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一般情况下,分页展示是前端只负责展示,后台通过SQL语句实现分页查询。当总数据量在千条以下,适合一次性查询出符合条件的所有数据,让前端页面负责分页也是一种选择。
现通过ExtJS 4扩展类库Ext.ux.data.PagingStore来实现分页,建议使用前在GitHub获取最新版本。
使用时非常简单,只需将Store的继承类改为“Ext.ux.data.PagingStore”,其他分页配置可参照之前的文章《ExtJS实现分页grid paging》。
Ext.define(‘XXX‘, { extend : ‘Ext.ux.data.PagingStore‘ ... })
但是,针对不同的应用场景还有2个疑问:
根据PagingStore的实现来看,只有查询参数修改后才会再次调用后台进行查询。但是,如果我们修改了列表中某条数据后,需要按当前条件刷新列表。这时,我是在条件中添加一个时间戳来进行刷新的。
store.getProxy().extraParams._TIME=new Date().getTime();
因为是本地分页,ExtJS自带的分页“刷新”按钮似乎成了摆设。可以在页面加载完成后,将其隐藏。在Controller层添加afterrender事件来实现。代码中的tab_id可通过开发人员工具在ExtJS生成的页面源码中看到,这里是抛砖引玉,希望大家写出更好的选择器。
afterrender : function(){ Ext.get("tab_id").down(".x-tbar-loading").up(".x-btn").setVisible(false); }
附上Ext.ux.data.PagingStore.js的源码:
/* * PagingStore for Ext 4 - v0.6 * Based on Ext.ux.data.PagingStore for Ext JS 3, by Condor, found at * http://www.sencha.com/forum/showthread.php?71532-Ext.ux.data.PagingStore-v0.5 * Stores are configured as normal, with whatever proxy you need for remote or local. Set the * lastOptions when defining the store to set start, limit and current page. Store should only * request new data if params or extraParams changes. In Ext JS 4, start, limit and page are part of the * options but no longer part of params. * Example remote store: * var myStore = Ext.create(‘Ext.ux.data.PagingStore‘, { model: ‘Artist‘, pageSize: 3, lastOptions: {start: 0, limit: 3, page: 1}, proxy: { type: ‘ajax‘, url: ‘url/goes/here‘, reader: { type: ‘json‘, root: ‘rows‘ } } }); * Example local store: * var myStore = Ext.create(‘Ext.ux.data.PagingStore‘, { model: ‘Artist‘, pageSize: 3, proxy: { type: ‘memory‘, reader: { type: ‘array‘ } }, data: data }); * To force a reload, delete store.lastParams. */ Ext.define(‘Ext.ux.data.PagingStore‘, { extend: ‘Ext.data.Store‘, alias: ‘store.pagingstore‘, destroyStore: function () { this.callParent(arguments); this.allData = null; }, /** * Currently, only looking at start, limit, page and params properties of options. Ignore everything * else. * @param {Ext.data.Operation} options * @return {boolean} */ isPaging: function (options) { var me = this, start = options.start, limit = options.limit, page = options.page, currentParams; if ((typeof start != ‘number‘) || (typeof limit != ‘number‘)) { delete me.start; delete me.limit; delete me.page; me.lastParams = options.params; return false; } me.start = start; me.limit = limit; me.currentPage = page; var lastParams = this.lastParams; currentParams = Ext.apply({}, options.params, this.proxy ? this.proxy.extraParams : {}); me.lastParams = currentParams; if (!this.proxy) { return true; } // No params from a previous load, must be the first load if (!lastParams) { return false; } //Iterate through all of the current parameters, if there are differences, then this is //not just a paging request, but instead a true load request for (var param in currentParams) { if (currentParams.hasOwnProperty(param) && (currentParams[param] !== lastParams[param])) { return false; } } //Do the same iteration, but this time walking through the lastParams for (param in lastParams) { if (lastParams.hasOwnProperty(param) && (currentParams[param] !== lastParams[param])) { return false; } } return true; }, applyPaging: function () { var me = this, start = me.start, limit = me.limit, allData, data; if ((typeof start == ‘number‘) && (typeof limit == ‘number‘)) { allData = this.data; data = new Ext.util.MixedCollection(allData.allowFunctions, allData.getKey); data.addAll(allData.items.slice(start, start + limit)); me.allData = allData; me.data = data; } }, loadRecords: function (records, options) { var me = this, i = 0, length = records.length, start, addRecords, snapshot = me.snapshot, allData = me.allData; if (options) { start = options.start; addRecords = options.addRecords; } if (!addRecords) { delete me.allData; delete me.snapshot; me.clearData(true); } else if (allData) { allData.addAll(records); } else if (snapshot) { snapshot.addAll(records); } me.data.addAll(records); if (!me.allData) { me.applyPaging(); } if (start !== undefined) { for (; i < length; i++) { records[i].index = start + i; records[i].join(me); } } else { for (; i < length; i++) { records[i].join(me); } } /* * this rather inelegant suspension and resumption of events is required because both the filter and sort functions * fire an additional datachanged event, which is not wanted. Ideally we would do this a different way. The first * datachanged event is fired by the call to this.add, above. */ me.suspendEvents(); if (me.filterOnLoad && !me.remoteFilter) { me.filter(); } if (me.sortOnLoad && !me.remoteSort) { me.sort(undefined, undefined, undefined, true); } me.resumeEvents(); me.fireEvent(‘datachanged‘, me); me.fireEvent(‘refresh‘, me); }, loadData: function (data, append) { var me = this, model = me.model, length = data.length, newData = [], i, record; me.isPaging(Ext.apply({}, this.lastOptions ? this.lastOptions : {})); //make sure each data element is an Ext.data.Model instance for (i = 0; i < length; i++) { record = data[i]; if (!(record.isModel)) { record = Ext.ModelManager.create(record, model); } newData.push(record); } me.loadRecords(newData, append ? me.addRecordsOptions : undefined); }, loadRawData: function (data, append) { var me = this, result = me.proxy.reader.read(data), records = result.records; if (result.success) { me.totalCount = result.total; me.isPaging(Ext.apply({}, this.lastOptions ? this.lastOptions : {})); me.loadRecords(records, append ? me.addRecordsOptions : undefined); me.fireEvent(‘load‘, me, records, true); } }, load: function (options) { var me = this, pagingOptions; options = options || {}; if (typeof options == ‘function‘) { options = { callback: options }; } options.groupers = options.groupers || me.groupers.items; options.page = options.page || me.currentPage; options.start = (options.start !== undefined) ? options.start : (options.page - 1) * me.pageSize; options.limit = options.limit || me.pageSize; options.addRecords = options.addRecords || false; if (me.buffered) { return me.loadToPrefetch(options); } var operation; options = Ext.apply({ action: ‘read‘, filters: me.filters.items, sorters: me.getSorters() }, options); me.lastOptions = options; operation = new Ext.data.Operation(options); if (me.fireEvent(‘beforeload‘, me, operation) !== false) { me.loading = true; pagingOptions = Ext.apply({}, options); if (me.isPaging(pagingOptions)) { Ext.Function.defer(function () { if (me.allData) { me.data = me.allData; delete me.allData; } me.applyPaging(); me.fireEvent("datachanged", me); me.fireEvent(‘refresh‘, me); var r = [].concat(me.data.items); me.loading = false; me.fireEvent("load", me, r, true); if (me.hasListeners.read) { me.fireEvent(‘read‘, me, r, true); } if (options.callback) { options.callback.call(options.scope || me, r, options, true); } }, 1, me); return me; } me.proxy.read(operation, me.onProxyLoad, me); } return me; }, insert: function (index, records) { var me = this, sync = false, i, record, len; records = [].concat(records); for (i = 0, len = records.length; i < len; i++) { record = me.createModel(records[i]); record.set(me.modelDefaults); // reassign the model in the array in case it wasn‘t created yet records[i] = record; me.data.insert(index + i, record); record.join(me); sync = sync || record.phantom === true; } if (me.allData) { me.allData.addAll(records); } if (me.snapshot) { me.snapshot.addAll(records); } if (me.requireSort) { // suspend events so the usual data changed events don‘t get fired. me.suspendEvents(); me.sort(); me.resumeEvents(); } me.fireEvent(‘add‘, me, records, index); me.fireEvent(‘datachanged‘, me); if (me.autoSync && sync && !me.autoSyncSuspended) { me.sync(); } }, doSort: function (sorterFn) { var me = this, range, ln, i; if (me.remoteSort) { // For a buffered Store, we have to clear the prefetch cache since it is keyed by the index within the dataset. // Then we must prefetch the new page 1, and when that arrives, reload the visible part of the Store // via the guaranteedrange event if (me.buffered) { me.pageMap.clear(); me.loadPage(1); } else { //the load function will pick up the new sorters and request the sorted data from the proxy me.load(); } } else { if (me.allData) { me.data = me.allData; delete me.allData; } me.data.sortBy(sorterFn); if (!me.buffered) { range = me.getRange(); ln = range.length; for (i = 0; i < ln; i++) { range[i].index = i; } } me.applyPaging(); me.fireEvent(‘datachanged‘, me); me.fireEvent(‘refresh‘, me); } }, getTotalCount: function () { return this.allData ? this.allData.getCount() : this.totalCount || 0; }, //inherit docs getNewRecords: function () { if (this.allData) { return this.allData.filterBy(this.filterNew).items; } return this.data.filterBy(this.filterNew).items; }, //inherit docs getUpdatedRecords: function () { if (this.allData) { return this.allData.filterBy(this.filterUpdated).items; } return this.data.filterBy(this.filterUpdated).items; }, remove: function (records, /* private */ isMove) { if (!Ext.isArray(records)) { records = [records]; } /* * Pass the isMove parameter if we know we‘re going to be re-inserting this record */ isMove = isMove === true; var me = this, sync = false, i = 0, length = records.length, isNotPhantom, index, record; for (; i < length; i++) { record = records[i]; index = me.data.indexOf(record); if (me.allData) { me.allData.remove(record); } if (me.snapshot) { me.snapshot.remove(record); } if (index > -1) { isNotPhantom = record.phantom !== true; // don‘t push phantom records onto removed if (!isMove && isNotPhantom) { // Store the index the record was removed from so that rejectChanges can re-insert at the correct place. // The record‘s index property won‘t do, as that is the index in the overall dataset when Store is buffered. record.removedFrom = index; me.removed.push(record); } record.unjoin(me); me.data.remove(record); sync = sync || isNotPhantom; me.fireEvent(‘remove‘, me, record, index); } } me.fireEvent(‘datachanged‘, me); if (!isMove && me.autoSync && sync && !me.autoSyncSuspended) { me.sync(); } }, filter: function (filters, value) { if (Ext.isString(filters)) { filters = { property: filters, value: value }; } var me = this, decoded = me.decodeFilters(filters), i = 0, doLocalSort = me.sorters.length && me.sortOnFilter && !me.remoteSort, length = decoded.length; for (; i < length; i++) { me.filters.replace(decoded[i]); } if (me.remoteFilter) { // So that prefetchPage does not consider the store to be fully loaded if the local count is equal to the total count delete me.totalCount; // For a buffered Store, we have to clear the prefetch cache because the dataset will change upon filtering. // Then we must prefetch the new page 1, and when that arrives, reload the visible part of the Store // via the guaranteedrange event if (me.buffered) { me.pageMap.clear(); me.loadPage(1); } else { // Reset to the first page, the filter is likely to produce a smaller data set me.currentPage = 1; //the load function will pick up the new filters and request the filtered data from the proxy me.load(); } } else { /** * @property {Ext.util.MixedCollection} snapshot * A pristine (unfiltered) collection of the records in this store. This is used to reinstate * records when a filter is removed or changed */ if (me.filters.getCount()) { me.snapshot = me.snapshot || me.allData.clone() || me.data.clone(); if (me.allData) { me.data = me.allData; delete me.allData; } me.data = me.data.filter(me.filters.items); me.applyPaging(); if (doLocalSort) { me.sort(); } else { // fire datachanged event if it hasn‘t already been fired by doSort me.fireEvent(‘datachanged‘, me); me.fireEvent(‘refresh‘, me); } } } }, clearFilter: function (suppressEvent) { var me = this; me.filters.clear(); if (me.remoteFilter) { // In a buffered Store, the meaing of suppressEvent is to simply clear the filters collection if (suppressEvent) { return; } // So that prefetchPage does not consider the store to be fully loaded if the local count is equal to the total count delete me.totalCount; // For a buffered Store, we have to clear the prefetch cache because the dataset will change upon filtering. // Then we must prefetch the new page 1, and when that arrives, reload the visible part of the Store // via the guaranteedrange event if (me.buffered) { me.pageMap.clear(); me.loadPage(1); } else { // Reset to the first page, clearing a filter will destroy the context of the current dataset me.currentPage = 1; me.load(); } } else if (me.isFiltered()) { me.data = me.snapshot.clone(); delete me.allData; delete me.snapshot; me.applyPaging(); if (suppressEvent !== true) { me.fireEvent(‘datachanged‘, me); me.fireEvent(‘refresh‘, me); } } }, isFiltered: function () { var snapshot = this.snapshot; return !!snapshot && snapshot !== (this.allData || this.data); }, filterBy: function (fn, scope) { var me = this; me.snapshot = me.snapshot || me.allData.clone() || me.data.clone(); me.data = me.queryBy(fn, scope || me); me.applyPaging(); me.fireEvent(‘datachanged‘, me); me.fireEvent(‘refresh‘, me); }, queryBy: function (fn, scope) { var me = this, data = me.snapshot || me.allData || me.data; return data.filterBy(fn, scope || me); }, collect: function (dataIndex, allowNull, bypassFilter) { var me = this, data = (bypassFilter === true && (me.snapshot || me.allData)) ? (me.snapshot || me.allData) : me.data; return data.collect(dataIndex, ‘data‘, allowNull); }, getById: function (id) { return (this.snapshot || this.allData || this.data).findBy(function (record) { return record.getId() === id; }); }, removeAll: function (silent) { var me = this; me.clearData(); if (me.snapshot) { me.snapshot.clear(); } if (me.allData) { me.allData.clear(); } // Special handling to synch the PageMap only for removeAll // TODO: handle other store/data modifications WRT buffered Stores. if (me.pageMap) { me.pageMap.clear(); } if (silent !== true) { me.fireEvent(‘clear‘, me); } } });
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原文地址:http://www.cnblogs.com/feiqihang/p/5107844.html