/*! * VisualEditor DataModel InternalList class. * * @copyright 2011-2013 VisualEditor Team and others; see AUTHORS.txt * @license The MIT License (MIT); see LICENSE.txt */ /** * DataModel meta item. * * @class * @mixins OO.EventEmitter * * @constructor * @param {ve.dm.Document} doc Document model */ ve.dm.InternalList = function VeDmInternalList( doc ) { // Mixin constructors OO.EventEmitter.call( this ); // Properties this.document = doc; this.itemHtmlQueue = []; this.listNode = null; this.nodes = {}; this.groupsChanged = []; this.keyIndexes = {}; this.keys = []; this.nextUniqueNumber = 0; // Event handlers if ( doc ) { doc.connect( this, { 'transact': 'onTransact' } ); } }; /* Inheritance */ OO.mixinClass( ve.dm.InternalList, OO.EventEmitter ); /* Events */ /** * @event update * @param {string[]} groupsChanged List of groups changed since the last transaction */ /* Methods */ /** * Queues up an item's html for parsing later. * * If an item with the specified group and key already exists it will be ignored, unless * the data already stored is an empty string. * * @method * @param {string} groupName Item group * @param {string} key Item key * @param {string} html Item contents * @returns {Object} Object containing index of the item in the index-value store * (and also its index in the internal list node), and a flag indicating if it is a new item. */ ve.dm.InternalList.prototype.queueItemHtml = function ( groupName, key, html ) { var isNew = false, index = this.getKeyIndex( groupName, key ); if ( index === undefined ) { index = this.itemHtmlQueue.length; this.keyIndexes[groupName + '/' + key] = index; this.itemHtmlQueue.push( html ); isNew = true; } else if ( this.itemHtmlQueue[index] === '' ) { // Previous value with this key was empty, overwrite value in queue this.itemHtmlQueue[index] = html; isNew = true; } return { 'index': index, 'isNew': isNew }; }; /** * Gets all the item's HTML strings * @method * @returns {Object} Name-indexed object containing HTMLElements */ ve.dm.InternalList.prototype.getItemHtmlQueue = function () { return this.itemHtmlQueue; }; /** * Gets the internal list's document model * @method * @returns {ve.dm.Document} Document model */ ve.dm.InternalList.prototype.getDocument = function () { return this.document; }; /** * Get the list node * @method * @returns {ve.dm.InternalListNode} List node */ ve.dm.InternalList.prototype.getListNode = function () { var i, nodes; // find listNode if not set, or unattached if ( !this.listNode || !this.listNode.doc ) { nodes = this.getDocument().documentNode.children; for ( i = nodes.length; i >= 0; i-- ) { if ( nodes[i] instanceof ve.dm.InternalListNode ) { this.listNode = nodes[i]; break; } } } return this.listNode; }; /** * Get the number it internal items in the internal list. * * @method * @returns {number} */ ve.dm.InternalList.prototype.getItemNodeCount = function () { return this.getListNode().children.length; }; /** * Get the item node from a specific index. * * @method * @param {number} index Item index * @returns {ve.dm.InternalItemNode} Item node */ ve.dm.InternalList.prototype.getItemNode = function ( index ) { return this.getListNode().children[index]; }; /** * Get all node groups. * * @method * @returns {Object} Node groups, keyed by group name */ ve.dm.InternalList.prototype.getNodeGroups = function () { return this.nodes; }; /** * Get the node group object for a specified group name. * * @method * @param {string} groupName Name of the group * @returns {Object} Node group object, containing nodes and key order array */ ve.dm.InternalList.prototype.getNodeGroup = function ( groupName ) { return this.nodes[groupName]; }; /** * Get a unique list key for a given group. * * The returned list key is added to the list of unique list keys used in this group so that it * won't be allocated again. It will also be associated to oldListKey so that if the same oldListKey * is passed in again later, the previously allocated name will be returned. * * @method * @param {string} groupName Name of the group * @param {string} oldListKey Current list key to associate the generated list key with * @param {string} prefix Prefix to distinguish generated keys from non-generated ones * @returns {string} Generated unique list key, or existing unique key associated with oldListKey */ ve.dm.InternalList.prototype.getUniqueListKey = function ( groupName, oldListKey, prefix ) { var group = this.getNodeGroup( groupName ), num = 0; if ( group.uniqueListKeys[oldListKey] !== undefined ) { return group.uniqueListKeys[oldListKey]; } while ( group.keyedNodes[prefix + num] || group.uniqueListKeysInUse[prefix + num] ) { num++; } group.uniqueListKeys[oldListKey] = prefix + num; group.uniqueListKeysInUse[prefix + num] = true; return prefix + num; }; /** * Get the next number in a monotonically increasing series. * @returns {number} One higher than the return value of the previous call, or 0 on the first call */ ve.dm.InternalList.prototype.getNextUniqueNumber = function () { return this.nextUniqueNumber++; }; /** * Converts stored item HTML into linear data. * * Each item is an InternalItem, and they are wrapped in an InternalList. * If there are no items an empty array is returned. * * Stored HTML is deleted after conversion. * * @method * @param {ve.dm.Converter} converter Converter object * @returns {Array} Linear model data */ ve.dm.InternalList.prototype.convertToData = function ( converter ) { var i, length, itemData, itemHtmlQueue = this.getItemHtmlQueue(), list = []; list.push( { 'type': 'internalList' } ); for ( i = 0, length = itemHtmlQueue.length; i < length; i++ ) { if ( itemHtmlQueue[i] !== '' ) { itemData = converter.getDataFromDomRecursion( $( '
' ).html( itemHtmlQueue[i] )[0] ); list = list.concat( [{ 'type': 'internalItem' }], itemData, [{ 'type': '/internalItem' }] ); } else { list = list.concat( [ { 'type': 'internalItem' }, { 'type': '/internalItem' } ] ); } } list.push( { 'type': '/internalList' } ); // After conversion we no longer need the HTML this.itemHtmlQueue = []; return list; }; /** * Generate a transaction for inserting a new internal item node * @param {string} groupName Item group * @param {string} key Item key * @param {Array} data Linear model data * @returns {Object} Object containing the transaction (or null if none required) * and the new item's index within the list */ ve.dm.InternalList.prototype.getItemInsertion = function ( groupName, key, data ) { var tx, itemData, index = this.getKeyIndex( groupName, key ); if ( index === undefined ) { index = this.getItemNodeCount(); this.keyIndexes[groupName + '/' + key] = index; itemData = [{ 'type': 'internalItem' }].concat( data, [{ 'type': '/internalItem' }] ); tx = ve.dm.Transaction.newFromInsertion( this.getDocument(), this.getListNode().getRange().end, itemData ); } else { tx = null; } return { 'transaction': tx, 'index': index }; }; /** * Get position of a key within a group * @param {string} groupName Name of the group * @param {string} key Name of the key * @returns {number} Position within the key ordering for that group */ ve.dm.InternalList.prototype.getIndexPosition = function ( groupName, index ) { return ve.indexOf( index, this.nodes[groupName].indexOrder ); }; /** * Get the internal item index of a group key if it already exists * @param {string} groupName Item group * @param {string} key Item name * @returns {number|undefined} The index of the group key, or undefined if it doesn't exist yet */ ve.dm.InternalList.prototype.getKeyIndex = function ( groupName, key ) { return this.keyIndexes[groupName + '/' + key]; }; /** * Add a node. * @method * @param {string} groupName Item group * @param {string} key Item name * @param {number} index Item index * @param {ve.dm.Node} node Item node */ ve.dm.InternalList.prototype.addNode = function ( groupName, key, index, node ) { var i, len, start, keyedNodes, group = this.nodes[groupName]; // The group may not exist yet if ( group === undefined ) { group = this.nodes[groupName] = { 'keyedNodes': {}, 'firstNodes': [], 'indexOrder': [], 'uniqueListKeys': {}, 'uniqueListKeysInUse': {} }; } keyedNodes = group.keyedNodes[key]; this.keys[index] = key; // The key may not exist yet if ( keyedNodes === undefined ) { keyedNodes = group.keyedNodes[key] = []; } if ( node.getDocument().buildingNodeTree ) { // If the document is building the original node tree // then every item is being added in order, so we don't // need to worry about sorting. keyedNodes.push( node ); if ( keyedNodes.length === 1 ) { group.firstNodes[index] = node; } } else { // TODO: We could use binary search insertion sort start = node.getRange().start; for ( i = 0, len = keyedNodes.length; i < len; i++ ) { if ( start < keyedNodes[i].getRange().start ) { break; } } // 'i' is now the insertion point, so add the node here keyedNodes.splice( i, 0, node ); if ( i === 0 ) { group.firstNodes[index] = node; } } if ( ve.indexOf( index, group.indexOrder ) === -1 ) { group.indexOrder.push( index ); } this.markGroupAsChanged( groupName ); }; /** * Mark a node group as having been changed since the last transaction. * @param {string} groupName Name of group which has changed */ ve.dm.InternalList.prototype.markGroupAsChanged = function ( groupName ) { if ( ve.indexOf( groupName, this.groupsChanged ) === -1 ) { this.groupsChanged.push( groupName ); } }; /** * Handle document transaction events * @fires update */ ve.dm.InternalList.prototype.onTransact = function () { var i; if ( this.groupsChanged.length > 0 ) { // length will almost always be 1, so probably better to not cache it for ( i = 0; i < this.groupsChanged.length; i++ ) { this.sortGroupIndexes( this.nodes[this.groupsChanged[i]] ); } this.emit( 'update', this.groupsChanged ); this.groupsChanged = []; } }; /** * Remove a node. * @method * @param {string} groupName Item group * @param {string} key Item name * @param {number} index Item index * @param {ve.dm.Node} node Item node */ ve.dm.InternalList.prototype.removeNode = function ( groupName, key, index, node ) { var i, len, j, keyedNodes, group = this.nodes[groupName]; keyedNodes = group.keyedNodes[key]; for ( i = 0, len = keyedNodes.length; i < len; i++ ) { if ( keyedNodes[i] === node ) { keyedNodes.splice( i, 1 ); if ( i === 0 ) { group.firstNodes[index] = keyedNodes[0]; } break; } } // If the all the items in this key have been removed // then remove this index from indexOrder and firstNodes if ( keyedNodes.length === 0 ) { delete group.keyedNodes[key]; delete group.firstNodes[index]; j = ve.indexOf( index, group.indexOrder ); group.indexOrder.splice( j, 1 ); } this.markGroupAsChanged( groupName ); }; /** * Sort the indexOrder array within a group object. * @param {Object} group Group object */ ve.dm.InternalList.prototype.sortGroupIndexes = function ( group ) { // Sort indexOrder group.indexOrder.sort( function ( index1, index2 ) { return group.firstNodes[index1].getRange().start - group.firstNodes[index2].getRange().start; } ); }; /** * Clone this internal list. * * @param {ve.dm.Document} [doc] The new list's document. Defaults to this list's document. * @returns {ve.dm.InternalList} Clone of this internal */ ve.dm.InternalList.prototype.clone = function ( doc ) { var clone = new this.constructor( doc || this.getDocument() ); // Most properties don't need to be copied, because addNode() will be invoked when the new // document tree is built. But some do need copying: clone.nextUniqueNumber = this.nextUniqueNumber; clone.itemHtmlQueue = ve.copy( this.itemHtmlQueue ); return clone; }; /** * Merge another internal list into this one. * * This function updates the state of this list, and returns a mapping from indexes in list to * indexes in this, as well as a set of ranges that should be copied from list's linear model * into this list's linear model by the caller. * * @param {ve.dm.InternalList} list Internal list to merge into this list * @param {number} commonLength The number of elements, counted from the beginning, that the lists have in common * @returns {Object} 'mapping' is an object mapping indexes in list to indexes in this; newItemRanges is an array * of ranges of internal nodes in list's document that should be copied into our document */ ve.dm.InternalList.prototype.merge = function ( list, commonLength ) { var i, k, key, listLen = list.getItemNodeCount(), nextIndex = this.getItemNodeCount(), newItemRanges = [], mapping = {}; for ( i = 0; i < commonLength; i++ ) { mapping[i] = i; } for ( i = commonLength; i < listLen; i++ ) { // Try to find i in list.keyIndexes key = undefined; for ( k in list.keyIndexes ) { if ( list.keyIndexes[k] === i ) { key = k; break; } } if ( this.keyIndexes[key] !== undefined ) { // We already have this key in this internal list. Ignore the duplicate that the other // list is trying to merge in. // NOTE: This case cannot occur in VE currently, but may be possible in the future with // collaborative editing, which is why this code needs to be rewritten before we do // collaborative editing. mapping[i] = this.keyIndexes[key]; } else { mapping[i] = nextIndex; if ( key !== undefined ) { this.keyIndexes[key] = nextIndex; } nextIndex++; newItemRanges.push( list.getItemNode( i ).getOuterRange() ); } } return { 'mapping': mapping, 'newItemRanges': newItemRanges }; };