mediawiki-extensions-Visual.../modules/ve2/dm/ve.dm.Document.js

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/**
* DataModel document.
*
* @class
* @extends {ve.Document}
* @constructor
* @param {Array} data Linear model data to start with
* @param {ve.dm.Document} [parentDocument] Document to use as root for created nodes
*/
ve.dm.Document = function( data, parentDocument ) {
// Inheritance
ve.Document.call( this, new ve.dm.DocumentNode() );
// Properties
this.parentDocument = parentDocument;
this.data = data || [];
this.offsetMap = new Array( this.data.length );
// Initialization
var doc = parentDocument || this;
this.documentNode.setDocument( doc );
var root = doc.getDocumentNode();
this.documentNode.setRoot( root );
/*
* The offsetMap is always one element longer than data because it includes a reference to the
* root node at the offset just past the end. To make population work correctly, we have to
* start out with that one extra reference.
*/
this.offsetMap.push( this.documentNode );
/*
* 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. Also populate the
* offset map as we go.
*/
var node,
textLength = 0,
inTextNode = false,
// Stack of stacks, each containing a
stack = [[this.documentNode], []],
children,
openingIndex,
currentStack = stack[1],
parentStack = stack[0],
currentNode = this.documentNode;
for ( var i = 0, length = this.data.length; i < length; i++ ) {
/*
* Set the node reference for this offset in the offset cache.
*
* This looks simple, but there are three cases that result in the same thing:
*
* 1. data[i] is an opening, so offset i is before the opening, so we need to point to the
* parent of the opened element. currentNode will be set to the opened element later,
* but right now its still set to the parent of the opened element.
* 2. data[i] is a closing, so offset i is before the closing, so we need to point to the
* closed element. currentNode will be set to the parent of the closed element later,
* but right now it's still set to the closed element.
* 3. data[i] is content, so offset i is in the middle of an element, so obviously we need
* currentNode, which won't be changed by this iteration.
*
* We want to populate the offsetMap with branches only, but we've just written the actual
* node that lives at this offset. So if it's a leaf node, change it to its parent.
*/
this.offsetMap[i] = ve.dm.factory.canNodeHaveChildren( currentNode.getType() ) ?
currentNode : parentStack[parentStack.length - 1];
// Infer that if an item in the linear model has a type attribute than it must be an element
if ( this.data[i].type === undefined ) {
// Text node opening
if ( !inTextNode ) {
// Create a lengthless text node
node = new ve.dm.TextNode();
// Set the root pointer now, to prevent cascading updates
node.setRoot( root );
// 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 {
// 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[i].type.charAt( 0 ) != '/' ) {
// Branch or leaf node opening
// Create a childless node
node = ve.dm.factory.create( this.data[i].type, [], this.data[i].attributes );
// Set the root pointer now, to prevent cascading updates
node.setRoot( root );
// Put the childless node on the current inner stack
currentStack.push( node );
if ( ve.dm.factory.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.factory.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 'Unbalanced input passed to document';
}
// Attach the children to the node
ve.batchSplice( currentNode, 0, 0, children );
}
currentNode = parentStack[parentStack.length - 1];
}
}
}
// 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] );
};
/* Static methods */
/**
* Checks if content can be inserted at an offset in document data.
*
* This method assumes that any value that has a type property that's a string is an element object.
*
* @example Content offsets:
* <heading> a </heading> <paragraph> b c <img> </img> </paragraph>
* . ^ ^ . ^ ^ ^ . ^ .
*
* @example Content offsets:
* <list> <listItem> </listItem> <list>
* . . . . .
*
* @static
* @method
* @param {Array} data Document data
* @param {Integer} offset Document offset
* @returns {Boolean} Content can be inserted at offset
*/
ve.dm.Document.isContentOffset = function( data, offset ) {
// Edges are never content
if ( offset === 0 || offset === data.length ) {
return false;
}
var left = data[offset - 1],
right = data[offset],
factory = ve.dm.factory;
return (
// Data exists at offsets
( left !== undefined && right !== undefined ) &&
(
// If there's content on the left or the right of the offset than we are good
// <paragraph>|a|</paragraph>
( typeof left === 'string' || typeof right === 'string' ) ||
// Same checks but for annotated characters - isArray is slower, try it next
( ve.isArray( left ) || ve.isArray( right ) ) ||
// The most expensive test are last, these deal with elements
(
// Right of a leaf
// <paragraph><image></image>|</paragraph>
(
// Is an element
typeof left.type === 'string' &&
// Is a closing
left.type.charAt( 0 ) === '/' &&
// Is a leaf
factory.isNodeContent( left.type.substr( 1 ) )
) ||
// Left of a leaf
// <paragraph>|<image></image></paragraph>
(
// Is an element
typeof right.type === 'string' &&
// Is not a closing
right.type.charAt( 0 ) !== '/' &&
// Is a leaf
factory.isNodeContent( right.type )
) ||
// Inside empty content branch
// <paragraph>|</paragraph>
(
// Inside empty element
'/' + left.type === right.type &&
// Both are content branches (right is the same type)
factory.canNodeContainContent( left.type )
)
)
)
);
};
/**
* Checks if structure can be inserted at an offset in document data.
*
* If the {unrestricted} param is true than only offsets where any kind of element can be inserted
* will return true. This can be used to detect the difference between a location that a paragraph
* can be inserted, such as between two tables but not direclty inside a table.
*
* This method assumes that any value that has a type property that's a string is an element object.
*
* @example Structural offsets (unrestricted = false):
* <heading> a </heading> <paragraph> b c <img> </img> </paragraph>
* ^ . . ^ . . . . . ^
*
* @example Structural offsets (unrestricted = true):
* <heading> a </heading> <paragraph> b c <img> </img> </paragraph>
* ^ . . ^ . . . . . ^
*
* @example Structural offsets (unrestricted = false):
* <list> <listItem> </listItem> <list>
* ^ ^ ^ ^ ^
*
* @example Content branch offsets (unrestricted = true):
* <list> <listItem> </listItem> <list>
* ^ . ^ . ^
*
* @static
* @method
* @param {Array} data Document data
* @param {Integer} offset Document offset
* @param {Boolean} [unrestricted] Only return true if any kind of element can be inserted at offset
* @returns {Boolean} Structure can be inserted at offset
*/
ve.dm.Document.isStructuralOffset = function( data, offset, unrestricted ) {
// Edges are always structural
if ( offset === 0 || offset === data.length ) {
return true;
}
// Offsets must be within range and both sides must be elements
var left = data[offset - 1],
right = data[offset],
factory = ve.dm.factory;
return (
(
left !== undefined &&
right !== undefined &&
typeof left.type === 'string' &&
typeof right.type === 'string'
) &&
(
// Right of a branch
// <list><listItem><paragraph>a</paragraph>|</listItem>|</list>|
(
// Is a closing
left.type.charAt( 0 ) === '/' &&
// Is a branch
factory.canNodeHaveChildren( left.type.substr( 1 ) ) &&
(
// Only apply this rule in unrestricted mode
!unrestricted ||
// Right of an unrestricted branch
// <list><listItem><paragraph>a</paragraph>|</listItem></list>|
// Both are non-content branches that can have any kind of child
factory.getParentNodeTypes( left.type.substr( 1 ) ) === null
)
) ||
// Left of a branch
// |<list>|<listItem>|<paragraph>a</paragraph></listItem></list>
(
// Is not a closing
right.type.charAt( 0 ) !== '/' &&
// Is a branch
factory.canNodeHaveChildren( right.type ) &&
(
// Only apply this rule in unrestricted mode
!unrestricted ||
// Left of an unrestricted branch
// |<list><listItem>|<paragraph>a</paragraph></listItem></list>
// Both are non-content branches that can have any kind of child
factory.getParentNodeTypes( right.type ) === null
)
) ||
// Inside empty non-content branch
// <list>|</list> or <list><listItem>|</listItem></list>
(
// Inside empty element
'/' + left.type === right.type &&
// Both are non-content branches (right is the same type)
factory.canNodeHaveGrandchildren( left.type ) &&
(
// Only apply this rule in unrestricted mode
!unrestricted ||
// Both are non-content branches that can have any kind of child
factory.getChildNodeTypes( left.type ) === null
)
)
)
);
};
/**
* Checks if a data at a given offset is an element.
*
* This method assumes that any value that has a type property that's a string is an element object.
*
* @example Element data:
* <heading> a </heading> <paragraph> b c <img></img> </paragraph>
* ^ . ^ ^ . . ^ ^ ^ .
*
* @static
* @method
* @param {Array} data Document data
* @param {Integer} offset Document offset
* @returns {Boolean} Data at offset is an element
*/
ve.dm.Document.isElementData = function( data, offset ) {
// Data exists at offset and appears to be an element
return data[offset] !== undefined && typeof data[offset].type === 'string';
};
/**
* Checks for elements in document data.
*
* This method assumes that any value that has a type property that's a string is an element object.
* Elements are discovered by iterating through the entire data array (backwards).
*
* @static
* @method
* @param {Array} data Document data
* @returns {Boolean} At least one elements exists in data
*/
ve.dm.Document.containsElementData = function( data ) {
var i = data.length;
while ( i-- ) {
if ( data[i].type !== undefined ) {
return true;
}
}
return false;
};
/* Methods */
/**
* Gets 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 ) {
var start = 0,
end;
if ( range !== undefined ) {
range.normalize();
start = Math.max( 0, Math.min( this.data.length, range.start ) );
end = Math.max( 0, Math.min( this.data.length, range.end ) );
}
// IE work-around: arr.slice( 0, undefined ) returns [] while arr.slice( 0 ) behaves correctly
var data = end === undefined ? this.data.slice( start ) : this.data.slice( start, end );
// Return either the slice or a deep copy of the slice
return deep ? ve.copyArray( data ) : data;
};
ve.dm.Document.prototype.getOffsetMap = function() {
return this.offsetMap;
};
ve.dm.Document.prototype.getNodeFromOffset = function( offset ) {
return this.offsetMap[offset];
};
/**
* Gets 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 = this.documentNode.getOffsetFromNode( node );
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;
};
/**
* Gets a list of annotations that a given offset is covered by.
*
* @method
* @param {Integer} offset Offset to get annotations for
* @returns {Object[]} A copy of all annotation objects offset is covered by
*/
ve.dm.Document.prototype.getAnnotationsFromOffset = function( offset ) {
var annotations;
// Since annotations are not stored on a closing leaf node,
// rewind offset by 1 to return annotations for that structure
if (
ve.isPlainObject( this.data[offset] ) && // structural offset
this.data[offset].hasOwnProperty('type') && // just in case
this.data[offset].type.charAt( 0 ) === '/' && // closing offset
ve.dm.factory.canNodeHaveChildren(
this.data[offset].type.substr( 1 )
) === false // leaf node
){
offset = this.getRelativeContentOffset( offset, -1 );
}
annotations = ve.isArray( this.data[offset] ) ?
this.data[offset][1] : this.data[offset].annotations;
if ( ve.isPlainObject( annotations ) ) {
return ve.getObjectValues( annotations );
}
return [];
};
/**
* Does this offset contain the specified annotation
*
* @method
* @param {Integer} offset Offset to look at
* @param {Object} annotation Object to look for
* @returns {Boolean} Whether an offset contains the specified annotation
*/
ve.dm.Document.prototype.offsetContainsAnnotation = function ( offset, annotation ) {
var annotations = this.getAnnotationsFromOffset( offset );
for ( var a=0; a<annotations.length; a++ ) {
if ( ve.compareObjects( annotations[a], annotation ) ){
return true;
}
}
return false;
};
/**
* Gets the range of content surrounding a given offset that's covered by a given annotation.
*
* @param {Integer} offset Offset to begin looking forward and backward from
* @param {Object} annotation Annotation to test for coverage with
* @returns {ve.Range|null} Range of content covered by annotation, or null if offset is not covered
*/
ve.dm.Document.prototype.getAnnotatedRangeFromOffset = function ( offset, annotation ) {
var start = offset,
end = offset;
if ( this.offsetContainsAnnotation( offset, annotation ) === false ) {
return null;
}
while ( start > 0 ) {
start--;
if ( this.offsetContainsAnnotation( start, annotation ) === false ) {
start++;
break;
}
}
while ( end < this.data.length ) {
if ( this.offsetContainsAnnotation(end, annotation ) === false ) {
break;
}
end++;
}
return new ve.Range( start, end );
};
/**
* Checks if a character has matching annotations.
*
* @static
* @methodng
* @param {Integer} offset Offset of annotated character
* @param {RegExp} pattern Regular expression pattern to match with
* @returns {Boolean} Character has matching annotations
*/
ve.dm.Document.prototype.offsetContainsMatchingAnnotations = function( offset, pattern ) {
if ( !( pattern instanceof RegExp ) ) {
throw 'Invalid Pattern. Pattern not instance of RegExp';
}
var annotations = ve.isArray( this.data[offset] ) ?
this.data[offset][1] : this.data[offset].annotations;
if ( ve.isPlainObject( annotations ) ) {
for ( var hash in annotations ) {
if ( pattern.test( annotations[hash].type ) ) {
return true;
}
}
}
return false;
};
/**
* Gets a list of annotations that match a regular expression.
*
* @static
* @methodng
* @param {Integer} offset Offset of annotated character
* @param {RegExp} pattern Regular expression pattern to match with
* @returns {Object} Annotations that match the pattern
*/
ve.dm.Document.prototype.getMatchingAnnotations = function( offset, pattern ) {
if ( !( pattern instanceof RegExp ) ) {
throw 'Invalid Pattern. Pattern not instance of RegExp';
}
var matches = {},
annotations = ve.isArray( this.data[offset] ) ?
this.data[offset][1] : this.data[offset].annotations;
if ( ve.isPlainObject( annotations ) ) {
for ( var hash in annotations ) {
if ( pattern.test( annotations[hash].type ) ){
matches[hash] = annotations[hash];
}
}
}
return matches;
};
/**
* Gets an array of common annnotations across a range.
*
* @method
* @param {Integer} offset Offset to get annotations for
* @returns {Object[]} A copy of all annotation objects offset is covered by
*/
ve.dm.Document.prototype.getAnnotationsFromRange = function( range ) {
var currentChar = {},
annotations = [],
charCount = 0,
map = {};
range.normalize();
for ( var i = range.start; i < range.end; i++ ) {
// skip non characters
if ( ve.dm.Document.isElementData( this.data, i ) ) {
continue;
}
//current character annotations
currentChar = this.data[i][1];
// if a non annotated character, no commonality.
if ( currentChar === undefined ) {
return [];
}
charCount++;
// if current char annotations are not the same as previous char.
if ( ve.compareObjects( map, currentChar ) === false) {
//retain common annotations
if ( charCount > 1 ) {
// look for annotation in map
for ( var a in currentChar ) {
if( map[a] === undefined ) {
delete currentChar[a];
}
}
}
}
//save map
map = currentChar;
}
// build array of annotations
for ( var key in map ) {
annotations.push( map[key] );
}
return annotations;
};
/**
* Rebuild one or more nodes following a change in linear model 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 and offset map are 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 offset map will be inserted into this document at {offset}
* 5. 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 {Integer} 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 {Integer} 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 {Integer} offset Linear model offset to rebuild or insert offset map data
* - If {numNodes} == 0: Offset to insert offset map data at
* - If {numNodes} >= 1: Offset to remove old and insert new offset map data at
* @param {Integer} 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 ) {
// Compute the length of the old nodes (so we can splice their offsets out of the offset map)
var oldLength = 0;
for ( var i = index; i < index + numNodes; i++ ) {
oldLength += parent.children[i].getOuterLength();
}
// Get a slice of the document where it's been changed
var data = this.data.slice( offset, offset + newLength );
// Build document fragment from data
var fragment = new ve.dm.Document( data, this );
// Get generated child nodes from the document fragment
var nodes = fragment.getDocumentNode().getChildren();
// Replace nodes in the model tree
ve.batchSplice( parent, index, numNodes, nodes );
// Update offset map
ve.batchSplice( this.offsetMap, offset, oldLength, fragment.getOffsetMap() );
// Return inserted nodes
return nodes;
};
/**
* Gets an offset a given distance from another using a callback to check if offsets are valid.
*
* - If {offset} is not already valid, one step will be used to move it to an valid one.
* - If {distance} is zero the result will either be {offset} if it's already valid or the
* nearest valid offset to the right if possible and to the left otherwise.
* - If {offset} is after the last valid offset and {distance} is >= 1, or if {offset} if
* before the first valid offset and {distance} <= 1 than the result will be the nearest
* valid offset in the opposite direction.
* - If the document does not contain a single valid offset the result will be -1
*
* @method
* @param {Integer} offset Offset to start from
* @param {Integer} distance Number of valid offsets to move
* @param {Function} callback Function to call to check if an offset is valid which will be
* given two intital arguments of data and offset
* @param {Mixed} [...] Additional arguments to pass to the callback
* @returns {Integer} Relative valid offset or -1 if there are no valid offsets in document
*/
ve.dm.Document.prototype.getRelativeOffset = function( offset, distance, callback ) {
var args = Array.prototype.slice.call( arguments, 3 );
// If offset is already a structural offset and distance is zero than no further work is needed,
// otherwise distance should be 1 so that we can get out of the invalid starting offset
if ( distance === 0 ) {
if ( callback.apply( window, [this.data, offset].concat( args ) ) ) {
return offset;
} else {
distance = 1;
}
}
var direction = (
offset <= 0 ? 1 : (
offset >= this.data.length ? -1 : (
distance > 0 ? 1 : -1
)
)
),
start = offset,
i = start + direction,
steps = 0,
turnedAround = false;
distance = Math.abs( distance );
offset = -1;
while ( i >= 0 && i <= this.data.length ) {
if ( callback.apply( window, [this.data, i].concat( args ) ) ) {
steps++;
offset = i;
if ( distance === steps ) {
return offset;
}
} else if (
// Don't keep turning around over and over
!turnedAround &&
// Only turn around if not a single step could be taken
steps === 0 &&
// Only turn around if we're about to reach the edge
( ( direction < 0 && i === 0 ) || ( direction > 0 && i === this.data.length ) )
) {
// Start over going in the opposite direction
direction *= -1;
i = start;
distance = 1;
turnedAround = true;
}
i += direction;
}
return offset;
};
/**
* Gets a content offset a given distance forwards or backwards from another.
*
* This method is a wrapper around {getRelativeOffset}, using {ve.dm.Document.isContentOffset} as
* the offset validation callback.
*
* @method
* @param {Integer} offset Offset to start from
* @param {Integer} distance Number of content offsets to move
* @returns {Integer} Relative content offset or -1 if there are no valid offsets in document
*/
ve.dm.Document.prototype.getRelativeContentOffset = function( offset, distance ) {
return this.getRelativeOffset( offset, distance, ve.dm.Document.isContentOffset );
};
/**
* Gets the nearest content offset to a given offset.
*
* If the offset is already a valid offset, it will be returned unchanged. This method differs from
* calling {getRelativeContentOffset} with a zero length differece because the direction can be
* controlled without nessecarily moving the offset if it's already valid. Also, if the direction
* is 0 or undefined than nearest offsets will be found to the left and right and the one with the
* shortest distance will be used.
*
* This method is a wrapper around {getRelativeOffset}, using {ve.dm.Document.isContentOffset} as
* the offset validation callback.
*
* @method
* @param {Integer} offset Offset to start from
* @param {Integer} [direction] Direction to prefer matching offset in, -1 for left and 1 for right
* @returns {Integer} Nearest content offset or -1 if there are no valid offsets in document
*/
ve.dm.Document.prototype.getNearestContentOffset = function( offset, direction ) {
if ( direction === undefined ) {
var left = this.getRelativeOffset( offset, -1, ve.dm.Document.isContentOffset ),
right = this.getRelativeOffset( offset, 1, ve.dm.Document.isContentOffset );
return offset - left < right - offset ? left : right;
} else {
if ( ve.dm.Document.isContentOffset( this.data, offset ) ) {
return offset;
}
return this.getRelativeOffset(
offset, direction > 0 ? 1 : -1, ve.dm.Document.isContentOffset
);
}
};
/**
* Gets a structural offset a given distance forwards or backwards from another.
*
* This method is a wrapper around {getRelativeOffset}, using {ve.dm.Document.isStructuralOffset} as
* the offset validation callback.
*
* @method
* @param {Integer} offset Offset to start from
* @param {Integer} distance Number of structural offsets to move
* @param {Boolean} [unrestricted] Only return true if any kind of element can be inserted at offset
* @returns {Integer} Relative structural offset
*/
ve.dm.Document.prototype.getRelativeStructuralOffset = function( offset, distance, unrestricted ) {
// Optimization: start and end are always unrestricted structural offsets
if ( distance === 0 && ( offset === 0 || offset === this.data.length ) ) {
return offset;
}
return this.getRelativeOffset(
offset, distance, ve.dm.Document.isStructuralOffset, unrestricted
);
};
/**
* Gets the nearest structural offset to a given offset.
*
* If the offset is already a valid offset, it will be returned unchanged. This method differs from
* calling {getRelativeStructuralOffset} with a zero length differece because the direction can be
* controlled without nessecarily moving the offset if it's already valid. Also, if the direction
* is 0 or undefined than nearest offsets will be found to the left and right and the one with the
* shortest distance will be used.
*
* This method is a wrapper around {getRelativeOffset}, using {ve.dm.Document.isStructuralOffset} as
* the offset validation callback.
*
* @method
* @param {Integer} offset Offset to start from
* @param {Integer} [direction] Direction to prefer matching offset in, -1 for left and 1 for right
* @param {Boolean} [unrestricted] Only return true if any kind of element can be inserted at offset
* @returns {Integer} Nearest structural offset
*/
ve.dm.Document.prototype.getNearestStructuralOffset = function( offset, direction, unrestricted ) {
if ( !direction ) {
var left = this.getRelativeOffset(
offset, -1, ve.dm.Document.isStructuralOffset, unrestricted
),
right = this.getRelativeOffset(
offset, 1, ve.dm.Document.isStructuralOffset, unrestricted
);
return offset - left < right - offset ? left : right;
} else {
if ( ve.dm.Document.isStructuralOffset( this.data, offset, unrestricted ) ) {
return offset;
}
return this.getRelativeOffset(
offset, direction > 0 ? 1 : -1, ve.dm.Document.isStructuralOffset, unrestricted
);
}
};
// TODO this function needs more work but it seems to work, mostly
/**
* Fix up data so it can safely be inserted into the linear model at offset.
* @param data {Array} Snippet of linear model data to insert
* @param offset {Integer} Offset in the linear model where the caller wants to insert data
* @returns {Array} A (possibly modified) copy of data
*/
ve.dm.Document.prototype.fixupInsertion = function( data, offset ) {
var newData = [], i, j, openingStack = [], closingStack = [], fixupStack = [], node, index,
parentNode, parentType, childType, allowedParents, allowedChildren,
parentsOK, childrenOK, openings, closings, expectedType, popped;
node = this.getNodeFromOffset( offset );
// TODO update for iscontent and cancontaincontent stuff
// TODO document
function writeElement( element, index ) {
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] === element.type
) {
// The top of closingStack is now balanced out, so remove it
closingStack.pop();
} else {
// This opens something new, put it on openingStack
openingStack.push( 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();
} 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 = node.getType();
closingStack.push( expectedType );
node = node.getParent();
if ( !node ) {
throw 'Inserted data is trying to close the root node ' +
'(at index ' + index + ')';
}
}
if ( element.type !== '/' + expectedType ) {
throw 'Type mismatch, expected /' + expectedType +
' but got ' + element.type + ' (at index ' + index + ')';
}
}
newData.push( element );
}
parentNode = node;
parentType = parentNode.getType();
for ( i = 0; i < data.length; i++ ) {
if ( data[i].type === undefined ) {
// Content, write through
// TODO check that content is allowed at the current offset
// TODO make this aware of text nodes
newData.push( data[i] );
} else if ( data[i].type.charAt( 0 ) !== '/' ) {
// Opening
// Make sure that opening this element here does not violate the
// parent/children rules. If it does, insert stuff to fix it
childType = data[i].type;
openings = [];
do {
allowedParents = ve.dm.factory.getParentNodeTypes( childType );
parentsOK = allowedParents === null ||
$.inArray( parentType, allowedParents ) !== -1;
if ( !parentsOK ) {
// We can't have this as the parent
if ( allowedParents.length === 0 ) {
throw 'Cannot insert ' + childType + ' because it ' +
' cannot have a parent (at index ' + i + ')';
}
// Open an allowed node around this node
childType = allowedParents[0];
openings.unshift( { 'type': childType } );
}
} while ( !parentsOK );
closings = [];
do {
allowedChildren = ve.dm.factory.getChildNodeTypes( parentType );
childrenOK = allowedChildren === null ||
$.inArray( childType, allowedChildren ) !== -1;
if ( !childrenOK ) {
// We can't insert this into this parent
// Close the parent and try one level up
closings.push( { 'type': '/' + parentType } );
if ( openingStack.length > 0 ) {
parentType = openingStack.pop();
// The opening was on openingStack, so we're closing
// a node that was opened within data. Don't track
// that on closingStack
} else {
parentNode = parentNode.getParent();
if ( !parentNode ) {
throw 'Cannot insert ' + childType + ' even ' +
' after closing all containing nodes ' +
'(at index ' + i + ')';
}
parentType = parentNode.getType();
}
}
} while( !childrenOK );
for ( j = 0; j < closings.length; j++ ) {
writeElement( closings[j], i );
}
for ( j = 0; j < openings.length; j++ ) {
writeElement( openings[j], i );
}
writeElement( data[i], i );
fixupStack.push( { 'expectedType': '/' + data[i].type, 'openings': openings, 'closings': closings } );
parentType = data[i].type;
} else {
// Closing
writeElement( data[i], i );
if ( fixupStack.length > 0 && fixupStack[fixupStack.length - 1].expectedType == data[i].type ) {
popped = fixupStack.pop();
// Go through these in reverse!
for ( j = popped.openings.length - 1; j >= 0; j-- ) {
writeElement( { 'type': '/' + popped.openings[j].type }, i );
}
for ( j = popped.closings.length - 1; j >= 0; j-- ) {
// TODO keep actual elements around so attributes are preserved
writeElement( { 'type': popped.closings[j].type.substr( 1 ) }, i );
}
}
}
}
// 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 }, 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( { 'type': popped.substr( 1 ) }, i );
}
return newData;
};
/* Inheritance */
ve.extendClass( ve.dm.Document, ve.Document );