {?} */ props = Object.keys(stringMap); if (props.length) { let /** @type {?} */ setVal = /** @type {?} */ ((allPreStyleElements.get(element))); if (!setVal) { allPreStyleElements.set(element, setVal = new Set()); } props.forEach(prop => setVal.add(prop)); } }); instruction.postStyleProps.forEach((stringMap, element) => { const /** @type {?} */ props = Object.keys(stringMap); let /** @type {?} */ setVal = /** @type {?} */ ((allPostStyleElements.get(element))); if (!setVal) { allPostStyleElements.set(element, setVal = new Set()); } props.forEach(prop => setVal.add(prop)); }); }); } if (erroneousTransitions.length) { const /** @type {?} */ errors = []; erroneousTransitions.forEach(instruction => { errors.push(`@${instruction.triggerName} has failed due to:\n`); /** @type {?} */ ((instruction.errors)).forEach(error => errors.push(`- ${error}\n`)); }); allPlayers.forEach(player => player.destroy()); this.reportError(errors); } const /** @type {?} */ allPreviousPlayersMap = new Map(); // this map works to tell which element in the DOM tree is contained by // which animation. Further down below this map will get populated once // the players are built and in doing so it can efficiently figure out // if a sub player is skipped due to a parent player having priority. const /** @type {?} */ animationElementMap = new Map(); queuedInstructions.forEach(entry => { const /** @type {?} */ element = entry.element; if (subTimelines.has(element)) { animationElementMap.set(element, element); this._beforeAnimationBuild(entry.player.namespaceId, entry.instruction, allPreviousPlayersMap); } }); skippedPlayers.forEach(player => { const /** @type {?} */ element = player.element; const /** @type {?} */ previousPlayers = this._getPreviousPlayers(element, false, player.namespaceId, player.triggerName, null); previousPlayers.forEach(prevPlayer => { getOrSetAsInMap(allPreviousPlayersMap, element, []).push(prevPlayer); prevPlayer.destroy(); }); }); // this is a special case for nodes that will be removed (either by) // having their own leave animations or by being queried in a container // that will be removed once a parent animation is complete. The idea // here is that * styles must be identical to ! styles because of // backwards compatibility (* is also filled in by default in many places). // Otherwise * styles will return an empty value or auto since the element // that is being getComputedStyle'd will not be visible (since * = destination) const /** @type {?} */ replaceNodes = allLeaveNodes.filter(node => { return replacePostStylesAsPre(node, allPreStyleElements, allPostStyleElements); }); // POST STAGE: fill the * styles const /** @type {?} */ postStylesMap = new Map(); const /** @type {?} */ allLeaveQueriedNodes = cloakAndComputeStyles(postStylesMap, this.driver, leaveNodesWithoutAnimations, allPostStyleElements, AUTO_STYLE); allLeaveQueriedNodes.forEach(node => { if (replacePostStylesAsPre(node, allPreStyleElements, allPostStyleElements)) { replaceNodes.push(node); } }); // PRE STAGE: fill the ! styles const /** @type {?} */ preStylesMap = new Map(); enterNodeMap.forEach((nodes, root) => { cloakAndComputeStyles(preStylesMap, this.driver, new Set(nodes), allPreStyleElements, ɵPRE_STYLE); }); replaceNodes.forEach(node => { const /** @type {?} */ post = postStylesMap.get(node); const /** @type {?} */ pre = preStylesMap.get(node); postStylesMap.set(node, /** @type {?} */ (Object.assign({}, post, pre))); }); const /** @type {?} */ rootPlayers = []; const /** @type {?} */ subPlayers = []; const /** @type {?} */ NO_PARENT_ANIMATION_ELEMENT_DETECTED = {}; queuedInstructions.forEach(entry => { const { element, player, instruction } = entry; // this means that it was never consumed by a parent animation which // means that it is independent and therefore should be set for animation if (subTimelines.has(element)) { if (disabledElementsSet.has(element)) { player.onDestroy(() => setStyles(element, instruction.toStyles)); skippedPlayers.push(player); return; } // this will flow up the DOM and query the map to figure out // if a parent animation has priority over it. In the situation // that a parent is detected then it will cancel the loop. If // nothing is detected, or it takes a few hops to find a parent, // then it will fill in the missing nodes and signal them as having // a detected parent (or a NO_PARENT value via a special constant). let /** @type {?} */ parentWithAnimation = NO_PARENT_ANIMATION_ELEMENT_DETECTED; if (animationElementMap.size > 1) { let /** @type {?} */ elm = element; const /** @type {?} */ parentsToAdd = []; while (elm = elm.parentNode) { const /** @type {?} */ detectedParent = animationElementMap.get(elm); if (detectedParent) { parentWithAnimation = detectedParent; break; } parentsToAdd.push(elm); } parentsToAdd.forEach(parent => animationElementMap.set(parent, parentWithAnimation)); } const /** @type {?} */ innerPlayer = this._buildAnimation(player.namespaceId, instruction, allPreviousPlayersMap, skippedPlayersMap, preStylesMap, postStylesMap); player.setRealPlayer(innerPlayer); if (parentWithAnimation === NO_PARENT_ANIMATION_ELEMENT_DETECTED) { rootPlayers.push(player); } else { const /** @type {?} */ parentPlayers = this.playersByElement.get(parentWithAnimation); if (parentPlayers && parentPlayers.length) { player.parentPlayer = optimizeGroupPlayer(parentPlayers); } skippedPlayers.push(player); } } else { eraseStyles(element, instruction.fromStyles); player.onDestroy(() => setStyles(element, instruction.toStyles)); // there still might be a ancestor player animating this // element therefore we will still add it as a sub player // even if its animation may be disabled subPlayers.push(player); if (disabledElementsSet.has(element)) { skippedPlayers.push(player); } } }); // find all of the sub players' corresponding inner animation player subPlayers.forEach(player => { // even if any players are not found for a sub animation then it // will still complete itself after the next tick since it's Noop const /** @type {?} */ playersForElement = skippedPlayersMap.get(player.element); if (playersForElement && playersForElement.length) { const /** @type {?} */ innerPlayer = optimizeGroupPlayer(playersForElement); player.setRealPlayer(innerPlayer); } }); // the reason why we don't actually play the animation is // because all that a skipped player is designed to do is to // fire the start/done transition callback events skippedPlayers.forEach(player => { if (player.parentPlayer) { player.syncPlayerEvents(player.parentPlayer); } else { player.destroy(); } }); // run through all of the queued removals and see if they // were picked up by a query. If not then perform the removal // operation right away unless a parent animation is ongoing. for (let /** @type {?} */ i = 0; i < allLeaveNodes.length; i++) { const /** @type {?} */ element = allLeaveNodes[i]; const /** @type {?} */ details = /** @type {?} */ (element[REMOVAL_FLAG]); removeClass(element, LEAVE_CLASSNAME); // this means the element has a removal animation that is being // taken care of and therefore the inner elements will hang around // until that animation is over (or the parent queried animation) if (details && details.hasAnimation) continue; let /** @type {?} */ players = []; // if this element is queried or if it contains queried children // then we want for the element not to be removed from the page // until the queried animations have finished if (queriedElements.size) { let /** @type {?} */ queriedPlayerResults = queriedElements.get(element); if (queriedPlayerResults && queriedPlayerResults.length) { players.push(...queriedPlayerResults); } let /** @type {?} */ queriedInnerElements = this.driver.query(element, NG_ANIMATING_SELECTOR, true); for (let /** @type {?} */ j = 0; j < queriedInnerElements.length; j++) { let /** @type {?} */ queriedPlayers = queriedElements.get(queriedInnerElements[j]); if (queriedPlayers && queriedPlayers.length) { players.push(...queriedPlayers); } } } const /** @type {?} */ activePlayers = players.filter(p => !p.destroyed); if (activePlayers.length) { removeNodesAfterAnimationDone(this, element, activePlayers); } else { this.processLeaveNode(element); } } // this is required so the cleanup method doesn't remove them allLeaveNodes.length = 0; rootPlayers.forEach(player => { this.players.push(player); player.onDone(() => { player.destroy(); const /** @type {?} */ index = this.players.indexOf(player); this.players.splice(index, 1); }); player.play(); }); return rootPlayers; } /** * @param {?} namespaceId * @param {?} element * @return {?} */ elementContainsData(namespaceId, element) { let /** @type {?} */ containsData = false; const /** @type {?} */ details = /** @type {?} */ (element[REMOVAL_FLAG]); if (details && details.setForRemoval) containsData = true; if (this.playersByElement.has(element)) containsData = true; if (this.playersByQueriedElement.has(element)) containsData = true; if (this.statesByElement.has(element)) containsData = true; return this._fetchNamespace(namespaceId).elementContainsData(element) || containsData; } /** * @param {?} callback * @return {?} */ afterFlush(callback) { this._flushFns.push(callback); } /** * @param {?} callback * @return {?} */ afterFlushAnimationsDone(callback) { this._whenQuietFns.push(callback); } /** * @param {?} element * @param {?} isQueriedElement * @param {?=} namespaceId * @param {?=} triggerName * @param {?=} toStateValue * @return {?} */ _getPreviousPlayers(element, isQueriedElement, namespaceId, triggerName, toStateValue) { let /** @type {?} */ players = []; if (isQueriedElement) { const /** @type {?} */ queriedElementPlayers = this.playersByQueriedElement.get(element); if (queriedElementPlayers) { players = queriedElementPlayers; } } else { const /** @type {?} */ elementPlayers = this.playersByElement.get(element); if (elementPlayers) { const /** @type {?} */ isRemovalAnimation = !toStateValue || toStateValue == VOID_VALUE; elementPlayers.forEach(player => { if (player.queued) return; if (!isRemovalAnimation && player.triggerName != triggerName) return; players.push(player); }); } } if (namespaceId || triggerName) { players = players.filter(player => { if (namespaceId && namespaceId != player.namespaceId) return false; if (triggerName && triggerName != player.triggerName) return false; return true; }); } return players; } /** * @param {?} namespaceId * @param {?} instruction * @param {?} allPreviousPlayersMap * @return {?} */ _beforeAnimationBuild(namespaceId, instruction, allPreviousPlayersMap) { const /** @type {?} */ triggerName = instruction.triggerName; const /** @type {?} */ rootElement = instruction.element; // when a removal animation occurs, ALL previous players are collected // and destroyed (even if they are outside of the current namespace) const /** @type {?} */ targetNameSpaceId = instruction.isRemovalTransition ? undefined : namespaceId; const /** @type {?} */ targetTriggerName = instruction.isRemovalTransition ? undefined : triggerName; for (const /** @type {?} */ timelineInstruction of instruction.timelines) { const /** @type {?} */ element = timelineInstruction.element; const /** @type {?} */ isQueriedElement = element !== rootElement; const /** @type {?} */ players = getOrSetAsInMap(allPreviousPlayersMap, element, []); const /** @type {?} */ previousPlayers = this._getPreviousPlayers(element, isQueriedElement, targetNameSpaceId, targetTriggerName, instruction.toState); previousPlayers.forEach(player => { const /** @type {?} */ realPlayer = /** @type {?} */ (player.getRealPlayer()); if (realPlayer.beforeDestroy) { realPlayer.beforeDestroy(); } player.destroy(); players.push(player); }); } // this needs to be done so that the PRE/POST styles can be // computed properly without interfering with the previous animation eraseStyles(rootElement, instruction.fromStyles); } /** * @param {?} namespaceId * @param {?} instruction * @param {?} allPreviousPlayersMap * @param {?} skippedPlayersMap * @param {?} preStylesMap * @param {?} postStylesMap * @return {?} */ _buildAnimation(namespaceId, instruction, allPreviousPlayersMap, skippedPlayersMap, preStylesMap, postStylesMap) { const /** @type {?} */ triggerName = instruction.triggerName; const /** @type {?} */ rootElement = instruction.element; // we first run this so that the previous animation player // data can be passed into the successive animation players const /** @type {?} */ allQueriedPlayers = []; const /** @type {?} */ allConsumedElements = new Set(); const /** @type {?} */ allSubElements = new Set(); const /** @type {?} */ allNewPlayers = instruction.timelines.map(timelineInstruction => { const /** @type {?} */ element = timelineInstruction.element; allConsumedElements.add(element); // FIXME (matsko): make sure to-be-removed animations are removed properly const /** @type {?} */ details = element[REMOVAL_FLAG]; if (details && details.removedBeforeQueried) return new NoopAnimationPlayer(); const /** @type {?} */ isQueriedElement = element !== rootElement; const /** @type {?} */ previousPlayers = flattenGroupPlayers((allPreviousPlayersMap.get(element) || EMPTY_PLAYER_ARRAY) .map(p => p.getRealPlayer())) .filter(p => { // the `element` is not apart of the AnimationPlayer definition, but // Mock/WebAnimations // use the element within their implementation. This will be added in Angular5 to // AnimationPlayer const /** @type {?} */ pp = /** @type {?} */ (p); return pp.element ? pp.element === element : false; }); const /** @type {?} */ preStyles = preStylesMap.get(element); const /** @type {?} */ postStyles = postStylesMap.get(element); const /** @type {?} */ keyframes = normalizeKeyframes(this.driver, this._normalizer, element, timelineInstruction.keyframes, preStyles, postStyles); const /** @type {?} */ player = this._buildPlayer(timelineInstruction, keyframes, previousPlayers); // this means that this particular player belongs to a sub trigger. It is // important that we match this player up with the corresponding (@trigger.listener) if (timelineInstruction.subTimeline && skippedPlayersMap) { allSubElements.add(element); } if (isQueriedElement) { const /** @type {?} */ wrappedPlayer = new TransitionAnimationPlayer(namespaceId, triggerName, element); wrappedPlayer.setRealPlayer(player); allQueriedPlayers.push(wrappedPlayer); } return player; }); allQueriedPlayers.forEach(player => { getOrSetAsInMap(this.playersByQueriedElement, player.element, []).push(player); player.onDone(() => deleteOrUnsetInMap(this.playersByQueriedElement, player.element, player)); }); allConsumedElements.forEach(element => addClass(element, NG_ANIMATING_CLASSNAME)); const /** @type {?} */ player = optimizeGroupPlayer(allNewPlayers); player.onDestroy(() => { allConsumedElements.forEach(element => removeClass(element, NG_ANIMATING_CLASSNAME)); setStyles(rootElement, instruction.toStyles); }); // this basically makes all of the callbacks for sub element animations // be dependent on the upper players for when they finish allSubElements.forEach(element => { getOrSetAsInMap(skippedPlayersMap, element, []).push(player); }); return player; } /** * @param {?} instruction * @param {?} keyframes * @param {?} previousPlayers * @return {?} */ _buildPlayer(instruction, keyframes, previousPlayers) { if (keyframes.length > 0) { return this.driver.animate(instruction.element, keyframes, instruction.duration, instruction.delay, instruction.easing, previousPlayers); } // special case for when an empty transition|definition is provided // ... there is no point in rendering an empty animation return new NoopAnimationPlayer(); } } class TransitionAnimationPlayer { /** * @param {?} namespaceId * @param {?} triggerName * @param {?} element */ constructor(namespaceId, triggerName, element) { this.namespaceId = namespaceId; this.triggerName = triggerName; this.element = element; this._player = new NoopAnimationPlayer(); this._containsRealPlayer = false; this._queuedCallbacks = {}; this.destroyed = false; this.markedForDestroy = false; this.queued = true; } /** * @param {?} player * @return {?} */ setRealPlayer(player) { if (this._containsRealPlayer) return; this._player = player; Object.keys(this._queuedCallbacks).forEach(phase => { this._queuedCallbacks[phase].forEach(callback => listenOnPlayer(player, phase, undefined, callback)); }); this._queuedCallbacks = {}; this._containsRealPlayer = true; (/** @type {?} */ (this)).queued = false; } /** * @return {?} */ getRealPlayer() { return this._player; } /** * @param {?} player * @return {?} */ syncPlayerEvents(player) { const /** @type {?} */ p = /** @type {?} */ (this._player); if (p.triggerCallback) { player.onStart(() => p.triggerCallback('start')); } player.onDone(() => this.finish()); player.onDestroy(() => this.destroy()); } /** * @param {?} name * @param {?} callback * @return {?} */ _queueEvent(name, callback) { getOrSetAsInMap(this._queuedCallbacks, name, []).push(callback); } /** * @param {?} fn * @return {?} */ onDone(fn) { if (this.queued) { this._queueEvent('done', fn); } this._player.onDone(fn); } /** * @param {?} fn * @return {?} */ onStart(fn) { if (this.queued) { this._queueEvent('start', fn); } this._player.onStart(fn); } /** * @param {?} fn * @return {?} */ onDestroy(fn) { if (this.queued) { this._queueEvent('destroy', fn); } this._player.onDestroy(fn); } /** * @return {?} */ init() { this._player.init(); } /** * @return {?} */ hasStarted() { return this.queued ? false : this._player.hasStarted(); } /** * @return {?} */ play() { !this.queued && this._player.play(); } /** * @return {?} */ pause() { !this.queued && this._player.pause(); } /** * @return {?} */ restart() { !this.queued && this._player.restart(); } /** * @return {?} */ finish() { this._player.finish(); } /** * @return {?} */ destroy() { (/** @type {?} */ (this)).destroyed = true; this._player.destroy(); } /** * @return {?} */ reset() { !this.queued && this._player.reset(); } /** * @param {?} p * @return {?} */ setPosition(p) { if (!this.queued) { this._player.setPosition(p); } } /** * @return {?} */ getPosition() { return this.queued ? 0 : this._player.getPosition(); } /** * @return {?} */ get totalTime() { return this._player.totalTime; } /** * @param {?} phaseName * @return {?} */ triggerCallback(phaseName) { const /** @type {?} */ p = /** @type {?} */ (this._player); if (p.triggerCallback) { p.triggerCallback(phaseName); } } } /** * @param {?} map * @param {?} key * @param {?} value * @return {?} */ function deleteOrUnsetInMap(map, key, value) { let /** @type {?} */ currentValues; if (map instanceof Map) { currentValues = map.get(key); if (currentValues) { if (currentValues.length) { const /** @type {?} */ index = currentValues.indexOf(value); currentValues.splice(index, 1); } if (currentValues.length == 0) { map.delete(key); } } } else { currentValues = map[key]; if (currentValues) { if (currentValues.length) { const /** @type {?} */ index = currentValues.indexOf(value); currentValues.splice(index, 1); } if (currentValues.length == 0) { delete map[key]; } } } return currentValues; } /** * @param {?} value * @return {?} */ function normalizeTriggerValue(value) { // we use `!= null` here because it's the most simple // way to test against a "falsy" value without mixing // in empty strings or a zero value. DO NOT OPTIMIZE. return value != null ? value : null; } /** * @param {?} node * @return {?} */ function isElementNode(node) { return node && node['nodeType'] === 1; } /** * @param {?} eventName * @return {?} */ function isTriggerEventValid(eventName) { return eventName == 'start' || eventName == 'done'; } /** * @param {?} element * @param {?=} value * @return {?} */ function cloakElement(element, value) { const /** @type {?} */ oldValue = element.style.display; element.style.display = value != null ? value : 'none'; return oldValue; } /** * @param {?} valuesMap * @param {?} driver * @param {?} elements * @param {?} elementPropsMap * @param {?} defaultStyle * @return {?} */ function cloakAndComputeStyles(valuesMap, driver, elements, elementPropsMap, defaultStyle) { const /** @type {?} */ cloakVals = []; elements.forEach(element => cloakVals.push(cloakElement(element))); const /** @type {?} */ failedElements = []; elementPropsMap.forEach((props, element) => { const /** @type {?} */ styles = {}; props.forEach(prop => { const /** @type {?} */ value = styles[prop] = driver.computeStyle(element, prop, defaultStyle); // there is no easy way to detect this because a sub element could be removed // by a parent animation element being detached. if (!value || value.length == 0) { element[REMOVAL_FLAG] = NULL_REMOVED_QUERIED_STATE; failedElements.push(element); } }); valuesMap.set(element, styles); }); // we use a index variable here since Set.forEach(a, i) does not return // an index value for the closure (but instead just the value) let /** @type {?} */ i = 0; elements.forEach(element => cloakElement(element, cloakVals[i++])); return failedElements; } /** * @param {?} roots * @param {?} nodes * @return {?} */ function buildRootMap(roots, nodes) { const /** @type {?} */ rootMap = new Map(); roots.forEach(root => rootMap.set(root, [])); if (nodes.length == 0) return rootMap; const /** @type {?} */ NULL_NODE = 1; const /** @type {?} */ nodeSet = new Set(nodes); const /** @type {?} */ localRootMap = new Map(); /** * @param {?} node * @return {?} */ function getRoot(node) { if (!node) return NULL_NODE; let /** @type {?} */ root = localRootMap.get(node); if (root) return root; const /** @type {?} */ parent = node.parentNode; if (rootMap.has(parent)) { // ngIf inside @trigger root = parent; } else if (nodeSet.has(parent)) { // ngIf inside ngIf root = NULL_NODE; } else { // recurse upwards root = getRoot(parent); } localRootMap.set(node, root); return root; } nodes.forEach(node => { const /** @type {?} */ root = getRoot(node); if (root !== NULL_NODE) { /** @type {?} */ ((rootMap.get(root))).push(node); } }); return rootMap; } const CLASSES_CACHE_KEY = '$$classes'; /** * @param {?} element * @param {?} className * @return {?} */ function addClass(element, className) { if (element.classList) { element.classList.add(className); } else { let /** @type {?} */ classes = element[CLASSES_CACHE_KEY]; if (!classes) { classes = element[CLASSES_CACHE_KEY] = {}; } classes[className] = true; } } /** * @param {?} element * @param {?} className * @return {?} */ function removeClass(element, className) { if (element.classList) { element.classList.remove(className); } else { let /** @type {?} */ classes = element[CLASSES_CACHE_KEY]; if (classes) { delete classes[className]; } } } /** * @param {?} engine * @param {?} element * @param {?} players * @return {?} */ function removeNodesAfterAnimationDone(engine, element, players) { optimizeGroupPlayer(players).onDone(() => engine.processLeaveNode(element)); } /** * @param {?} players * @return {?} */ function flattenGroupPlayers(players) { const /** @type {?} */ finalPlayers = []; _flattenGroupPlayersRecur(players, finalPlayers); return finalPlayers; } /** * @param {?} players * @param {?} finalPlayers * @return {?} */ function _flattenGroupPlayersRecur(players, finalPlayers) { for (let /** @type {?} */ i = 0; i < players.length; i++) { const /** @type {?} */ player = players[i]; if (player instanceof ɵAnimationGroupPlayer) { _flattenGroupPlayersRecur(player.players, finalPlayers); } else { finalPlayers.push(/** @type {?} */ (player)); } } } /** * @param {?} a * @param {?} b * @return {?} */ function objEquals(a, b) { const /** @type {?} */ k1 = Object.keys(a); const /** @type {?} */ k2 = Object.keys(b); if (k1.length != k2.length) return false; for (let /** @type {?} */ i = 0; i < k1.length; i++) { const /** @type {?} */ prop = k1[i]; if (!b.hasOwnProperty(prop) || a[prop] !== b[prop]) return false; } return true; } /** * @param {?} element * @param {?} allPreStyleElements * @param {?} allPostStyleElements * @return {?} */ function replacePostStylesAsPre(element, allPreStyleElements, allPostStyleElements) { const /** @type {?} */ postEntry = allPostStyleElements.get(element); if (!postEntry) return false; let /** @type {?} */ preEntry = allPreStyleElements.get(element); if (preEntry) { postEntry.forEach(data => /** @type {?} */ ((preEntry)).add(data)); } else { allPreStyleElements.set(element, postEntry); } allPostStyleElements.delete(element); return true; } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ class AnimationEngine { /** * @param {?} _driver * @param {?} normalizer */ constructor(_driver, normalizer) { this._driver = _driver; this._triggerCache = {}; this.onRemovalComplete = (element, context) => { }; this._transitionEngine = new TransitionAnimationEngine(_driver, normalizer); this._timelineEngine = new TimelineAnimationEngine(_driver, normalizer); this._transitionEngine.onRemovalComplete = (element, context) => this.onRemovalComplete(element, context); } /** * @param {?} componentId * @param {?} namespaceId * @param {?} hostElement * @param {?} name * @param {?} metadata * @return {?} */ registerTrigger(componentId, namespaceId, hostElement, name, metadata) { const /** @type {?} */ cacheKey = componentId + '-' + name; let /** @type {?} */ trigger = this._triggerCache[cacheKey]; if (!trigger) { const /** @type {?} */ errors = []; const /** @type {?} */ ast = /** @type {?} */ (buildAnimationAst(this._driver, /** @type {?} */ (metadata), errors)); if (errors.length) { throw new Error(`The animation trigger "${name}" has failed to build due to the following errors:\n - ${errors.join("\n - ")}`); } trigger = buildTrigger(name, ast); this._triggerCache[cacheKey] = trigger; } this._transitionEngine.registerTrigger(namespaceId, name, trigger); } /** * @param {?} namespaceId * @param {?} hostElement * @return {?} */ register(namespaceId, hostElement) { this._transitionEngine.register(namespaceId, hostElement); } /** * @param {?} namespaceId * @param {?} context * @return {?} */ destroy(namespaceId, context) { this._transitionEngine.destroy(namespaceId, context); } /** * @param {?} namespaceId * @param {?} element * @param {?} parent * @param {?} insertBefore * @return {?} */ onInsert(namespaceId, element, parent, insertBefore) { this._transitionEngine.insertNode(namespaceId, element, parent, insertBefore); } /** * @param {?} namespaceId * @param {?} element * @param {?} context * @return {?} */ onRemove(namespaceId, element, context) { this._transitionEngine.removeNode(namespaceId, element, context); } /** * @param {?} element * @param {?} disable * @return {?} */ disableAnimations(element, disable) { this._transitionEngine.markElementAsDisabled(element, disable); } /** * @param {?} namespaceId * @param {?} element * @param {?} property * @param {?} value * @return {?} */ process(namespaceId, element, property, value) { if (property.charAt(0) == '@') { const [id, action] = parseTimelineCommand(property); const /** @type {?} */ args = /** @type {?} */ (value); this._timelineEngine.command(id, element, action, args); } else { this._transitionEngine.trigger(namespaceId, element, property, value); } } /** * @param {?} namespaceId * @param {?} element * @param {?} eventName * @param {?} eventPhase * @param {?} callback * @return {?} */ listen(namespaceId, element, eventName, eventPhase, callback) { // @@listen if (eventName.charAt(0) == '@') { const [id, action] = parseTimelineCommand(eventName); return this._timelineEngine.listen(id, element, action, callback); } return this._transitionEngine.listen(namespaceId, element, eventName, eventPhase, callback); } /** * @param {?=} microtaskId * @return {?} */ flush(microtaskId = -1) { this._transitionEngine.flush(microtaskId); } /** * @return {?} */ get players() { return (/** @type {?} */ (this._transitionEngine.players)) .concat(/** @type {?} */ (this._timelineEngine.players)); } /** * @return {?} */ whenRenderingDone() { return this._transitionEngine.whenRenderingDone(); } } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ class WebAnimationsPlayer { /** * @param {?} element * @param {?} keyframes * @param {?} options * @param {?=} previousPlayers */ constructor(element, keyframes, options, previousPlayers = []) { this.element = element; this.keyframes = keyframes; this.options = options; this.previousPlayers = previousPlayers; this._onDoneFns = []; this._onStartFns = []; this._onDestroyFns = []; this._initialized = false; this._finished = false; this._started = false; this._destroyed = false; this.time = 0; this.parentPlayer = null; this.previousStyles = {}; this.currentSnapshot = {}; this._duration = /** @type {?} */ (options['duration']); this._delay = /** @type {?} */ (options['delay']) || 0; this.time = this._duration + this._delay; if (allowPreviousPlayerStylesMerge(this._duration, this._delay)) { previousPlayers.forEach(player => { let /** @type {?} */ styles = player.currentSnapshot; Object.keys(styles).forEach(prop => this.previousStyles[prop] = styles[prop]); }); } } /** * @return {?} */ _onFinish() { if (!this._finished) { this._finished = true; this._onDoneFns.forEach(fn => fn()); this._onDoneFns = []; } } /** * @return {?} */ init() { this._buildPlayer(); this._preparePlayerBeforeStart(); } /** * @return {?} */ _buildPlayer() { if (this._initialized) return; this._initialized = true; const /** @type {?} */ keyframes = this.keyframes.map(styles => copyStyles(styles, false)); const /** @type {?} */ previousStyleProps = Object.keys(this.previousStyles); if (previousStyleProps.length && keyframes.length) { let /** @type {?} */ startingKeyframe = keyframes[0]; let /** @type {?} */ missingStyleProps = []; previousStyleProps.forEach(prop => { if (!startingKeyframe.hasOwnProperty(prop)) { missingStyleProps.push(prop); } startingKeyframe[prop] = this.previousStyles[prop]; }); if (missingStyleProps.length) { const /** @type {?} */ self = this; // tslint:disable-next-line for (var /** @type {?} */ i = 1; i < keyframes.length; i++) { let /** @type {?} */ kf = keyframes[i]; missingStyleProps.forEach(function (prop) { kf[prop] = _computeStyle(self.element, prop); }); } } } (/** @type {?} */ (this)).domPlayer = this._triggerWebAnimation(this.element, keyframes, this.options); this._finalKeyframe = keyframes.length ? keyframes[keyframes.length - 1] : {}; this.domPlayer.addEventListener('finish', () => this._onFinish()); } /** * @return {?} */ _preparePlayerBeforeStart() { // this is required so that the player doesn't start to animate right away if (this._delay) { this._resetDomPlayerState(); } else { this.domPlayer.pause(); } } /** * \@internal * @param {?} element * @param {?} keyframes * @param {?} options * @return {?} */ _triggerWebAnimation(element, keyframes, options) { // jscompiler doesn't seem to know animate is a native property because it's not fully // supported yet across common browsers (we polyfill it for Edge/Safari) [CL #143630929] return /** @type {?} */ (element['animate'](keyframes, options)); } /** * @param {?} fn * @return {?} */ onStart(fn) { this._onStartFns.push(fn); } /** * @param {?} fn * @return {?} */ onDone(fn) { this._onDoneFns.push(fn); } /** * @param {?} fn * @return {?} */ onDestroy(fn) { this._onDestroyFns.push(fn); } /** * @return {?} */ play() { this._buildPlayer(); if (!this.hasStarted()) { this._onStartFns.forEach(fn => fn()); this._onStartFns = []; this._started = true; } this.domPlayer.play(); } /** * @return {?} */ pause() { this.init(); this.domPlayer.pause(); } /** * @return {?} */ finish() { this.init(); this._onFinish(); this.domPlayer.finish(); } /** * @return {?} */ reset() { this._resetDomPlayerState(); this._destroyed = false; this._finished = false; this._started = false; } /** * @return {?} */ _resetDomPlayerState() { if (this.domPlayer) { this.domPlayer.cancel(); } } /** * @return {?} */ restart() { this.reset(); this.play(); } /** * @return {?} */ hasStarted() { return this._started; } /** * @return {?} */ destroy() { if (!this._destroyed) { this._destroyed = true; this._resetDomPlayerState(); this._onFinish(); this._onDestroyFns.forEach(fn => fn()); this._onDestroyFns = []; } } /** * @param {?} p * @return {?} */ setPosition(p) { this.domPlayer.currentTime = p * this.time; } /** * @return {?} */ getPosition() { return this.domPlayer.currentTime / this.time; } /** * @return {?} */ get totalTime() { return this._delay + this._duration; } /** * @return {?} */ beforeDestroy() { const /** @type {?} */ styles = {}; if (this.hasStarted()) { Object.keys(this._finalKeyframe).forEach(prop => { if (prop != 'offset') { styles[prop] = this._finished ? this._finalKeyframe[prop] : _computeStyle(this.element, prop); } }); } this.currentSnapshot = styles; } /** * @param {?} phaseName * @return {?} */ triggerCallback(phaseName) { const /** @type {?} */ methods = phaseName == 'start' ? this._onStartFns : this._onDoneFns; methods.forEach(fn => fn()); methods.length = 0; } } /** * @param {?} element * @param {?} prop * @return {?} */ function _computeStyle(element, prop) { return (/** @type {?} */ (window.getComputedStyle(element)))[prop]; } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ class WebAnimationsDriver { /** * @param {?} prop * @return {?} */ validateStyleProperty(prop) { return validateStyleProperty(prop); } /** * @param {?} element * @param {?} selector * @return {?} */ matchesElement(element, selector) { return matchesElement(element, selector); } /** * @param {?} elm1 * @param {?} elm2 * @return {?} */ containsElement(elm1, elm2) { return containsElement(elm1, elm2); } /** * @param {?} element * @param {?} selector * @param {?} multi * @return {?} */ query(element, selector, multi) { return invokeQuery(element, selector, multi); } /** * @param {?} element * @param {?} prop * @param {?=} defaultValue * @return {?} */ computeStyle(element, prop, defaultValue) { return /** @type {?} */ ((/** @type {?} */ (window.getComputedStyle(element)))[prop]); } /** * @param {?} element * @param {?} keyframes * @param {?} duration * @param {?} delay * @param {?} easing * @param {?=} previousPlayers * @return {?} */ animate(element, keyframes, duration, delay, easing, previousPlayers = []) { const /** @type {?} */ fill = delay == 0 ? 'both' : 'forwards'; const /** @type {?} */ playerOptions = { duration, delay, fill }; // we check for this to avoid having a null|undefined value be present // for the easing (which results in an error for certain browsers #9752) if (easing) { playerOptions['easing'] = easing; } const /** @type {?} */ previousWebAnimationPlayers = /** @type {?} */ (previousPlayers.filter(player => { return player instanceof WebAnimationsPlayer; })); return new WebAnimationsPlayer(element, keyframes, playerOptions, previousWebAnimationPlayers); } } /** * @return {?} */ function supportsWebAnimations() { return typeof Element !== 'undefined' && typeof (/** @type {?} */ (Element)).prototype['animate'] === 'function'; } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * @module * @description * Entry point for all public APIs of this package. */ /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * Generated bundle index. Do not edit. */ export { AnimationDriver, Animation as ɵAnimation, AnimationStyleNormalizer as ɵAnimationStyleNormalizer, NoopAnimationStyleNormalizer as ɵNoopAnimationStyleNormalizer, WebAnimationsStyleNormalizer as ɵWebAnimationsStyleNormalizer, NoopAnimationDriver as ɵNoopAnimationDriver, AnimationEngine as ɵAnimationEngine, WebAnimationsDriver as ɵWebAnimationsDriver, supportsWebAnimations as ɵsupportsWebAnimations, WebAnimationsPlayer as ɵWebAnimationsPlayer }; //# sourceMappingURL=browser.js.map