/** * VisualEditor content editable BranchNode class. * * @copyright 2011-2012 VisualEditor Team and others; see AUTHORS.txt * @license The MIT License (MIT); see LICENSE.txt */ /** * ContentEditable node that can have branch or leaf children. * * @class * @abstract * @constructor * @extends {ve.BranchNode} * @extends {ve.ce.Node} * @param {String} type Symbolic name of node type * @param model {ve.dm.BranchNode} Model to observe * @param {jQuery} [$element] Element to use as a container */ ve.ce.BranchNode = function ( type, model, $element ) { // Inheritance ve.BranchNode.call( this ); ve.ce.Node.call( this, type, model, $element ); // Properties this.domWrapperElementType = this.$.get(0).nodeName.toLowerCase(); this.$slugs = $(); // Events this.model.addListenerMethod( this, 'splice', 'onSplice' ); // DOM Changes this.$.addClass( 've-ce-branchNode' ); // Initialization if ( model.getChildren().length ) { this.onSplice.apply( this, [0, 0].concat( model.getChildren() ) ); } }; /* Static Members */ if ( $.browser.msie ) { ve.ce.BranchNode.$slugTemplate = $( ' ' ); } else { ve.ce.BranchNode.$slugTemplate = $( '' ); } /* Static Methods */ /** * Gets the appropriate element type for the DOM wrapper of a node. * * This method reads the {key} attribute from a {model} and looks up a type in the node's statically * defined {domWrapperElementTypes} member, which is a mapping of possible values of that attribute * and DOM element types. * * @method * @param {ve.dm.BranchNode} model Model node is based on * @param {String} key Attribute name to read type value from * @returns {String} DOM element type for wrapper * @throws 'Undefined attribute' if attribute is not defined in the model * @throws 'Invalid attribute value' if attribute value is not a key in {domWrapperElementTypes} */ ve.ce.BranchNode.getDomWrapperType = function ( model, key ) { var types, value = model.getAttribute( key ); if ( value === undefined ) { throw new Error( 'Undefined attribute: ' + key ); } types = ve.ce.nodeFactory.lookup( model.getType() ).domWrapperElementTypes; if ( types[value] === undefined ) { throw new Error( 'Invalid attribute value: ' + value ); } return types[value]; }; /** * Gets a jQuery selection of a new DOM wrapper for a node. * * This method uses {getDomWrapperType} to determine the proper element type to use. * * @method * @param {ve.dm.BranchNode} model Model node is based on * @param {String} key Attribute name to read type value from * @returns {jQuery} Selection of DOM wrapper */ ve.ce.BranchNode.getDomWrapper = function ( model, key ) { var type = ve.ce.BranchNode.getDomWrapperType( model, key ); return $( '<' + type + '>' ); }; /* Methods */ ve.ce.BranchNode.prototype.addSlugs = function () { var i, $slug; // Remove all slugs in this branch this.$slugs.remove(); $slug = ve.ce.BranchNode.$slugTemplate.clone(); if ( this.canHaveGrandchildren() ) { $slug.css( 'display', 'block'); } // Iterate over all children of this branch and add slugs in appropriate places if ( this.getLength() === 0 ) { this.$.empty(); this.$slugs = this.$slugs.add( $slug.clone().appendTo( this.$ ) ); } // TODO the before/after logic below is duplicated from hasSlugAtOffset(), refactor this for ( i = 0; i < this.children.length; i++ ) { if ( this.children[i].canHaveSlugAfter() ) { if ( // Last sluggable child (right side) i === this.children.length - 1 || // Sluggable child followed by another sluggable child (in between) ( this.children[i + 1] && this.children[i + 1].canHaveSlugBefore() ) ) { this.$slugs = this.$slugs.add( $slug.clone().insertAfter( this.children[i].$ ) ); } } // First sluggable child (left side) if ( i === 0 && this.children[i].canHaveSlugBefore() ) { this.$slugs = this.$slugs.add( $slug.clone().insertBefore( this.children[i].$ ) ); } } }; /** * Updates the DOM wrapper of this node if needed. * * This method uses {getDomWrapperType} to determine the proper element type to use. * * WARNING: The contents, .data( 'node' ) and any classes the wrapper already has will be moved to * the new wrapper, but other attributes and any other information added using $.data() will be * lost upon updating the wrapper. To retain information added to the wrapper, subscribe to the * 'rewrap' event and copy information from the {$old} wrapper the {$new} wrapper. * * @method * @param {String} key Attribute name to read type value from * @emits rewrap ($old, $new) */ ve.ce.BranchNode.prototype.updateDomWrapper = function ( key ) { var $element, type = ve.ce.BranchNode.getDomWrapperType( this.model, key ); if ( type !== this.domWrapperElementType ) { $element = $( '<' + type + '>' ); // Copy classes $element.attr( 'class', this.$.attr( 'class' ) ); // Copy .data( 'node' ) $element.data( 'node', this.$.data( 'node' ) ); // Move contents $element.append( this.$.contents() ); // Emit an event that can be handled to copy other things over if needed this.emit( 'rewrap', this.$, $element ); // Swap elements this.$.replaceWith( $element ); // Use new element from now on this.$ = $element; // Remember which type we are using now this.domWrapperElementType = type; } }; /** * Responds to splice events on a ve.dm.BranchNode. * * ve.ce.Node objects are generated from the inserted ve.dm.Node objects, producing a view that's a * mirror of its model. * * @method * @param {Integer} index Index to remove and or insert nodes at * @param {Integer} howmany Number of nodes to remove * @param {ve.dm.BranchNode} [...] Variadic list of nodes to insert */ ve.ce.BranchNode.prototype.onSplice = function ( index ) { var i, length, args = Array.prototype.slice.call( arguments ), $anchor, removals; // Convert models to views and attach them to this node if ( args.length >= 3 ) { for ( i = 2, length = args.length; i < length; i++ ) { args[i] = ve.ce.nodeFactory.create( args[i].getType(), args[i] ); } } removals = this.children.splice.apply( this.children, args ); for ( i = 0, length = removals.length; i < length; i++ ) { removals[i].detach(); // Update DOM removals[i].$.detach(); } if ( args.length >= 3 ) { if ( index ) { // Get the element before the insertion point $anchor = this.$.children(':not(.ve-ce-slug)').eq( index - 1 ); } for ( i = args.length - 1; i >= 2; i-- ) { args[i].attach( this ); if ( index ) { $anchor.after( args[i].$ ); } else { this.$.prepend( args[i].$ ); } } } this.addSlugs(); }; ve.ce.BranchNode.prototype.hasSlugAtOffset = function ( offset ) { var i, nodeOffset, nodeLength; if ( this.getLength() === 0 ) { return true; } for ( i = 0; i < this.children.length; i++ ) { if ( this.children[i].canHaveSlugAfter() || this.children[i].canHaveSlugBefore() ) { nodeOffset = this.children[i].model.getRoot().getOffsetFromNode( this.children[i].model ); if ( this.children[i].canHaveSlugAfter() ) { nodeLength = this.children[i].model.getOuterLength(); if ( // Offset is after this child offset === nodeOffset + nodeLength && ( // Last sluggable child (right side) i === this.children.length - 1 || // Sluggable child followed by another sluggable child (in between) ( this.children[i + 1] && this.children[i + 1].canHaveSlugBefore() ) ) ) { return true; } } // First sluggable child (left side) if ( i === 0 && offset === nodeOffset && this.children[i].canHaveSlugBefore() ) { return true; } } } return false; }; ve.ce.BranchNode.prototype.clean = function () { this.$.empty(); for ( var i = 0; i < this.children.length; i++ ) { this.$.append( this.children[i].$ ); } this.addSlugs(); }; /* Inheritance */ ve.extendClass( ve.ce.BranchNode, ve.BranchNode, ve.ce.Node );