/*! * VisualEditor BranchNode class. * * @copyright 2011-2012 VisualEditor Team and others; see AUTHORS.txt * @license The MIT License (MIT); see LICENSE.txt */ /** * Mixin for branch nodes. * Extenders are expected to inherit from ve.Node. * * Branch nodes are immutable, which is why there are no methods for adding or removing children. * DataModel classes will add this functionality, and other subclasses will implement behavior that * mimcs changes made to data model nodes. * * @class * @abstract * @constructor * @param {ve.Node[]} children Array of children to add */ ve.BranchNode = function VeBranchNode( children ) { this.children = ve.isArray( children ) ? children : []; }; /* Methods */ /** * Checks if this node has child nodes. * * @method * @returns {boolean} Whether this node has children */ ve.BranchNode.prototype.hasChildren = function () { return true; }; /** * Gets a list of child nodes. * * @method * @returns {ve.Node[]} List of child nodes */ ve.BranchNode.prototype.getChildren = function () { return this.children; }; /** * Gets the index of a given child node. * * @method * @param {ve.dm.Node} node Child node to find index of * @returns {number} Index of child node or -1 if node was not found */ ve.BranchNode.prototype.indexOf = function ( node ) { return ve.indexOf( node, this.children ); }; /** * Sets the root node this node is a descendent of. * * @method * @see ve.Node#setRoot * @param {ve.Node} root Node to use as root */ ve.BranchNode.prototype.setRoot = function ( root ) { if ( root === this.root ) { // Nothing to do, don't recurse into all descendants return; } this.root = root; for ( var i = 0; i < this.children.length; i++ ) { this.children[i].setRoot( root ); } }; /** * Sets the document this node is a part of. * * @method * @see ve.Node#setDocument * @param {ve.Document} root Node to use as root */ ve.BranchNode.prototype.setDocument = function ( doc ) { if ( doc === this.doc ) { // Nothing to do, don't recurse into all descendants return; } this.doc = doc; for ( var i = 0; i < this.children.length; i++ ) { this.children[i].setDocument( doc ); } }; /** * Gets the node at a given offset. * * This method is pretty expensive. If you need to get different slices of the same content, get * the content first, then slice it up locally. * * TODO: Rewrite this method to not use recursion, because the function call overhead is expensive * * @method * @param {number} offset Offset get node for * @param {boolean} [shallow] Do not iterate into child nodes of child nodes * @returns {ve.Node|null} Node at offset, or null if non was found */ ve.BranchNode.prototype.getNodeFromOffset = function ( offset, shallow ) { if ( offset === 0 ) { return this; } // TODO a lot of logic is duplicated in selectNodes(), abstract that into a traverser or something if ( this.children.length ) { var i, length, nodeLength, childNode, nodeOffset = 0; for ( i = 0, length = this.children.length; i < length; i++ ) { childNode = this.children[i]; if ( offset === nodeOffset ) { // The requested offset is right before childNode, // so it's not inside any of this's children, but inside this return this; } nodeLength = childNode.getOuterLength(); if ( offset >= nodeOffset && offset < nodeOffset + nodeLength ) { if ( !shallow && childNode.hasChildren() && childNode.getChildren().length ) { return this.getNodeFromOffset.call( childNode, offset - nodeOffset - 1 ); } else { return childNode; } } nodeOffset += nodeLength; } if ( offset === nodeOffset ) { // The requested offset is right before this.children[i], // so it's not inside any of this's children, but inside this return this; } } return null; }; /** * Gets the content offset of a node. * * TODO: Rewrite this method to not use recursion, because the function call overhead is expensive * * @method * @param {ve.Node} node Node to get offset of * @returns {number} Offset of node or -1 of node was not found */ ve.BranchNode.prototype.getOffsetFromNode = function ( node ) { if ( node === this ) { return 0; } if ( this.children.length ) { var i, length, childOffset, childNode, offset = 0; for ( i = 0, length = this.children.length; i < length; i++ ) { childNode = this.children[i]; if ( childNode === node ) { return offset; } if ( childNode.canHaveChildren() && childNode.getChildren().length ) { childOffset = this.getOffsetFromNode.call( childNode, node ); if ( childOffset !== -1 ) { return offset + 1 + childOffset; } } offset += childNode.getOuterLength(); } } return -1; };