/*! * Angular Material Design * https://github.com/angular/material * @license MIT * v1.1.1 */ (function( window, angular, undefined ){ "use strict"; /** * @ngdoc module * @name material.components.virtualRepeat */ VirtualRepeatContainerController.$inject = ["$$rAF", "$mdUtil", "$parse", "$rootScope", "$window", "$scope", "$element", "$attrs"]; VirtualRepeatController.$inject = ["$scope", "$element", "$attrs", "$browser", "$document", "$rootScope", "$$rAF", "$mdUtil"]; VirtualRepeatDirective.$inject = ["$parse"]; angular.module('material.components.virtualRepeat', [ 'material.core', 'material.components.showHide' ]) .directive('mdVirtualRepeatContainer', VirtualRepeatContainerDirective) .directive('mdVirtualRepeat', VirtualRepeatDirective); /** * @ngdoc directive * @name mdVirtualRepeatContainer * @module material.components.virtualRepeat * @restrict E * @description * `md-virtual-repeat-container` provides the scroll container for md-virtual-repeat. * * VirtualRepeat is a limited substitute for ng-repeat that renders only * enough DOM nodes to fill the container and recycling them as the user scrolls. * * Once an element is not visible anymore, the VirtualRepeat recycles it and will reuse it for * another visible item by replacing the previous dataset with the new one. * * ### Common Issues * * > When having one-time bindings inside of the view template, the VirtualRepeat will not properly * > update the bindings for new items, since the view will be recycled. * * ### Notes * * > The VirtualRepeat is a similar implementation to the Android * [RecyclerView](https://developer.android.com/reference/android/support/v7/widget/RecyclerView.html) * * * * > Please also review the VirtualRepeat * documentation for more information. * * * @usage * * * *
Hello {{i}}!
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* * @param {number=} md-top-index Binds the index of the item that is at the top of the scroll * container to $scope. It can both read and set the scroll position. * @param {boolean=} md-orient-horizontal Whether the container should scroll horizontally * (defaults to orientation and scrolling vertically). * @param {boolean=} md-auto-shrink When present, the container will shrink to fit * the number of items when that number is less than its original size. * @param {number=} md-auto-shrink-min Minimum number of items that md-auto-shrink * will shrink to (default: 0). */ function VirtualRepeatContainerDirective() { return { controller: VirtualRepeatContainerController, template: virtualRepeatContainerTemplate, compile: function virtualRepeatContainerCompile($element, $attrs) { $element .addClass('md-virtual-repeat-container') .addClass($attrs.hasOwnProperty('mdOrientHorizontal') ? 'md-orient-horizontal' : 'md-orient-vertical'); } }; } function virtualRepeatContainerTemplate($element) { return '
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' + $element[0].innerHTML + '
'; } /** * Maximum size, in pixels, that can be explicitly set to an element. The actual value varies * between browsers, but IE11 has the very lowest size at a mere 1,533,917px. Ideally we could * *compute* this value, but Firefox always reports an element to have a size of zero if it * goes over the max, meaning that we'd have to binary search for the value. * @const {number} */ var MAX_ELEMENT_SIZE = 1533917; /** * Number of additional elements to render above and below the visible area inside * of the virtual repeat container. A higher number results in less flicker when scrolling * very quickly in Safari, but comes with a higher rendering and dirty-checking cost. * @const {number} */ var NUM_EXTRA = 3; /** ngInject */ function VirtualRepeatContainerController( $$rAF, $mdUtil, $parse, $rootScope, $window, $scope, $element, $attrs) { this.$rootScope = $rootScope; this.$scope = $scope; this.$element = $element; this.$attrs = $attrs; /** @type {number} The width or height of the container */ this.size = 0; /** @type {number} The scroll width or height of the scroller */ this.scrollSize = 0; /** @type {number} The scrollLeft or scrollTop of the scroller */ this.scrollOffset = 0; /** @type {boolean} Whether the scroller is oriented horizontally */ this.horizontal = this.$attrs.hasOwnProperty('mdOrientHorizontal'); /** @type {!VirtualRepeatController} The repeater inside of this container */ this.repeater = null; /** @type {boolean} Whether auto-shrink is enabled */ this.autoShrink = this.$attrs.hasOwnProperty('mdAutoShrink'); /** @type {number} Minimum number of items to auto-shrink to */ this.autoShrinkMin = parseInt(this.$attrs.mdAutoShrinkMin, 10) || 0; /** @type {?number} Original container size when shrank */ this.originalSize = null; /** @type {number} Amount to offset the total scroll size by. */ this.offsetSize = parseInt(this.$attrs.mdOffsetSize, 10) || 0; /** @type {?string} height or width element style on the container prior to auto-shrinking. */ this.oldElementSize = null; if (this.$attrs.mdTopIndex) { /** @type {function(angular.Scope): number} Binds to topIndex on Angular scope */ this.bindTopIndex = $parse(this.$attrs.mdTopIndex); /** @type {number} The index of the item that is at the top of the scroll container */ this.topIndex = this.bindTopIndex(this.$scope); if (!angular.isDefined(this.topIndex)) { this.topIndex = 0; this.bindTopIndex.assign(this.$scope, 0); } this.$scope.$watch(this.bindTopIndex, angular.bind(this, function(newIndex) { if (newIndex !== this.topIndex) { this.scrollToIndex(newIndex); } })); } else { this.topIndex = 0; } this.scroller = $element[0].querySelector('.md-virtual-repeat-scroller'); this.sizer = this.scroller.querySelector('.md-virtual-repeat-sizer'); this.offsetter = this.scroller.querySelector('.md-virtual-repeat-offsetter'); // After the dom stablizes, measure the initial size of the container and // make a best effort at re-measuring as it changes. var boundUpdateSize = angular.bind(this, this.updateSize); $$rAF(angular.bind(this, function() { boundUpdateSize(); var debouncedUpdateSize = $mdUtil.debounce(boundUpdateSize, 10, null, false); var jWindow = angular.element($window); // Make one more attempt to get the size if it is 0. // This is not by any means a perfect approach, but there's really no // silver bullet here. if (!this.size) { debouncedUpdateSize(); } jWindow.on('resize', debouncedUpdateSize); $scope.$on('$destroy', function() { jWindow.off('resize', debouncedUpdateSize); }); $scope.$emit('$md-resize-enable'); $scope.$on('$md-resize', boundUpdateSize); })); } /** Called by the md-virtual-repeat inside of the container at startup. */ VirtualRepeatContainerController.prototype.register = function(repeaterCtrl) { this.repeater = repeaterCtrl; angular.element(this.scroller) .on('scroll wheel touchmove touchend', angular.bind(this, this.handleScroll_)); }; /** @return {boolean} Whether the container is configured for horizontal scrolling. */ VirtualRepeatContainerController.prototype.isHorizontal = function() { return this.horizontal; }; /** @return {number} The size (width or height) of the container. */ VirtualRepeatContainerController.prototype.getSize = function() { return this.size; }; /** * Resizes the container. * @private * @param {number} size The new size to set. */ VirtualRepeatContainerController.prototype.setSize_ = function(size) { var dimension = this.getDimensionName_(); this.size = size; this.$element[0].style[dimension] = size + 'px'; }; VirtualRepeatContainerController.prototype.unsetSize_ = function() { this.$element[0].style[this.getDimensionName_()] = this.oldElementSize; this.oldElementSize = null; }; /** Instructs the container to re-measure its size. */ VirtualRepeatContainerController.prototype.updateSize = function() { // If the original size is already determined, we can skip the update. if (this.originalSize) return; this.size = this.isHorizontal() ? this.$element[0].clientWidth : this.$element[0].clientHeight; // Recheck the scroll position after updating the size. This resolves // problems that can result if the scroll position was measured while the // element was display: none or detached from the document. this.handleScroll_(); this.repeater && this.repeater.containerUpdated(); }; /** @return {number} The container's scrollHeight or scrollWidth. */ VirtualRepeatContainerController.prototype.getScrollSize = function() { return this.scrollSize; }; VirtualRepeatContainerController.prototype.getDimensionName_ = function() { return this.isHorizontal() ? 'width' : 'height'; }; /** * Sets the scroller element to the specified size. * @private * @param {number} size The new size. */ VirtualRepeatContainerController.prototype.sizeScroller_ = function(size) { var dimension = this.getDimensionName_(); var crossDimension = this.isHorizontal() ? 'height' : 'width'; // Clear any existing dimensions. this.sizer.innerHTML = ''; // If the size falls within the browser's maximum explicit size for a single element, we can // set the size and be done. Otherwise, we have to create children that add up the the desired // size. if (size < MAX_ELEMENT_SIZE) { this.sizer.style[dimension] = size + 'px'; } else { this.sizer.style[dimension] = 'auto'; this.sizer.style[crossDimension] = 'auto'; // Divide the total size we have to render into N max-size pieces. var numChildren = Math.floor(size / MAX_ELEMENT_SIZE); // Element template to clone for each max-size piece. var sizerChild = document.createElement('div'); sizerChild.style[dimension] = MAX_ELEMENT_SIZE + 'px'; sizerChild.style[crossDimension] = '1px'; for (var i = 0; i < numChildren; i++) { this.sizer.appendChild(sizerChild.cloneNode(false)); } // Re-use the element template for the remainder. sizerChild.style[dimension] = (size - (numChildren * MAX_ELEMENT_SIZE)) + 'px'; this.sizer.appendChild(sizerChild); } }; /** * If auto-shrinking is enabled, shrinks or unshrinks as appropriate. * @private * @param {number} size The new size. */ VirtualRepeatContainerController.prototype.autoShrink_ = function(size) { var shrinkSize = Math.max(size, this.autoShrinkMin * this.repeater.getItemSize()); if (this.autoShrink && shrinkSize !== this.size) { if (this.oldElementSize === null) { this.oldElementSize = this.$element[0].style[this.getDimensionName_()]; } var currentSize = this.originalSize || this.size; if (!currentSize || shrinkSize < currentSize) { if (!this.originalSize) { this.originalSize = this.size; } // Now we update the containers size, because shrinking is enabled. this.setSize_(shrinkSize); } else if (this.originalSize !== null) { // Set the size back to our initial size. this.unsetSize_(); var _originalSize = this.originalSize; this.originalSize = null; // We determine the repeaters size again, if the original size was zero. // The originalSize needs to be null, to be able to determine the size. if (!_originalSize) this.updateSize(); // Apply the original size or the determined size back to the container, because // it has been overwritten before, in the shrink block. this.setSize_(_originalSize || this.size); } this.repeater.containerUpdated(); } }; /** * Sets the scrollHeight or scrollWidth. Called by the repeater based on * its item count and item size. * @param {number} itemsSize The total size of the items. */ VirtualRepeatContainerController.prototype.setScrollSize = function(itemsSize) { var size = itemsSize + this.offsetSize; if (this.scrollSize === size) return; this.sizeScroller_(size); this.autoShrink_(size); this.scrollSize = size; }; /** @return {number} The container's current scroll offset. */ VirtualRepeatContainerController.prototype.getScrollOffset = function() { return this.scrollOffset; }; /** * Scrolls to a given scrollTop position. * @param {number} position */ VirtualRepeatContainerController.prototype.scrollTo = function(position) { this.scroller[this.isHorizontal() ? 'scrollLeft' : 'scrollTop'] = position; this.handleScroll_(); }; /** * Scrolls the item with the given index to the top of the scroll container. * @param {number} index */ VirtualRepeatContainerController.prototype.scrollToIndex = function(index) { var itemSize = this.repeater.getItemSize(); var itemsLength = this.repeater.itemsLength; if(index > itemsLength) { index = itemsLength - 1; } this.scrollTo(itemSize * index); }; VirtualRepeatContainerController.prototype.resetScroll = function() { this.scrollTo(0); }; VirtualRepeatContainerController.prototype.handleScroll_ = function() { var doc = angular.element(document)[0]; var ltr = doc.dir != 'rtl' && doc.body.dir != 'rtl'; if(!ltr && !this.maxSize) { this.scroller.scrollLeft = this.scrollSize; this.maxSize = this.scroller.scrollLeft; } var offset = this.isHorizontal() ? (ltr?this.scroller.scrollLeft : this.maxSize - this.scroller.scrollLeft) : this.scroller.scrollTop; if (offset === this.scrollOffset || offset > this.scrollSize - this.size) return; var itemSize = this.repeater.getItemSize(); if (!itemSize) return; var numItems = Math.max(0, Math.floor(offset / itemSize) - NUM_EXTRA); var transform = (this.isHorizontal() ? 'translateX(' : 'translateY(') + (!this.isHorizontal() || ltr ? (numItems * itemSize) : - (numItems * itemSize)) + 'px)'; this.scrollOffset = offset; this.offsetter.style.webkitTransform = transform; this.offsetter.style.transform = transform; if (this.bindTopIndex) { var topIndex = Math.floor(offset / itemSize); if (topIndex !== this.topIndex && topIndex < this.repeater.getItemCount()) { this.topIndex = topIndex; this.bindTopIndex.assign(this.$scope, topIndex); if (!this.$rootScope.$$phase) this.$scope.$digest(); } } this.repeater.containerUpdated(); }; /** * @ngdoc directive * @name mdVirtualRepeat * @module material.components.virtualRepeat * @restrict A * @priority 1000 * @description * `md-virtual-repeat` specifies an element to repeat using virtual scrolling. * * Virtual repeat is a limited substitute for ng-repeat that renders only * enough dom nodes to fill the container and recycling them as the user scrolls. * Arrays, but not objects are supported for iteration. * Track by, as alias, and (key, value) syntax are not supported. * * > Note: Please also review the * VirtualRepeatContainer documentation * for more information. * * @usage * * *
Hello {{i}}!
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Hello {{i}}!
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* * @param {number=} md-item-size The height or width of the repeated elements (which must be * identical for each element). Optional. Will attempt to read the size from the dom if missing, * but still assumes that all repeated nodes have same height or width. * @param {string=} md-extra-name Evaluates to an additional name to which the current iterated item * can be assigned on the repeated scope (needed for use in `md-autocomplete`). * @param {boolean=} md-on-demand When present, treats the md-virtual-repeat argument as an object * that can fetch rows rather than an array. * * **NOTE:** This object must implement the following interface with two (2) methods: * * - `getItemAtIndex: function(index) [object]` The item at that index or null if it is not yet * loaded (it should start downloading the item in that case). * - `getLength: function() [number]` The data length to which the repeater container * should be sized. Ideally, when the count is known, this method should return it. * Otherwise, return a higher number than the currently loaded items to produce an * infinite-scroll behavior. */ function VirtualRepeatDirective($parse) { return { controller: VirtualRepeatController, priority: 1000, require: ['mdVirtualRepeat', '^^mdVirtualRepeatContainer'], restrict: 'A', terminal: true, transclude: 'element', compile: function VirtualRepeatCompile($element, $attrs) { var expression = $attrs.mdVirtualRepeat; var match = expression.match(/^\s*([\s\S]+?)\s+in\s+([\s\S]+?)\s*$/); var repeatName = match[1]; var repeatListExpression = $parse(match[2]); var extraName = $attrs.mdExtraName && $parse($attrs.mdExtraName); return function VirtualRepeatLink($scope, $element, $attrs, ctrl, $transclude) { ctrl[0].link_(ctrl[1], $transclude, repeatName, repeatListExpression, extraName); }; } }; } /** ngInject */ function VirtualRepeatController($scope, $element, $attrs, $browser, $document, $rootScope, $$rAF, $mdUtil) { this.$scope = $scope; this.$element = $element; this.$attrs = $attrs; this.$browser = $browser; this.$document = $document; this.$rootScope = $rootScope; this.$$rAF = $$rAF; /** @type {boolean} Whether we are in on-demand mode. */ this.onDemand = $mdUtil.parseAttributeBoolean($attrs.mdOnDemand); /** @type {!Function} Backup reference to $browser.$$checkUrlChange */ this.browserCheckUrlChange = $browser.$$checkUrlChange; /** @type {number} Most recent starting repeat index (based on scroll offset) */ this.newStartIndex = 0; /** @type {number} Most recent ending repeat index (based on scroll offset) */ this.newEndIndex = 0; /** @type {number} Most recent end visible index (based on scroll offset) */ this.newVisibleEnd = 0; /** @type {number} Previous starting repeat index (based on scroll offset) */ this.startIndex = 0; /** @type {number} Previous ending repeat index (based on scroll offset) */ this.endIndex = 0; // TODO: measure width/height of first element from dom if not provided. // getComputedStyle? /** @type {?number} Height/width of repeated elements. */ this.itemSize = $scope.$eval($attrs.mdItemSize) || null; /** @type {boolean} Whether this is the first time that items are rendered. */ this.isFirstRender = true; /** * @private {boolean} Whether the items in the list are already being updated. Used to prevent * nested calls to virtualRepeatUpdate_. */ this.isVirtualRepeatUpdating_ = false; /** @type {number} Most recently seen length of items. */ this.itemsLength = 0; /** * @type {!Function} Unwatch callback for item size (when md-items-size is * not specified), or angular.noop otherwise. */ this.unwatchItemSize_ = angular.noop; /** * Presently rendered blocks by repeat index. * @type {Object} A pool of presently unused blocks. */ this.pooledBlocks = []; $scope.$on('$destroy', angular.bind(this, this.cleanupBlocks_)); } /** * An object representing a repeated item. * @typedef {{element: !jqLite, new: boolean, scope: !angular.Scope}} */ VirtualRepeatController.Block; /** * Called at startup by the md-virtual-repeat postLink function. * @param {!VirtualRepeatContainerController} container The container's controller. * @param {!Function} transclude The repeated element's bound transclude function. * @param {string} repeatName The left hand side of the repeat expression, indicating * the name for each item in the array. * @param {!Function} repeatListExpression A compiled expression based on the right hand side * of the repeat expression. Points to the array to repeat over. * @param {string|undefined} extraName The optional extra repeatName. */ VirtualRepeatController.prototype.link_ = function(container, transclude, repeatName, repeatListExpression, extraName) { this.container = container; this.transclude = transclude; this.repeatName = repeatName; this.rawRepeatListExpression = repeatListExpression; this.extraName = extraName; this.sized = false; this.repeatListExpression = angular.bind(this, this.repeatListExpression_); this.container.register(this); }; /** @private Cleans up unused blocks. */ VirtualRepeatController.prototype.cleanupBlocks_ = function() { angular.forEach(this.pooledBlocks, function cleanupBlock(block) { block.element.remove(); }); }; /** @private Attempts to set itemSize by measuring a repeated element in the dom */ VirtualRepeatController.prototype.readItemSize_ = function() { if (this.itemSize) { // itemSize was successfully read in a different asynchronous call. return; } this.items = this.repeatListExpression(this.$scope); this.parentNode = this.$element[0].parentNode; var block = this.getBlock_(0); if (!block.element[0].parentNode) { this.parentNode.appendChild(block.element[0]); } this.itemSize = block.element[0][ this.container.isHorizontal() ? 'offsetWidth' : 'offsetHeight'] || null; this.blocks[0] = block; this.poolBlock_(0); if (this.itemSize) { this.containerUpdated(); } }; /** * Returns the user-specified repeat list, transforming it into an array-like * object in the case of infinite scroll/dynamic load mode. * @param {!angular.Scope} The scope. * @return {!Array|!Object} An array or array-like object for iteration. */ VirtualRepeatController.prototype.repeatListExpression_ = function(scope) { var repeatList = this.rawRepeatListExpression(scope); if (this.onDemand && repeatList) { var virtualList = new VirtualRepeatModelArrayLike(repeatList); virtualList.$$includeIndexes(this.newStartIndex, this.newVisibleEnd); return virtualList; } else { return repeatList; } }; /** * Called by the container. Informs us that the containers scroll or size has * changed. */ VirtualRepeatController.prototype.containerUpdated = function() { // If itemSize is unknown, attempt to measure it. if (!this.itemSize) { // Make sure to clean up watchers if we can (see #8178) if(this.unwatchItemSize_ && this.unwatchItemSize_ !== angular.noop){ this.unwatchItemSize_(); } this.unwatchItemSize_ = this.$scope.$watchCollection( this.repeatListExpression, angular.bind(this, function(items) { if (items && items.length) { this.readItemSize_(); } })); if (!this.$rootScope.$$phase) this.$scope.$digest(); return; } else if (!this.sized) { this.items = this.repeatListExpression(this.$scope); } if (!this.sized) { this.unwatchItemSize_(); this.sized = true; this.$scope.$watchCollection(this.repeatListExpression, angular.bind(this, function(items, oldItems) { if (!this.isVirtualRepeatUpdating_) { this.virtualRepeatUpdate_(items, oldItems); } })); } this.updateIndexes_(); if (this.newStartIndex !== this.startIndex || this.newEndIndex !== this.endIndex || this.container.getScrollOffset() > this.container.getScrollSize()) { if (this.items instanceof VirtualRepeatModelArrayLike) { this.items.$$includeIndexes(this.newStartIndex, this.newEndIndex); } this.virtualRepeatUpdate_(this.items, this.items); } }; /** * Called by the container. Returns the size of a single repeated item. * @return {?number} Size of a repeated item. */ VirtualRepeatController.prototype.getItemSize = function() { return this.itemSize; }; /** * Called by the container. Returns the size of a single repeated item. * @return {?number} Size of a repeated item. */ VirtualRepeatController.prototype.getItemCount = function() { return this.itemsLength; }; /** * Updates the order and visible offset of repeated blocks in response to scrolling * or items updates. * @private */ VirtualRepeatController.prototype.virtualRepeatUpdate_ = function(items, oldItems) { this.isVirtualRepeatUpdating_ = true; var itemsLength = items && items.length || 0; var lengthChanged = false; // If the number of items shrank, keep the scroll position. if (this.items && itemsLength < this.items.length && this.container.getScrollOffset() !== 0) { this.items = items; var previousScrollOffset = this.container.getScrollOffset(); this.container.resetScroll(); this.container.scrollTo(previousScrollOffset); } if (itemsLength !== this.itemsLength) { lengthChanged = true; this.itemsLength = itemsLength; } this.items = items; if (items !== oldItems || lengthChanged) { this.updateIndexes_(); } this.parentNode = this.$element[0].parentNode; if (lengthChanged) { this.container.setScrollSize(itemsLength * this.itemSize); } if (this.isFirstRender) { this.isFirstRender = false; var startIndex = this.$attrs.mdStartIndex ? this.$scope.$eval(this.$attrs.mdStartIndex) : this.container.topIndex; this.container.scrollToIndex(startIndex); } // Detach and pool any blocks that are no longer in the viewport. Object.keys(this.blocks).forEach(function(blockIndex) { var index = parseInt(blockIndex, 10); if (index < this.newStartIndex || index >= this.newEndIndex) { this.poolBlock_(index); } }, this); // Add needed blocks. // For performance reasons, temporarily block browser url checks as we digest // the restored block scopes ($$checkUrlChange reads window.location to // check for changes and trigger route change, etc, which we don't need when // trying to scroll at 60fps). this.$browser.$$checkUrlChange = angular.noop; var i, block, newStartBlocks = [], newEndBlocks = []; // Collect blocks at the top. for (i = this.newStartIndex; i < this.newEndIndex && this.blocks[i] == null; i++) { block = this.getBlock_(i); this.updateBlock_(block, i); newStartBlocks.push(block); } // Update blocks that are already rendered. for (; this.blocks[i] != null; i++) { this.updateBlock_(this.blocks[i], i); } var maxIndex = i - 1; // Collect blocks at the end. for (; i < this.newEndIndex; i++) { block = this.getBlock_(i); this.updateBlock_(block, i); newEndBlocks.push(block); } // Attach collected blocks to the document. if (newStartBlocks.length) { this.parentNode.insertBefore( this.domFragmentFromBlocks_(newStartBlocks), this.$element[0].nextSibling); } if (newEndBlocks.length) { this.parentNode.insertBefore( this.domFragmentFromBlocks_(newEndBlocks), this.blocks[maxIndex] && this.blocks[maxIndex].element[0].nextSibling); } // Restore $$checkUrlChange. this.$browser.$$checkUrlChange = this.browserCheckUrlChange; this.startIndex = this.newStartIndex; this.endIndex = this.newEndIndex; this.isVirtualRepeatUpdating_ = false; }; /** * @param {number} index Where the block is to be in the repeated list. * @return {!VirtualRepeatController.Block} A new or pooled block to place at the specified index. * @private */ VirtualRepeatController.prototype.getBlock_ = function(index) { if (this.pooledBlocks.length) { return this.pooledBlocks.pop(); } var block; this.transclude(angular.bind(this, function(clone, scope) { block = { element: clone, new: true, scope: scope }; this.updateScope_(scope, index); this.parentNode.appendChild(clone[0]); })); return block; }; /** * Updates and if not in a digest cycle, digests the specified block's scope to the data * at the specified index. * @param {!VirtualRepeatController.Block} block The block whose scope should be updated. * @param {number} index The index to set. * @private */ VirtualRepeatController.prototype.updateBlock_ = function(block, index) { this.blocks[index] = block; if (!block.new && (block.scope.$index === index && block.scope[this.repeatName] === this.items[index])) { return; } block.new = false; // Update and digest the block's scope. this.updateScope_(block.scope, index); // Perform digest before reattaching the block. // Any resulting synchronous dom mutations should be much faster as a result. // This might break some directives, but I'm going to try it for now. if (!this.$rootScope.$$phase) { block.scope.$digest(); } }; /** * Updates scope to the data at the specified index. * @param {!angular.Scope} scope The scope which should be updated. * @param {number} index The index to set. * @private */ VirtualRepeatController.prototype.updateScope_ = function(scope, index) { scope.$index = index; scope[this.repeatName] = this.items && this.items[index]; if (this.extraName) scope[this.extraName(this.$scope)] = this.items[index]; }; /** * Pools the block at the specified index (Pulls its element out of the dom and stores it). * @param {number} index The index at which the block to pool is stored. * @private */ VirtualRepeatController.prototype.poolBlock_ = function(index) { this.pooledBlocks.push(this.blocks[index]); this.parentNode.removeChild(this.blocks[index].element[0]); delete this.blocks[index]; }; /** * Produces a dom fragment containing the elements from the list of blocks. * @param {!Array} blocks The blocks whose elements * should be added to the document fragment. * @return {DocumentFragment} * @private */ VirtualRepeatController.prototype.domFragmentFromBlocks_ = function(blocks) { var fragment = this.$document[0].createDocumentFragment(); blocks.forEach(function(block) { fragment.appendChild(block.element[0]); }); return fragment; }; /** * Updates start and end indexes based on length of repeated items and container size. * @private */ VirtualRepeatController.prototype.updateIndexes_ = function() { var itemsLength = this.items ? this.items.length : 0; var containerLength = Math.ceil(this.container.getSize() / this.itemSize); this.newStartIndex = Math.max(0, Math.min( itemsLength - containerLength, Math.floor(this.container.getScrollOffset() / this.itemSize))); this.newVisibleEnd = this.newStartIndex + containerLength + NUM_EXTRA; this.newEndIndex = Math.min(itemsLength, this.newVisibleEnd); this.newStartIndex = Math.max(0, this.newStartIndex - NUM_EXTRA); }; /** * This VirtualRepeatModelArrayLike class enforces the interface requirements * for infinite scrolling within a mdVirtualRepeatContainer. An object with this * interface must implement the following interface with two (2) methods: * * getItemAtIndex: function(index) -> item at that index or null if it is not yet * loaded (It should start downloading the item in that case). * * getLength: function() -> number The data legnth to which the repeater container * should be sized. Ideally, when the count is known, this method should return it. * Otherwise, return a higher number than the currently loaded items to produce an * infinite-scroll behavior. * * @usage * * *
* Hello {{i}}! *
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* */ function VirtualRepeatModelArrayLike(model) { if (!angular.isFunction(model.getItemAtIndex) || !angular.isFunction(model.getLength)) { throw Error('When md-on-demand is enabled, the Object passed to md-virtual-repeat must implement ' + 'functions getItemAtIndex() and getLength() '); } this.model = model; } VirtualRepeatModelArrayLike.prototype.$$includeIndexes = function(start, end) { for (var i = start; i < end; i++) { if (!this.hasOwnProperty(i)) { this[i] = this.model.getItemAtIndex(i); } } this.length = this.model.getLength(); }; function abstractMethod() { throw Error('Non-overridden abstract method called.'); } })(window, window.angular);