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Squire/build/squire-raw.js
Neil Jenkins 8e8874b554 Don't fire an input event on setHTML call.
2014-12-30 10:22:39 +07:00

3440 lines
107 KiB
JavaScript
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/* Copyright © 2011-2013 by Neil Jenkins. MIT Licensed. */
( function ( doc, undefined ) {
"use strict";
/*jshint strict:false, undef:false, unused:false */
var DOCUMENT_POSITION_PRECEDING = 2; // Node.DOCUMENT_POSITION_PRECEDING
var ELEMENT_NODE = 1; // Node.ELEMENT_NODE;
var TEXT_NODE = 3; // Node.TEXT_NODE;
var SHOW_ELEMENT = 1; // NodeFilter.SHOW_ELEMENT;
var SHOW_TEXT = 4; // NodeFilter.SHOW_TEXT;
var START_TO_START = 0; // Range.START_TO_START
var START_TO_END = 1; // Range.START_TO_END
var END_TO_END = 2; // Range.END_TO_END
var END_TO_START = 3; // Range.END_TO_START
var ZWS = '\u200B';
var win = doc.defaultView;
var ua = navigator.userAgent;
var isIOS = /iP(?:ad|hone|od)/.test( ua );
var isMac = /Mac OS X/.test( ua );
var isGecko = /Gecko\//.test( ua );
var isIElt11 = /Trident\/[456]\./.test( ua );
var isPresto = !!win.opera;
var isWebKit = /WebKit\//.test( ua );
var ctrlKey = isMac ? 'meta-' : 'ctrl-';
var useTextFixer = isIElt11 || isPresto;
var cantFocusEmptyTextNodes = isIElt11 || isWebKit;
var losesSelectionOnBlur = isIElt11;
var canObserveMutations = typeof MutationObserver !== 'undefined';
// Use [^ \t\r\n] instead of \S so that nbsp does not count as white-space
var notWS = /[^ \t\r\n]/;
var indexOf = Array.prototype.indexOf;
/*jshint strict:false */
/*
Native TreeWalker is buggy in IE and Opera:
* IE9/10 sometimes throw errors when calling TreeWalker#nextNode or
TreeWalker#previousNode. No way to feature detect this.
* Some versions of Opera have a bug in TreeWalker#previousNode which makes
it skip to the wrong node.
Rather than risk further bugs, it's easiest just to implement our own
(subset) of the spec in all browsers.
*/
var typeToBitArray = {
// ELEMENT_NODE
1: 1,
// ATTRIBUTE_NODE
2: 2,
// TEXT_NODE
3: 4,
// COMMENT_NODE
8: 128,
// DOCUMENT_NODE
9: 256,
// DOCUMENT_FRAGMENT_NODE
11: 1024
};
function TreeWalker ( root, nodeType, filter ) {
this.root = this.currentNode = root;
this.nodeType = nodeType;
this.filter = filter;
}
TreeWalker.prototype.nextNode = function () {
var current = this.currentNode,
root = this.root,
nodeType = this.nodeType,
filter = this.filter,
node;
while ( true ) {
node = current.firstChild;
while ( !node && current ) {
if ( current === root ) {
break;
}
node = current.nextSibling;
if ( !node ) { current = current.parentNode; }
}
if ( !node ) {
return null;
}
if ( ( typeToBitArray[ node.nodeType ] & nodeType ) &&
filter( node ) ) {
this.currentNode = node;
return node;
}
current = node;
}
};
TreeWalker.prototype.previousNode = function () {
var current = this.currentNode,
root = this.root,
nodeType = this.nodeType,
filter = this.filter,
node;
while ( true ) {
if ( current === root ) {
return null;
}
node = current.previousSibling;
if ( node ) {
while ( current = node.lastChild ) {
node = current;
}
} else {
node = current.parentNode;
}
if ( !node ) {
return null;
}
if ( ( typeToBitArray[ node.nodeType ] & nodeType ) &&
filter( node ) ) {
this.currentNode = node;
return node;
}
current = node;
}
};
/*jshint strict:false, undef:false, unused:false */
var inlineNodeNames = /^(?:#text|A(?:BBR|CRONYM)?|B(?:R|D[IO])?|C(?:ITE|ODE)|D(?:ATA|FN|EL)|EM|FONT|HR|I(?:NPUT|MG|NS)?|KBD|Q|R(?:P|T|UBY)|S(?:U[BP]|PAN|TR(?:IKE|ONG)|MALL|AMP)?|U|VAR|WBR)$/;
var leafNodeNames = {
BR: 1,
IMG: 1,
INPUT: 1
};
function every ( nodeList, fn ) {
var l = nodeList.length;
while ( l-- ) {
if ( !fn( nodeList[l] ) ) {
return false;
}
}
return true;
}
// ---
function hasTagAttributes ( node, tag, attributes ) {
if ( node.nodeName !== tag ) {
return false;
}
for ( var attr in attributes ) {
if ( node.getAttribute( attr ) !== attributes[ attr ] ) {
return false;
}
}
return true;
}
function areAlike ( node, node2 ) {
return (
node.nodeType === node2.nodeType &&
node.nodeName === node2.nodeName &&
node.className === node2.className &&
( ( !node.style && !node2.style ) ||
node.style.cssText === node2.style.cssText )
);
}
function isLeaf ( node ) {
return node.nodeType === ELEMENT_NODE &&
!!leafNodeNames[ node.nodeName ];
}
function isInline ( node ) {
return inlineNodeNames.test( node.nodeName );
}
function isBlock ( node ) {
return node.nodeType === ELEMENT_NODE &&
!isInline( node ) && every( node.childNodes, isInline );
}
function isContainer ( node ) {
return node.nodeType === ELEMENT_NODE &&
!isInline( node ) && !isBlock( node );
}
function getBlockWalker ( node ) {
var doc = node.ownerDocument,
walker = new TreeWalker(
doc.body, SHOW_ELEMENT, isBlock, false );
walker.currentNode = node;
return walker;
}
function getPreviousBlock ( node ) {
return getBlockWalker( node ).previousNode();
}
function getNextBlock ( node ) {
return getBlockWalker( node ).nextNode();
}
function getNearest ( node, tag, attributes ) {
do {
if ( hasTagAttributes( node, tag, attributes ) ) {
return node;
}
} while ( node = node.parentNode );
return null;
}
function getPath ( node ) {
var parent = node.parentNode,
path, id, className, classNames;
if ( !parent || node.nodeType !== ELEMENT_NODE ) {
path = parent ? getPath( parent ) : '';
} else {
path = getPath( parent );
path += ( path ? '>' : '' ) + node.nodeName;
if ( id = node.id ) {
path += '#' + id;
}
if ( className = node.className.trim() ) {
classNames = className.split( /\s\s*/ );
classNames.sort();
path += '.';
path += classNames.join( '.' );
}
}
return path;
}
function getLength ( node ) {
var nodeType = node.nodeType;
return nodeType === ELEMENT_NODE ?
node.childNodes.length : node.length || 0;
}
function detach ( node ) {
var parent = node.parentNode;
if ( parent ) {
parent.removeChild( node );
}
return node;
}
function replaceWith ( node, node2 ) {
var parent = node.parentNode;
if ( parent ) {
parent.replaceChild( node2, node );
}
}
function empty ( node ) {
var frag = node.ownerDocument.createDocumentFragment(),
childNodes = node.childNodes,
l = childNodes ? childNodes.length : 0;
while ( l-- ) {
frag.appendChild( node.firstChild );
}
return frag;
}
function createElement ( doc, tag, props, children ) {
var el = doc.createElement( tag ),
attr, value, i, l;
if ( props instanceof Array ) {
children = props;
props = null;
}
if ( props ) {
for ( attr in props ) {
value = props[ attr ];
if ( value !== undefined ) {
el.setAttribute( attr, props[ attr ] );
}
}
}
if ( children ) {
for ( i = 0, l = children.length; i < l; i += 1 ) {
el.appendChild( children[i] );
}
}
return el;
}
function fixCursor ( node ) {
// In Webkit and Gecko, block level elements are collapsed and
// unfocussable if they have no content. To remedy this, a <BR> must be
// inserted. In Opera and IE, we just need a textnode in order for the
// cursor to appear.
var doc = node.ownerDocument,
root = node,
fixer, child,
l, instance;
if ( node.nodeName === 'BODY' ) {
if ( !( child = node.firstChild ) || child.nodeName === 'BR' ) {
fixer = doc.createElement( 'DIV' );
if ( child ) {
node.replaceChild( fixer, child );
}
else {
node.appendChild( fixer );
}
node = fixer;
fixer = null;
}
}
if ( isInline( node ) ) {
child = node.firstChild;
while ( cantFocusEmptyTextNodes && child &&
child.nodeType === TEXT_NODE && !child.data ) {
node.removeChild( child );
child = node.firstChild;
}
if ( !child ) {
if ( cantFocusEmptyTextNodes ) {
fixer = doc.createTextNode( ZWS );
// Find the relevant Squire instance and notify
l = instances.length;
while ( l-- ) {
instance = instances[l];
if ( instance._doc === doc ) {
instance._didAddZWS();
}
}
} else {
fixer = doc.createTextNode( '' );
}
}
} else {
if ( useTextFixer ) {
while ( node.nodeType !== TEXT_NODE && !isLeaf( node ) ) {
child = node.firstChild;
if ( !child ) {
fixer = doc.createTextNode( '' );
break;
}
node = child;
}
if ( node.nodeType === TEXT_NODE ) {
// Opera will collapse the block element if it contains
// just spaces (but not if it contains no data at all).
if ( /^ +$/.test( node.data ) ) {
node.data = '';
}
} else if ( isLeaf( node ) ) {
node.parentNode.insertBefore( doc.createTextNode( '' ), node );
}
}
else if ( !node.querySelector( 'BR' ) ) {
fixer = doc.createElement( 'BR' );
while ( ( child = node.lastElementChild ) && !isInline( child ) ) {
node = child;
}
}
}
if ( fixer ) {
node.appendChild( fixer );
}
return root;
}
// Recursively examine container nodes and wrap any inline children.
function fixContainer ( container ) {
var children = container.childNodes,
doc = container.ownerDocument,
wrapper = null,
i, l, child, isBR;
for ( i = 0, l = children.length; i < l; i += 1 ) {
child = children[i];
isBR = child.nodeName === 'BR';
if ( !isBR && isInline( child ) ) {
if ( !wrapper ) { wrapper = createElement( doc, 'DIV' ); }
wrapper.appendChild( child );
i -= 1;
l -= 1;
} else if ( isBR || wrapper ) {
if ( !wrapper ) { wrapper = createElement( doc, 'DIV' ); }
fixCursor( wrapper );
if ( isBR ) {
container.replaceChild( wrapper, child );
} else {
container.insertBefore( wrapper, child );
i += 1;
l += 1;
}
wrapper = null;
}
if ( isContainer( child ) ) {
fixContainer( child );
}
}
if ( wrapper ) {
container.appendChild( fixCursor( wrapper ) );
}
return container;
}
function split ( node, offset, stopNode ) {
var nodeType = node.nodeType,
parent, clone, next;
if ( nodeType === TEXT_NODE && node !== stopNode ) {
return split( node.parentNode, node.splitText( offset ), stopNode );
}
if ( nodeType === ELEMENT_NODE ) {
if ( typeof( offset ) === 'number' ) {
offset = offset < node.childNodes.length ?
node.childNodes[ offset ] : null;
}
if ( node === stopNode ) {
return offset;
}
// Clone node without children
parent = node.parentNode;
clone = node.cloneNode( false );
// Add right-hand siblings to the clone
while ( offset ) {
next = offset.nextSibling;
clone.appendChild( offset );
offset = next;
}
// DO NOT NORMALISE. This may undo the fixCursor() call
// of a node lower down the tree!
// We need something in the element in order for the cursor to appear.
fixCursor( node );
fixCursor( clone );
// Inject clone after original node
if ( next = node.nextSibling ) {
parent.insertBefore( clone, next );
} else {
parent.appendChild( clone );
}
// Keep on splitting up the tree
return split( parent, clone, stopNode );
}
return offset;
}
function mergeInlines ( node, range ) {
if ( node.nodeType !== ELEMENT_NODE ) {
return;
}
var children = node.childNodes,
l = children.length,
frags = [],
child, prev, len;
while ( l-- ) {
child = children[l];
prev = l && children[ l - 1 ];
if ( l && isInline( child ) && areAlike( child, prev ) &&
!leafNodeNames[ child.nodeName ] ) {
if ( range.startContainer === child ) {
range.startContainer = prev;
range.startOffset += getLength( prev );
}
if ( range.endContainer === child ) {
range.endContainer = prev;
range.endOffset += getLength( prev );
}
if ( range.startContainer === node ) {
if ( range.startOffset > l ) {
range.startOffset -= 1;
}
else if ( range.startOffset === l ) {
range.startContainer = prev;
range.startOffset = getLength( prev );
}
}
if ( range.endContainer === node ) {
if ( range.endOffset > l ) {
range.endOffset -= 1;
}
else if ( range.endOffset === l ) {
range.endContainer = prev;
range.endOffset = getLength( prev );
}
}
detach( child );
if ( child.nodeType === TEXT_NODE ) {
prev.appendData( child.data );
}
else {
frags.push( empty( child ) );
}
}
else if ( child.nodeType === ELEMENT_NODE ) {
len = frags.length;
while ( len-- ) {
child.appendChild( frags.pop() );
}
mergeInlines( child, range );
}
}
}
function mergeWithBlock ( block, next, range ) {
var container = next,
last, offset, _range;
while ( container.parentNode.childNodes.length === 1 ) {
container = container.parentNode;
}
detach( container );
offset = block.childNodes.length;
// Remove extra <BR> fixer if present.
last = block.lastChild;
if ( last && last.nodeName === 'BR' ) {
block.removeChild( last );
offset -= 1;
}
_range = {
startContainer: block,
startOffset: offset,
endContainer: block,
endOffset: offset
};
block.appendChild( empty( next ) );
mergeInlines( block, _range );
range.setStart( _range.startContainer, _range.startOffset );
range.collapse( true );
// Opera inserts a BR if you delete the last piece of text
// in a block-level element. Unfortunately, it then gets
// confused when setting the selection subsequently and
// refuses to accept the range that finishes just before the
// BR. Removing the BR fixes the bug.
// Steps to reproduce bug: Type "a-b-c" (where - is return)
// then backspace twice. The cursor goes to the top instead
// of after "b".
if ( isPresto && ( last = block.lastChild ) && last.nodeName === 'BR' ) {
block.removeChild( last );
}
}
function mergeContainers ( node ) {
var prev = node.previousSibling,
first = node.firstChild,
doc = node.ownerDocument,
isListItem = ( node.nodeName === 'LI' ),
needsFix, block;
// Do not merge LIs, unless it only contains a UL
if ( isListItem && ( !first || !/^[OU]L$/.test( first.nodeName ) ) ) {
return;
}
if ( prev && areAlike( prev, node ) ) {
if ( !isContainer( prev ) ) {
if ( isListItem ) {
block = doc.createElement( 'DIV' );
block.appendChild( empty( prev ) );
prev.appendChild( block );
} else {
return;
}
}
detach( node );
needsFix = !isContainer( node );
prev.appendChild( empty( node ) );
if ( needsFix ) {
fixContainer( prev );
}
if ( first ) {
mergeContainers( first );
}
} else if ( isListItem ) {
prev = doc.createElement( 'DIV' );
node.insertBefore( prev, first );
fixCursor( prev );
}
}
/*jshint strict:false, undef:false, unused: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 );
}
};
/*jshint strict:false, undef:false, unused:false */
var instances = [];
function Squire ( doc ) {
var win = doc.defaultView;
var body = doc.body;
var mutation;
this._win = win;
this._doc = doc;
this._body = body;
this._events = {};
this._sel = win.getSelection();
this._lastSelection = null;
// IE loses selection state of iframe on blur, so make sure we
// cache it just before it loses focus.
if ( losesSelectionOnBlur ) {
this.addEventListener( 'beforedeactivate', this.getSelection );
}
this._hasZWS = false;
this._lastAnchorNode = null;
this._lastFocusNode = null;
this._path = '';
this.addEventListener( 'keyup', this._updatePathOnEvent );
this.addEventListener( 'mouseup', this._updatePathOnEvent );
win.addEventListener( 'focus', this, false );
win.addEventListener( 'blur', this, false );
this._undoIndex = -1;
this._undoStack = [];
this._undoStackLength = 0;
this._isInUndoState = false;
this._ignoreChange = false;
if ( canObserveMutations ) {
mutation = new MutationObserver( this._docWasChanged.bind( this ) );
mutation.observe( body, {
childList: true,
attributes: true,
characterData: true,
subtree: true
});
this._mutation = mutation;
} else {
this.addEventListener( 'keyup', this._keyUpDetectChange );
}
this.defaultBlockTag = 'DIV';
this.defaultBlockProperties = null;
// IE sometimes fires the beforepaste event twice; make sure it is not run
// again before our after paste function is called.
this._awaitingPaste = false;
this.addEventListener( isIElt11 ? 'beforecut' : 'cut', this._onCut );
this.addEventListener( isIElt11 ? 'beforepaste' : 'paste', this._onPaste );
// Opera does not fire keydown repeatedly.
this.addEventListener( isPresto ? 'keypress' : 'keydown', this._onKey );
// Fix IE<10's buggy implementation of Text#splitText.
// If the split is at the end of the node, it doesn't insert the newly split
// node into the document, and sets its value to undefined rather than ''.
// And even if the split is not at the end, the original node is removed
// from the document and replaced by another, rather than just having its
// data shortened.
// We used to feature test for this, but then found the feature test would
// sometimes pass, but later on the buggy behaviour would still appear.
// I think IE10 does not have the same bug, but it doesn't hurt to replace
// its native fn too and then we don't need yet another UA category.
if ( isIElt11 ) {
win.Text.prototype.splitText = function ( offset ) {
var afterSplit = this.ownerDocument.createTextNode(
this.data.slice( offset ) ),
next = this.nextSibling,
parent = this.parentNode,
toDelete = this.length - offset;
if ( next ) {
parent.insertBefore( afterSplit, next );
} else {
parent.appendChild( afterSplit );
}
if ( toDelete ) {
this.deleteData( offset, toDelete );
}
return afterSplit;
};
}
body.setAttribute( 'contenteditable', 'true' );
this.setHTML( '' );
// Remove Firefox's built-in controls
try {
doc.execCommand( 'enableObjectResizing', false, 'false' );
doc.execCommand( 'enableInlineTableEditing', false, 'false' );
} catch ( error ) {}
instances.push( this );
}
var proto = Squire.prototype;
proto.createElement = function ( tag, props, children ) {
return createElement( this._doc, tag, props, children );
};
proto.createDefaultBlock = function ( children ) {
return fixCursor(
this.createElement(
this.defaultBlockTag, this.defaultBlockProperties, children )
);
};
proto.didError = function ( error ) {
console.log( error );
};
proto.getDocument = function () {
return this._doc;
};
// --- Events ---
// Subscribing to these events won't automatically add a listener to the
// document node, since these events are fired in a custom manner by the
// editor code.
var customEvents = {
focus: 1, blur: 1,
pathChange: 1, select: 1, input: 1, undoStateChange: 1
};
proto.fireEvent = function ( type, event ) {
var handlers = this._events[ type ],
i, l, obj;
if ( handlers ) {
if ( !event ) {
event = {};
}
if ( event.type !== type ) {
event.type = type;
}
// Clone handlers array, so any handlers added/removed do not affect it.
handlers = handlers.slice();
for ( i = 0, l = handlers.length; i < l; i += 1 ) {
obj = handlers[i];
try {
if ( obj.handleEvent ) {
obj.handleEvent( event );
} else {
obj.call( this, event );
}
} catch ( error ) {
error.details = 'Squire: fireEvent error. Event type: ' + type;
this.didError( error );
}
}
}
return this;
};
proto.destroy = function () {
var win = this._win,
doc = this._doc,
events = this._events,
type;
win.removeEventListener( 'focus', this, false );
win.removeEventListener( 'blur', this, false );
for ( type in events ) {
if ( !customEvents[ type ] ) {
doc.removeEventListener( type, this, true );
}
}
if ( this._mutation ) {
this._mutation.disconnect();
}
var l = instances.length;
while ( l-- ) {
if ( instances[l] === this ) {
instances.splice( l, 1 );
}
}
};
proto.handleEvent = function ( event ) {
this.fireEvent( event.type, event );
};
proto.addEventListener = function ( type, fn ) {
var handlers = this._events[ type ];
if ( !fn ) {
this.didError({
name: 'Squire: addEventListener with null or undefined fn',
message: 'Event type: ' + type
});
return this;
}
if ( !handlers ) {
handlers = this._events[ type ] = [];
if ( !customEvents[ type ] ) {
this._doc.addEventListener( type, this, true );
}
}
handlers.push( fn );
return this;
};
proto.removeEventListener = function ( type, fn ) {
var handlers = this._events[ type ],
l;
if ( handlers ) {
l = handlers.length;
while ( l-- ) {
if ( handlers[l] === fn ) {
handlers.splice( l, 1 );
}
}
if ( !handlers.length ) {
delete this._events[ type ];
if ( !customEvents[ type ] ) {
this._doc.removeEventListener( type, this, false );
}
}
}
return this;
};
// --- Selection and Path ---
proto._createRange =
function ( range, startOffset, endContainer, endOffset ) {
if ( range instanceof this._win.Range ) {
return range.cloneRange();
}
var domRange = this._doc.createRange();
domRange.setStart( range, startOffset );
if ( endContainer ) {
domRange.setEnd( endContainer, endOffset );
} else {
domRange.setEnd( range, startOffset );
}
return domRange;
};
proto.setSelection = function ( range ) {
if ( range ) {
// iOS bug: if you don't focus the iframe before setting the
// selection, you can end up in a state where you type but the input
// doesn't get directed into the contenteditable area but is instead
// lost in a black hole. Very strange.
if ( isIOS ) {
this._win.focus();
}
var sel = this._sel;
sel.removeAllRanges();
sel.addRange( range );
}
return this;
};
proto.getSelection = function () {
var sel = this._sel,
selection, startContainer, endContainer;
if ( sel.rangeCount ) {
selection = sel.getRangeAt( 0 ).cloneRange();
startContainer = selection.startContainer;
endContainer = selection.endContainer;
// FF can return the selection as being inside an <img>. WTF?
if ( startContainer && isLeaf( startContainer ) ) {
selection.setStartBefore( startContainer );
}
if ( endContainer && isLeaf( endContainer ) ) {
selection.setEndBefore( endContainer );
}
this._lastSelection = selection;
} else {
selection = this._lastSelection;
}
if ( !selection ) {
selection = this._createRange( this._body.firstChild, 0 );
}
return selection;
};
proto.getSelectedText = function () {
return getTextContentInRange( this.getSelection() );
};
proto.getPath = function () {
return this._path;
};
// --- Workaround for browsers that can't focus empty text nodes ---
// WebKit bug: https://bugs.webkit.org/show_bug.cgi?id=15256
var removeZWS = function ( root ) {
var walker = new TreeWalker( root, SHOW_TEXT, function () {
return true;
}, false ),
node, index;
while ( node = walker.nextNode() ) {
while ( ( index = node.data.indexOf( ZWS ) ) > -1 ) {
node.deleteData( index, 1 );
}
}
};
proto._didAddZWS = function () {
this._hasZWS = true;
};
proto._removeZWS = function () {
if ( !this._hasZWS ) {
return;
}
removeZWS( this._body );
this._hasZWS = false;
};
// --- Path change events ---
proto._updatePath = function ( range, force ) {
var anchor = range.startContainer,
focus = range.endContainer,
newPath;
if ( force || anchor !== this._lastAnchorNode ||
focus !== this._lastFocusNode ) {
this._lastAnchorNode = anchor;
this._lastFocusNode = focus;
newPath = ( anchor && focus ) ? ( anchor === focus ) ?
getPath( focus ) : '(selection)' : '';
if ( this._path !== newPath ) {
this._path = newPath;
this.fireEvent( 'pathChange', { path: newPath } );
}
}
if ( anchor !== focus ) {
this.fireEvent( 'select' );
}
};
proto._updatePathOnEvent = function () {
this._updatePath( this.getSelection() );
};
// --- Focus ---
proto.focus = function () {
// FF seems to need the body to be focussed (at least on first load).
// Chrome also now needs body to be focussed in order to show the cursor
// (otherwise it is focussed, but the cursor doesn't appear).
// Opera (Presto-variant) however will lose the selection if you call this!
if ( !isPresto ) {
this._body.focus();
}
this._win.focus();
return this;
};
proto.blur = function () {
// IE will remove the whole browser window from focus if you call
// win.blur() or body.blur(), so instead we call top.focus() to focus
// the top frame, thus blurring this frame. This works in everything
// except FF, so we need to call body.blur() in that as well.
if ( isGecko ) {
this._body.blur();
}
top.focus();
return this;
};
// --- Bookmarking ---
var startSelectionId = 'squire-selection-start';
var endSelectionId = 'squire-selection-end';
proto._saveRangeToBookmark = function ( range ) {
var startNode = this.createElement( 'INPUT', {
id: startSelectionId,
type: 'hidden'
}),
endNode = this.createElement( 'INPUT', {
id: endSelectionId,
type: 'hidden'
}),
temp;
insertNodeInRange( range, startNode );
range.collapse( false );
insertNodeInRange( range, endNode );
// In a collapsed range, the start is sometimes inserted after the end!
if ( startNode.compareDocumentPosition( endNode ) &
DOCUMENT_POSITION_PRECEDING ) {
startNode.id = endSelectionId;
endNode.id = startSelectionId;
temp = startNode;
startNode = endNode;
endNode = temp;
}
range.setStartAfter( startNode );
range.setEndBefore( endNode );
};
proto._getRangeAndRemoveBookmark = function ( range ) {
var doc = this._doc,
start = doc.getElementById( startSelectionId ),
end = doc.getElementById( endSelectionId );
if ( start && end ) {
var startContainer = start.parentNode,
endContainer = end.parentNode,
collapsed;
var _range = {
startContainer: startContainer,
endContainer: endContainer,
startOffset: indexOf.call( startContainer.childNodes, start ),
endOffset: indexOf.call( endContainer.childNodes, end )
};
if ( startContainer === endContainer ) {
_range.endOffset -= 1;
}
detach( start );
detach( end );
// Merge any text nodes we split
mergeInlines( startContainer, _range );
if ( startContainer !== endContainer ) {
mergeInlines( endContainer, _range );
}
if ( !range ) {
range = doc.createRange();
}
range.setStart( _range.startContainer, _range.startOffset );
range.setEnd( _range.endContainer, _range.endOffset );
collapsed = range.collapsed;
moveRangeBoundariesDownTree( range );
if ( collapsed ) {
range.collapse( true );
}
}
return range || null;
};
// --- Undo ---
proto._keyUpDetectChange = function ( event ) {
var code = event.keyCode;
// Presume document was changed if:
// 1. A modifier key (other than shift) wasn't held down
// 2. The key pressed is not in range 16<=x<=20 (control keys)
// 3. The key pressed is not in range 33<=x<=45 (navigation keys)
if ( !event.ctrlKey && !event.metaKey && !event.altKey &&
( code < 16 || code > 20 ) &&
( code < 33 || code > 45 ) ) {
this._docWasChanged();
}
};
proto._docWasChanged = function () {
if ( canObserveMutations && this._ignoreChange ) {
this._ignoreChange = false;
return;
}
if ( this._isInUndoState ) {
this._isInUndoState = false;
this.fireEvent( 'undoStateChange', {
canUndo: true,
canRedo: false
});
}
this.fireEvent( 'input' );
};
// Leaves bookmark
proto._recordUndoState = function ( range ) {
// Don't record if we're already in an undo state
if ( !this._isInUndoState ) {
// Advance pointer to new position
var undoIndex = this._undoIndex += 1,
undoStack = this._undoStack;
// Truncate stack if longer (i.e. if has been previously undone)
if ( undoIndex < this._undoStackLength) {
undoStack.length = this._undoStackLength = undoIndex;
}
// Write out data
if ( range ) {
this._saveRangeToBookmark( range );
}
undoStack[ undoIndex ] = this._getHTML();
this._undoStackLength += 1;
this._isInUndoState = true;
}
};
proto.undo = function () {
// Sanity check: must not be at beginning of the history stack
if ( this._undoIndex !== 0 || !this._isInUndoState ) {
// Make sure any changes since last checkpoint are saved.
this._recordUndoState( this.getSelection() );
this._undoIndex -= 1;
this._setHTML( this._undoStack[ this._undoIndex ] );
var range = this._getRangeAndRemoveBookmark();
if ( range ) {
this.setSelection( range );
}
this._isInUndoState = true;
this.fireEvent( 'undoStateChange', {
canUndo: this._undoIndex !== 0,
canRedo: true
});
this.fireEvent( 'input' );
}
return this;
};
proto.redo = function () {
// Sanity check: must not be at end of stack and must be in an undo
// state.
var undoIndex = this._undoIndex,
undoStackLength = this._undoStackLength;
if ( undoIndex + 1 < undoStackLength && this._isInUndoState ) {
this._undoIndex += 1;
this._setHTML( this._undoStack[ this._undoIndex ] );
var range = this._getRangeAndRemoveBookmark();
if ( range ) {
this.setSelection( range );
}
this.fireEvent( 'undoStateChange', {
canUndo: true,
canRedo: undoIndex + 2 < undoStackLength
});
this.fireEvent( 'input' );
}
return this;
};
// --- Inline formatting ---
// Looks for matching tag and attributes, so won't work
// if <strong> instead of <b> etc.
proto.hasFormat = function ( tag, attributes, range ) {
// 1. Normalise the arguments and get selection
tag = tag.toUpperCase();
if ( !attributes ) { attributes = {}; }
if ( !range && !( range = this.getSelection() ) ) {
return false;
}
// If the common ancestor is inside the tag we require, we definitely
// have the format.
var root = range.commonAncestorContainer,
walker, node;
if ( getNearest( root, tag, attributes ) ) {
return true;
}
// If common ancestor is a text node and doesn't have the format, we
// definitely don't have it.
if ( root.nodeType === TEXT_NODE ) {
return false;
}
// Otherwise, check each text node at least partially contained within
// the selection and make sure all of them have the format we want.
walker = new TreeWalker( root, SHOW_TEXT, function ( node ) {
return isNodeContainedInRange( range, node, true );
}, false );
var seenNode = false;
while ( node = walker.nextNode() ) {
if ( !getNearest( node, tag, attributes ) ) {
return false;
}
seenNode = true;
}
return seenNode;
};
proto._addFormat = function ( tag, attributes, range ) {
// If the range is collapsed we simply insert the node by wrapping
// it round the range and focus it.
var el, walker, startContainer, endContainer, startOffset, endOffset,
textNode, needsFormat;
if ( range.collapsed ) {
el = fixCursor( this.createElement( tag, attributes ) );
insertNodeInRange( range, el );
range.setStart( el.firstChild, el.firstChild.length );
range.collapse( true );
}
// Otherwise we find all the textnodes in the range (splitting
// partially selected nodes) and if they're not already formatted
// correctly we wrap them in the appropriate tag.
else {
// We don't want to apply formatting twice so we check each text
// node to see if it has an ancestor with the formatting already.
// Create an iterator to walk over all the text nodes under this
// ancestor which are in the range and not already formatted
// correctly.
walker = new TreeWalker(
range.commonAncestorContainer,
SHOW_TEXT,
function ( node ) {
return isNodeContainedInRange( range, node, true );
},
false
);
// Start at the beginning node of the range and iterate through
// all the nodes in the range that need formatting.
startContainer = range.startContainer;
startOffset = range.startOffset;
endContainer = range.endContainer;
endOffset = range.endOffset;
// Make sure we start inside a text node.
walker.currentNode = startContainer;
if ( startContainer.nodeType !== TEXT_NODE ) {
startContainer = walker.nextNode();
startOffset = 0;
}
do {
textNode = walker.currentNode;
needsFormat = !getNearest( textNode, tag, attributes );
if ( needsFormat ) {
if ( textNode === endContainer &&
textNode.length > endOffset ) {
textNode.splitText( endOffset );
}
if ( textNode === startContainer && startOffset ) {
textNode = textNode.splitText( startOffset );
if ( endContainer === startContainer ) {
endContainer = textNode;
endOffset -= startOffset;
}
startContainer = textNode;
startOffset = 0;
}
el = this.createElement( tag, attributes );
replaceWith( textNode, el );
el.appendChild( textNode );
}
} while ( walker.nextNode() );
// Make sure we finish inside a text node. Otherwise offset may have
// changed.
if ( endContainer.nodeType !== TEXT_NODE ) {
endContainer = textNode;
endOffset = textNode.length;
}
// Now set the selection to as it was before
range = this._createRange(
startContainer, startOffset, endContainer, endOffset );
}
return range;
};
proto._removeFormat = function ( tag, attributes, range, partial ) {
// Add bookmark
this._saveRangeToBookmark( range );
// We need a node in the selection to break the surrounding
// formatted text.
var doc = this._doc,
fixer;
if ( range.collapsed ) {
if ( cantFocusEmptyTextNodes ) {
fixer = doc.createTextNode( ZWS );
this._didAddZWS();
} else {
fixer = doc.createTextNode( '' );
}
insertNodeInRange( range, fixer );
}
// Find block-level ancestor of selection
var root = range.commonAncestorContainer;
while ( isInline( root ) ) {
root = root.parentNode;
}
// Find text nodes inside formatTags that are not in selection and
// add an extra tag with the same formatting.
var startContainer = range.startContainer,
startOffset = range.startOffset,
endContainer = range.endContainer,
endOffset = range.endOffset,
toWrap = [],
examineNode = function ( node, exemplar ) {
// If the node is completely contained by the range then
// we're going to remove all formatting so ignore it.
if ( isNodeContainedInRange( range, node, false ) ) {
return;
}
var isText = ( node.nodeType === TEXT_NODE ),
child, next;
// If not at least partially contained, wrap entire contents
// in a clone of the tag we're removing and we're done.
if ( !isNodeContainedInRange( range, node, true ) ) {
// Ignore bookmarks and empty text nodes
if ( node.nodeName !== 'INPUT' &&
( !isText || node.data ) ) {
toWrap.push([ exemplar, node ]);
}
return;
}
// Split any partially selected text nodes.
if ( isText ) {
if ( node === endContainer && endOffset !== node.length ) {
toWrap.push([ exemplar, node.splitText( endOffset ) ]);
}
if ( node === startContainer && startOffset ) {
node.splitText( startOffset );
toWrap.push([ exemplar, node ]);
}
}
// If not a text node, recurse onto all children.
// Beware, the tree may be rewritten with each call
// to examineNode, hence find the next sibling first.
else {
for ( child = node.firstChild; child; child = next ) {
next = child.nextSibling;
examineNode( child, exemplar );
}
}
},
formatTags = Array.prototype.filter.call(
root.getElementsByTagName( tag ), function ( el ) {
return isNodeContainedInRange( range, el, true ) &&
hasTagAttributes( el, tag, attributes );
}
);
if ( !partial ) {
formatTags.forEach( function ( node ) {
examineNode( node, node );
});
}
// Now wrap unselected nodes in the tag
toWrap.forEach( function ( item ) {
// [ exemplar, node ] tuple
var el = item[0].cloneNode( false ),
node = item[1];
replaceWith( node, el );
el.appendChild( node );
});
// and remove old formatting tags.
formatTags.forEach( function ( el ) {
replaceWith( el, empty( el ) );
});
// Merge adjacent inlines:
this._getRangeAndRemoveBookmark( range );
if ( fixer ) {
range.collapse( false );
}
var _range = {
startContainer: range.startContainer,
startOffset: range.startOffset,
endContainer: range.endContainer,
endOffset: range.endOffset
};
mergeInlines( root, _range );
range.setStart( _range.startContainer, _range.startOffset );
range.setEnd( _range.endContainer, _range.endOffset );
return range;
};
proto.changeFormat = function ( add, remove, range, partial ) {
// Normalise the arguments and get selection
if ( !range && !( range = this.getSelection() ) ) {
return;
}
// Save undo checkpoint
this._recordUndoState( range );
this._getRangeAndRemoveBookmark( range );
if ( remove ) {
range = this._removeFormat( remove.tag.toUpperCase(),
remove.attributes || {}, range, partial );
}
if ( add ) {
range = this._addFormat( add.tag.toUpperCase(),
add.attributes || {}, range );
}
this.setSelection( range );
this._updatePath( range, true );
// We're not still in an undo state
if ( !canObserveMutations ) {
this._docWasChanged();
}
return this;
};
// --- Block formatting ---
var tagAfterSplit = {
DT: 'DD',
DD: 'DT',
LI: 'LI'
};
var splitBlock = function ( self, block, node, offset ) {
var splitTag = tagAfterSplit[ block.nodeName ],
splitProperties = null,
nodeAfterSplit = split( node, offset, block.parentNode );
if ( !splitTag ) {
splitTag = self.defaultBlockTag;
splitProperties = self.defaultBlockProperties;
}
// Make sure the new node is the correct type.
if ( !hasTagAttributes( nodeAfterSplit, splitTag, splitProperties ) ) {
block = createElement( nodeAfterSplit.ownerDocument,
splitTag, splitProperties );
if ( nodeAfterSplit.dir ) {
block.className = nodeAfterSplit.dir === 'rtl' ? 'dir-rtl' : '';
block.dir = nodeAfterSplit.dir;
}
replaceWith( nodeAfterSplit, block );
block.appendChild( empty( nodeAfterSplit ) );
nodeAfterSplit = block;
}
return nodeAfterSplit;
};
proto.forEachBlock = function ( fn, mutates, range ) {
if ( !range && !( range = this.getSelection() ) ) {
return this;
}
// Save undo checkpoint
if ( mutates ) {
this._recordUndoState( range );
this._getRangeAndRemoveBookmark( range );
}
var start = getStartBlockOfRange( range ),
end = getEndBlockOfRange( range );
if ( start && end ) {
do {
if ( fn( start ) || start === end ) { break; }
} while ( start = getNextBlock( start ) );
}
if ( mutates ) {
this.setSelection( range );
// Path may have changed
this._updatePath( range, true );
// We're not still in an undo state
if ( !canObserveMutations ) {
this._docWasChanged();
}
}
return this;
};
proto.modifyBlocks = function ( modify, range ) {
if ( !range && !( range = this.getSelection() ) ) {
return this;
}
// 1. Save undo checkpoint and bookmark selection
if ( this._isInUndoState ) {
this._saveRangeToBookmark( range );
} else {
this._recordUndoState( range );
}
// 2. Expand range to block boundaries
expandRangeToBlockBoundaries( range );
// 3. Remove range.
var body = this._body,
frag;
moveRangeBoundariesUpTree( range, body );
frag = extractContentsOfRange( range, body );
// 4. Modify tree of fragment and reinsert.
insertNodeInRange( range, modify.call( this, frag ) );
// 5. Merge containers at edges
if ( range.endOffset < range.endContainer.childNodes.length ) {
mergeContainers( range.endContainer.childNodes[ range.endOffset ] );
}
mergeContainers( range.startContainer.childNodes[ range.startOffset ] );
// 6. Restore selection
this._getRangeAndRemoveBookmark( range );
this.setSelection( range );
this._updatePath( range, true );
// 7. We're not still in an undo state
if ( !canObserveMutations ) {
this._docWasChanged();
}
return this;
};
var increaseBlockQuoteLevel = function ( frag ) {
return this.createElement( 'BLOCKQUOTE', [
frag
]);
};
var decreaseBlockQuoteLevel = function ( frag ) {
var blockquotes = frag.querySelectorAll( 'blockquote' );
Array.prototype.filter.call( blockquotes, function ( el ) {
return !getNearest( el.parentNode, 'BLOCKQUOTE' );
}).forEach( function ( el ) {
replaceWith( el, empty( el ) );
});
return frag;
};
var removeBlockQuote = function (/* frag */) {
return this.createDefaultBlock([
this.createElement( 'INPUT', {
id: startSelectionId,
type: 'hidden'
}),
this.createElement( 'INPUT', {
id: endSelectionId,
type: 'hidden'
})
]);
};
var makeList = function ( self, frag, type ) {
var walker = getBlockWalker( frag ),
node, tag, prev, newLi;
while ( node = walker.nextNode() ) {
tag = node.parentNode.nodeName;
if ( tag !== 'LI' ) {
newLi = self.createElement( 'LI', {
'class': node.dir === 'rtl' ? 'dir-rtl' : undefined,
dir: node.dir || undefined
});
// Have we replaced the previous block with a new <ul>/<ol>?
if ( ( prev = node.previousSibling ) &&
prev.nodeName === type ) {
prev.appendChild( newLi );
}
// Otherwise, replace this block with the <ul>/<ol>
else {
replaceWith(
node,
self.createElement( type, [
newLi
])
);
}
newLi.appendChild( node );
} else {
node = node.parentNode.parentNode;
tag = node.nodeName;
if ( tag !== type && ( /^[OU]L$/.test( tag ) ) ) {
replaceWith( node,
self.createElement( type, [ empty( node ) ] )
);
}
}
}
};
var makeUnorderedList = function ( frag ) {
makeList( this, frag, 'UL' );
return frag;
};
var makeOrderedList = function ( frag ) {
makeList( this, frag, 'OL' );
return frag;
};
var removeList = function ( frag ) {
var lists = frag.querySelectorAll( 'UL, OL' ),
i, l, ll, list, listFrag, children, child;
for ( i = 0, l = lists.length; i < l; i += 1 ) {
list = lists[i];
listFrag = empty( list );
children = listFrag.childNodes;
ll = children.length;
while ( ll-- ) {
child = children[ll];
replaceWith( child, empty( child ) );
}
fixContainer( listFrag );
replaceWith( list, listFrag );
}
return frag;
};
var increaseListLevel = function ( frag ) {
var items = frag.querySelectorAll( 'LI' ),
i, l, item,
type, newParent;
for ( i = 0, l = items.length; i < l; i += 1 ) {
item = items[i];
if ( !isContainer( item.firstChild ) ) {
// type => 'UL' or 'OL'
type = item.parentNode.nodeName;
newParent = item.previousSibling;
if ( !newParent || !( newParent = newParent.lastChild ) ||
newParent.nodeName !== type ) {
replaceWith(
item,
this.createElement( 'LI', [
newParent = this.createElement( type )
])
);
}
newParent.appendChild( item );
}
}
return frag;
};
var decreaseListLevel = function ( frag ) {
var items = frag.querySelectorAll( 'LI' );
Array.prototype.filter.call( items, function ( el ) {
return !isContainer( el.firstChild );
}).forEach( function ( item ) {
var parent = item.parentNode,
newParent = parent.parentNode,
first = item.firstChild,
node = first,
next;
if ( item.previousSibling ) {
parent = split( parent, item, newParent );
}
while ( node ) {
next = node.nextSibling;
if ( isContainer( node ) ) {
break;
}
newParent.insertBefore( node, parent );
node = next;
}
if ( newParent.nodeName === 'LI' && first.previousSibling ) {
split( newParent, first, newParent.parentNode );
}
while ( item !== frag && !item.childNodes.length ) {
parent = item.parentNode;
parent.removeChild( item );
item = parent;
}
}, this );
fixContainer( frag );
return frag;
};
// --- Clean ---
var linkRegExp = /\b((?:(?:ht|f)tps?:\/\/|www\d{0,3}[.]|[a-z0-9.\-]+[.][a-z]{2,}\/)(?:[^\s()<>]+|\([^\s()<>]+\))+(?:\((?:[^\s()<>]+|(?:\([^\s()<>]+\)))*\)|[^\s`!()\[\]{};:'".,<>?«»“”‘’]))|([\w\-.%+]+@(?:[\w\-]+\.)+[A-Z]{2,}\b)/i;
var addLinks = function ( frag ) {
var doc = frag.ownerDocument,
walker = new TreeWalker( frag, SHOW_TEXT,
function ( node ) {
return !getNearest( node, 'A' );
}, false ),
node, data, parent, match, index, endIndex, child;
while ( node = walker.nextNode() ) {
data = node.data;
parent = node.parentNode;
while ( match = linkRegExp.exec( data ) ) {
index = match.index;
endIndex = index + match[0].length;
if ( index ) {
child = doc.createTextNode( data.slice( 0, index ) );
parent.insertBefore( child, node );
}
child = doc.createElement( 'A' );
child.textContent = data.slice( index, endIndex );
child.href = match[1] ?
/^(?:ht|f)tps?:/.test( match[1] ) ?
match[1] :
'http://' + match[1] :
'mailto:' + match[2];
parent.insertBefore( child, node );
node.data = data = data.slice( endIndex );
}
}
};
var allowedBlock = /^(?:A(?:DDRESS|RTICLE|SIDE)|BLOCKQUOTE|CAPTION|D(?:[DLT]|IV)|F(?:IGURE|OOTER)|H[1-6]|HEADER|L(?:ABEL|EGEND|I)|O(?:L|UTPUT)|P(?:RE)?|SECTION|T(?:ABLE|BODY|D|FOOT|H|HEAD|R)|UL)$/;
var fontSizes = {
1: 10,
2: 13,
3: 16,
4: 18,
5: 24,
6: 32,
7: 48
};
var spanToSemantic = {
backgroundColor: {
regexp: notWS,
replace: function ( doc, colour ) {
return createElement( doc, 'SPAN', {
'class': 'highlight',
style: 'background-color: ' + colour
});
}
},
color: {
regexp: notWS,
replace: function ( doc, colour ) {
return createElement( doc, 'SPAN', {
'class': 'colour',
style: 'color:' + colour
});
}
},
fontWeight: {
regexp: /^bold/i,
replace: function ( doc ) {
return createElement( doc, 'B' );
}
},
fontStyle: {
regexp: /^italic/i,
replace: function ( doc ) {
return createElement( doc, 'I' );
}
},
fontFamily: {
regexp: notWS,
replace: function ( doc, family ) {
return createElement( doc, 'SPAN', {
'class': 'font',
style: 'font-family:' + family
});
}
},
fontSize: {
regexp: notWS,
replace: function ( doc, size ) {
return createElement( doc, 'SPAN', {
'class': 'size',
style: 'font-size:' + size
});
}
}
};
var replaceWithTag = function ( tag ) {
return function ( node, parent ) {
var el = createElement( node.ownerDocument, tag );
parent.replaceChild( el, node );
el.appendChild( empty( node ) );
return el;
};
};
var stylesRewriters = {
SPAN: function ( span, parent ) {
var style = span.style,
doc = span.ownerDocument,
attr, converter, css, newTreeBottom, newTreeTop, el;
for ( attr in spanToSemantic ) {
converter = spanToSemantic[ attr ];
css = style[ attr ];
if ( css && converter.regexp.test( css ) ) {
el = converter.replace( doc, css );
if ( newTreeBottom ) {
newTreeBottom.appendChild( el );
}
newTreeBottom = el;
if ( !newTreeTop ) {
newTreeTop = el;
}
}
}
if ( newTreeTop ) {
newTreeBottom.appendChild( empty( span ) );
parent.replaceChild( newTreeTop, span );
}
return newTreeBottom || span;
},
STRONG: replaceWithTag( 'B' ),
EM: replaceWithTag( 'I' ),
STRIKE: replaceWithTag( 'S' ),
FONT: function ( node, parent ) {
var face = node.face,
size = node.size,
colour = node.color,
doc = node.ownerDocument,
fontSpan, sizeSpan, colourSpan,
newTreeBottom, newTreeTop;
if ( face ) {
fontSpan = createElement( doc, 'SPAN', {
'class': 'font',
style: 'font-family:' + face
});
newTreeTop = fontSpan;
newTreeBottom = fontSpan;
}
if ( size ) {
sizeSpan = createElement( doc, 'SPAN', {
'class': 'size',
style: 'font-size:' + fontSizes[ size ] + 'px'
});
if ( !newTreeTop ) {
newTreeTop = sizeSpan;
}
if ( newTreeBottom ) {
newTreeBottom.appendChild( sizeSpan );
}
newTreeBottom = sizeSpan;
}
if ( colour && /^#?([\dA-F]{3}){1,2}$/i.test( colour ) ) {
if ( colour.charAt( 0 ) !== '#' ) {
colour = '#' + colour;
}
colourSpan = createElement( doc, 'SPAN', {
'class': 'colour',
style: 'color:' + colour
});
if ( !newTreeTop ) {
newTreeTop = colourSpan;
}
if ( newTreeBottom ) {
newTreeBottom.appendChild( colourSpan );
}
newTreeBottom = colourSpan;
}
if ( !newTreeTop ) {
newTreeTop = newTreeBottom = createElement( doc, 'SPAN' );
}
parent.replaceChild( newTreeTop, node );
newTreeBottom.appendChild( empty( node ) );
return newTreeBottom;
},
TT: function ( node, parent ) {
var el = createElement( node.ownerDocument, 'SPAN', {
'class': 'font',
style: 'font-family:menlo,consolas,"courier new",monospace'
});
parent.replaceChild( el, node );
el.appendChild( empty( node ) );
return el;
}
};
var removeEmptyInlines = function ( root ) {
var children = root.childNodes,
l = children.length,
child;
while ( l-- ) {
child = children[l];
if ( child.nodeType === ELEMENT_NODE && !isLeaf( child ) ) {
removeEmptyInlines( child );
if ( isInline( child ) && !child.firstChild ) {
root.removeChild( child );
}
} else if ( child.nodeType === TEXT_NODE && !child.data ) {
root.removeChild( child );
}
}
};
/*
Two purposes:
1. Remove nodes we don't want, such as weird <o:p> tags, comment nodes
and whitespace nodes.
2. Convert inline tags into our preferred format.
*/
var cleanTree = function ( node, allowStyles ) {
var children = node.childNodes,
i, l, child, nodeName, nodeType, rewriter, childLength,
data, j, ll;
for ( i = 0, l = children.length; i < l; i += 1 ) {
child = children[i];
nodeName = child.nodeName;
nodeType = child.nodeType;
rewriter = stylesRewriters[ nodeName ];
if ( nodeType === ELEMENT_NODE ) {
childLength = child.childNodes.length;
if ( rewriter ) {
child = rewriter( child, node );
} else if ( !allowedBlock.test( nodeName ) &&
!isInline( child ) ) {
i -= 1;
l += childLength - 1;
node.replaceChild( empty( child ), child );
continue;
} else if ( !allowStyles && child.style.cssText ) {
child.removeAttribute( 'style' );
}
if ( childLength ) {
cleanTree( child, allowStyles );
}
} else {
if ( nodeType === TEXT_NODE ) {
data = child.data;
// Use \S instead of notWS, because we want to remove nodes
// which are just nbsp, in order to cleanup <div>nbsp<br></div>
// construct.
if ( /\S/.test( data ) ) {
// If the parent node is inline, don't trim this node as
// it probably isn't at the end of the block.
if ( isInline( node ) ) {
continue;
}
j = 0;
ll = data.length;
if ( !i || !isInline( children[ i - 1 ] ) ) {
while ( j < ll && !notWS.test( data.charAt( j ) ) ) {
j += 1;
}
if ( j ) {
child.data = data = data.slice( j );
ll -= j;
}
}
if ( i + 1 === l || !isInline( children[ i + 1 ] ) ) {
j = ll;
while ( j > 0 && !notWS.test( data.charAt( j - 1 ) ) ) {
j -= 1;
}
if ( j < ll ) {
child.data = data.slice( 0, j );
}
}
continue;
}
// If we have just white space, it may still be important if it
// separates two inline nodes, e.g. "<a>link</a> <a>link</a>".
else if ( i && i + 1 < l &&
isInline( children[ i - 1 ] ) &&
isInline( children[ i + 1 ] ) ) {
child.data = ' ';
continue;
}
}
node.removeChild( child );
i -= 1;
l -= 1;
}
}
return node;
};
var notWSTextNode = function ( node ) {
return node.nodeType === ELEMENT_NODE ?
node.nodeName === 'BR' :
notWS.test( node.data );
};
var isLineBreak = function ( br ) {
var block = br.parentNode,
walker;
while ( isInline( block ) ) {
block = block.parentNode;
}
walker = new TreeWalker(
block, SHOW_ELEMENT|SHOW_TEXT, notWSTextNode );
walker.currentNode = br;
return !!walker.nextNode();
};
// <br> elements are treated specially, and differently depending on the
// browser, when in rich text editor mode. When adding HTML from external
// sources, we must remove them, replacing the ones that actually affect
// line breaks with a split of the block element containing it (and wrapping
// any not inside a block). Browsers that want <br> elements at the end of
// each block will then have them added back in a later fixCursor method
// call.
var cleanupBRs = function ( root ) {
var brs = root.querySelectorAll( 'BR' ),
brBreaksLine = [],
l = brs.length,
i, br, block;
// Must calculate whether the <br> breaks a line first, because if we
// have two <br>s next to each other, after the first one is converted
// to a block split, the second will be at the end of a block and
// therefore seem to not be a line break. But in its original context it
// was, so we should also convert it to a block split.
for ( i = 0; i < l; i += 1 ) {
brBreaksLine[i] = isLineBreak( brs[i] );
}
while ( l-- ) {
br = brs[l];
// Cleanup may have removed it
block = br.parentNode;
if ( !block ) { continue; }
while ( isInline( block ) ) {
block = block.parentNode;
}
// If this is not inside a block, replace it by wrapping
// inlines in a <div>.
if ( !isBlock( block ) ) {
fixContainer( block );
}
else {
// If it doesn't break a line, just remove it; it's not doing
// anything useful. We'll add it back later if required by the
// browser. If it breaks a line, split the block or leave it as
// appropriate.
if ( brBreaksLine[l] ) {
// If in a <div>, split, but anywhere else we might change
// the formatting too much (e.g. <li> -> to two list items!)
// so just play it safe and leave it.
if ( block.nodeName !== 'DIV' ) {
continue;
}
split( br.parentNode, br, block.parentNode );
}
detach( br );
}
}
};
proto._ensureBottomLine = function () {
var body = this._body,
last = body.lastChild;
if ( !last || last.nodeName !== this.defaultBlockTag || !isBlock( last ) ) {
body.appendChild( this.createDefaultBlock() );
}
};
// --- Cut and Paste ---
proto._onCut = function () {
// Save undo checkpoint
var range = this.getSelection();
var self = this;
this._recordUndoState( range );
this._getRangeAndRemoveBookmark( range );
this.setSelection( range );
setTimeout( function () {
try {
// If all content removed, ensure div at start of body.
self._ensureBottomLine();
} catch ( error ) {
self.didError( error );
}
}, 0 );
};
proto._onPaste = function ( event ) {
if ( this._awaitingPaste ) { return; }
// Treat image paste as a drop of an image file.
var clipboardData = event.clipboardData,
items = clipboardData && clipboardData.items,
fireDrop = false,
hasImage = false,
l, type;
if ( items ) {
l = items.length;
while ( l-- ) {
type = items[l].type;
if ( type === 'text/html' ) {
hasImage = false;
break;
}
if ( /^image\/.*/.test( type ) ) {
hasImage = true;
}
}
if ( hasImage ) {
event.preventDefault();
this.fireEvent( 'dragover', {
dataTransfer: clipboardData,
/*jshint loopfunc: true */
preventDefault: function () {
fireDrop = true;
}
/*jshint loopfunc: false */
});
if ( fireDrop ) {
this.fireEvent( 'drop', {
dataTransfer: clipboardData
});
}
return;
}
}
this._awaitingPaste = true;
var self = this,
body = this._body,
range = this.getSelection(),
startContainer = range.startContainer,
startOffset = range.startOffset,
endContainer = range.endContainer,
endOffset = range.endOffset,
startBlock = getStartBlockOfRange( range );
// Record undo checkpoint
self._recordUndoState( range );
self._getRangeAndRemoveBookmark( range );
// We need to position the pasteArea in the visible portion of the screen
// to stop the browser auto-scrolling.
var pasteArea = this.createElement( 'DIV', {
style: 'position: absolute; overflow: hidden; top:' +
( body.scrollTop +
( startBlock ? startBlock.getBoundingClientRect().top : 0 ) ) +
'px; left: 0; width: 1px; height: 1px;'
});
body.appendChild( pasteArea );
range.selectNodeContents( pasteArea );
this.setSelection( range );
// A setTimeout of 0 means this is added to the back of the
// single javascript thread, so it will be executed after the
// paste event.
setTimeout( function () {
try {
// Get the pasted content and clean
var frag = empty( detach( pasteArea ) ),
first = frag.firstChild,
range = self._createRange(
startContainer, startOffset, endContainer, endOffset );
// Was anything actually pasted?
if ( first ) {
// Safari and IE like putting extra divs around things.
if ( first === frag.lastChild &&
first.nodeName === 'DIV' ) {
frag.replaceChild( empty( first ), first );
}
frag.normalize();
addLinks( frag );
cleanTree( frag, false );
cleanupBRs( frag );
removeEmptyInlines( frag );
var node = frag,
doPaste = true;
while ( node = getNextBlock( node ) ) {
fixCursor( node );
}
self.fireEvent( 'willPaste', {
fragment: frag,
preventDefault: function () {
doPaste = false;
}
});
// Insert pasted data
if ( doPaste ) {
insertTreeFragmentIntoRange( range, frag );
if ( !canObserveMutations ) {
self._docWasChanged();
}
range.collapse( false );
self._ensureBottomLine();
}
}
self.setSelection( range );
self._updatePath( range, true );
self._awaitingPaste = false;
} catch ( error ) {
self.didError( error );
}
}, 0 );
};
// --- Keyboard interaction ---
var keys = {
8: 'backspace',
9: 'tab',
13: 'enter',
32: 'space',
37: 'left',
39: 'right',
46: 'delete',
219: '[',
221: ']'
};
var mapKeyTo = function ( method ) {
return function ( self, event ) {
event.preventDefault();
self[ method ]();
};
};
var mapKeyToFormat = function ( tag, remove ) {
remove = remove || null;
return function ( self, event ) {
event.preventDefault();
var range = self.getSelection();
if ( self.hasFormat( tag, null, range ) ) {
self.changeFormat( null, { tag: tag }, range );
} else {
self.changeFormat( { tag: tag }, remove, range );
}
};
};
// If you delete the content inside a span with a font styling, Webkit will
// replace it with a <font> tag (!). If you delete all the text inside a
// link in Opera, it won't delete the link. Let's make things consistent. If
// you delete all text inside an inline tag, remove the inline tag.
var afterDelete = function ( self, range ) {
try {
if ( !range ) { range = self.getSelection(); }
var node = range.startContainer,
parent;
// Climb the tree from the focus point while we are inside an empty
// inline element
if ( node.nodeType === TEXT_NODE ) {
node = node.parentNode;
}
parent = node;
while ( isInline( parent ) &&
( !parent.textContent || parent.textContent === ZWS ) ) {
node = parent;
parent = node.parentNode;
}
// If focussed in empty inline element
if ( node !== parent ) {
// Move focus to just before empty inline(s)
range.setStart( parent,
indexOf.call( parent.childNodes, node ) );
range.collapse( true );
// Remove empty inline(s)
parent.removeChild( node );
// Fix cursor in block
if ( !isBlock( parent ) ) {
parent = getPreviousBlock( parent );
}
fixCursor( parent );
// Move cursor into text node
moveRangeBoundariesDownTree( range );
}
self._ensureBottomLine();
self.setSelection( range );
self._updatePath( range, true );
} catch ( error ) {
self.didError( error );
}
};
var keyHandlers = {
enter: function ( self, event, range ) {
var block, parent, nodeAfterSplit;
// We handle this ourselves
event.preventDefault();
// Save undo checkpoint and add any links in the preceding section.
// Remove any zws so we don't think there's content in an empty
// block.
self._recordUndoState( range );
addLinks( range.startContainer );
self._removeZWS();
self._getRangeAndRemoveBookmark( range );
// Selected text is overwritten, therefore delete the contents
// to collapse selection.
if ( !range.collapsed ) {
deleteContentsOfRange( range );
}
block = getStartBlockOfRange( range );
// If this is a malformed bit of document or in a table;
// just play it safe and insert a <br>.
if ( !block || /^T[HD]$/.test( block.nodeName ) ) {
insertNodeInRange( range, self.createElement( 'BR' ) );
range.collapse( false );
self.setSelection( range );
self._updatePath( range, true );
return;
}
// If in a list, we'll split the LI instead.
if ( parent = getNearest( block, 'LI' ) ) {
block = parent;
}
if ( !block.textContent ) {
// Break list
if ( getNearest( block, 'UL' ) || getNearest( block, 'OL' ) ) {
return self.modifyBlocks( decreaseListLevel, range );
}
// Break blockquote
else if ( getNearest( block, 'BLOCKQUOTE' ) ) {
return self.modifyBlocks( removeBlockQuote, range );
}
}
// Otherwise, split at cursor point.
nodeAfterSplit = splitBlock( self, block,
range.startContainer, range.startOffset );
// Clean up any empty inlines if we hit enter at the beginning of the
// block
removeZWS( block );
removeEmptyInlines( block );
fixCursor( block );
// Focus cursor
// If there's a <b>/<i> etc. at the beginning of the split
// make sure we focus inside it.
while ( nodeAfterSplit.nodeType === ELEMENT_NODE ) {
var child = nodeAfterSplit.firstChild,
next;
// Don't continue links over a block break; unlikely to be the
// desired outcome.
if ( nodeAfterSplit.nodeName === 'A' &&
!nodeAfterSplit.textContent ) {
replaceWith( nodeAfterSplit, empty( nodeAfterSplit ) );
nodeAfterSplit = child;
continue;
}
while ( child && child.nodeType === TEXT_NODE && !child.data ) {
next = child.nextSibling;
if ( !next || next.nodeName === 'BR' ) {
break;
}
detach( child );
child = next;
}
// 'BR's essentially don't count; they're a browser hack.
// If you try to select the contents of a 'BR', FF will not let
// you type anything!
if ( !child || child.nodeName === 'BR' ||
( child.nodeType === TEXT_NODE && !isPresto ) ) {
break;
}
nodeAfterSplit = child;
}
range = self._createRange( nodeAfterSplit, 0 );
self.setSelection( range );
self._updatePath( range, true );
// Scroll into view
if ( nodeAfterSplit.nodeType === TEXT_NODE ) {
nodeAfterSplit = nodeAfterSplit.parentNode;
}
var doc = self._doc,
body = self._body;
if ( nodeAfterSplit.offsetTop + nodeAfterSplit.offsetHeight >
( doc.documentElement.scrollTop || body.scrollTop ) +
body.offsetHeight ) {
nodeAfterSplit.scrollIntoView( false );
}
},
backspace: function ( self, event, range ) {
self._removeZWS();
// Record undo checkpoint.
self._recordUndoState( range );
self._getRangeAndRemoveBookmark( range );
// If not collapsed, delete contents
if ( !range.collapsed ) {
event.preventDefault();
deleteContentsOfRange( range );
afterDelete( self, range );
}
// If at beginning of block, merge with previous
else if ( rangeDoesStartAtBlockBoundary( range ) ) {
event.preventDefault();
var current = getStartBlockOfRange( range ),
previous = current && getPreviousBlock( current );
// Must not be at the very beginning of the text area.
if ( previous ) {
// If not editable, just delete whole block.
if ( !previous.isContentEditable ) {
detach( previous );
return;
}
// Otherwise merge.
mergeWithBlock( previous, current, range );
// If deleted line between containers, merge newly adjacent
// containers.
current = previous.parentNode;
while ( current && !current.nextSibling ) {
current = current.parentNode;
}
if ( current && ( current = current.nextSibling ) ) {
mergeContainers( current );
}
self.setSelection( range );
}
// If at very beginning of text area, allow backspace
// to break lists/blockquote.
else if ( current ) {
// Break list
if ( getNearest( current, 'UL' ) ||
getNearest( current, 'OL' ) ) {
return self.modifyBlocks( decreaseListLevel, range );
}
// Break blockquote
else if ( getNearest( current, 'BLOCKQUOTE' ) ) {
return self.modifyBlocks( decreaseBlockQuoteLevel, range );
}
self.setSelection( range );
self._updatePath( range, true );
}
}
// Otherwise, leave to browser but check afterwards whether it has
// left behind an empty inline tag.
else {
self.setSelection( range );
setTimeout( function () { afterDelete( self ); }, 0 );
}
},
'delete': function ( self, event, range ) {
self._removeZWS();
// Record undo checkpoint.
self._recordUndoState( range );
self._getRangeAndRemoveBookmark( range );
// If not collapsed, delete contents
if ( !range.collapsed ) {
event.preventDefault();
deleteContentsOfRange( range );
afterDelete( self, range );
}
// If at end of block, merge next into this block
else if ( rangeDoesEndAtBlockBoundary( range ) ) {
event.preventDefault();
var current = getStartBlockOfRange( range ),
next = current && getNextBlock( current );
// Must not be at the very end of the text area.
if ( next ) {
// If not editable, just delete whole block.
if ( !next.isContentEditable ) {
detach( next );
return;
}
// Otherwise merge.
mergeWithBlock( current, next, range );
// If deleted line between containers, merge newly adjacent
// containers.
next = current.parentNode;
while ( next && !next.nextSibling ) {
next = next.parentNode;
}
if ( next && ( next = next.nextSibling ) ) {
mergeContainers( next );
}
self.setSelection( range );
self._updatePath( range, true );
}
}
// Otherwise, leave to browser but check afterwards whether it has
// left behind an empty inline tag.
else {
self.setSelection( range );
setTimeout( function () { afterDelete( self ); }, 0 );
}
},
tab: function ( self, event, range ) {
var node, parent;
self._removeZWS();
// If no selection and in an empty block
if ( range.collapsed &&
rangeDoesStartAtBlockBoundary( range ) &&
rangeDoesEndAtBlockBoundary( range ) ) {
node = getStartBlockOfRange( range );
// Iterate through the block's parents
while ( parent = node.parentNode ) {
// If we find a UL or OL (so are in a list, node must be an LI)
if ( parent.nodeName === 'UL' || parent.nodeName === 'OL' ) {
// AND the LI is not the first in the list
if ( node.previousSibling ) {
// Then increase the list level
event.preventDefault();
self.modifyBlocks( increaseListLevel, range );
}
break;
}
node = parent;
}
event.preventDefault();
}
},
space: function ( self, _, range ) {
var node, parent;
self._recordUndoState( range );
addLinks( range.startContainer );
self._getRangeAndRemoveBookmark( range );
// If the cursor is at the end of a link (<a>foo|</a>) then move it
// outside of the link (<a>foo</a>|) so that the space is not part of
// the link text.
node = range.endContainer;
parent = node.parentNode;
if ( range.collapsed && parent.nodeName === 'A' &&
!node.nextSibling && range.endOffset === getLength( node ) ) {
range.setStartAfter( parent );
}
self.setSelection( range );
},
left: function ( self ) {
self._removeZWS();
},
right: function ( self ) {
self._removeZWS();
}
};
// Firefox incorrectly handles Cmd-left/Cmd-right on Mac:
// it goes back/forward in history! Override to do the right
// thing.
// https://bugzilla.mozilla.org/show_bug.cgi?id=289384
if ( isMac && isGecko && win.getSelection().modify ) {
keyHandlers[ 'meta-left' ] = function ( self, event ) {
event.preventDefault();
self._sel.modify( 'move', 'backward', 'lineboundary' );
};
keyHandlers[ 'meta-right' ] = function ( self, event ) {
event.preventDefault();
self._sel.modify( 'move', 'forward', 'lineboundary' );
};
}
keyHandlers[ ctrlKey + 'b' ] = mapKeyToFormat( 'B' );
keyHandlers[ ctrlKey + 'i' ] = mapKeyToFormat( 'I' );
keyHandlers[ ctrlKey + 'u' ] = mapKeyToFormat( 'U' );
keyHandlers[ ctrlKey + 'shift-7' ] = mapKeyToFormat( 'S' );
keyHandlers[ ctrlKey + 'shift-5' ] = mapKeyToFormat( 'SUB', { tag: 'SUP' } );
keyHandlers[ ctrlKey + 'shift-6' ] = mapKeyToFormat( 'SUP', { tag: 'SUB' } );
keyHandlers[ ctrlKey + 'shift-8' ] = mapKeyTo( 'makeUnorderedList' );
keyHandlers[ ctrlKey + 'shift-9' ] = mapKeyTo( 'makeOrderedList' );
keyHandlers[ ctrlKey + '[' ] = mapKeyTo( 'decreaseQuoteLevel' );
keyHandlers[ ctrlKey + ']' ] = mapKeyTo( 'increaseQuoteLevel' );
keyHandlers[ ctrlKey + 'y' ] = mapKeyTo( 'redo' );
keyHandlers[ ctrlKey + 'z' ] = mapKeyTo( 'undo' );
keyHandlers[ ctrlKey + 'shift-z' ] = mapKeyTo( 'redo' );
// Ref: http://unixpapa.com/js/key.html
proto._onKey = function ( event ) {
var code = event.keyCode,
key = keys[ code ],
modifiers = '',
range = this.getSelection();
if ( !key ) {
key = String.fromCharCode( code ).toLowerCase();
// Only reliable for letters and numbers
if ( !/^[A-Za-z0-9]$/.test( key ) ) {
key = '';
}
}
// On keypress, delete and '.' both have event.keyCode 46
// Must check event.which to differentiate.
if ( isPresto && event.which === 46 ) {
key = '.';
}
// Function keys
if ( 111 < code && code < 124 ) {
key = 'f' + ( code - 111 );
}
// We need to apply the backspace/delete handlers regardless of
// control key modifiers.
if ( key !== 'backspace' && key !== 'delete' ) {
if ( event.altKey ) { modifiers += 'alt-'; }
if ( event.ctrlKey ) { modifiers += 'ctrl-'; }
if ( event.metaKey ) { modifiers += 'meta-'; }
}
// However, on Windows, shift-delete is apparently "cut" (WTF right?), so
// we want to let the browser handle shift-delete.
if ( event.shiftKey ) { modifiers += 'shift-'; }
key = modifiers + key;
if ( keyHandlers[ key ] ) {
keyHandlers[ key ]( this, event, range );
} else if ( key.length === 1 && !range.collapsed ) {
// Record undo checkpoint.
this._recordUndoState( range );
this._getRangeAndRemoveBookmark( range );
// Delete the selection
deleteContentsOfRange( range );
this._ensureBottomLine();
this.setSelection( range );
this._updatePath( range, true );
}
};
// --- Get/Set data ---
proto._getHTML = function () {
return this._body.innerHTML;
};
proto._setHTML = function ( html ) {
var node = this._body;
node.innerHTML = html;
do {
fixCursor( node );
} while ( node = getNextBlock( node ) );
this._ignoreChange = true;
};
proto.getHTML = function ( withBookMark ) {
var brs = [],
node, fixer, html, l, range;
if ( withBookMark && ( range = this.getSelection() ) ) {
this._saveRangeToBookmark( range );
}
if ( useTextFixer ) {
node = this._body;
while ( node = getNextBlock( node ) ) {
if ( !node.textContent && !node.querySelector( 'BR' ) ) {
fixer = this.createElement( 'BR' );
node.appendChild( fixer );
brs.push( fixer );
}
}
}
html = this._getHTML().replace( /\u200B/g, '' );
if ( useTextFixer ) {
l = brs.length;
while ( l-- ) {
detach( brs[l] );
}
}
if ( range ) {
this._getRangeAndRemoveBookmark( range );
}
return html;
};
proto.setHTML = function ( html ) {
var frag = this._doc.createDocumentFragment(),
div = this.createElement( 'DIV' ),
child;
// Parse HTML into DOM tree
div.innerHTML = html;
frag.appendChild( empty( div ) );
cleanTree( frag, true );
cleanupBRs( frag );
fixContainer( frag );
// Fix cursor
var node = frag;
while ( node = getNextBlock( node ) ) {
fixCursor( node );
}
// Don't fire an input event
this._ignoreChange = true;
// Remove existing body children
var body = this._body;
while ( child = body.lastChild ) {
body.removeChild( child );
}
// And insert new content
body.appendChild( frag );
fixCursor( body );
// Reset the undo stack
this._undoIndex = -1;
this._undoStack.length = 0;
this._undoStackLength = 0;
this._isInUndoState = false;
// Record undo state
var range = this._getRangeAndRemoveBookmark() ||
this._createRange( body.firstChild, 0 );
this._recordUndoState( range );
this._getRangeAndRemoveBookmark( range );
// IE will also set focus when selecting text so don't use
// setSelection. Instead, just store it in lastSelection, so if
// anything calls getSelection before first focus, we have a range
// to return.
if ( losesSelectionOnBlur ) {
this._lastSelection = range;
} else {
this.setSelection( range );
}
this._updatePath( range, true );
return this;
};
proto.insertElement = function ( el, range ) {
if ( !range ) { range = this.getSelection(); }
range.collapse( true );
if ( isInline( el ) ) {
insertNodeInRange( range, el );
range.setStartAfter( el );
} else {
// Get containing block node.
var body = this._body,
splitNode = getStartBlockOfRange( range ) || body,
parent, nodeAfterSplit;
// While at end of container node, move up DOM tree.
while ( splitNode !== body && !splitNode.nextSibling ) {
splitNode = splitNode.parentNode;
}
// If in the middle of a container node, split up to body.
if ( splitNode !== body ) {
parent = splitNode.parentNode;
nodeAfterSplit = split( parent, splitNode.nextSibling, body );
}
if ( nodeAfterSplit ) {
body.insertBefore( el, nodeAfterSplit );
range.setStart( nodeAfterSplit, 0 );
range.setStart( nodeAfterSplit, 0 );
moveRangeBoundariesDownTree( range );
} else {
body.appendChild( el );
// Insert blank line below block.
body.appendChild( this.createDefaultBlock() );
range.setStart( el, 0 );
range.setEnd( el, 0 );
}
this.focus();
this.setSelection( range );
this._updatePath( range );
}
return this;
};
proto.insertImage = function ( src ) {
var img = this.createElement( 'IMG', {
src: src
});
this.insertElement( img );
return img;
};
// --- Formatting ---
var command = function ( method, arg, arg2 ) {
return function () {
this[ method ]( arg, arg2 );
return this.focus();
};
};
proto.addStyles = function ( styles ) {
if ( styles ) {
var head = this._doc.documentElement.firstChild,
style = this.createElement( 'STYLE', {
type: 'text/css'
});
if ( style.styleSheet ) {
// IE8: must append to document BEFORE adding styles
// or you get the IE7 CSS parser!
head.appendChild( style );
style.styleSheet.cssText = styles;
} else {
// Everyone else
style.appendChild( this._doc.createTextNode( styles ) );
head.appendChild( style );
}
}
return this;
};
proto.bold = command( 'changeFormat', { tag: 'B' } );
proto.italic = command( 'changeFormat', { tag: 'I' } );
proto.underline = command( 'changeFormat', { tag: 'U' } );
proto.strikethrough = command( 'changeFormat', { tag: 'S' } );
proto.subscript = command( 'changeFormat', { tag: 'SUB' }, { tag: 'SUP' } );
proto.superscript = command( 'changeFormat', { tag: 'SUP' }, { tag: 'SUB' } );
proto.removeBold = command( 'changeFormat', null, { tag: 'B' } );
proto.removeItalic = command( 'changeFormat', null, { tag: 'I' } );
proto.removeUnderline = command( 'changeFormat', null, { tag: 'U' } );
proto.removeStrikethrough = command( 'changeFormat', null, { tag: 'S' } );
proto.removeSubscript = command( 'changeFormat', null, { tag: 'SUB' } );
proto.removeSuperscript = command( 'changeFormat', null, { tag: 'SUP' } );
proto.makeLink = function ( url, attributes ) {
var range = this.getSelection();
if ( range.collapsed ) {
var protocolEnd = url.indexOf( ':' ) + 1;
if ( protocolEnd ) {
while ( url[ protocolEnd ] === '/' ) { protocolEnd += 1; }
}
insertNodeInRange(
range,
this._doc.createTextNode( url.slice( protocolEnd ) )
);
}
if ( !attributes ) {
attributes = {};
}
attributes.href = url;
this.changeFormat({
tag: 'A',
attributes: attributes
}, {
tag: 'A'
}, range );
return this.focus();
};
proto.removeLink = function () {
this.changeFormat( null, {
tag: 'A'
}, this.getSelection(), true );
return this.focus();
};
proto.setFontFace = function ( name ) {
this.changeFormat({
tag: 'SPAN',
attributes: {
'class': 'font',
style: 'font-family: ' + name + ', sans-serif;'
}
}, {
tag: 'SPAN',
attributes: { 'class': 'font' }
});
return this.focus();
};
proto.setFontSize = function ( size ) {
this.changeFormat({
tag: 'SPAN',
attributes: {
'class': 'size',
style: 'font-size: ' +
( typeof size === 'number' ? size + 'px' : size )
}
}, {
tag: 'SPAN',
attributes: { 'class': 'size' }
});
return this.focus();
};
proto.setTextColour = function ( colour ) {
this.changeFormat({
tag: 'SPAN',
attributes: {
'class': 'colour',
style: 'color: ' + colour
}
}, {
tag: 'SPAN',
attributes: { 'class': 'colour' }
});
return this.focus();
};
proto.setHighlightColour = function ( colour ) {
this.changeFormat({
tag: 'SPAN',
attributes: {
'class': 'highlight',
style: 'background-color: ' + colour
}
}, {
tag: 'SPAN',
attributes: { 'class': 'highlight' }
});
return this.focus();
};
proto.setTextAlignment = function ( alignment ) {
this.forEachBlock( function ( block ) {
block.className = ( block.className
.split( /\s+/ )
.filter( function ( klass ) {
return !( /align/.test( klass ) );
})
.join( ' ' ) +
' align-' + alignment ).trim();
block.style.textAlign = alignment;
}, true );
return this.focus();
};
proto.setTextDirection = function ( direction ) {
this.forEachBlock( function ( block ) {
block.className = ( block.className
.split( /\s+/ )
.filter( function ( klass ) {
return !( /dir/.test( klass ) );
})
.join( ' ' ) +
' dir-' + direction ).trim();
block.dir = direction;
}, true );
return this.focus();
};
proto.increaseQuoteLevel = command( 'modifyBlocks', increaseBlockQuoteLevel );
proto.decreaseQuoteLevel = command( 'modifyBlocks', decreaseBlockQuoteLevel );
proto.makeUnorderedList = command( 'modifyBlocks', makeUnorderedList );
proto.makeOrderedList = command( 'modifyBlocks', makeOrderedList );
proto.removeList = command( 'modifyBlocks', removeList );
proto.increaseListLevel = command( 'modifyBlocks', increaseListLevel );
proto.decreaseListLevel = command( 'modifyBlocks', decreaseListLevel );
if ( top !== win ) {
win.editor = new Squire( doc );
if ( win.onEditorLoad ) {
win.onEditorLoad( win.editor );
win.onEditorLoad = null;
}
} else {
win.Squire = Squire;
}
}( document ) );
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