/** * @private * A collection containing the result of applying grouping to the records in the store. */Ext.define('Ext.util.GroupCollection', { extend: 'Ext.util.Collection', requires: [ 'Ext.util.Group', // Since Collection uses sub-collections of various derived types we step up to // list all the requirements of Collection. The idea being that instead of a // "requires" of Ext.util.Collection (which cannot pull everything) you instead // do a "requires" of Ext.util.GroupCollection and it will. 'Ext.util.SorterCollection', 'Ext.util.FilterCollection' ], isGroupCollection: true, config: { grouper: null, itemRoot: null }, observerPriority: -100, //------------------------------------------------------------------------- // Calls from the source Collection: onCollectionAdd: function (source, details) { this.addItemsToGroups(source, details.items); }, onCollectionBeforeItemChange: function (source, details) { this.changeDetails = details; }, onCollectionBeginUpdate: function () { this.beginUpdate(); }, onCollectionEndUpdate: function () { this.endUpdate(); }, onCollectionItemChange: function (source, details) { var item = details.item; // Check if the change to the item caused the item to move. If it did, the group ordering // will be handled by virtue of being removed/added to the collection. If not, check whether // we're in the correct group and fix up if not. if (!details.indexChanged) { this.syncItemGrouping(source, item, source.getKey(item), details.oldKey, details.oldIndex); } this.changeDetails = null; }, onCollectionRefresh: function (source) { this.removeAll(); this.addItemsToGroups(source, source.items); }, onCollectionRemove: function (source, details) { var me = this, changeDetails = me.changeDetails, entries, entry, group, i, n, removeGroups, item; if (changeDetails) { // The item has changed, so the group key may be different, need // to look it up item = changeDetails.item; group = me.findGroupForItem(item); entries = []; if (group) { entries.push({ group: group, items: [item] }); } } else { entries = me.groupItems(source, details.items, false); } for (i = 0, n = entries.length; i < n; ++i) { group = (entry = entries[i]).group; if (group) { group.remove(entry.items); if (!group.length) { (removeGroups || (removeGroups = [])).push(group); } } } if (removeGroups) { me.remove(removeGroups); } }, // If the SorterCollection instance is not changing, the Group will react to // changes inside the SorterCollection, but if the instance changes we need // to sync the Group to the new SorterCollection. onCollectionSort: function (source) { // sorting the collection effectively sorts the items in each group... var me = this, sorters = source.getSorters(false), items, length, i, group; if (sorters) { items = me.items; length = me.length; for (i = 0; i < length; ++i) { group = items[i]; if (group.getSorters() !== sorters) { group.setSorters(sorters); } } } }, onCollectionUpdateKey: function (source, details) { var index = details.index, item = details.item; if (!details.indexChanged) { index = source.indexOf(item); this.syncItemGrouping(source, item, details.newKey, details.oldKey, index); } }, //------------------------------------------------------------------------- // Private addItemsToGroups: function (source, items) { this.groupItems(source, items, true); }, groupItems: function (source, items, adding) { var me = this, byGroup = {}, entries = [], grouper = source.getGrouper(), groupKeys = me.itemGroupKeys, entry, group, groupKey, i, item, itemKey, len, newGroups; for (i = 0, len = items.length; i < len; ++i) { groupKey = grouper.getGroupString(item = items[i]); itemKey = source.getKey(item); if (adding) { (groupKeys || (me.itemGroupKeys = groupKeys = {}))[itemKey] = groupKey; } else if (groupKeys) { delete groupKeys[itemKey]; } if (!(entry = byGroup[groupKey])) { if (!(group = me.getByKey(groupKey)) && adding) { (newGroups || (newGroups = [])).push(group = me.createGroup(source, groupKey)); } entries.push(byGroup[groupKey] = entry = { group: group, items: [] }); } entry.items.push(item); } for (i = 0, len = entries.length; i < len; ++i) { entry = entries[i]; entry.group.add(entry.items); } if (newGroups) { me.add(newGroups); } return entries; }, syncItemGrouping: function (source, item, itemKey, oldKey, itemIndex) { var me = this, itemGroupKeys = me.itemGroupKeys || (me.itemGroupKeys = {}), grouper = source.getGrouper(), groupKey = grouper.getGroupString(item), removeGroups = 0, index = -1, addGroups, group, oldGroup, oldGroupKey, firstIndex; if (oldKey) { oldGroupKey = itemGroupKeys[oldKey]; delete itemGroupKeys[oldKey]; } else { oldGroupKey = itemGroupKeys[itemKey]; } itemGroupKeys[itemKey] = groupKey; if (!(group = me.get(groupKey))) { group = me.createGroup(source, groupKey); addGroups = [group]; } // This checks whether or not the item is in the collection. // Short optimization instead of calling contains since we already have the key here. if (group.get(itemKey) !== item) { if (group.getCount() > 0 && source.getSorters().getCount() === 0) { // We have items in the group & it's not sorted, so find the // correct position in the group to insert. firstIndex = source.indexOf(group.items[0]); if (itemIndex < firstIndex) { index = 0; } else { index = itemIndex - firstIndex; } } if (index === -1) { group.add(item); } else { group.insert(index, item); } } else { group.itemChanged(item); } if (groupKey !== oldGroupKey && (oldGroupKey === 0 || oldGroupKey)) { oldGroup = me.get(oldGroupKey); if (oldGroup) { oldGroup.remove(item); if (!oldGroup.length) { removeGroups = [oldGroup]; } } } if (addGroups) { me.splice(0, removeGroups, addGroups); } else if (removeGroups) { me.splice(0, removeGroups); } }, createGroup: function(source, key) { var group = new Ext.util.Group({ groupKey: key, rootProperty: this.getItemRoot(), sorters: source.getSorters() }); return group; }, getKey: function(item) { return item.getGroupKey(); }, createSortFn: function () { var me = this, grouper = me.getGrouper(), sorterFn = me.getSorters().getSortFn(); if (!grouper) { return sorterFn; } return function (lhs, rhs) { // The grouper has come from the collection, so we pass the items in // the group for comparison because the grouper is also used to // sort the data in the collection return grouper.sort(lhs.items[0], rhs.items[0]) || sorterFn(lhs, rhs); }; }, updateGrouper: function(grouper) { var me = this; me.grouped = !!(grouper && me.$groupable.getAutoGroup()); me.onSorterChange(); me.onEndUpdateSorters(me.getSorters()); }, destroy: function() { this.$groupable = null; this.callParent(); }, privates: { findGroupForItem: function(item) { var items = this.items, len = items.length, i, group; for (i = 0; i < len; ++i) { group = items[i]; if (group.contains(item)) { return group; } } } }});