/** * The TreePanel provides tree-structured UI representation of tree-structured data. * A TreePanel must be bound to a {@link Ext.data.TreeStore}. * * TreePanels support multiple columns through the {@link #columns} configuration. * * By default a TreePanel contains a single column which uses the `text` Field of * the store's nodes. * * Simple TreePanel using inline data: * * @example * var store = Ext.create('Ext.data.TreeStore', { * root: { * expanded: true, * children: [ * { text: 'detention', leaf: true }, * { text: 'homework', expanded: true, children: [ * { text: 'book report', leaf: true }, * { text: 'algebra', leaf: true} * ] }, * { text: 'buy lottery tickets', leaf: true } * ] * } * }); * * Ext.create('Ext.tree.Panel', { * title: 'Simple Tree', * width: 200, * height: 200, * store: store, * rootVisible: false, * renderTo: Ext.getBody() * }); * * For the tree node config options (like `text`, `leaf`, `expanded`), see the documentation of * {@link Ext.data.NodeInterface NodeInterface} config options. * * Unless the TreeStore is configured with a {@link Ext.data.Model model} of your choosing, nodes in the {@link Ext.data.TreeStore} are by default, instances of {@link Ext.data.TreeModel}. * * # Heterogeneous node types. * * If the tree needs to use different data model classes at different levels there is much flexibility in how to specify this. * * ### Configuring the Reader. * If you configure the proxy's reader with a {@link Ext.data.reader.Reader#typeProperty typeProperty}, then the server is in control of which data model * types are created. A discriminator field is used in the raw data to decide which class to instantiate. * **If this is configured, then the data from the server is prioritized over other ways of determining node class**. * * @example * Ext.define('myApp.Territory', { * extend: 'Ext.data.TreeModel', * fields: [{ * name: 'text', * mapping: 'name' * }] * }); * Ext.define('myApp.Country', { * extend: 'Ext.data.TreeModel', * fields: [{ * name: 'text', * mapping: 'name' * }] * }); * Ext.define('myApp.City', { * extend: 'Ext.data.TreeModel', * fields: [{ * name: 'text', * mapping: 'name' * }] * }); * Ext.create('Ext.tree.Panel', { * renderTo: document.body, * height: 200, * width: 400, * title: 'Sales Areas - using typeProperty', * rootVisible: false, * store: { * // Child types use namespace of store's model by default * model: 'myApp.Territory', * proxy: { * type: 'memory', * reader: { * typeProperty: 'mtype' * } * }, * root: { * children: [{ * name: 'Europe, ME, Africa', * mtype: 'Territory', * children: [{ * name: 'UK of GB & NI', * mtype: 'Country', * children: [{ * name: 'London', * mtype: 'City', * leaf: true * }] * }] * }, { * name: 'North America', * mtype: 'Territory', * children: [{ * name: 'USA', * mtype: 'Country', * children: [{ * name: 'Redwood City', * mtype: 'City', * leaf: true * }] * }] * }] * } * } * }); * * ### Node being loaded decides. * You can declare your TreeModel subclasses with a {@link Ext.data.TreeModel#childType childType} which means that the node being loaded decides the * class to instantiate for all of its child nodes. * * It is important to note that if the root node is {@link Ext.tree.Panel#rootVisible hidden}, its type will default to the store's model type, and if left * as the default (`{@link Ext.data.TreeModel}`) this will have no knowledge of creation of special child node types. So be sure to specify a store model in this case: * * @example * Ext.define('myApp.TerritoryRoot', { * extend: 'Ext.data.TreeModel', * childType: 'myApp.Territory', * fields: [{ * name: 'text', * mapping: 'name' * }] * }); * Ext.define('myApp.Territory', { * extend: 'Ext.data.TreeModel', * childType: 'myApp.Country', * fields: [{ * name: 'text', * mapping: 'name' * }] * }); * Ext.define('myApp.Country', { * extend: 'Ext.data.TreeModel', * childType: 'myApp.City', * fields: [{ * name: 'text', * mapping: 'name' * }] * }); * Ext.define('myApp.City', { * extend: 'Ext.data.TreeModel', * fields: [{ * name: 'text', * mapping: 'name' * }] * }); * Ext.create('Ext.tree.Panel', { * renderTo: document.body, * height: 200, * width: 400, * title: 'Sales Areas', * rootVisible: false, * store: { * model: 'myApp.TerritoryRoot', // Needs to be this so it knows to create 'Country' child nodes * root: { * children: [{ * name: 'Europe, ME, Africa', * children: [{ * name: 'UK of GB & NI', * children: [{ * name: 'London', * leaf: true * }] * }] * }, { * name: 'North America', * children: [{ * name: 'USA', * children: [{ * name: 'Redwood City', * leaf: true * }] * }] * }] * } * } * }); * * # Data structure * * The {@link Ext.data.TreeStore TreeStore} maintains a {@link Ext.data.TreeStore#getRoot root node} and a hierarchical structure of {@link Ext.data.TreeModel node}s. * * The {@link Ext.tree.View UI} of the tree is driven by a {Ext.data.NodeStore NodeStore} which is a flattened view of *visible* nodes. * The NodeStore is dynamically updated to reflect the visibility state of nodes as nodes are added, removed or expanded. The UI * responds to mutation events fire by the NodeStore. * * Note that nodes have several more {@link Ext.data.Model#cfg-fields fields} in order to describe their state within the hierarchy. * * If you add store listeners to the {@link Ext.data.Store#event-update update} event, then you will receive notification when any of this state changes. * You should check the array of modified field names passed to the listener to decide whether the listener should take action or ignore the event. * * # Tree Grid * Trees may be configured using the {@link #cfg-columns} config including a * {@link Ext.tree.Column treecolumn} to give the tree panel a hybrid tree / * {@link Ext.grid.Panel grid} structure. * * @example * Ext.create({ * xtype: 'treepanel', * renderTo: Ext.getBody(), * height: 200, * width: 300, * rootVisible: false, * store: Ext.create('Ext.data.TreeStore', { * fields: ['text', 'duration', 'isLayover'], * root: { * expanded: true, * children: [{ * text: 'SFO ✈ DFW', * duration: '6h 55m', * expanded: true, * children: [{ * text: 'SFO ✈ PHX', * duration: '2h 04m', * leaf: true * }, { * text: 'PHX layover', * duration: '2h 36m', * isLayover: true, * leaf: true * }, { * text: 'PHX ✈ DFW', * duration: '2h 15m', * leaf: true * }] * }] * } * }), * columns: [{ * xtype: 'treecolumn', * text: 'Flight Endpoints', * dataIndex: 'text', * flex: 1, * renderer: function (val, meta, rec) { * if (rec.get('isLayover')) { * meta.tdStyle = 'color: gray; font-style: italic;'; * } * return val; * } * }, { * text: 'Duration', * dataIndex: 'duration', * width: 100 * }] * }); */Ext.define('Ext.tree.Panel', { extend: 'Ext.panel.Table', alias: 'widget.treepanel', alternateClassName: ['Ext.tree.TreePanel', 'Ext.TreePanel'], requires: [ 'Ext.tree.View', 'Ext.selection.TreeModel', 'Ext.tree.Column', 'Ext.data.TreeStore', 'Ext.tree.NavigationModel' ], viewType: 'treeview', treeCls: Ext.baseCSSPrefix + 'tree-panel', /** * @cfg {Boolean} [rowLines=false] * Configure as true to separate rows with visible horizontal lines (depends on theme). */ rowLines: false, /** * @cfg {Boolean} [lines=true] * False to disable tree lines. */ lines: true, /** * @cfg {Boolean} [useArrows=false] * True to use Vista-style arrows in the tree. */ useArrows: false, /** * @cfg {Boolean} [singleExpand=false] * True if only 1 node per branch may be expanded. */ singleExpand: false, ddConfig: { enableDrag: true, enableDrop: true }, /** * @cfg {Boolean} animate * True to enable animated expand/collapse. Defaults to the value of {@link Ext#enableFx}. */ /** * @cfg {Boolean} [rootVisible=true] * False to hide the root node. * * Note that trees *always* have a root node. If you do not specify a {@link #cfg-root} node, one will be created. * * If the root node is not visible, then in order for a tree to appear to the end user, the root node is autoloaded with its child nodes. */ rootVisible: true, /** * @cfg {String} [displayField=text] * The field inside the model that will be used as the node's text. */ displayField: 'text', /** * @cfg {Ext.data.Model/Ext.data.TreeModel/Object} root * Allows you to not specify a store on this TreePanel. This is useful for creating a simple tree with preloaded * data without having to specify a TreeStore and Model. A store and model will be created and root will be passed * to that store. For example: * * Ext.create('Ext.tree.Panel', { * title: 'Simple Tree', * root: { * text: "Root node", * expanded: true, * children: [ * { text: "Child 1", leaf: true }, * { text: "Child 2", leaf: true } * ] * }, * renderTo: Ext.getBody() * }); */ root: null, /** * @cfg {String} [checkPropagation=none] * This configuration controls whether, and how checkbox click gestures are propagated to * child nodes, or to a parent node. * * Valid values are * * - `'none'` Checking a check node does not affect any other nodes. * - `'up'` Checking a check node synchronizes the value of its parent node with the state of its children. * - `'down'` Checking a check node propagates the value to its child nodes. * - `'both'` Checking a check node updates its child nodes, and syncs its parent node. */ checkPropagation: 'none', // Required for the Lockable Mixin. These are the configurations which will be copied to the // normal and locked sub tablepanels normalCfgCopy: ['displayField', 'root', 'singleExpand', 'useArrows', 'lines', 'rootVisible', 'scroll'], lockedCfgCopy: ['displayField', 'root', 'singleExpand', 'useArrows', 'lines', 'rootVisible'], isTree: true, /** * @cfg {Boolean} folderSort * True to automatically prepend a leaf sorter to the store. */ /** * @cfg {Ext.data.TreeStore} store (required) * The {@link Ext.data.TreeStore Store} the tree should use as its data source. */ arrowCls: Ext.baseCSSPrefix + 'tree-arrows', linesCls: Ext.baseCSSPrefix + 'tree-lines', noLinesCls: Ext.baseCSSPrefix + 'tree-no-lines', autoWidthCls: Ext.baseCSSPrefix + 'autowidth-table', constructor: function(config) { config = config || {}; if (config.animate === undefined) { config.animate = Ext.isBoolean(this.animate) ? this.animate : Ext.enableFx; } this.enableAnimations = config.animate; delete config.animate; this.callParent([config]); }, initComponent: function() { var me = this, cls = [me.treeCls], store, autoTree, view; if (me.useArrows) { cls.push(me.arrowCls); me.lines = false; } if (me.lines) { cls.push(me.linesCls); } else if (!me.useArrows) { cls.push(me.noLinesCls); } store = me.applyStore(me.store); // If there is no root node defined, then create one. if (!store.getRoot()) { store.setRoot({}); } // Store must have the same idea about root visibility as us BEFORE callParent binds it. store.setRootVisible(me.rootVisible); // If the user specifies the headers collection manually then don't inject // our own if (!me.columns) { me.isAutoTree = autoTree = true; } me.viewConfig = Ext.apply({ rootVisible: me.rootVisible, animate: me.enableAnimations, singleExpand: me.singleExpand, node: store.getRoot(), navigationModel: 'tree', isAutoTree: autoTree }, me.viewConfig); if (autoTree) { me.addCls(me.autoWidthCls); me.columns = [{ xtype : 'treecolumn', text : me.hideHeaders === true ? 'Name' : null, flex : 1, dataIndex: me.displayField }]; } if (me.cls) { cls.push(me.cls); } me.cls = cls.join(' '); me.callParent(); view = me.getView(); // Relay events from the TreeView. // An injected LockingView relays events from its locked side's View me.relayEvents(view, [ /** * @event beforecheckchange * Fires when a node with a checkbox's checked property changes. * @param {Ext.data.TreeModel} node The node who's checked property is to be changed. * @param {Boolean} checked The node's current checked state. * @param {Ext.event.Event} e The click event. */ 'beforecheckchange', /** * @event checkchange * Fires when a node with a checkbox's checked property changes. * @param {Ext.data.TreeModel} node The node who's checked property was changed. * @param {Boolean} checked The node's new checked state. * @param {Ext.event.Event} e The click event. */ 'checkchange', /** * @event afteritemexpand * @inheritdoc Ext.tree.View#afteritemexpand */ 'afteritemexpand', /** * @event afteritemcollapse * @inheritdoc Ext.tree.View#afteritemcollapse */ 'afteritemcollapse' ]); }, applyStore: function(store) { // private // Note that this is not a config system applier. store is not yet a config. // It just does the job of an applier and converts a config object to the true value // for the setter to use. var me = this; if (Ext.isString(store)) { store = me.store = Ext.StoreMgr.lookup(store); } else if (!store || !store.isStore) { store = Ext.apply({ type: 'tree', proxy: 'memory' }, store); if (me.root) { store.root = me.root; } if (me.fields) { store.fields = me.fields; } else if (me.model) { store.model = me.model; } if (me.folderSort) { store.folderSort = me.folderSort; } store = me.store = Ext.StoreMgr.lookup(store); } else if (me.root) { store = me.store = Ext.data.StoreManager.lookup(store); store.setRoot(me.root); if (me.folderSort !== undefined) { store.folderSort = me.folderSort; store.sort(); } } return store; }, setRoot: function (root) { this.store.setRoot(root); }, setStore: function(store) { var me = this; store = me.applyStore(store); // If there is no rootnode defined, then create one. if (!store.getRoot()) { store.setRoot({}); } // Store must have the same idea about root visibility as us BEFORE callParent binds it. store.setRootVisible(me.rootVisible); if (me.enableLocking) { me.reconfigure(store); } else { if (me.view) { me.view.setRootNode(store.getRootNode()); } me.bindStore(store); } }, /** * @private * Hook into the TreeStore. */ bindStore: function(store, initial) { var me = this, root = store.getRoot(); // Bind to store, and autocreate the BufferedRenderer. me.callParent(arguments); // The TreeStore needs to know about this TreePanel's singleExpand constraint so that // it can ensure the compliance of NodeInterface.expandAll. store.singleExpand = me.singleExpand; // Monitor the TreeStore for the root node being changed. Return a Destroyable object me.storeListeners = me.mon(store, { destroyable: true, rootchange: me.onRootChange, scope: me }); // Relay store events. relayEvents always returns a Destroyable object. me.storeRelayers = me.relayEvents(store, [ /** * @event beforeload * @inheritdoc Ext.data.TreeStore#beforeload */ 'beforeload', /** * @event load * @inheritdoc Ext.data.TreeStore#load */ 'load' ]); // If rootVisible is false, we *might* need to expand the node. // If store is autoLoad, that will already have been kicked off. // If its already expanded, or in the process of loading, the TreeStore // has started that at the end of updateRoot if (!me.rootVisible && !store.autoLoad && !(root.isExpanded() || root.isLoading())) { // A hidden root must be expanded, unless it's overridden with autoLoad: false. // If it's loaded, set its expanded field (silently), and skip ahead to the onNodeExpand callback. if (root.isLoaded()) { root.data.expanded = true; store.onNodeExpand(root, root.childNodes); } // Root is not loaded; go through the expand mechanism to force a load // unless we were told explicitly not to load the store by setting // autoLoad: false. This is useful with Direct proxy in cases when // Direct API is loaded dynamically and may not be available at the time // when TreePanel is created. else if (store.autoLoad !== false && !store.hasPendingLoad()) { root.data.expanded = false; root.expand(); } } // TreeStore must have an upward link to the TreePanel so that nodes can find their owning tree in NodeInterface.getOwnerTree // TODO: NodeInterface.getOwnerTree is deprecated. Data class must not be coupled to UI. Remove this link // when that method is removed. store.ownerTree = me; if (!initial) { me.view.setRootNode(root); } }, /** * @private */ addRelayers: function(newRoot) { var me = this; if (me.rootRelayers) { me.rootRelayers.destroy(); me.rootRelayers = null; } // Relay store events with prefix. Return a Destroyable object me.rootRelayers = me.mon(newRoot, { destroyable: true, /** * @event itemappend * @inheritdoc Ext.data.TreeStore#nodeappend */ append: me.createRelayer('itemappend'), /** * @event itemremove * @inheritdoc Ext.data.TreeStore#noderemove */ remove: me.createRelayer('itemremove'), /** * @event itemmove * @inheritdoc Ext.data.TreeStore#nodemove */ move: me.createRelayer('itemmove', [0, 4]), /** * @event iteminsert * @inheritdoc Ext.data.TreeStore#nodeinsert */ insert: me.createRelayer('iteminsert'), /** * @event beforeitemappend * @inheritdoc Ext.data.TreeStore#nodebeforeappend */ beforeappend: me.createRelayer('beforeitemappend'), /** * @event beforeitemremove * @inheritdoc Ext.data.TreeStore#nodebeforeremove */ beforeremove: me.createRelayer('beforeitemremove'), /** * @event beforeitemmove * @inheritdoc Ext.data.TreeStore#nodebeforemove */ beforemove: me.createRelayer('beforeitemmove'), /** * @event beforeiteminsert * @inheritdoc Ext.data.TreeStore#nodebeforeinsert */ beforeinsert: me.createRelayer('beforeiteminsert'), /** * @event itemexpand * @inheritdoc Ext.data.TreeStore#nodeexpand */ expand: me.createRelayer('itemexpand', [0, 1]), /** * @event itemcollapse * @inheritdoc Ext.data.TreeStore#nodecollapse */ collapse: me.createRelayer('itemcollapse', [0, 1]), /** * @event beforeitemexpand * @inheritdoc Ext.data.TreeStore#nodebeforeexpand */ beforeexpand: me.createRelayer('beforeitemexpand', [0, 1]), /** * @event beforeitemcollapse * @inheritdoc Ext.data.TreeStore#nodebeforecollapse */ beforecollapse: me.createRelayer('beforeitemcollapse', [0, 1]), scope: me }); }, /** * @private */ unbindStore: function() { var me = this, store = me.store; if (store) { me.callParent(); Ext.destroy(me.storeListeners, me.storeRelayers, me.rootRelayers); delete store.ownerTree; store.singleExpand = null; } }, /** * Sets root node of this tree. All trees *always* have a root node. It may be {@link #rootVisible hidden}. * * If the passed node has not already been loaded with child nodes, and has its expanded field set, this triggers the {@link #cfg-store} to load the child nodes of the root. * @param {Ext.data.TreeModel/Object} root * @return {Ext.data.TreeModel} The new root */ setRootNode: function() { return this.store.setRoot.apply(this.store, arguments); }, /** * Returns the root node for this tree. * @return {Ext.data.TreeModel} */ getRootNode: function() { return this.store.getRoot(); }, onRootChange: function(root) { this.view.setRootNode(root); }, /** * Retrieve an array of checked records. * @return {Ext.data.TreeModel[]} An array containing the checked records */ getChecked: function() { return this.getView().getChecked(); }, isItemChecked: function(rec) { return rec.get('checked'); }, /** * Expands a record that is loaded in the tree. * @param {Ext.data.Model} record The record to expand * @param {Boolean} [deep] True to expand nodes all the way down the tree hierarchy. * @param {Function} [callback] The function to run after the expand is completed * @param {Object} [scope] The scope of the callback function. */ expandNode: function(record, deep, callback, scope) { return this.getView().expand(record, deep, callback, scope || this); }, /** * Collapses a record that is loaded in the tree. * @param {Ext.data.Model} record The record to collapse * @param {Boolean} [deep] True to collapse nodes all the way up the tree hierarchy. * @param {Function} [callback] The function to run after the collapse is completed * @param {Object} [scope] The scope of the callback function. */ collapseNode: function(record, deep, callback, scope) { return this.getView().collapse(record, deep, callback, scope || this); }, /** * Expand all nodes * @param {Function} [callback] A function to execute when the expand finishes. * @param {Object} [scope] The scope of the callback function */ expandAll: function(callback, scope) { var me = this, root = me.getRootNode(); if (root) { Ext.suspendLayouts(); root.expand(true, callback, scope || me); Ext.resumeLayouts(true); } }, /** * Collapse all nodes * @param {Function} [callback] A function to execute when the collapse finishes. * @param {Object} [scope] The scope of the callback function */ collapseAll: function(callback, scope) { var me = this, root = me.getRootNode(), view = me.getView(); if (root) { Ext.suspendLayouts(); scope = scope || me; if (view.rootVisible) { root.collapse(true, callback, scope); } else { root.collapseChildren(true, callback, scope); } Ext.resumeLayouts(true); } }, /** * Expand the tree to the path of a particular node. This is the way to expand a known path * when the intervening nodes are not yet loaded. * * The path may be an absolute path (beginning with a `'/'` character) from the root, eg: * * '/rootId/nodeA/nodeB/nodeC' * * Or, the path may be relative, starting from an **existing** node in the tree: * * 'nodeC/nodeD' * * @param {String} path The path to expand. The path may be absolute, including a leading separator and starting * from the root node id, or relative with no leading separator, starting from an *existing* * node in the tree. * @param {Object} [options] An object containing options to modify the operation. * @param {String} [options.field] The field to get the data from. Defaults to the model idProperty. * @param {String} [options.separator='/'] A separator to use. * @param {Boolean} [options.select] Pass as `true` to select the specified row. * @param {Boolean} [options.focus] Pass as `true` to focus the specified row. * @param {Function} [options.callback] A function to execute when the expand finishes. * @param {Boolean} options.callback.success `true` if the node expansion was successful. * @param {Ext.data.Model} options.callback.record If successful, the target record. * @param {HTMLElement} options.callback.node If successful, the record's view node. If unsuccessful, the * last view node encountered while expanding the path. * @param {Object} [options.scope] The scope (`this` reference) in which the callback function is executed. */ expandPath: function(path, options) { var args = arguments, me = this, view = me.view, field = (options && options.field) || me.store.model.idProperty, select, doFocus, separator = (options && options.separator) || '/', callback, scope, current, index, keys, rooted, expander; // New option object API if (options && typeof options === 'object') { field = options.field || me.store.model.idProperty; separator = options.separator || '/'; callback = options.callback; scope = options.scope; select = options.select; doFocus = options.focus; } // Old multi argument API else { field = args[1] || me.store.model.idProperty; separator = args[2] || '/'; callback = args[3]; scope = args[4]; } if (Ext.isEmpty(path)) { return Ext.callback(callback, scope || me, [false, null]); } keys = path.split(separator); // If they began the path with '/', this indicates starting from the root ID. // otherwise, then can start at any *existing* node id. rooted = !keys[0]; if (rooted) { current = me.getRootNode(); index = 1; } // Not rooted, gather the first node in the path which MUST already exist. else { current = me.store.findNode(field, keys[0]); index = 0; } // Invalid root. Relative start could not be found, absolute start was not the rootNode. // The ids paths may be numeric, so cast the value to a string for comparison. if (!current || (rooted && (current.get(field) + '') !== keys[1])) { return Ext.callback(callback, scope || me, [false, current]); } // The expand success callback passed to every expand call down the path. // Called in the scope of the node being expanded. expander = function(newChildren) { var node = this, len, i, value; // We've arrived at the end of the path. if (++index === keys.length) { if (select) { view.getSelectionModel().select(node); } if (doFocus) { view.getNavigationModel().setPosition(node, 0); } return Ext.callback(callback, scope || me, [true, node, view.getNode(node)]); } // Find the next child in the path if it's there and expand it. for (i = 0, len = newChildren ? newChildren.length : 0; i < len; i++) { // The ids paths may be numeric, so cast the value to a string for comparison node = newChildren[i]; value = node.get(field); if (value || value === 0) { value = value.toString(); } if (value === keys[index]) { return node.expand(false, expander); } } // If we get here, there's been a miss along the path, and the operation is a fail. node = this; Ext.callback(callback, scope || me, [false, node, view.getNode(node)]); }; current.expand(false, expander); }, /** * Expand the tree to the path of a particular node, then scroll it into view. * @param {String} path The path to bring into view. The path may be absolute, including a leading separator and starting * from the root node id, or relative with no leading separator, starting from an *existing* node in the tree. * @param {Object} [options] An object containing options to modify the operation. * @param {String} [options.field] The field to get the data from. Defaults to the model idProperty. * @param {String} [options.separator='/'] A separator to use. * @param {Boolean} [options.animate] Pass `true` to animate the row into view. * @param {Boolean} [options.highlight] Pass `true` to highlight the row with a glow animation when it is in view. * @param {Boolean} [options.select] Pass as `true` to select the specified row. * @param {Boolean} [options.focus] Pass as `true` to focus the specified row. * @param {Function} [options.callback] A function to execute when the expand finishes. * @param {Boolean} options.callback.success `true` if the node expansion was successful. * @param {Ext.data.Model} options.callback.record If successful, the target record. * @param {HTMLElement} options.callback.node If successful, the record's view node. If unsuccessful, the * last view node encountered while expanding the path. * @param {Object} [options.scope] The scope (`this` reference) in which the callback function is executed. */ ensureVisible: function(path, options) { // They passed a record instance or row index. Use the TablePanel's method. if (path.isEntity || typeof path === 'number') { return this.callParent([path, options]); } var me = this, field = (options && options.field) || me.store.model.idProperty, separator = (options && options.separator) || '/', callback, scope, keys, rooted, last, node, parentNode, onLastExpanded = function(success, lastExpanded, lastExpandedHtmlNode, targetNode) { if (!targetNode && success && lastExpanded) { targetNode = lastExpanded.findChild(field, last); } // Once we have the node, we can use the TablePanel's ensureVisible method if (targetNode) { me.doEnsureVisible(targetNode, options); } else { Ext.callback(callback, scope || me, [false, lastExpanded]); } }; if (options) { callback = options.callback; scope = options.scope; } keys = path.split(separator); rooted = !keys[0]; last = keys.pop(); // If the path was "foo/bar" or "/foo/Bar" if (keys.length && !(rooted && keys.length === 1)) { me.expandPath(keys.join(separator), field, separator, onLastExpanded); } // If the path was "foo" or "/foo" else { node = me.store.findNode(field, last); if (node) { parentNode = node.parentNode; if (parentNode && !parentNode.isExpanded()) { parentNode.expand(); } // Pass the target node as the 4th parameter so the callback doesn't have to look it up onLastExpanded(true, null, null, node); } else { Ext.callback(callback, scope || me, [false, null]); } } }, /** * Expand the tree to the path of a particular node, then select it. * @param {String} path The path to expand. The path may be absolute, including a leading separator and * starting from the root node id, or relative with no leading separator, starting from * an *existing* node in the tree. * @param {String} [field] The field to get the data from. Defaults to the model idProperty. * @param {String} [separator='/'] A separator to use. * @param {Function} [callback] A function to execute when the select finishes. * @param {Boolean} callback.success `true` if the node expansion was successful. * @param {Ext.data.NodeInterface} callback.lastNode If successful, the target node. If unsuccessful, the * last tree node encountered while expanding the path. * @param {HTMLElement} callback.node If successful, the record's view node. * @param {Object} [scope] The scope of the callback function */ selectPath: function(path, field, separator, callback, scope) { this.ensureVisible(path, { field: field, separator: separator, select: true, callback: callback, scope: scope }); }});