mirror of
https://gerrit.wikimedia.org/r/mediawiki/extensions/VisualEditor
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e01e2e045b
Because if you only sometimes use a getter you're just wasting your time! Change-Id: Idd38976f77b58e322d527cecca9f9c36e3ad9318
500 lines
16 KiB
JavaScript
500 lines
16 KiB
JavaScript
/*!
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* VisualEditor DataModel TransactionProcessor class.
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*
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* @copyright 2011-2013 VisualEditor Team and others; see AUTHORS.txt
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* @license The MIT License (MIT); see LICENSE.txt
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*/
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/**
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* DataModel transaction processor.
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*
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* This class reads operations from a transaction and applies them one by one. It's not intended
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* to be used directly; use {ve.dm.Document#commit} instead.
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*
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* NOTE: Instances of this class are not recyclable: you can only call .process() on them once.
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*
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* @class
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* @param {ve.dm.Document} doc Document
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* @param {ve.dm.Transaction} transaction Transaction
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* @constructor
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*/
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ve.dm.TransactionProcessor = function VeDmTransactionProcessor( doc, transaction ) {
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// Properties
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this.document = doc;
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this.transaction = transaction;
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this.operations = transaction.getOperations();
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this.synchronizer = new ve.dm.DocumentSynchronizer( doc, transaction );
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// Linear model offset that we're currently at. Operations in the transaction are ordered, so
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// the cursor only ever moves forward.
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this.cursor = 0;
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this.metadataCursor = 0;
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// Adjustment used to convert between linear model offsets in the original linear model and
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// in the half-updated linear model.
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this.adjustment = 0;
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// Set and clear are sets of annotations which should be added or removed to content being
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// inserted or retained.
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this.set = new ve.dm.AnnotationSet( this.document.getStore() );
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this.clear = new ve.dm.AnnotationSet( this.document.getStore() );
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};
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/* Static members */
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/* See ve.dm.TransactionProcessor.processors */
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ve.dm.TransactionProcessor.processors = {};
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/* Methods */
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/**
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* Get the next operation.
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*
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* @method
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*/
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ve.dm.TransactionProcessor.prototype.nextOperation = function () {
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return this.operations[this.operationIndex++] || false;
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};
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/**
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* Execute an operation.
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*
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* @method
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* @param {Object} op Operation object to execute
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* @throws {Error} Operation type is not supported
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*/
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ve.dm.TransactionProcessor.prototype.executeOperation = function ( op ) {
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if ( op.type in ve.dm.TransactionProcessor.processors ) {
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ve.dm.TransactionProcessor.processors[op.type].call( this, op );
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} else {
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throw new Error( 'Invalid operation error. Operation type is not supported: ' + op.type );
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}
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};
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/**
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* Advance the main data cursor.
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*
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* @method
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* @param {number} increment Number of positions to increment the cursor by
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*/
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ve.dm.TransactionProcessor.prototype.advanceCursor = function ( increment ) {
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this.cursor += increment;
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this.metadataCursor = 0;
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};
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/**
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* Process all operations.
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*
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* When all operations are done being processed, the document will be synchronized.
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*
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* @method
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*/
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ve.dm.TransactionProcessor.prototype.process = function () {
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var op;
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// This loop is factored this way to allow operations to be skipped over or executed
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// from within other operations
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this.operationIndex = 0;
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while ( ( op = this.nextOperation() ) ) {
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this.executeOperation( op );
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}
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this.synchronizer.synchronize();
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// Mark the transaction as committed or rolled back, as appropriate
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this.transaction.markAsApplied();
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};
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/**
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* Apply the current annotation stacks.
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*
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* This will set all annotations in this.set and clear all annotations in `this.clear` on the data
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* between the offsets `this.cursor` and `this.cursor + to`.
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*
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* @method
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* @param {number} to Offset to stop annotating at, annotating starts at this.cursor
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* @throws {Error} Cannot annotate a branch element
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* @throws {Error} Annotation to be set is already set
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* @throws {Error} Annotation to be cleared is not set
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*/
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ve.dm.TransactionProcessor.prototype.applyAnnotations = function ( to ) {
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var item, isElement, annotated, annotations, i, range, selection,
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store = this.document.getStore();
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if ( this.set.isEmpty() && this.clear.isEmpty() ) {
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return;
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}
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for ( i = this.cursor; i < to; i++ ) {
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item = this.document.data.getData( i );
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isElement = this.document.data.isElementData( i );
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if ( isElement ) {
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if ( !ve.dm.nodeFactory.isNodeContent( this.document.data.getType( i ) ) ) {
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throw new Error( 'Invalid transaction, cannot annotate a non-content element' );
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}
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if ( this.document.data.isCloseElementData( i ) ) {
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// Closing content element, ignore
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continue;
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}
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}
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annotated = isElement ? 'annotations' in item : ve.isArray( item );
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annotations = annotated ?
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new ve.dm.AnnotationSet( store, isElement ? item.annotations : item[1] ) :
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new ve.dm.AnnotationSet( store );
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// Set and clear annotations
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if ( annotations.containsAnyOf( this.set ) ) {
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throw new Error( 'Invalid transaction, annotation to be set is already set' );
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} else {
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annotations.addSet( this.set );
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}
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if ( !annotations.containsAllOf( this.clear ) ) {
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throw new Error( 'Invalid transaction, annotation to be cleared is not set' );
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} else {
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annotations.removeSet( this.clear );
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}
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// Store annotation indexes in linear model
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this.document.data.setAnnotationsAtOffset( i, annotations );
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}
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if ( this.cursor < to ) {
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range = new ve.Range( this.cursor, to );
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selection = this.document.selectNodes(
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new ve.Range(
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this.cursor - this.adjustment,
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to - this.adjustment
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),
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'leaves'
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);
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this.synchronizer.pushAnnotation( new ve.Range( this.cursor, to ) );
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}
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};
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/**
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* Processing methods.
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*
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* Each method is specific to a type of action. Methods are called in the context of a transaction
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* processor, so they work similar to normal methods on the object.
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*
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* @class ve.dm.TransactionProcessor.processors
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* @singleton
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*/
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/**
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* Execute a retain operation.
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*
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* This method is called within the context of a transaction processor instance.
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*
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* This moves the cursor by op.length and applies annotations to the characters that the cursor
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* moved over.
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*
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* @method
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* @param {Object} op Operation object:
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* @param {number} op.length Number of elements to retain
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*/
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ve.dm.TransactionProcessor.processors.retain = function ( op ) {
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this.applyAnnotations( this.cursor + op.length );
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this.advanceCursor( op.length );
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};
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/**
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* Execute a metadata retain operation.
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*
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* This method is called within the context of a transaction processor instance.
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*
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* This moves the metadata cursor by op.length.
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*
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* @method
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* @param {Object} op Operation object:
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* @param {number} op.length Number of elements to retain
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*/
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ve.dm.TransactionProcessor.processors.retainMetadata = function ( op ) {
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this.metadataCursor += op.length;
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};
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/**
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* Execute an annotate operation.
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*
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* This method is called within the context of a transaction processor instance.
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*
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* This will add an annotation to or remove an annotation from `this.set`or `this.clear`.
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*
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* @method
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* @param {Object} op Operation object
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* @param {string} op.method Annotation method, either 'set' to add or 'clear' to remove
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* @param {string} op.bias End point of marker, either 'start' to begin or 'stop' to end
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* @param {string} op.annotation Annotation object to set or clear from content
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* @throws {Error} Invalid annotation method
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*/
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ve.dm.TransactionProcessor.processors.annotate = function ( op ) {
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var target;
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if ( op.method === 'set' ) {
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target = this.set;
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} else if ( op.method === 'clear' ) {
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target = this.clear;
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} else {
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throw new Error( 'Invalid annotation method ' + op.method );
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}
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if ( op.bias === 'start' ) {
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target.push( op.annotation );
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} else {
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target.remove( op.annotation );
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}
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// Tree sync is done by applyAnnotations()
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};
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/**
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* Execute an attribute operation.
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*
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* This method is called within the context of a transaction processor instance.
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*
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* This sets the attribute named `op.key` on the element at `this.cursor` to `op.to`, or unsets it if
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* `op.to === undefined`. `op.from `is not checked against the old value, but is used instead of `op.to`
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* in reverse mode. So if `op.from` is incorrect, the transaction will commit fine, but won't roll
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* back correctly.
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*
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* @method
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* @param {Object} op Operation object
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* @param {string} op.key Attribute name
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* @param {Mixed} op.from Old attribute value, or undefined if not previously set
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* @param {Mixed} op.to New attribute value, or undefined to unset
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*/
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ve.dm.TransactionProcessor.processors.attribute = function ( op ) {
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var element = this.document.data.getData( this.cursor ),
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to = op.to,
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from = op.from;
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if ( element.type === undefined ) {
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throw new Error( 'Invalid element error, cannot set attributes on non-element data' );
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}
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if ( to === undefined ) {
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// Clear
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if ( element.attributes ) {
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delete element.attributes[op.key];
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}
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} else {
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// Automatically initialize attributes object
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if ( !element.attributes ) {
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element.attributes = {};
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}
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// Set
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element.attributes[op.key] = to;
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}
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this.synchronizer.pushAttributeChange(
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this.document.getDocumentNode().getNodeFromOffset( this.cursor + 1 ),
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op.key,
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from, to
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);
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};
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/**
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* Execute a replace operation.
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*
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* This method is called within the context of a transaction processor instance.
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*
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* This replaces a range of linear model data with another at this.cursor, figures out how the model
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* tree needs to be synchronized, and queues this in the DocumentSynchronizer.
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*
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* op.remove isn't checked against the actual data (instead op.remove.length things are removed
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* starting at this.cursor), but it's used instead of op.insert in reverse mode. So if
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* op.remove is incorrect but of the right length, the transaction will commit fine, but won't roll
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* back correctly.
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*
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* @method
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* @param {Object} op Operation object
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* @param {Array} op.remove Linear model data to remove
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* @param {Array} op.insert Linear model data to insert
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*/
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ve.dm.TransactionProcessor.processors.replace = function ( op ) {
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var node, selection, range,
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remove = op.remove,
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insert = op.insert,
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removeMetadata = op.removeMetadata,
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insertMetadata = op.insertMetadata,
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removeLinearData = new ve.dm.ElementLinearData( this.document.getStore(), remove ),
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insertLinearData = new ve.dm.ElementLinearData( this.document.getStore(), insert ),
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removeIsContent = removeLinearData.isContentData(),
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insertIsContent = insertLinearData.isContentData(),
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removeHasStructure = removeLinearData.containsElementData(),
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insertHasStructure = insertLinearData.containsElementData(),
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operation = op,
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removeLevel = 0,
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insertLevel = 0,
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i,
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type,
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prevCursor,
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affectedRanges = [],
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scope,
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minInsertLevel = 0,
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coveringRange,
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scopeStart,
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scopeEnd,
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opAdjustment = 0,
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opRemove, opInsert, opRemoveMetadata, opInsertMetadata;
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if ( removeIsContent && insertIsContent ) {
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// Content replacement
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// Update the linear model
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this.document.data.batchSplice( this.cursor, remove.length, insert );
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// Keep the meta linear model in sync
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if ( removeMetadata !== undefined ) {
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this.document.metadata.batchSplice( this.cursor, removeMetadata.length, insertMetadata );
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} else {
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this.document.metadata.batchSplice( this.cursor, remove.length, new Array( insert.length ) );
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}
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this.applyAnnotations( this.cursor + insert.length );
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// Get the node containing the replaced content
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selection = this.document.selectNodes(
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new ve.Range(
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this.cursor - this.adjustment,
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this.cursor - this.adjustment + remove.length
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),
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'leaves'
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);
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node = selection[0].node;
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if (
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!removeHasStructure && !insertHasStructure &&
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selection.length === 1 &&
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node && node.getType() === 'text'
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) {
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// Text-only replacement
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// Queue a resize for the text node
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this.synchronizer.pushResize( node, insert.length - remove.length );
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} else {
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// Replacement is not exclusively text
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// Rebuild all covered nodes
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range = new ve.Range(
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selection[0].nodeOuterRange.start,
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selection[selection.length - 1].nodeOuterRange.end
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);
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this.synchronizer.pushRebuild( range,
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new ve.Range( range.start + this.adjustment,
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range.end + this.adjustment + insert.length - remove.length )
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);
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}
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// Advance the cursor
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this.advanceCursor( insert.length );
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this.adjustment += insert.length - remove.length;
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} else {
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// Structural replacement
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// It's possible that multiple replace operations are needed before the
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// model is back in a consistent state. This loop applies the current
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// replace operation to the linear model, then keeps applying subsequent
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// operations until the model is consistent. We keep track of the changes
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// and queue a single rebuild after the loop finishes.
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while ( true ) {
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if ( operation.type === 'replace' ) {
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opRemove = operation.remove;
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opInsert = operation.insert;
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opRemoveMetadata = operation.removeMetadata;
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opInsertMetadata = operation.insertMetadata;
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// Update the linear model
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this.document.data.batchSplice( this.cursor, opRemove.length, opInsert );
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// Keep the meta linear model in sync
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if ( opRemoveMetadata !== undefined ) {
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this.document.metadata.batchSplice( this.cursor, opRemoveMetadata.length, opInsertMetadata );
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} else {
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this.document.metadata.batchSplice( this.cursor, opRemove.length, new Array( opInsert.length ) );
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}
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affectedRanges.push( new ve.Range(
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this.cursor - this.adjustment,
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this.cursor - this.adjustment + opRemove.length
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) );
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prevCursor = this.cursor;
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this.advanceCursor( opInsert.length );
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// Paint the removed selection, figure out which nodes were
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// covered, and add their ranges to the affected ranges list
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if ( opRemove.length > 0 ) {
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selection = this.document.selectNodes( new ve.Range(
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prevCursor - this.adjustment,
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prevCursor + opRemove.length - this.adjustment
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), 'siblings' );
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for ( i = 0; i < selection.length; i++ ) {
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affectedRanges.push( selection[i].nodeOuterRange );
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}
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}
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// Walk through the remove and insert data
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// and keep track of the element depth change (level)
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// for each of these two separately. The model is
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// only consistent if both levels are zero.
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for ( i = 0; i < opRemove.length; i++ ) {
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type = opRemove[i].type;
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if ( type !== undefined ) {
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if ( type.charAt( 0 ) === '/' ) {
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// Closing element
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removeLevel--;
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} else {
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// Opening element
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removeLevel++;
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}
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}
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}
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// Keep track of the scope of the insertion
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// Normally this is the node we're inserting into, except if the
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// insertion closes elements it doesn't open (i.e. splits elements),
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// in which case it's the affected ancestor
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for ( i = 0; i < opInsert.length; i++ ) {
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type = opInsert[i].type;
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if ( type !== undefined ) {
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if ( type.charAt( 0 ) === '/' ) {
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// Closing element
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insertLevel--;
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if ( insertLevel < minInsertLevel ) {
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// Closing an unopened element at a higher
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// (more negative) level than before
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// Lazy-initialize scope
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scope = scope || this.document.getNodeFromOffset( prevCursor );
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// Push the full range of the old scope as an affected range
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scopeStart = scope.getOffset();
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scopeEnd = scopeStart + scope.getOuterLength();
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affectedRanges.push( new ve.Range( scopeStart, scopeEnd ) );
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// Update scope
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scope = scope.getParent() || scope;
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}
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} else {
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// Opening element
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insertLevel++;
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}
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}
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}
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// Update adjustment
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this.adjustment += opInsert.length - opRemove.length;
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opAdjustment += opInsert.length - opRemove.length;
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} else {
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// We know that other operations won't cause adjustments, so we
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// don't have to update adjustment
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this.executeOperation( operation );
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}
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if ( removeLevel === 0 && insertLevel === 0 ) {
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// The model is back in a consistent state, so we're done
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break;
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}
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// Get the next operation
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operation = this.nextOperation();
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if ( !operation ) {
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throw new Error( 'Unbalanced set of replace operations found' );
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}
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}
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// From all the affected ranges we have gathered, compute a range that covers all
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// of them, and rebuild that
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coveringRange = ve.Range.newCoveringRange( affectedRanges );
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this.synchronizer.pushRebuild(
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coveringRange,
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new ve.Range(
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coveringRange.start + this.adjustment - opAdjustment,
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coveringRange.end + this.adjustment
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)
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);
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}
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};
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/**
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* Execute a metadata replace operation.
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*
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* This method is called within the context of a transaction processor instance.
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*
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* @method
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* @param {Object} op Operation object
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* @param {Array} op.remove Metadata to remove
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* @param {Array} op.insert Metadata to insert
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*/
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ve.dm.TransactionProcessor.processors.replaceMetadata = function ( op ) {
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var remove = op.remove,
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insert = op.insert;
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this.document.spliceMetadata( this.cursor, this.metadataCursor, remove.length, insert );
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this.metadataCursor += insert.length;
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};
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