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Squire/source/Range.js
Neil Jenkins 5b8e348232 Fix invalid caching of selection nodes in paste handler.
Fixes error thrown when pasting text twice in succession (or more generally,
when pasting it into non-normalised text nodes).
2015-02-06 14:18:38 +07:00

491 lines
16 KiB
JavaScript

/*jshint strict:false, undef:false, unused:false, latedef:false */
var getNodeBefore = function ( node, offset ) {
var children = node.childNodes;
while ( offset && node.nodeType === ELEMENT_NODE ) {
node = children[ offset - 1 ];
children = node.childNodes;
offset = children.length;
}
return node;
};
var getNodeAfter = function ( node, offset ) {
if ( node.nodeType === ELEMENT_NODE ) {
var children = node.childNodes;
if ( offset < children.length ) {
node = children[ offset ];
} else {
while ( node && !node.nextSibling ) {
node = node.parentNode;
}
if ( node ) { node = node.nextSibling; }
}
}
return node;
};
// ---
var forEachTextNodeInRange = function ( range, fn ) {
range = range.cloneRange();
moveRangeBoundariesDownTree( range );
var startContainer = range.startContainer,
endContainer = range.endContainer,
root = range.commonAncestorContainer,
walker = new TreeWalker(
root, SHOW_TEXT, function (/* node */) {
return true;
}, false ),
textnode = walker.currentNode = startContainer;
while ( !fn( textnode, range ) &&
textnode !== endContainer &&
( textnode = walker.nextNode() ) ) {}
};
var getTextContentInRange = function ( range ) {
var textContent = '';
forEachTextNodeInRange( range, function ( textnode, range ) {
var value = textnode.data;
if ( value && ( /\S/.test( value ) ) ) {
if ( textnode === range.endContainer ) {
value = value.slice( 0, range.endOffset );
}
if ( textnode === range.startContainer ) {
value = value.slice( range.startOffset );
}
textContent += value;
}
});
return textContent;
};
// ---
var insertNodeInRange = function ( range, node ) {
// Insert at start.
var startContainer = range.startContainer,
startOffset = range.startOffset,
endContainer = range.endContainer,
endOffset = range.endOffset,
parent, children, childCount, afterSplit;
// If part way through a text node, split it.
if ( startContainer.nodeType === TEXT_NODE ) {
parent = startContainer.parentNode;
children = parent.childNodes;
if ( startOffset === startContainer.length ) {
startOffset = indexOf.call( children, startContainer ) + 1;
if ( range.collapsed ) {
endContainer = parent;
endOffset = startOffset;
}
} else {
if ( startOffset ) {
afterSplit = startContainer.splitText( startOffset );
if ( endContainer === startContainer ) {
endOffset -= startOffset;
endContainer = afterSplit;
}
else if ( endContainer === parent ) {
endOffset += 1;
}
startContainer = afterSplit;
}
startOffset = indexOf.call( children, startContainer );
}
startContainer = parent;
} else {
children = startContainer.childNodes;
}
childCount = children.length;
if ( startOffset === childCount) {
startContainer.appendChild( node );
} else {
startContainer.insertBefore( node, children[ startOffset ] );
}
if ( startContainer === endContainer ) {
endOffset += children.length - childCount;
}
range.setStart( startContainer, startOffset );
range.setEnd( endContainer, endOffset );
};
var extractContentsOfRange = function ( range, common ) {
var startContainer = range.startContainer,
startOffset = range.startOffset,
endContainer = range.endContainer,
endOffset = range.endOffset;
if ( !common ) {
common = range.commonAncestorContainer;
}
if ( common.nodeType === TEXT_NODE ) {
common = common.parentNode;
}
var endNode = split( endContainer, endOffset, common ),
startNode = split( startContainer, startOffset, common ),
frag = common.ownerDocument.createDocumentFragment(),
next;
// End node will be null if at end of child nodes list.
while ( startNode !== endNode ) {
next = startNode.nextSibling;
frag.appendChild( startNode );
startNode = next;
}
range.setStart( common, endNode ?
indexOf.call( common.childNodes, endNode ) :
common.childNodes.length );
range.collapse( true );
fixCursor( common );
return frag;
};
var deleteContentsOfRange = function ( range ) {
// Move boundaries up as much as possible to reduce need to split.
moveRangeBoundariesUpTree( range );
// Remove selected range
extractContentsOfRange( range );
// Move boundaries back down tree so that they are inside the blocks.
// If we don't do this, the range may be collapsed to a point between
// two blocks, so get(Start|End)BlockOfRange will return null.
moveRangeBoundariesDownTree( range );
// If we split into two different blocks, merge the blocks.
var startBlock = getStartBlockOfRange( range ),
endBlock = getEndBlockOfRange( range );
if ( startBlock && endBlock && startBlock !== endBlock ) {
mergeWithBlock( startBlock, endBlock, range );
}
// Ensure block has necessary children
if ( startBlock ) {
fixCursor( startBlock );
}
// Ensure body has a block-level element in it.
var body = range.endContainer.ownerDocument.body,
child = body.firstChild;
if ( !child || child.nodeName === 'BR' ) {
fixCursor( body );
range.selectNodeContents( body.firstChild );
}
};
// ---
var insertTreeFragmentIntoRange = function ( range, frag ) {
// Check if it's all inline content
var allInline = true,
children = frag.childNodes,
l = children.length;
while ( l-- ) {
if ( !isInline( children[l] ) ) {
allInline = false;
break;
}
}
// Delete any selected content
if ( !range.collapsed ) {
deleteContentsOfRange( range );
}
// Move range down into text ndoes
moveRangeBoundariesDownTree( range );
// If inline, just insert at the current position.
if ( allInline ) {
insertNodeInRange( range, frag );
range.collapse( false );
}
// Otherwise, split up to body, insert inline before and after split
// and insert block in between split, then merge containers.
else {
var nodeAfterSplit = split( range.startContainer, range.startOffset,
range.startContainer.ownerDocument.body ),
nodeBeforeSplit = nodeAfterSplit.previousSibling,
startContainer = nodeBeforeSplit,
startOffset = startContainer.childNodes.length,
endContainer = nodeAfterSplit,
endOffset = 0,
parent = nodeAfterSplit.parentNode,
child, node;
while ( ( child = startContainer.lastChild ) &&
child.nodeType === ELEMENT_NODE &&
child.nodeName !== 'BR' ) {
startContainer = child;
startOffset = startContainer.childNodes.length;
}
while ( ( child = endContainer.firstChild ) &&
child.nodeType === ELEMENT_NODE &&
child.nodeName !== 'BR' ) {
endContainer = child;
}
while ( ( child = frag.firstChild ) && isInline( child ) ) {
startContainer.appendChild( child );
}
while ( ( child = frag.lastChild ) && isInline( child ) ) {
endContainer.insertBefore( child, endContainer.firstChild );
endOffset += 1;
}
// Fix cursor then insert block(s)
node = frag;
while ( node = getNextBlock( node ) ) {
fixCursor( node );
}
parent.insertBefore( frag, nodeAfterSplit );
// Remove empty nodes created by split and merge inserted containers
// with edges of split
node = nodeAfterSplit.previousSibling;
if ( !nodeAfterSplit.textContent ) {
parent.removeChild( nodeAfterSplit );
} else {
mergeContainers( nodeAfterSplit );
}
if ( !nodeAfterSplit.parentNode ) {
endContainer = node;
endOffset = getLength( endContainer );
}
if ( !nodeBeforeSplit.textContent) {
startContainer = nodeBeforeSplit.nextSibling;
startOffset = 0;
parent.removeChild( nodeBeforeSplit );
} else {
mergeContainers( nodeBeforeSplit );
}
range.setStart( startContainer, startOffset );
range.setEnd( endContainer, endOffset );
moveRangeBoundariesDownTree( range );
}
};
// ---
var isNodeContainedInRange = function ( range, node, partial ) {
var nodeRange = node.ownerDocument.createRange();
nodeRange.selectNode( node );
if ( partial ) {
// Node must not finish before range starts or start after range
// finishes.
var nodeEndBeforeStart = ( range.compareBoundaryPoints(
END_TO_START, nodeRange ) > -1 ),
nodeStartAfterEnd = ( range.compareBoundaryPoints(
START_TO_END, nodeRange ) < 1 );
return ( !nodeEndBeforeStart && !nodeStartAfterEnd );
}
else {
// Node must start after range starts and finish before range
// finishes
var nodeStartAfterStart = ( range.compareBoundaryPoints(
START_TO_START, nodeRange ) < 1 ),
nodeEndBeforeEnd = ( range.compareBoundaryPoints(
END_TO_END, nodeRange ) > -1 );
return ( nodeStartAfterStart && nodeEndBeforeEnd );
}
};
var moveRangeBoundariesDownTree = function ( range ) {
var startContainer = range.startContainer,
startOffset = range.startOffset,
endContainer = range.endContainer,
endOffset = range.endOffset,
child;
while ( startContainer.nodeType !== TEXT_NODE ) {
child = startContainer.childNodes[ startOffset ];
if ( !child || isLeaf( child ) ) {
break;
}
startContainer = child;
startOffset = 0;
}
if ( endOffset ) {
while ( endContainer.nodeType !== TEXT_NODE ) {
child = endContainer.childNodes[ endOffset - 1 ];
if ( !child || isLeaf( child ) ) {
break;
}
endContainer = child;
endOffset = getLength( endContainer );
}
} else {
while ( endContainer.nodeType !== TEXT_NODE ) {
child = endContainer.firstChild;
if ( !child || isLeaf( child ) ) {
break;
}
endContainer = child;
}
}
// If collapsed, this algorithm finds the nearest text node positions
// *outside* the range rather than inside, but also it flips which is
// assigned to which.
if ( range.collapsed ) {
range.setStart( endContainer, endOffset );
range.setEnd( startContainer, startOffset );
} else {
range.setStart( startContainer, startOffset );
range.setEnd( endContainer, endOffset );
}
};
var moveRangeBoundariesUpTree = function ( range, common ) {
var startContainer = range.startContainer,
startOffset = range.startOffset,
endContainer = range.endContainer,
endOffset = range.endOffset,
parent;
if ( !common ) {
common = range.commonAncestorContainer;
}
while ( startContainer !== common && !startOffset ) {
parent = startContainer.parentNode;
startOffset = indexOf.call( parent.childNodes, startContainer );
startContainer = parent;
}
while ( endContainer !== common &&
endOffset === getLength( endContainer ) ) {
parent = endContainer.parentNode;
endOffset = indexOf.call( parent.childNodes, endContainer ) + 1;
endContainer = parent;
}
range.setStart( startContainer, startOffset );
range.setEnd( endContainer, endOffset );
};
// Returns the first block at least partially contained by the range,
// or null if no block is contained by the range.
var getStartBlockOfRange = function ( range ) {
var container = range.startContainer,
block;
// If inline, get the containing block.
if ( isInline( container ) ) {
block = getPreviousBlock( container );
} else if ( isBlock( container ) ) {
block = container;
} else {
block = getNodeBefore( container, range.startOffset );
block = getNextBlock( block );
}
// Check the block actually intersects the range
return block && isNodeContainedInRange( range, block, true ) ? block : null;
};
// Returns the last block at least partially contained by the range,
// or null if no block is contained by the range.
var getEndBlockOfRange = function ( range ) {
var container = range.endContainer,
block, child;
// If inline, get the containing block.
if ( isInline( container ) ) {
block = getPreviousBlock( container );
} else if ( isBlock( container ) ) {
block = container;
} else {
block = getNodeAfter( container, range.endOffset );
if ( !block ) {
block = container.ownerDocument.body;
while ( child = block.lastChild ) {
block = child;
}
}
block = getPreviousBlock( block );
}
// Check the block actually intersects the range
return block && isNodeContainedInRange( range, block, true ) ? block : null;
};
var contentWalker = new TreeWalker( null,
SHOW_TEXT|SHOW_ELEMENT,
function ( node ) {
return node.nodeType === TEXT_NODE ?
notWS.test( node.data ) :
node.nodeName === 'IMG';
}
);
var rangeDoesStartAtBlockBoundary = function ( range ) {
var startContainer = range.startContainer,
startOffset = range.startOffset;
// If in the middle or end of a text node, we're not at the boundary.
if ( startContainer.nodeType === TEXT_NODE ) {
if ( startOffset ) {
return false;
}
contentWalker.currentNode = startContainer;
} else {
contentWalker.currentNode = getNodeAfter( startContainer, startOffset );
}
// Otherwise, look for any previous content in the same block.
contentWalker.root = getStartBlockOfRange( range );
return !contentWalker.previousNode();
};
var rangeDoesEndAtBlockBoundary = function ( range ) {
var endContainer = range.endContainer,
endOffset = range.endOffset,
length;
// If in a text node with content, and not at the end, we're not
// at the boundary
if ( endContainer.nodeType === TEXT_NODE ) {
length = endContainer.data.length;
if ( length && endOffset < length ) {
return false;
}
contentWalker.currentNode = endContainer;
} else {
contentWalker.currentNode = getNodeBefore( endContainer, endOffset );
}
// Otherwise, look for any further content in the same block.
contentWalker.root = getEndBlockOfRange( range );
return !contentWalker.nextNode();
};
var expandRangeToBlockBoundaries = function ( range ) {
var start = getStartBlockOfRange( range ),
end = getEndBlockOfRange( range ),
parent;
if ( start && end ) {
parent = start.parentNode;
range.setStart( parent, indexOf.call( parent.childNodes, start ) );
parent = end.parentNode;
range.setEnd( parent, indexOf.call( parent.childNodes, end ) + 1 );
}
};