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/**
* Element.matches polyfill
*/
(function(element) {
"use strict";
if (!element.matches && element.matchesSelector)
{
element.matches = element.matchesSelector;
}
if (!element.matches && !element.matchesSelector)
{
element.matches = function(selector) {
var matches = document.querySelectorAll(selector), th = this;
return Array.prototype.some.call(matches, function(e) {
return e === th;
});
};
}
})(Element.prototype);
/**
* Promise polyfill
*/
(function(window) {
"use strict";
if (typeof window.Promise === "undefined" || window.Promise.toString().indexOf("[native code]") === -1)
{
var PROMISE_STATUS = "[[PromiseStatus]]";
var PROMISE_VALUE = "[[PromiseValue]]";
var STATUS_PENDING = "pending";
var STATUS_INTERNAL_PENDING = "internal pending";
var STATUS_RESOLVED = "resolved";
var STATUS_REJECTED = "rejected";
/**
* Handles promise done
* @param {Promise} promise
* @param {Handler} deferred
*/
var handle = function(promise, deferred)
{
if (promise[PROMISE_STATUS] === STATUS_INTERNAL_PENDING)
{
promise = promise[PROMISE_VALUE];
}
if (promise[PROMISE_STATUS] === STATUS_PENDING)
{
promise.deferreds.push(deferred);
}
else
{
promise.handled = true;
setTimeout(function() {
var callback = promise[PROMISE_STATUS] === STATUS_RESOLVED ? deferred.onFulfilled : deferred.onRejected;
if (callback)
{
try {
resolve(deferred.promise, callback(promise[PROMISE_VALUE]));
} catch (err) {
reject(deferred.promise, err);
}
}
else
{
if (promise[PROMISE_STATUS] === STATUS_RESOLVED)
{
resolve(deferred.promise, promise[PROMISE_VALUE]);
}
else
{
reject(deferred.promise, promise[PROMISE_VALUE]);
}
}
}, 0);
}
};
/**
* Resolves promise with value
* @param {Promise} promise
* @param {*} value
*/
var resolve = function(promise, value) {
if (value === promise)
{
throw new TypeError("A promise cannot be resolved with it promise.");
}
try {
if (value && (typeof value === "object" || typeof value === "function"))
{
if (value instanceof Promise)
{
promise[PROMISE_STATUS] = STATUS_INTERNAL_PENDING;
promise[PROMISE_VALUE] = value;
finale(promise);
return;
}
else if (typeof value.then === "function")
{
executePromise(value.then.bind(value), promise);
return;
}
}
promise[PROMISE_STATUS] = STATUS_RESOLVED;
promise[PROMISE_VALUE] = value;
finale(promise);
} catch (err) {
reject(promise, err);
}
};
/**
* Rejects promise with reason
* @param promise
* @param reason
*/
var reject = function(promise, reason)
{
promise[PROMISE_STATUS] = STATUS_REJECTED;
promise[PROMISE_VALUE] = reason;
finale(promise);
};
/**
* Calls async callback
* @param {Promise} promise
*/
var finale = function(promise)
{
if (promise[PROMISE_STATUS] === STATUS_REJECTED && promise.deferreds.length === 0)
{
setTimeout(function() {
if (!promise.handled)
{
console.error("Unhandled Promise Rejection: " + promise[PROMISE_VALUE]);
}
}, 0);
}
promise.deferreds.forEach(function(deferred) {
handle(promise, deferred);
});
promise.deferreds = null;
};
/**
* Executes promise
* @param {function} resolver - Resolver
* @param {Promise} promise
*/
var executePromise = function(resolver, promise)
{
var done = false;
try {
resolver(resolveWrapper, rejectWrapper);
} catch (err) {
if (!done)
{
done = true;
reject(promise, err);
}
}
// Resolve function
function resolveWrapper(value)
{
if (!done)
{
done = true;
resolve(promise, value);
}
}
// Reject function
function rejectWrapper(reason)
{
if (!done)
{
done = true;
reject(promise, reason);
}
}
};
/**
* Implements interface for works with promise handlers
* @param {?function} [onFulfilled]
* @param {?function} [onRejected]
* @param {Promise} promise
*
* @constructor
*/
var Handler = function(onFulfilled, onRejected, promise)
{
this.onFulfilled = typeof onFulfilled === "function" ? onFulfilled : null;
this.onRejected = typeof onRejected === "function" ? onRejected : null;
this.promise = promise;
};
/**
* Implements Promise polyfill
* @param {function} resolver
*
* @constructor
*/
var Promise = function(resolver)
{
this[PROMISE_STATUS] = STATUS_PENDING;
this[PROMISE_VALUE] = null;
this.handled = false;
this.deferreds = [];
// Try execute promise resolver
executePromise(resolver, this);
};
/**
* Appends a rejection handler callback to the promise,
* and returns a new promise resolving to the return value of the callback if it is called,
* or to its original fulfillment value if the promise is instead fulfilled.
*
* @param {function} onRejected
*/
Promise.prototype["catch"] = function(onRejected) {
return this.then(null, onRejected);
};
/**
* Appends fulfillment and rejection handlers to the promise,
* and returns a new promise resolving to the return value of the called handler,
* or to its original settled value if the promise was not handled
* (i.e. if the relevant handler onFulfilled or onRejected is not a function).
*
* @param {function} onFulfilled
* @param {function} [onRejected]
* @returns {Promise}
*/
Promise.prototype.then = function(onFulfilled, onRejected)
{
var promise = new Promise(function() {});
handle(this, new Handler(onFulfilled, onRejected, promise));
return promise;
};
/**
* The method returns a single Promise that resolves when all of the promises
* in the iterable argument have resolved or when the iterable argument contains no promises.
* It rejects with the reason of the first promise that rejects.
*
* @static
* @param iterable - An iterable object such as an Array or String
* @return {Promise}
*/
Promise.all = function(iterable)
{
var args = [].slice.call(iterable);
return new Promise(function(resolve, reject) {
if (args.length === 0)
{
resolve(args);
}
else
{
var remaining = args.length;
var res = function(i, val)
{
try {
if (val && (typeof val === "object" || typeof val === "function"))
{
if (typeof val.then === "function")
{
val.then.call(val, function(val) {
res(i, val);
}, reject);
return;
}
}
args[i] = val;
if (--remaining === 0)
{
resolve(args);
}
} catch (ex) {
reject(ex);
}
};
for (var i = 0; i < args.length; i++)
{
res(i, args[i]);
}
}
});
};
/**
* The method returns a Promise object that is resolved with the given value.
* If the value is a thenable (i.e. has a "then" method),
* the returned promise will "follow" that thenable, adopting its eventual state;
* if the value was a promise, that object becomes the result of the call to Promise.resolve;
* otherwise the returned promise will be fulfilled with the value.
*
* @param {*|Promise} value - Argument to be resolved by this Promise. Can also be a Promise or a thenable to resolve.
* @returns {Promise}
*/
Promise.resolve = function(value)
{
if (value && typeof value === "object" && value.constructor === Promise)
{
return value;
}
return new Promise(function(resolve) {
resolve(value);
});
};
/**
* The method returns a Promise object that is rejected with the given reason.
*
* @param {*} reason - Reason why this Promise rejected.
* @returns {Promise}
*/
Promise.reject = function(reason)
{
return new Promise(function(resolve, reject) {
reject(reason);
});
};
/**
* The Promise.race(iterable) method returns a promise that resolves or rejects
* as soon as one of the promises in the iterable resolves or rejects,
* with the value or reason from that promise.
*
* @static
* @param iterable - An iterable object, such as an Array.
* @see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Iteration_protocols
* @returns {Promise}
*/
Promise.race = function(iterable)
{
return new Promise(function(resolve, reject) {
for (var i = 0, len = iterable.length; i < len; i++)
{
iterable[i].then(resolve, reject);
}
});
};
window.Promise = Promise;
}
})(window);
/**
* String.prototype.includes polyfill
*/
(function() {
"use strict";
if (!String.prototype.includes)
{
String.prototype.includes = function(search, start)
{
if (typeof start !== 'number')
{
start = 0;
}
if (typeof search !== "string" ||
(start + search.length) > this.length)
{
return false;
}
else
{
return this.indexOf(search, start) !== -1;
}
};
}
})();
/**
* Array.prototype.find polyfill
*/
(function() {
"use strict";
if (typeof Array.prototype.find !== "function")
{
Array.prototype.find = function(predicate, thisArg)
{
if (this === null)
{
throw new TypeError('Cannot read property \'find\' of null');
}
if (typeof predicate !== "function")
{
throw new TypeError(typeof predicate + ' is not a function');
}
var arrLength = this.length;
for (var i = 0; i < arrLength; i++)
{
if (predicate.call(thisArg, this[i], i, this)) {
return this[i];
}
}
};
}
})();
/**
* Array.prototype.find polyfill
*/
(function() {
"use strict";
if (typeof Array.prototype.includes !== "function")
{
Array.prototype.includes = function(element)
{
var result = this.find(function(currentElement) {
return currentElement === element;
});
return result === element;
};
}
})();
/**
* Object.assign polyfill
*/
(function() {
"use strict";
if (!Object.assign)
{
Object.defineProperty(Object, 'assign', {
enumerable: false,
configurable: true,
writable: true,
value: function(target, firstSource) {
if (target === undefined || target === null)
{
throw new TypeError('Cannot convert first argument to object');
}
var to = Object(target);
for (var i = 1; i < arguments.length; i++)
{
var nextSource = arguments[i];
if (nextSource === undefined || nextSource === null)
{
continue;
}
var keysArray = Object.keys(Object(nextSource));
for (var nextIndex = 0, len = keysArray.length; nextIndex < len; nextIndex++)
{
var nextKey = keysArray[nextIndex];
var desc = Object.getOwnPropertyDescriptor(nextSource, nextKey);
if (desc !== undefined && desc.enumerable)
{
to[nextKey] = nextSource[nextKey];
}
}
}
return to;
}
});
}
})();
/**
* Copyright 2016 Google Inc. All Rights Reserved.
*
* Licensed under the W3C SOFTWARE AND DOCUMENT NOTICE AND LICENSE.
*
* https://www.w3.org/Consortium/Legal/2015/copyright-software-and-document
*
*/
(function(window, document) {
'use strict';
if ('IntersectionObserver' in window &&
'IntersectionObserverEntry' in window &&
'intersectionRatio' in window.IntersectionObserverEntry.prototype) {
// Minimal polyfill for Edge 15's lack of `isIntersecting`
// See: https://github.com/w3c/IntersectionObserver/issues/211
if (!('isIntersecting' in window.IntersectionObserverEntry.prototype)) {
Object.defineProperty(window.IntersectionObserverEntry.prototype,
'isIntersecting', {
get: function () {
return this.intersectionRatio > 0;
}
});
}
return;
}
/**
* An IntersectionObserver registry. This registry exists to hold a strong
* reference to IntersectionObserver instances currently observering a target
* element. Without this registry, instances without another reference may be
* garbage collected.
*/
var registry = [];
/**
* Creates the global IntersectionObserverEntry constructor.
* https://w3c.github.io/IntersectionObserver/#intersection-observer-entry
* @param {Object} entry A dictionary of instance properties.
* @constructor
*/
function IntersectionObserverEntry(entry) {
this.time = entry.time;
this.target = entry.target;
this.rootBounds = entry.rootBounds;
this.boundingClientRect = entry.boundingClientRect;
this.intersectionRect = entry.intersectionRect || getEmptyRect();
this.isIntersecting = !!entry.intersectionRect;
// Calculates the intersection ratio.
var targetRect = this.boundingClientRect;
var targetArea = targetRect.width * targetRect.height;
var intersectionRect = this.intersectionRect;
var intersectionArea = intersectionRect.width * intersectionRect.height;
// Sets intersection ratio.
if (targetArea) {
this.intersectionRatio = intersectionArea / targetArea;
} else {
// If area is zero and is intersecting, sets to 1, otherwise to 0
this.intersectionRatio = this.isIntersecting ? 1 : 0;
}
}
/**
* Creates the global IntersectionObserver constructor.
* https://w3c.github.io/IntersectionObserver/#intersection-observer-interface
* @param {Function} callback The function to be invoked after intersection
* changes have queued. The function is not invoked if the queue has
* been emptied by calling the `takeRecords` method.
* @param {Object=} opt_options Optional configuration options.
* @constructor
*/
function IntersectionObserver(callback, opt_options) {
var options = opt_options || {};
if (typeof callback != 'function') {
throw new Error('callback must be a function');
}
if (options.root && options.root.nodeType != 1) {
throw new Error('root must be an Element');
}
// Binds and throttles `this._checkForIntersections`.
this._checkForIntersections = throttle(
this._checkForIntersections.bind(this), this.THROTTLE_TIMEOUT);
// Private properties.
this._callback = callback;
this._observationTargets = [];
this._queuedEntries = [];
this._rootMarginValues = this._parseRootMargin(options.rootMargin);
// Public properties.
this.thresholds = this._initThresholds(options.threshold);
this.root = options.root || null;
this.rootMargin = this._rootMarginValues.map(function(margin) {
return margin.value + margin.unit;
}).join(' ');
}
/**
* The minimum interval within which the document will be checked for
* intersection changes.
*/
IntersectionObserver.prototype.THROTTLE_TIMEOUT = 100;
/**
* The frequency in which the polyfill polls for intersection changes.
* this can be updated on a per instance basis and must be set prior to
* calling `observe` on the first target.
*/
IntersectionObserver.prototype.POLL_INTERVAL = null;
/**
* Use a mutation observer on the root element
* to detect intersection changes.
*/
IntersectionObserver.prototype.USE_MUTATION_OBSERVER = true;
/**
* Starts observing a target element for intersection changes based on
* the thresholds values.
* @param {Element} target The DOM element to observe.
*/
IntersectionObserver.prototype.observe = function(target) {
var isTargetAlreadyObserved = this._observationTargets.some(function(item) {
return item.element == target;
});
if (isTargetAlreadyObserved) {
return;
}
if (!(target && target.nodeType == 1)) {
throw new Error('target must be an Element');
}
this._registerInstance();
this._observationTargets.push({element: target, entry: null});
this._monitorIntersections();
this._checkForIntersections();
};
/**
* Stops observing a target element for intersection changes.
* @param {Element} target The DOM element to observe.
*/
IntersectionObserver.prototype.unobserve = function(target) {
this._observationTargets =
this._observationTargets.filter(function(item) {
return item.element != target;
});
if (!this._observationTargets.length) {
this._unmonitorIntersections();
this._unregisterInstance();
}
};
/**
* Stops observing all target elements for intersection changes.
*/
IntersectionObserver.prototype.disconnect = function() {
this._observationTargets = [];
this._unmonitorIntersections();
this._unregisterInstance();
};
/**
* Returns any queue entries that have not yet been reported to the
* callback and clears the queue. This can be used in conjunction with the
* callback to obtain the absolute most up-to-date intersection information.
* @return {Array} The currently queued entries.
*/
IntersectionObserver.prototype.takeRecords = function() {
var records = this._queuedEntries.slice();
this._queuedEntries = [];
return records;
};
/**
* Accepts the threshold value from the user configuration object and
* returns a sorted array of unique threshold values. If a value is not
* between 0 and 1 and error is thrown.
* @private
* @param {Array|number=} opt_threshold An optional threshold value or
* a list of threshold values, defaulting to [0].
* @return {Array} A sorted list of unique and valid threshold values.
*/
IntersectionObserver.prototype._initThresholds = function(opt_threshold) {
var threshold = opt_threshold || [0];
if (!Array.isArray(threshold)) threshold = [threshold];
return threshold.sort().filter(function(t, i, a) {
if (typeof t != 'number' || isNaN(t) || t < 0 || t > 1) {
throw new Error('threshold must be a number between 0 and 1 inclusively');
}
return t !== a[i - 1];
});
};
/**
* Accepts the rootMargin value from the user configuration object
* and returns an array of the four margin values as an object containing
* the value and unit properties. If any of the values are not properly
* formatted or use a unit other than px or %, and error is thrown.
* @private
* @param {string=} opt_rootMargin An optional rootMargin value,
* defaulting to '0px'.
* @return {Array<Object>} An array of margin objects with the keys
* value and unit.
*/
IntersectionObserver.prototype._parseRootMargin = function(opt_rootMargin) {
var marginString = opt_rootMargin || '0px';
var margins = marginString.split(/\s+/).map(function(margin) {
var parts = /^(-?\d*\.?\d+)(px|%)$/.exec(margin);
if (!parts) {
throw new Error('rootMargin must be specified in pixels or percent');
}
return {value: parseFloat(parts[1]), unit: parts[2]};
});
// Handles shorthand.
margins[1] = margins[1] || margins[0];
margins[2] = margins[2] || margins[0];
margins[3] = margins[3] || margins[1];
return margins;
};
/**
* Starts polling for intersection changes if the polling is not already
* happening, and if the page's visibilty state is visible.
* @private
*/
IntersectionObserver.prototype._monitorIntersections = function() {
if (!this._monitoringIntersections) {
this._monitoringIntersections = true;
// If a poll interval is set, use polling instead of listening to
// resize and scroll events or DOM mutations.
if (this.POLL_INTERVAL) {
this._monitoringInterval = setInterval(
this._checkForIntersections, this.POLL_INTERVAL);
}
else {
addEvent(window, 'resize', this._checkForIntersections, true);
addEvent(document, 'scroll', this._checkForIntersections, true);
if (this.USE_MUTATION_OBSERVER && 'MutationObserver' in window) {
this._domObserver = new MutationObserver(this._checkForIntersections);
this._domObserver.observe(document, {
attributes: true,
childList: true,
characterData: true,
subtree: true
});
}
}
}
};
/**
* Stops polling for intersection changes.
* @private
*/
IntersectionObserver.prototype._unmonitorIntersections = function() {
if (this._monitoringIntersections) {
this._monitoringIntersections = false;
clearInterval(this._monitoringInterval);
this._monitoringInterval = null;
removeEvent(window, 'resize', this._checkForIntersections, true);
removeEvent(document, 'scroll', this._checkForIntersections, true);
if (this._domObserver) {
this._domObserver.disconnect();
this._domObserver = null;
}
}
};
/**
* Scans each observation target for intersection changes and adds them
* to the internal entries queue. If new entries are found, it
* schedules the callback to be invoked.
* @private
*/
IntersectionObserver.prototype._checkForIntersections = function() {
var rootIsInDom = this._rootIsInDom();
var rootRect = rootIsInDom ? this._getRootRect() : getEmptyRect();
this._observationTargets.forEach(function(item) {
var target = item.element;
var targetRect = getBoundingClientRect(target);
var rootContainsTarget = this._rootContainsTarget(target);
var oldEntry = item.entry;
var intersectionRect = rootIsInDom && rootContainsTarget &&
this._computeTargetAndRootIntersection(target, rootRect);
var newEntry = item.entry = new IntersectionObserverEntry({
time: now(),
target: target,
boundingClientRect: targetRect,
rootBounds: rootRect,
intersectionRect: intersectionRect
});
if (!oldEntry) {
this._queuedEntries.push(newEntry);
} else if (rootIsInDom && rootContainsTarget) {
// If the new entry intersection ratio has crossed any of the
// thresholds, add a new entry.
if (this._hasCrossedThreshold(oldEntry, newEntry)) {
this._queuedEntries.push(newEntry);
}
} else {
// If the root is not in the DOM or target is not contained within
// root but the previous entry for this target had an intersection,
// add a new record indicating removal.
if (oldEntry && oldEntry.isIntersecting) {
this._queuedEntries.push(newEntry);
}
}
}, this);
if (this._queuedEntries.length) {
this._callback(this.takeRecords(), this);
}
};
/**
* Accepts a target and root rect computes the intersection between then
* following the algorithm in the spec.
* TODO(philipwalton): at this time clip-path is not considered.
* https://w3c.github.io/IntersectionObserver/#calculate-intersection-rect-algo
* @param {Element} target The target DOM element
* @param {Object} rootRect The bounding rect of the root after being
* expanded by the rootMargin value.
* @return {?Object} The final intersection rect object or undefined if no
* intersection is found.
* @private
*/
IntersectionObserver.prototype._computeTargetAndRootIntersection =
function(target, rootRect) {
// If the element isn't displayed, an intersection can't happen.
if (window.getComputedStyle(target).display == 'none') return;
var targetRect = getBoundingClientRect(target);
var intersectionRect = targetRect;
var parent = getParentNode(target);
var atRoot = false;
while (!atRoot) {
var parentRect = null;
var parentComputedStyle = parent.nodeType == 1 ?
window.getComputedStyle(parent) : {};
// If the parent isn't displayed, an intersection can't happen.
if (parentComputedStyle.display == 'none') return;
if (parent == this.root || parent == document) {
atRoot = true;
parentRect = rootRect;
} else {
// If the element has a non-visible overflow, and it's not the <body>
// or <html> element, update the intersection rect.
// Note: <body> and <html> cannot be clipped to a rect that's not also
// the document rect, so no need to compute a new intersection.
if (parent != document.body &&
parent != document.documentElement &&
parentComputedStyle.overflow != 'visible') {
parentRect = getBoundingClientRect(parent);
}
}
// If either of the above conditionals set a new parentRect,
// calculate new intersection data.
if (parentRect) {
intersectionRect = computeRectIntersection(parentRect, intersectionRect);
if (!intersectionRect) break;
}
parent = getParentNode(parent);
}
return intersectionRect;
};
/**
* Returns the root rect after being expanded by the rootMargin value.
* @return {Object} The expanded root rect.
* @private
*/
IntersectionObserver.prototype._getRootRect = function() {
var rootRect;
if (this.root) {
rootRect = getBoundingClientRect(this.root);
} else {
// Use <html>/<body> instead of window since scroll bars affect size.
var html = document.documentElement;
var body = document.body;
rootRect = {
top: 0,
left: 0,
right: html.clientWidth || body.clientWidth,
width: html.clientWidth || body.clientWidth,
bottom: html.clientHeight || body.clientHeight,
height: html.clientHeight || body.clientHeight
};
}
return this._expandRectByRootMargin(rootRect);
};
/**
* Accepts a rect and expands it by the rootMargin value.
* @param {Object} rect The rect object to expand.
* @return {Object} The expanded rect.
* @private
*/
IntersectionObserver.prototype._expandRectByRootMargin = function(rect) {
var margins = this._rootMarginValues.map(function(margin, i) {
return margin.unit == 'px' ? margin.value :
margin.value * (i % 2 ? rect.width : rect.height) / 100;
});
var newRect = {
top: rect.top - margins[0],
right: rect.right + margins[1],
bottom: rect.bottom + margins[2],
left: rect.left - margins[3]
};
newRect.width = newRect.right - newRect.left;
newRect.height = newRect.bottom - newRect.top;
return newRect;
};
/**
* Accepts an old and new entry and returns true if at least one of the
* threshold values has been crossed.
* @param {?IntersectionObserverEntry} oldEntry The previous entry for a
* particular target element or null if no previous entry exists.
* @param {IntersectionObserverEntry} newEntry The current entry for a
* particular target element.
* @return {boolean} Returns true if a any threshold has been crossed.
* @private
*/
IntersectionObserver.prototype._hasCrossedThreshold =
function(oldEntry, newEntry) {
// To make comparing easier, an entry that has a ratio of 0
// but does not actually intersect is given a value of -1
var oldRatio = oldEntry && oldEntry.isIntersecting ?
oldEntry.intersectionRatio || 0 : -1;
var newRatio = newEntry.isIntersecting ?
newEntry.intersectionRatio || 0 : -1;
// Ignore unchanged ratios
if (oldRatio === newRatio) return;
for (var i = 0; i < this.thresholds.length; i++) {
var threshold = this.thresholds[i];
// Return true if an entry matches a threshold or if the new ratio
// and the old ratio are on the opposite sides of a threshold.
if (threshold == oldRatio || threshold == newRatio ||
threshold < oldRatio !== threshold < newRatio) {
return true;
}
}
};
/**
* Returns whether or not the root element is an element and is in the DOM.
* @return {boolean} True if the root element is an element and is in the DOM.
* @private
*/
IntersectionObserver.prototype._rootIsInDom = function() {
return !this.root || containsDeep(document, this.root);
};
/**
* Returns whether or not the target element is a child of root.
* @param {Element} target The target element to check.
* @return {boolean} True if the target element is a child of root.
* @private
*/
IntersectionObserver.prototype._rootContainsTarget = function(target) {
return containsDeep(this.root || document, target);
};
/**
* Adds the instance to the global IntersectionObserver registry if it isn't
* already present.
* @private
*/
IntersectionObserver.prototype._registerInstance = function() {
if (registry.indexOf(this) < 0) {
registry.push(this);
}
};
/**
* Removes the instance from the global IntersectionObserver registry.
* @private
*/
IntersectionObserver.prototype._unregisterInstance = function() {
var index = registry.indexOf(this);
if (index != -1) registry.splice(index, 1);
};
/**
* Returns the result of the performance.now() method or null in browsers
* that don't support the API.
* @return {number} The elapsed time since the page was requested.
*/
function now() {
return window.performance && performance.now && performance.now();
}
/**
* Throttles a function and delays its executiong, so it's only called at most
* once within a given time period.
* @param {Function} fn The function to throttle.
* @param {number} timeout The amount of time that must pass before the
* function can be called again.
* @return {Function} The throttled function.
*/
function throttle(fn, timeout) {
var timer = null;
return function () {
if (!timer) {
timer = setTimeout(function() {
fn();
timer = null;
}, timeout);
}
};
}
/**
* Adds an event handler to a DOM node ensuring cross-browser compatibility.
* @param {Node} node The DOM node to add the event handler to.
* @param {string} event The event name.
* @param {Function} fn The event handler to add.
* @param {boolean} opt_useCapture Optionally adds the even to the capture
* phase. Note: this only works in modern browsers.
*/
function addEvent(node, event, fn, opt_useCapture) {
if (typeof node.addEventListener == 'function') {
node.addEventListener(event, fn, opt_useCapture || false);
}
else if (typeof node.attachEvent == 'function') {
node.attachEvent('on' + event, fn);
}
}
/**
* Removes a previously added event handler from a DOM node.
* @param {Node} node The DOM node to remove the event handler from.
* @param {string} event The event name.
* @param {Function} fn The event handler to remove.
* @param {boolean} opt_useCapture If the event handler was added with this
* flag set to true, it should be set to true here in order to remove it.
*/
function removeEvent(node, event, fn, opt_useCapture) {
if (typeof node.removeEventListener == 'function') {
node.removeEventListener(event, fn, opt_useCapture || false);
}
else if (typeof node.detatchEvent == 'function') {
node.detatchEvent('on' + event, fn);
}
}
/**
* Returns the intersection between two rect objects.
* @param {Object} rect1 The first rect.
* @param {Object} rect2 The second rect.
* @return {?Object} The intersection rect or undefined if no intersection
* is found.
*/
function computeRectIntersection(rect1, rect2) {
var top = Math.max(rect1.top, rect2.top);
var bottom = Math.min(rect1.bottom, rect2.bottom);
var left = Math.max(rect1.left, rect2.left);
var right = Math.min(rect1.right, rect2.right);
var width = right - left;
var height = bottom - top;
return (width >= 0 && height >= 0) && {
top: top,
bottom: bottom,
left: left,
right: right,
width: width,
height: height
};
}
/**
* Shims the native getBoundingClientRect for compatibility with older IE.
* @param {Element} el The element whose bounding rect to get.
* @return {Object} The (possibly shimmed) rect of the element.
*/
function getBoundingClientRect(el) {
var rect;
try {
rect = el.getBoundingClientRect();
} catch (err) {
// Ignore Windows 7 IE11 "Unspecified error"
// https://github.com/w3c/IntersectionObserver/pull/205
}
if (!rect) return getEmptyRect();
// Older IE
if (!(rect.width && rect.height)) {
rect = {
top: rect.top,
right: rect.right,
bottom: rect.bottom,
left: rect.left,
width: rect.right - rect.left,
height: rect.bottom - rect.top
};
}
return rect;
}
/**
* Returns an empty rect object. An empty rect is returned when an element
* is not in the DOM.
* @return {Object} The empty rect.
*/
function getEmptyRect() {
return {
top: 0,
bottom: 0,
left: 0,
right: 0,
width: 0,
height: 0
};
}
/**
* Checks to see if a parent element contains a child elemnt (including inside
* shadow DOM).
* @param {Node} parent The parent element.
* @param {Node} child The child element.
* @return {boolean} True if the parent node contains the child node.
*/
function containsDeep(parent, child) {
var node = child;
while (node) {
if (node == parent) return true;
node = getParentNode(node);
}
return false;
}
/**
* Gets the parent node of an element or its host element if the parent node
* is a shadow root.
* @param {Node} node The node whose parent to get.
* @return {Node|null} The parent node or null if no parent exists.
*/
function getParentNode(node) {
var parent = node.parentNode;
if (parent && parent.nodeType == 11 && parent.host) {
// If the parent is a shadow root, return the host element.
return parent.host;
}
return parent;
}
// Exposes the constructors globally.
window.IntersectionObserver = IntersectionObserver;
window.IntersectionObserverEntry = IntersectionObserverEntry;
}(window, document));
/**
* Element.closest polyfill
*/
(function() {
if (!Element.prototype.closest)
{
/**
* @param {string} selector
* @return {HTMLElement|Element|Node}
*/
Element.prototype.closest = function(selector) {
var node = this;
while (node)
{
if (node.matches(selector))
{
return node;
}
node = node.parentElement;
}
return null;
};
}
})();
/**
* CustomEvent polyfill
*/
(function ()
{
if (typeof window.CustomEvent === "function") return false;
function CustomEvent(event, params)
{
params = params || {bubbles: false, cancelable: false, detail: undefined};
var evt = document.createEvent('CustomEvent');
evt.initCustomEvent(event, params.bubbles, params.cancelable, params.detail);
return evt;
}
CustomEvent.prototype = window.Event.prototype;
window.CustomEvent = CustomEvent;
})();
/*! loadCSS. [c]2017 Filament Group, Inc. MIT License */
(function(w){
"use strict";
if (!w.loadCSS)
{
w.loadCSS = (function() {});
}
var rp = loadCSS.relpreload = {};
rp.support = (function() {
var ret;
try
{
ret = w.document.createElement("link").relList.supports("preload");
}
catch (e)
{
ret = false;
}
return function()
{
return ret;
};
})();
rp.bindMediaToggle = function(link)
{
var finalMedia = link.media || "all";
function enableStylesheet()
{
link.media = finalMedia;
}
if (link.addEventListener)
{
link.addEventListener("load", enableStylesheet);
}
else if (link.attachEvent)
{
link.attachEvent("onload", enableStylesheet);
}
setTimeout(function() {
link.rel = "stylesheet";
link.media = "only x";
});
setTimeout(enableStylesheet, 3000);
};
rp.poly = function()
{
if (rp.support())
{
return;
}
var links = w.document.getElementsByTagName("link");
for (var i = 0; i < links.length; i++)
{
var link = links[ i ];
if (link.rel === "preload" && link.getAttribute("as") === "style" && !link.getAttribute("data-loadcss"))
{
link.setAttribute("data-loadcss", true);
rp.bindMediaToggle(link);
}
}
};
if (!rp.support())
{
rp.poly();
var run = w.setInterval(rp.poly, 500);
if (w.addEventListener)
{
w.addEventListener("load", function() {
rp.poly();
w.clearInterval(run);
});
}
else if (w.attachEvent)
{
w.attachEvent("onload", function() {
rp.poly();
w.clearInterval(run);
});
}
}
w.loadCSS = loadCSS;
})(window);