mediawiki-extensions-Visual.../modules/ve/dm/ve.dm.Document.js
Ed Sanders 5c31d3215b Change ve.dm.DocumentSlice to a mixin to ve.dm.LinearData
Document slice only ever contained linear data, with extra functionality
to preserve the range. It pre-dated LinearData, but now we should
refactor it to reflect its purpose.

Change-Id: Ifc908f7526c83a43a51372c8d2494d7260e7facd
2013-10-03 19:38:59 +01:00

910 lines
31 KiB
JavaScript

/*!
* VisualEditor DataModel Document class.
*
* @copyright 2011-2013 VisualEditor Team and others; see AUTHORS.txt
* @license The MIT License (MIT); see LICENSE.txt
*/
/**
* DataModel document.
*
* WARNING: The data parameter is passed by reference. Do not modify a data array after passing
* it to this constructor, and do not construct multiple Documents with the same data array. If you
* need to do these things, make a deep copy (ve#copy) of the data array and operate on the
* copy.
*
* @class
* @extends ve.Document
* @constructor
* @param {HTMLDocument|Array|ve.dm.LinearData} documentOrData HTML document, raw linear model data or LinearData to start with
* @param {ve.dm.Document} [parentDocument] Document to use as root for created nodes
* @param {ve.dm.InternalList} [internalList] Internal list to clone; passed when creating a document slice
*/
ve.dm.Document = function VeDmDocument( documentOrData, parentDocument, internalList ) {
// Parent constructor
ve.Document.call( this, new ve.dm.DocumentNode() );
// Initialization
/*
* Build a tree of nodes and nodes that will be added to them after a full scan is complete,
* then from the bottom up add nodes to their potential parents. This avoids massive length
* updates being broadcast upstream constantly while building is underway.
*/
var i, node, children, meta,
doc = parentDocument || this,
root = this.getDocumentNode(),
textLength = 0,
inTextNode = false,
// Stack of stacks, each containing a
stack = [[this.documentNode], []],
currentStack = stack[1],
parentStack = stack[0],
currentNode = this.documentNode;
this.documentNode.setRoot( root );
this.documentNode.setDocument( doc );
this.internalList = internalList ? internalList.clone( this ) : new ve.dm.InternalList( this );
// Properties
this.parentDocument = parentDocument;
this.completeHistory = [];
if ( documentOrData instanceof ve.dm.LinearData ) {
this.data = documentOrData;
} else if ( !ve.isArray( documentOrData ) && typeof documentOrData === 'object' ) {
this.data = ve.dm.converter.getDataFromDom( documentOrData, new ve.dm.IndexValueStore(), this.getInternalList() );
} else {
this.data = new ve.dm.ElementLinearData(
new ve.dm.IndexValueStore(),
ve.isArray( documentOrData ) ? documentOrData : []
);
}
this.store = this.data.getStore();
// Sparse array containing the metadata for each offset
// Each element is either undefined, or an array of metadata elements
// Because the indexes in the metadata array represent offsets in the data array, the
// metadata array has one element more than the data array.
this.metadata = new ve.dm.MetaLinearData( this.getStore(), [] );
// extract metadata and build node tree
// NB: this.data.getLength() will change as data is spliced out
for ( i = 0; i < this.data.getLength(); i++ ) {
// Infer that if an item in the linear model has a type attribute than it must be an element
if ( !this.data.isElementData( i ) ) {
// Text node opening
if ( !inTextNode ) {
// Create a lengthless text node
node = new ve.dm.TextNode();
node.setDocument( doc );
// Put the node on the current inner stack
currentStack.push( node );
currentNode = node;
// Set a flag saying we're inside a text node
inTextNode = true;
}
// Track the length
textLength++;
} else {
// Element data
if ( !this.data.isCloseElementData( i ) &&
ve.dm.metaItemFactory.lookup( this.data.getData( i ).type )
) {
// Metadata
// Splice the meta element and its closing out of the linmod
meta = this.data.getData( i );
this.data.splice( i, 2 );
// Put the metadata in the meta-linmod
if ( !this.metadata.getData( i ) ) {
this.metadata.setData( i, [] );
}
this.metadata.getData( i ).push( meta );
// Make sure the loop doesn't skip the next element
i--;
continue;
}
// Text node closing
if ( inTextNode ) {
// Finish the text node by setting the length
currentNode.setLength( textLength );
// Put the state variables back as they were
currentNode = parentStack[parentStack.length - 1];
inTextNode = false;
textLength = 0;
}
// Element open/close
if ( !this.data.isCloseElementData( i ) ) {
// Branch or leaf node opening
// Create a childless node
node = ve.dm.nodeFactory.create(
this.data.getData( i ).type, [], this.data.getData( i )
);
node.setDocument( doc );
// Put the childless node on the current inner stack
currentStack.push( node );
if ( ve.dm.nodeFactory.canNodeHaveChildren( node.getType() ) ) {
// Create a new inner stack for this node
parentStack = currentStack;
currentStack = [];
stack.push( currentStack );
}
currentNode = node;
} else {
// Branch or leaf node closing
if ( ve.dm.nodeFactory.canNodeHaveChildren( currentNode.getType() ) ) {
// Pop this node's inner stack from the outer stack. It'll have all of the
// node's child nodes fully constructed
children = stack.pop();
currentStack = parentStack;
parentStack = stack[stack.length - 2];
if ( !parentStack ) {
// This can only happen if we got unbalanced data
throw new Error( 'Unbalanced input passed to document' );
}
// Attach the children to the node
ve.batchSplice( currentNode, 0, 0, children );
}
currentNode = parentStack[parentStack.length - 1];
}
}
}
// pad out the metadata array
if ( this.metadata.getLength() < this.data.getLength() + 1 ) {
this.metadata.data = this.metadata.data.concat(
new Array( 1 + this.data.getLength() - this.metadata.getLength() )
);
}
if ( inTextNode ) {
// Text node ended by end-of-input rather than by an element
currentNode.setLength( textLength );
// Don't bother updating currentNode et al, we don't use them below
}
// State variable that allows nodes to know that they are being
// appended in order. Used by ve.dm.InternalList.
this.buildingNodeTree = true;
// The end state is stack = [ [this.documentNode] [ array, of, its, children ] ]
// so attach all nodes in stack[1] to the root node
ve.batchSplice( this.documentNode, 0, 0, stack[1] );
this.buildingNodeTree = false;
};
/* Inheritance */
ve.inheritClass( ve.dm.Document, ve.Document );
/* Events */
/**
* @event transact
* @param {ve.dm.Transaction} tx Transaction that was just processed
* @param {boolean} reversed Whether the transaction was processed in reverse
*/
/* Static methods */
/**
* Apply annotations to content data.
*
* This method modifies data in place.
*
* @method
* @param {Array} data Data to apply annotations to
* @param {ve.dm.AnnotationSet} annotationSet Annotations to apply
*/
ve.dm.Document.addAnnotationsToData = function ( data, annotationSet ) {
var i, length, newAnnotationSet, store = annotationSet.getStore();
if ( annotationSet.isEmpty() ) {
// Nothing to do
return;
}
// Apply annotations to data
for ( i = 0, length = data.length; i < length; i++ ) {
if ( data[i].type ) {
// Element
continue;
} else if ( !ve.isArray( data[i] ) ) {
// Wrap in array
data[i] = [data[i]];
newAnnotationSet = annotationSet.clone();
} else {
// Add to existing array
newAnnotationSet = new ve.dm.AnnotationSet( store, data[i][1] );
newAnnotationSet.addSet( annotationSet.clone() );
}
data[i][1] = newAnnotationSet.getIndexes();
}
};
/* Methods */
/**
* Reverse a transaction's effects on the content data.
*
* @method
* @param {ve.dm.Transaction} transaction Transaction to roll back
* @emits transact
* @throws {Error} Cannot roll back a transaction that has not been committed
*/
ve.dm.Document.prototype.rollback = function ( transaction ) {
if ( !transaction.hasBeenApplied() ) {
throw new Error( 'Cannot roll back a transaction that has not been committed' );
}
new ve.dm.TransactionProcessor( this, transaction, true ).process();
this.completeHistory.push( {
'undo': true,
'transaction': transaction
} );
this.emit( 'transact', transaction, true );
};
/**
* Apply a transaction's effects on the content data.
*
* @method
* @param {ve.dm.Transaction} transaction Transaction to apply
* @emits transact
* @throws {Error} Cannot commit a transaction that has already been committed
*/
ve.dm.Document.prototype.commit = function ( transaction ) {
if ( transaction.hasBeenApplied() ) {
throw new Error( 'Cannot commit a transaction that has already been committed' );
}
new ve.dm.TransactionProcessor( this, transaction, false ).process();
this.completeHistory.push( {
'undo': false,
'transaction': transaction
} );
this.emit( 'transact', transaction, false );
};
/**
* Get a slice or copy of the document data.
*
* @method
* @param {ve.Range} [range] Range of data to get, all data will be given by default
* @param {boolean} [deep=false] Whether to return a deep copy (WARNING! This may be very slow)
* @returns {Array} Slice or copy of document data
*/
ve.dm.Document.prototype.getData = function ( range, deep ) {
return this.data.getDataSlice( range, deep );
};
/**
* Get a slice or copy of the document metadata.
*
* @method
* @param {ve.Range} [range] Range of metadata to get, all metadata will be given by default
* @param {boolean} [deep=false] Whether to return a deep copy (WARNING! This may be very slow)
* @returns {Array} Slice or copy of document metadata
*/
ve.dm.Document.prototype.getMetadata = function ( range, deep ) {
return this.metadata.getDataSlice( range, deep );
};
/**
* Get the document's index-value store
*
* @method
* @returns {ve.dm.IndexValueStore} The document's index-value store
*/
ve.dm.Document.prototype.getStore = function () {
return this.store;
};
/**
* Get the document's internal list
* @returns {ve.dm.InternalList} The document's internal list
*/
ve.dm.Document.prototype.getInternalList = function () {
return this.internalList;
};
/**
* Clone a sub-document from a range in this document. The new document's store and internal list will be
* clones of the ones in this document.
*
* @param {ve.Range} range Range of data to clone
* @returns {ve.dm.Document} New document
*/
ve.dm.Document.prototype.cloneFromRange = function ( range ) {
var data, newDoc,
store = this.store.clone(),
listRange = this.internalList.getListNode().getOuterRange();
data = ve.copy( this.getFullData( range, true ) );
if ( range.start > listRange.start || range.end < listRange.end ) {
// The range does not include the entire internal list, so add it
data = data.concat( this.getFullData( listRange ) );
}
newDoc = new this.constructor(
new ve.dm.ElementLinearData( store, data ),
undefined, this.internalList
);
// Record the length of the internal list at the time the slice was created so we can
// reconcile additions properly
newDoc.origDoc = this;
newDoc.origInternalListLength = this.internalList.getItemNodeCount();
return newDoc;
};
/**
* Splice metadata into and/or out of the linear model.
*
* `this.metadata` will be updated accordingly.
*
* @method
* @see ve#batchSplice
* @param offset
* @param index
* @param remove
* @param insert
* @returns {Array}
*/
ve.dm.Document.prototype.spliceMetadata = function ( offset, index, remove, insert ) {
var elements = this.metadata.getData( offset );
if ( !elements ) {
elements = [];
this.metadata.setData( offset, elements );
}
insert = insert || [];
return ve.batchSplice( elements, index, remove, insert );
};
/**
* Get the full document data including metadata.
*
* Metadata will be into the document data to produce the "full data" result. If a range is passed,
* metadata at the edges of the range won't be included unless edgeMetadata is set to true. If
* no range is passed, the entire document's data is returned and metadata at the edges is
* included.
*
* @param {ve.Range} [range] Range to get full data for. If omitted, all data will be returned
* @param {boolean} [edgeMetadata=false] Include metadata at the edges of the range
* @returns {Array} Data with metadata interleaved
*/
ve.dm.Document.prototype.getFullData = function ( range, edgeMetadata ) {
var j, jLen,
i = range ? range.start : 0,
iLen = range ? range.end : this.data.getLength(),
result = [];
if ( edgeMetadata === undefined ) {
edgeMetadata = !range;
}
while ( i <= iLen ) {
if ( this.metadata.getData( i ) && ( edgeMetadata || ( i !== range.start && i !== range.end ) ) ) {
for ( j = 0, jLen = this.metadata.getData( i ).length; j < jLen; j++ ) {
result.push( this.metadata.getData( i )[j] );
result.push( { 'type': '/' + this.metadata.getData( i )[j].type } );
}
}
if ( i < iLen ) {
result.push( this.data.getData( i ) );
}
i++;
}
return result;
};
/**
* Get a node from an offset.
*
* @method
* @param offset
*/
ve.dm.Document.prototype.getNodeFromOffset = function ( offset ) {
// FIXME duplicated from ve.ce.Document
if ( offset < 0 || offset > this.data.getLength() ) {
throw new Error( 've.dm.Document.getNodeFromOffset(): offset ' + offset + ' is out of bounds' );
}
var node = this.documentNode.getNodeFromOffset( offset );
if ( !node.canHaveChildren() ) {
node = node.getParent();
}
return node;
};
/**
* Get the content data of a node.
*
* @method
* @param {ve.dm.Node} node Node to get content data for
* @returns {Array|null} List of content and elements inside node or null if node is not found
*/
ve.dm.Document.prototype.getDataFromNode = function ( node ) {
var length = node.getLength(),
offset = node.getOffset();
if ( offset >= 0 ) {
// XXX: If the node is wrapped in an element than we should increment the offset by one so
// we only return the content inside the element.
if ( node.isWrapped() ) {
offset++;
}
return this.data.slice( offset, offset + length );
}
return null;
};
/**
* Get plain text of a range.
*
* @method
* @param {ve.Range} [range] Range of data to get the text of
* @returns {string|''} Selected text or an empty string
*/
ve.dm.Document.prototype.getText = function ( range ) {
var data = this.getData( range ),
str = '',
i;
for ( i = 0; i < data.length; i++ ) {
if ( typeof data[i] === 'string' ) {
str += data[i];
} else if ( ve.isArray( data[i] ) ) {
str += data[i][0];
}
}
return str;
};
/**
* Rebuild one or more nodes following a change in document data.
*
* The data provided to this method may contain either one node or multiple sibling nodes, but it
* must be balanced and valid. Data provided to this method also may not contain any content at the
* top level. The tree is updated during this operation.
*
* Process:
*
* 1. Nodes between {index} and {index} + {numNodes} in {parent} will be removed
* 2. Data will be retrieved from this.data using {offset} and {newLength}
* 3. A document fragment will be generated from the retrieved data
* 4. The document fragment's nodes will be inserted into {parent} at {index}
*
* Use cases:
*
* 1. Rebuild old nodes and offset data after a change to the linear model.
* 2. Insert new nodes and offset data after a insertion in the linear model.
*
* @param {ve.dm.Node} parent Parent of the node(s) being rebuilt
* @param {number} index Index within parent to rebuild or insert nodes
*
* - If {numNodes} == 0: Index to insert nodes at
* - If {numNodes} >= 1: Index of first node to rebuild
* @param {number} numNodes Total number of nodes to rebuild
*
* - If {numNodes} == 0: Nothing will be rebuilt, but the node(s) built from data will be
* inserted before {index}. To insert nodes at the end, use number of children in 'parent'
* - If {numNodes} == 1: Only the node at {index} will be rebuilt
* - If {numNodes} > 1: The node at {index} and the next {numNodes-1} nodes will be rebuilt
* @param {number} offset Linear model offset to rebuild from
* @param {number} newLength Length of data in linear model to rebuild or insert nodes for
* @returns {ve.dm.Node[]} Array containing the rebuilt/inserted nodes
*/
ve.dm.Document.prototype.rebuildNodes = function ( parent, index, numNodes, offset, newLength ) {
var // Get a slice of the document where it's been changed
data = this.data.sliceObject( offset, offset + newLength ),
// Build document fragment from data
fragment = new ve.dm.Document( data, this ),
// Get generated child nodes from the document fragment
nodes = fragment.getDocumentNode().getChildren();
// Replace nodes in the model tree
ve.batchSplice( parent, index, numNodes, nodes );
// Return inserted nodes
return nodes;
};
/**
* Fix up data so it can safely be inserted into the document data at an offset.
*
* TODO: this function needs more work but it seems to work, mostly
*
* @method
* @param {Array} data Snippet of linear model data to insert
* @param {number} offset Offset in the linear model where the caller wants to insert data
* @returns {Object} A (possibly modified) copy of data, a (possibly modified) offset
* and a number of elements to remove
*/
ve.dm.Document.prototype.fixupInsertion = function ( data, offset ) {
var
// Array where we build the return value
newData = [],
// Temporary variables for handling combining marks
insert, annotations,
// An unattached combining mark may require the insertion to remove a character,
// so we send this counter back in the result
remove = 0,
// *** Stacks ***
// Array of element openings (object). Openings in data are pushed onto this stack
// when they are encountered and popped off when they are closed
openingStack = [],
// Array of node objects. Closings in data that close nodes that were
// not opened in data (i.e. were already in the document) are pushed onto this stack
// and popped off when balanced out by an opening in data
closingStack = [],
// Pointer to this document for private methods
doc = this,
// *** State persisting across iterations of the outer loop ***
// The node (from the document) we're currently in. When in a node that was opened
// in data, this is set to its first ancestor that is already in the document
parentNode,
// The type of the node we're currently in, even if that node was opened within data
parentType,
// Whether we are currently in a text node
inTextNode,
// Whether this is the first child of its parent
// The test for last child isn't a loop so we don't need to cache it
isFirstChild,
// *** Temporary variables that do not persist across iterations ***
// The type of the node we're currently inserting. When the to-be-inserted node
// is wrapped, this is set to the type of the outer wrapper.
childType,
// Stores the return value of getParentNodeTypes( childType )
allowedParents,
// Stores the return value of getChildNodeTypes( parentType )
allowedChildren,
// Whether parentType matches allowedParents
parentsOK,
// Whether childType matches allowedChildren
childrenOK,
// Array of opening elements to insert (for wrapping the to-be-inserted element)
openings,
// Array of closing elements to insert (for splitting nodes)
closings,
// Array of opening elements matching the elements in closings (in the same order)
reopenElements,
// *** Other variables ***
// Used to store values popped from various stacks
popped,
// Loop variables
i, j;
/**
* Append a linear model element to newData and update the state.
*
* This function updates parentNode, parentType, openingStack and closingStack.
*
* @private
* @method
* @param {Object|Array|string} element Linear model element
* @param {number} index Index in data that the element came from (for error reporting only)
*/
function writeElement( element, index ) {
var expectedType;
if ( element.type !== undefined ) {
// Content, do nothing
if ( element.type.charAt( 0 ) !== '/' ) {
// Opening
// Check if this opening balances an earlier closing of a node that was already in
// the document. This is only the case if openingStack is empty (otherwise we still
// have unclosed nodes from within data) and if this opening matches the top of
// closingStack
if ( openingStack.length === 0 && closingStack.length > 0 &&
closingStack[closingStack.length - 1].getType() === element.type
) {
// The top of closingStack is now balanced out, so remove it
// Also restore parentNode from closingStack. While this is technically not
// entirely accurate (the current node is a new node that's a sibling of this
// node), it's good enough for the purposes of this algorithm
parentNode = closingStack.pop();
} else {
// This opens something new, put it on openingStack
openingStack.push( element );
}
parentType = element.type;
} else {
// Closing
// Make sure that this closing matches the currently opened node
if ( openingStack.length > 0 ) {
// The opening was on openingStack, so we're closing a node that was opened
// within data. Don't track that on closingStack
expectedType = openingStack.pop().type;
} else {
// openingStack is empty, so we're closing a node that was already in the
// document. This means we have to reopen it later, so track this on
// closingStack
expectedType = parentNode.getType();
closingStack.push( parentNode );
parentNode = parentNode.getParent();
if ( !parentNode ) {
throw new Error( 'Inserted data is trying to close the root node ' +
'(at index ' + index + ')' );
}
parentType = expectedType;
// Validate
// FIXME this breaks certain input, should fix it up, not scream and die
// For now we fall back to inserting balanced data, but then we miss out on
// a lot of the nice content adoption abilities of just fixing up the data in
// the context of the insertion point - an example of how this will fail is if
// you try to insert "b</p></li></ul><p>c" into "<p>a[cursor]d</p>"
if (
element.type !== '/' + expectedType &&
(
// Only throw an error if the content can't be adopted from one content
// branch to another
!ve.dm.nodeFactory.canNodeContainContent( element.type.substr( 1 ) ) ||
!ve.dm.nodeFactory.canNodeContainContent( expectedType )
)
) {
throw new Error( 'Cannot adopt content from ' + element.type +
' nodes into ' + expectedType + ' nodes (at index ' + index + ')' );
}
}
}
}
newData.push( element );
}
parentNode = this.getNodeFromOffset( offset );
parentType = parentNode.getType();
inTextNode = false;
isFirstChild = doc.data.isOpenElementData( offset - 1 );
for ( i = 0; i < data.length; i++ ) {
if ( inTextNode && data[i].type !== undefined ) {
parentType = openingStack.length > 0 ?
openingStack[openingStack.length - 1].type : parentNode.getType();
}
if ( data[i].type === undefined || data[i].type.charAt( 0 ) !== '/' ) {
childType = data[i].type || 'text';
openings = [];
closings = [];
reopenElements = [];
// Opening or content
// Make sure that opening this element here does not violate the parent/children/content
// rules. If it does, insert stuff to fix it
// If this node is content, check that the containing node can contain content. If not,
// wrap in a paragraph
if ( ve.dm.nodeFactory.isNodeContent( childType ) &&
!ve.dm.nodeFactory.canNodeContainContent( parentType )
) {
childType = 'paragraph';
openings.unshift( ve.dm.nodeFactory.getDataElement( childType ) );
}
// Check that this node is allowed to have the containing node as its parent. If not,
// wrap it until it's fixed
do {
allowedParents = ve.dm.nodeFactory.getParentNodeTypes( childType );
parentsOK = allowedParents === null ||
ve.indexOf( parentType, allowedParents ) !== -1;
if ( !parentsOK ) {
// We can't have this as the parent
if ( allowedParents.length === 0 ) {
throw new Error( 'Cannot insert ' + childType + ' because it ' +
' cannot have a parent (at index ' + i + ')' );
}
// Open an allowed node around this node
childType = allowedParents[0];
openings.unshift( ve.dm.nodeFactory.getDataElement( childType ) );
}
} while ( !parentsOK );
// Check that the containing node can have this node as its child. If not, close nodes
// until it's fixed
do {
allowedChildren = ve.dm.nodeFactory.getChildNodeTypes( parentType );
childrenOK = allowedChildren === null ||
ve.indexOf( childType, allowedChildren ) !== -1;
// Also check if we're trying to insert structure into a node that has to contain
// content
childrenOK = childrenOK && !(
!ve.dm.nodeFactory.isNodeContent( childType ) &&
ve.dm.nodeFactory.canNodeContainContent( parentType )
);
if ( !childrenOK ) {
// We can't insert this into this parent
if ( isFirstChild ) {
// This element is the first child of its parent, so
// abandon this fix up and try again one offset to the left
return this.fixupInsertion( data, offset - 1 );
}
// Close the parent and try one level up
closings.push( { 'type': '/' + parentType } );
if ( openingStack.length > 0 ) {
popped = openingStack.pop();
parentType = popped.type;
reopenElements.push( ve.copy( popped ) );
// The opening was on openingStack, so we're closing a node that was opened
// within data. Don't track that on closingStack
} else {
// openingStack is empty, so we're closing a node that was already in the
// document. This means we have to reopen it later, so track this on
// closingStack
closingStack.push( parentNode );
reopenElements.push( parentNode.getClonedElement() );
parentNode = parentNode.getParent();
if ( !parentNode ) {
throw new Error( 'Cannot insert ' + childType + ' even ' +
' after closing all containing nodes ' +
'(at index ' + i + ')' );
}
parentType = parentNode.getType();
}
}
} while ( !childrenOK );
if (
i === 0 &&
childType === 'text' &&
ve.isUnattachedCombiningMark( data[i] )
) {
// Note we only need to check data[0] as combining marks further
// along should already have been merged
if ( doc.data.isElementData( offset - 1 ) ) {
// Inserting a unattached combining mark is generally pretty badly
// supported (browser rendering bugs), so we'll just prevent it.
continue;
} else {
offset--;
remove++;
insert = doc.data.getCharacterData( offset ) + data[i];
annotations = doc.data.getAnnotationIndexesFromOffset( offset );
if ( annotations.length ) {
insert = [ insert, annotations ];
}
data[i] = insert;
}
}
for ( j = 0; j < closings.length; j++ ) {
// writeElement() would update openingStack/closingStack, but we've already done
// that for closings
newData.push( closings[j] );
}
for ( j = 0; j < openings.length; j++ ) {
writeElement( openings[j], i );
}
writeElement( data[i], i );
if ( data[i].type === undefined ) {
// Special treatment for text nodes
inTextNode = true;
if ( openings.length > 0 ) {
// We wrapped the text node, update parentType
parentType = childType;
}
// If we didn't wrap the text node, then the node we're inserting into can have
// content, so we couldn't have closed anything
} else {
parentType = data[i].type;
}
} else {
// Closing
writeElement( data[i], i );
parentType = openingStack.length > 0 ?
openingStack[openingStack.length - 1].type : parentNode.getType();
}
}
if ( closingStack.length > 0 && doc.data.isCloseElementData( offset ) ) {
// This element is the last child of its parent, so
// abandon this fix up and try again one offset to the right
return this.fixupInsertion( data, offset + 1 );
}
if ( inTextNode ) {
parentType = openingStack.length > 0 ?
openingStack[openingStack.length - 1].type : parentNode.getType();
}
// Close unclosed openings
while ( openingStack.length > 0 ) {
popped = openingStack[openingStack.length - 1];
// writeElement() will perform the actual pop() that removes
// popped from openingStack
writeElement( { 'type': '/' + popped.type }, i );
}
// Re-open closed nodes
while ( closingStack.length > 0 ) {
popped = closingStack[closingStack.length - 1];
// writeElement() will perform the actual pop() that removes
// popped from closingStack
writeElement( popped.getClonedElement(), i );
}
return {
offset: offset,
data: newData,
remove: remove
};
};
/**
* Get the document data for a range.
*
* Data will be fixed up so that unopened closings and unclosed openings in the
* linear data slice are balanced.
*
* @param {ve.Range} range Range to get contents of
* @returns {ve.dm.ElementLinearDataSlice} Balanced slice of linear model data
*/
ve.dm.Document.prototype.getSlicedLinearData = function ( range ) {
var first, last, firstNode, lastNode,
node = this.getNodeFromOffset( range.start ),
selection = this.selectNodes( range, 'siblings' ),
addOpenings = [],
addClosings = [];
if ( selection.length === 0 ) {
return new ve.dm.ElementLinearDataSlice( this.getStore(), [] );
}
if ( selection.length === 1 && selection[0].range && selection[0].range.equalsSelection( range ) ) {
// Nothing to fix up
return new ve.dm.ElementLinearDataSlice( this.getStore(), this.data.slice( range.start, range.end ) );
}
first = selection[0];
last = selection[selection.length - 1];
firstNode = first.node;
lastNode = last.node;
while ( !firstNode.isWrapped() ) {
firstNode = firstNode.getParent();
}
while ( !lastNode.isWrapped() ) {
lastNode = lastNode.getParent();
}
if ( first.range ) {
while ( true ) {
while ( !node.isWrapped() ) {
node = node.getParent();
}
addOpenings.push( node.getClonedElement() );
if ( node === firstNode ) {
break;
}
node = node.getParent();
}
}
node = this.getNodeFromOffset( range.end );
if ( last !== first && last.range ) {
while ( true ) {
while ( !node.isWrapped() ) {
node = node.getParent();
}
addClosings.push( { 'type': '/' + node.getType() } );
if ( node === lastNode ) {
break;
}
node = node.getParent();
}
}
return new ve.dm.ElementLinearDataSlice(
this.getStore(),
addOpenings.reverse()
.concat( this.data.slice( range.start, range.end ) )
.concat( addClosings ),
new ve.Range( addOpenings.length, addOpenings.length + range.getLength() )
);
};
/**
* Get the length of the complete history stack. This is also the current pointer.
* @returns {number} Length of the complete history stack
*/
ve.dm.Document.prototype.getCompleteHistoryLength = function () {
return this.completeHistory.length;
};
/**
* Get all the items in the complete history stack since a specified pointer.
* @param {number} pointer Pointer from where to start the slice
* @returns {Array} Array of transaction objects with undo flag
*/
ve.dm.Document.prototype.getCompleteHistorySince = function ( pointer ) {
return this.completeHistory.slice( pointer );
};