/** * Creates an ve.dm.DocumentSynchronizer object. * * This object is a utility for collecting actions to be performed on the model tree * in multiple steps and then processing those actions in a single step. * * NOTE: An 'update' event is emitted for every node that is touched by the synchronizer in any * way, but only once for every node. Other events are emitted as we go. * * IMPORTANT NOTE: It is assumed that: * The linear model has already been updated for the pushed actions * Actions are pushed in increasing offset order * Actions are non-overlapping * * @class * @constructor */ ve.dm.DocumentSynchronizer = function( doc ) { // Properties this.document = doc; this.actions = []; this.eventQueue = []; }; /* Methods */ ve.dm.DocumentSynchronizer.prototype.getDocument = function() { return this.document; }; /** * Add an annotation action to the queue. This finds all leaf nodes covered wholly or partially * by the given range, and emits annotation events for all of them. * @param {ve.Range} range Range that was annotated */ ve.dm.DocumentSynchronizer.prototype.pushAnnotation = function( range ) { this.actions.push( { 'type': 'annotation', 'range': range } ); }; /** * Add an attribute change to the queue. This emits an attributeChange event for the given node * with the provided metadata. * @param {ve.dm.Node} node Node whose attribute changed * @param {String} key Key of the attribute that changed * @param from Old value of the attribute * @param to New value of the attribute */ ve.dm.DocumentSynchronizer.prototype.pushAttributeChange = function( node, key, from, to ) { this.actions.push( { 'type': 'attributeChange', 'node': node, 'key': key, 'from': from, 'to': to } ); }; /** * Add a resize action to the queue. This changes the length of a text node. * @param {ve.dm.TextNode} node Node to resize * @param {Integer} adjustment Length adjustment to apply to the node */ ve.dm.DocumentSynchronizer.prototype.pushResize = function( node, adjustment ) { this.actions.push( { 'type': 'resize', 'node': node, 'adjustment': adjustment } ); }; // TODO pushRebuild() ve.dm.DocumentSynchronizer.prototype.annotation = function( action ) { // Queue events for all leaf nodes covered by the range // TODO test me var i, selection = this.document.selectNodes( action.range, 'leaves' ); for ( i = 0; i < selection.length; i++ ) { this.queueEvent( selection[i].node, 'annotation' ); } }; ve.dm.DocumentSynchronizer.prototype.attributeChange = function( action ) { this.queueEvent( action.node, 'attributeChange', action.key, action.from, action.to ); this.queueEvent( action.node, 'update' ); }; ve.dm.DocumentSynchronizer.prototype.resize = function( action ) { action.node.adjustLength( action.adjustment ); this.queueEvent( action.node, 'update' ); }; // TODO rebuild() ve.dm.DocumentSynchronizer.prototype.queueEvent = function( node, event ) { // Check if this is already queued var args = Array.prototype.slice.call( arguments, 1 ); var hash = $.toJSON( args ); if ( !node.DSqueuedevents ) { node.DSqueuedevents = {}; } if ( node.DSqueuedevents[hash] ) { return; } node.DSqueuedevents[hash] = true; this.eventQueue.push( { 'node': node, 'args': args } ); }; ve.dm.DocumentSynchronizer.prototype.emitEvents = function() { var i, event; for ( i = 0; i < this.eventQueue.length; i++ ) { event = this.eventQueue[i]; event.node.emit.apply( event.node, event.args ); delete event.node.DSqueuedevents; } this.eventQueue = []; }; ve.dm.DocumentSynchronizer.prototype.synchronize = function() { var action, i; // Execute the actions in the queue for ( i = 0; i < this.actions.length; i++ ) { action = this.actions[i]; if ( action.type in this ) { this[action.type]( action ); } else { throw 'Invalid action type ' + action.type; } } this.emitEvents(); this.actions = []; };