mediawiki-extensions-Visual.../modules/es/bases/es.DocumentBranchNode.js

291 lines
9.4 KiB
JavaScript

/**
* Creates an es.DocumentBranchNode object.
*
* @class
* @abstract
* @constructor
* @param {es.DocumentNode[]} nodes List of document nodes to add
*/
es.DocumentBranchNode = function( nodes ) {
this.children = es.isArray( nodes ) ? nodes : [];
};
/* Methods */
/**
* Checks if this node has child nodes.
*
* @method
* @see {es.DocumentNode.prototype.hasChildren}
* @returns {Boolean} Whether this node has children
*/
es.DocumentBranchNode.prototype.hasChildren = function() {
return true;
};
/**
* Gets a list of child nodes.
*
* @abstract
* @method
* @returns {es.DocumentNode[]} List of document nodes
*/
es.DocumentBranchNode.prototype.getChildren = function() {
return this.children;
};
/**
* Gets the range within this node that a given child node covers.
*
* @method
* @param {es.ModelNode} node Node to get range for
* @param {Boolean} [shallow] Do not iterate into child nodes of child nodes
* @returns {es.Range|null} Range of node or null if node was not found
*/
es.DocumentBranchNode.prototype.getRangeFromNode = function( node, shallow ) {
if ( this.children.length ) {
var childNode;
for ( var i = 0, length = this.children.length, left = 0; i < length; i++ ) {
childNode = this.children[i];
if ( childNode === node ) {
return new es.Range( left, left + childNode.getElementLength() );
}
if ( !shallow && childNode.hasChildren() && childNode.getChildren().length ) {
var range = childNode.getRangeFromNode( node );
if ( range !== null ) {
// Include opening of parent
left++;
return es.Range.newFromTranslatedRange( range, left );
}
}
left += childNode.getElementLength();
}
}
return null;
};
/**
* Gets the content offset of a node.
*
* This method is pretty expensive. If you need to get different slices of the same content, get
* the content first, then slice it up locally.
*
* TODO: Rewrite this method to not use recursion, because the function call overhead is expensive
*
* @method
* @param {es.DocumentNode} node Node to get offset of
* @param {Boolean} [shallow] Do not iterate into child nodes of child nodes
* @returns {Integer} Offset of node or -1 of node was not found
*/
es.DocumentBranchNode.prototype.getOffsetFromNode = function( node, shallow ) {
if ( node === this ) {
return 0;
}
if ( this.children.length ) {
var offset = 0,
childNode;
for ( var i = 0, length = this.children.length; i < length; i++ ) {
childNode = this.children[i];
if ( childNode === node ) {
return offset;
}
if ( !shallow && childNode.hasChildren() && childNode.getChildren().length ) {
var childOffset = this.getOffsetFromNode.call( childNode, node );
if ( childOffset !== -1 ) {
return offset + 1 + childOffset;
}
}
offset += childNode.getElementLength();
}
}
return -1;
};
/**
* Gets the node at a given offset.
*
* This method is pretty expensive. If you need to get different slices of the same content, get
* the content first, then slice it up locally.
*
* TODO: Rewrite this method to not use recursion, because the function call overhead is expensive
*
* @method
* @param {Integer} offset Offset get node for
* @param {Boolean} [shallow] Do not iterate into child nodes of child nodes
* @returns {es.DocumentNode|null} Node at offset, or null if non was found
*/
es.DocumentBranchNode.prototype.getNodeFromOffset = function( offset, shallow ) {
if ( offset === 0 ) {
return this;
}
// TODO a lot of logic is duplicated in selectNodes(), abstract that into a traverser or something
if ( this.children.length ) {
var nodeOffset = 0,
nodeLength,
childNode;
for ( var i = 0, length = this.children.length; i < length; i++ ) {
childNode = this.children[i];
if ( offset == nodeOffset ) {
// The requested offset is right before childNode,
// so it's not inside any of this's children, but inside this
return this;
}
nodeLength = childNode.getElementLength();
if ( offset >= nodeOffset && offset < nodeOffset + nodeLength ) {
if ( !shallow && childNode.hasChildren() && childNode.getChildren().length ) {
return this.getNodeFromOffset.call( childNode, offset - nodeOffset - 1 );
} else {
return childNode;
}
}
nodeOffset += nodeLength;
}
if ( offset == nodeOffset ) {
// The requested offset is right before this.children[i],
// so it's not inside any of this's children, but inside this
return this;
}
}
return null;
};
/**
* Gets a list of nodes and their sub-ranges which are covered by a given range.
*
* @method
* @param {es.Range} range Range to select nodes within
* @param {Boolean} [shallow] Do not recurse into child nodes of child nodes
* @returns {Array} List of objects with 'node', 'range' and 'globalRange' properties describing nodes which are
* covered by the range and the range within the node that is covered
*/
es.DocumentBranchNode.prototype.selectNodes = function( range, shallow ) {
if ( typeof range === 'undefined' ) {
range = new es.Range( 0, this.model.getContentLength() );
} else {
range.normalize();
}
var nodes = [],
i,
j,
left,
right,
start = range.start,
end = range.end,
startInside,
endInside,
childNode;
if ( start < 0 ) {
throw 'The start offset of the range is negative';
}
if ( this.children.length === 0 ) {
// Special case: this node doesn't have any children
// The return value is simply the range itself, if it is not out of bounds
if ( end > this.getContentLength() ) {
throw 'The end offset of the range is past the end of the node';
}
return [{ 'node': this, 'range': new es.Range( start, end ), 'globalRange': new es.Range( start, end ) }];
}
// This node has children, loop over them
left = 1; // First offset inside the first child. Offset 0 is before the first child
for ( i = 0; i < this.children.length; i++ ) {
childNode = this.children[i];
// left <= any offset inside childNode <= right
right = left + childNode.getContentLength();
if ( start == end && ( start == left - 1 || start == right + 1 ) ) {
// Empty range outside of any node
return [];
}
startInside = start >= left && start <= right; // is the start inside childNode?
endInside = end >= left && end <= right; // is the end inside childNode?
if ( startInside && endInside ) {
// The range is entirely inside childNode
if ( shallow || !childNode.children ) {
// For leaf nodes, use the same behavior as for shallow calls.
// A proper recursive function would let the recursion handle this,
// but the leaves don't have .selectNodes() because they're not DocumentBranchNodes
// FIXME get rid of this crazy branch-specificity
// TODO should probably rewrite this recursive function as an iterative function anyway, probably faster
nodes = [
{
'node': childNode,
'range': new es.Range( start - left, end - left ),
'globalRange': new es.Range( start, end )
}
];
} else {
// Recurse into childNode
nodes = childNode.selectNodes( new es.Range( start - left, end - left ) );
// Adjust globalRange
for ( j = 0; j < nodes.length; j++ ) {
if ( nodes[j].globalRange !== undefined ) {
nodes[j].globalRange = es.Range.newFromTranslatedRange( nodes[j].globalRange, left );
}
}
}
// Since the start and end are both inside childNode, we know for sure that we're
// done, so return
return nodes;
} else if ( startInside ) {
// The start is inside childNode but the end isn't
// Add a range from the start of the range to the end of childNode
nodes.push( {
'node': childNode,
'range': new es.Range( start - left, right - left ),
'globalRange': new es.Range( start, right )
} );
} else if ( endInside ) {
// The end is inside childNode but the start isn't
// Add a range from the start of childNode to the end of the range
nodes.push( {
'node': childNode,
'range': new es.Range( 0, end - left ),
'globalRange': new es.Range( left, end )
} );
// We've found the end, so we're done
return nodes;
} else if ( end == right + 1 ) {
// end is between childNode and this.children[i+1]
// start is not inside childNode, so the selection covers
// all of childNode, then ends
nodes.push( { 'node': childNode } );
// We've reached the end so we're done
return nodes;
} else if ( start == left - 1 ) {
// start is between this.children[i-1] and childNode
// end is not inside childNode, so the selection covers
// all of childNode and more
nodes.push( { 'node': childNode } );
} else if ( nodes.length > 0 ) {
// Neither the start nor the end is inside childNode, but nodes is non-empty,
// so childNode must be between the start and the end
// Add the entire node, so no range property
nodes.push( { 'node': childNode } );
}
// Move left to the start of this.children[i+1] for the next iteration
// We use +2 because we need to jump over the offset between childNode and
// this.children[i+1]
left = right + 2;
if ( end < left ) {
// We've skipped over the end, so we're done
return nodes;
}
}
// If we got here, that means that at least some part of the range is out of bounds
// This is an error
if ( start > right + 1 ) {
throw 'The start offset of the range is past the end of the node';
} else {
// Apparently the start was inside this node, but the end wasn't
throw 'The end offset of the range is past the end of the node';
}
return nodes;
};