mediawiki-extensions-VisualEditor/contentEditable/rangy/rangy-cssclassapplier.js

/**
 * @license CSS Class Applier module for Rangy.
 * Adds, removes and toggles CSS classes on Ranges and Selections
 *
 * Part of Rangy, a cross-browser JavaScript range and selection library
 * http://code.google.com/p/rangy/
 *
 * Depends on Rangy core.
 *
 * Copyright 2011, Tim Down
 * Licensed under the MIT license.
 * Version: 1.2.2
 * Build date: 13 November 2011
 */
rangy.createModule("CssClassApplier", function(api, module) {
    api.requireModules( ["WrappedSelection", "WrappedRange"] );

    var dom = api.dom;



    var defaultTagName = "span";

    function trim(str) {
        return str.replace(/^\s\s*/, "").replace(/\s\s*$/, "");
    }

    function hasClass(el, cssClass) {
        return el.className && new RegExp("(?:^|\\s)" + cssClass + "(?:\\s|$)").test(el.className);
    }

    function addClass(el, cssClass) {
        if (el.className) {
            if (!hasClass(el, cssClass)) {
                el.className += " " + cssClass;
            }
        } else {
            el.className = cssClass;
        }
    }

    var removeClass = (function() {
        function replacer(matched, whiteSpaceBefore, whiteSpaceAfter) {
            return (whiteSpaceBefore && whiteSpaceAfter) ? " " : "";
        }

        return function(el, cssClass) {
            if (el.className) {
                el.className = el.className.replace(new RegExp("(?:^|\\s)" + cssClass + "(?:\\s|$)"), replacer);
            }
        };
    })();

    function sortClassName(className) {
        return className.split(/\s+/).sort().join(" ");
    }

    function getSortedClassName(el) {
        return sortClassName(el.className);
    }

    function haveSameClasses(el1, el2) {
        return getSortedClassName(el1) == getSortedClassName(el2);
    }

    function replaceWithOwnChildren(el) {

        var parent = el.parentNode;
        while (el.hasChildNodes()) {
            parent.insertBefore(el.firstChild, el);
        }
        parent.removeChild(el);
    }

    function rangeSelectsAnyText(range, textNode) {
        var textRange = range.cloneRange();
        textRange.selectNodeContents(textNode);

        var intersectionRange = textRange.intersection(range);
        var text = intersectionRange ? intersectionRange.toString() : "";
        textRange.detach();

        return text != "";
    }

    function getEffectiveTextNodes(range) {
        return range.getNodes([3], function(textNode) {
            return rangeSelectsAnyText(range, textNode);
        });
    }

    function elementsHaveSameNonClassAttributes(el1, el2) {
        if (el1.attributes.length != el2.attributes.length) return false;
        for (var i = 0, len = el1.attributes.length, attr1, attr2, name; i < len; ++i) {
            attr1 = el1.attributes[i];
            name = attr1.name;
            if (name != "class") {
                attr2 = el2.attributes.getNamedItem(name);
                if (attr1.specified != attr2.specified) return false;
                if (attr1.specified && attr1.nodeValue !== attr2.nodeValue) return false;
            }
        }
        return true;
    }

    function elementHasNonClassAttributes(el, exceptions) {
        for (var i = 0, len = el.attributes.length, attrName; i < len; ++i) {
            attrName = el.attributes[i].name;
            if ( !(exceptions && dom.arrayContains(exceptions, attrName)) && el.attributes[i].specified && attrName != "class") {
                return true;
            }
        }
        return false;
    }

    function elementHasProps(el, props) {
        for (var p in props) {
            if (props.hasOwnProperty(p) && el[p] !== props[p]) {
                return false;
            }
        }
        return true;
    }

    var getComputedStyleProperty;

    if (typeof window.getComputedStyle != "undefined") {
        getComputedStyleProperty = function(el, propName) {
            return dom.getWindow(el).getComputedStyle(el, null)[propName];
        };
    } else if (typeof document.documentElement.currentStyle != "undefined") {
        getComputedStyleProperty = function(el, propName) {
            return el.currentStyle[propName];
        };
    } else {
        module.fail("No means of obtaining computed style properties found");
    }

    var isEditableElement;

    (function() {
        var testEl = document.createElement("div");
        if (typeof testEl.isContentEditable == "boolean") {
            isEditableElement = function(node) {
                return node && node.nodeType == 1 && node.isContentEditable;
            };
        } else {
            isEditableElement = function(node) {
                if (!node || node.nodeType != 1 || node.contentEditable == "false") {
                    return false;
                }
                return node.contentEditable == "true" || isEditableElement(node.parentNode);
            };
        }
    })();

    function isEditingHost(node) {
        var parent;
        return node && node.nodeType == 1
            && (( (parent = node.parentNode) && parent.nodeType == 9 && parent.designMode == "on")
            || (isEditableElement(node) && !isEditableElement(node.parentNode)));
    }

    function isEditable(node) {
        return (isEditableElement(node) || (node.nodeType != 1 && isEditableElement(node.parentNode))) && !isEditingHost(node);
    }

    var inlineDisplayRegex = /^inline(-block|-table)?$/i;

    function isNonInlineElement(node) {
        return node && node.nodeType == 1 && !inlineDisplayRegex.test(getComputedStyleProperty(node, "display"));
    }

    // White space characters as defined by HTML 4 (http://www.w3.org/TR/html401/struct/text.html)
    var htmlNonWhiteSpaceRegex = /[^\r\n\t\f \u200B]/;

    function isUnrenderedWhiteSpaceNode(node) {
        if (node.data.length == 0) {
            return true;
        }
        if (htmlNonWhiteSpaceRegex.test(node.data)) {
            return false;
        }
        var cssWhiteSpace = getComputedStyleProperty(node.parentNode, "whiteSpace");
        switch (cssWhiteSpace) {
            case "pre":
            case "pre-wrap":
            case "-moz-pre-wrap":
                return false;
            case "pre-line":
                if (/[\r\n]/.test(node.data)) {
                    return false;
                }
        }

        // We now have a whitespace-only text node that may be rendered depending on its context. If it is adjacent to a
        // non-inline element, it will not be rendered. This seems to be a good enough definition.
        return isNonInlineElement(node.previousSibling) || isNonInlineElement(node.nextSibling);
    }

    function isSplitPoint(node, offset) {
        if (dom.isCharacterDataNode(node)) {
            if (offset == 0) {
                return !!node.previousSibling;
            } else if (offset == node.length) {
                return !!node.nextSibling;
            } else {
                return true;
            }
        }

        return offset > 0 && offset < node.childNodes.length;
    }

    function splitNodeAt(node, descendantNode, descendantOffset, rangesToPreserve) {
        var newNode;
        var splitAtStart = (descendantOffset == 0);

        if (dom.isAncestorOf(descendantNode, node)) {

            return node;
        }

        if (dom.isCharacterDataNode(descendantNode)) {
            if (descendantOffset == 0) {
                descendantOffset = dom.getNodeIndex(descendantNode);
                descendantNode = descendantNode.parentNode;
            } else if (descendantOffset == descendantNode.length) {
                descendantOffset = dom.getNodeIndex(descendantNode) + 1;
                descendantNode = descendantNode.parentNode;
            } else {
                throw module.createError("splitNodeAt should not be called with offset in the middle of a data node ("
                    + descendantOffset + " in " + descendantNode.data);
            }
        }

        if (isSplitPoint(descendantNode, descendantOffset)) {
            if (!newNode) {
                newNode = descendantNode.cloneNode(false);
                if (newNode.id) {
                    newNode.removeAttribute("id");
                }
                var child;
                while ((child = descendantNode.childNodes[descendantOffset])) {
                    newNode.appendChild(child);
                }
                dom.insertAfter(newNode, descendantNode);
            }
            return (descendantNode == node) ? newNode : splitNodeAt(node, newNode.parentNode, dom.getNodeIndex(newNode), rangesToPreserve);
        } else if (node != descendantNode) {
            newNode = descendantNode.parentNode;

            // Work out a new split point in the parent node
            var newNodeIndex = dom.getNodeIndex(descendantNode);

            if (!splitAtStart) {
                newNodeIndex++;
            }
            return splitNodeAt(node, newNode, newNodeIndex, rangesToPreserve);
        }
        return node;
    }

    function areElementsMergeable(el1, el2) {
        return el1.tagName == el2.tagName && haveSameClasses(el1, el2) && elementsHaveSameNonClassAttributes(el1, el2);
    }

    function createAdjacentMergeableTextNodeGetter(forward) {
        var propName = forward ? "nextSibling" : "previousSibling";

        return function(textNode, checkParentElement) {
            var el = textNode.parentNode;
            var adjacentNode = textNode[propName];
            if (adjacentNode) {
                // Can merge if the node's previous/next sibling is a text node
                if (adjacentNode && adjacentNode.nodeType == 3) {
                    return adjacentNode;
                }
            } else if (checkParentElement) {
                // Compare text node parent element with its sibling
                adjacentNode = el[propName];

                if (adjacentNode && adjacentNode.nodeType == 1 && areElementsMergeable(el, adjacentNode)) {
                    return adjacentNode[forward ? "firstChild" : "lastChild"];
                }
            }
            return null;
        }
    }

    var getPreviousMergeableTextNode = createAdjacentMergeableTextNodeGetter(false),
        getNextMergeableTextNode = createAdjacentMergeableTextNodeGetter(true);


    function Merge(firstNode) {
        this.isElementMerge = (firstNode.nodeType == 1);
        this.firstTextNode = this.isElementMerge ? firstNode.lastChild : firstNode;
        this.textNodes = [this.firstTextNode];
    }

    Merge.prototype = {
        doMerge: function() {
            var textBits = [], textNode, parent, text;
            for (var i = 0, len = this.textNodes.length; i < len; ++i) {
                textNode = this.textNodes[i];
                parent = textNode.parentNode;
                textBits[i] = textNode.data;
                if (i) {
                    parent.removeChild(textNode);
                    if (!parent.hasChildNodes()) {
                        parent.parentNode.removeChild(parent);
                    }
                }
            }
            this.firstTextNode.data = text = textBits.join("");
            return text;
        },

        getLength: function() {
            var i = this.textNodes.length, len = 0;
            while (i--) {
                len += this.textNodes[i].length;
            }
            return len;
        },

        toString: function() {
            var textBits = [];
            for (var i = 0, len = this.textNodes.length; i < len; ++i) {
                textBits[i] = "'" + this.textNodes[i].data + "'";
            }
            return "[Merge(" + textBits.join(",") + ")]";
        }
    };

    var optionProperties = ["elementTagName", "ignoreWhiteSpace", "applyToEditableOnly"];

    // Allow "class" as a property name in object properties
    var mappedPropertyNames = {"class" : "className"};

    function CssClassApplier(cssClass, options, tagNames) {
        this.cssClass = cssClass;
        var normalize, i, len, propName;

        var elementPropertiesFromOptions = null;

        // Initialize from options object
        if (typeof options == "object" && options !== null) {
            tagNames = options.tagNames;
            elementPropertiesFromOptions = options.elementProperties;

            for (i = 0; propName = optionProperties[i++]; ) {
                if (options.hasOwnProperty(propName)) {
                    this[propName] = options[propName];
                }
            }
            normalize = options.normalize;
        } else {
            normalize = options;
        }

        // Backwards compatibility: the second parameter can also be a Boolean indicating whether normalization
        this.normalize = (typeof normalize == "undefined") ? true : normalize;

        // Initialize element properties and attribute exceptions
        this.attrExceptions = [];
        var el = document.createElement(this.elementTagName);
        this.elementProperties = {};
        for (var p in elementPropertiesFromOptions) {
            if (elementPropertiesFromOptions.hasOwnProperty(p)) {
                // Map "class" to "className"
                if (mappedPropertyNames.hasOwnProperty(p)) {
                    p = mappedPropertyNames[p];
                }
                el[p] = elementPropertiesFromOptions[p];

                // Copy the property back from the dummy element so that later comparisons to check whether elements
                // may be removed are checking against the right value. For example, the href property of an element
                // returns a fully qualified URL even if it was previously assigned a relative URL.
                this.elementProperties[p] = el[p];
                this.attrExceptions.push(p);
            }
        }

        this.elementSortedClassName = this.elementProperties.hasOwnProperty("className") ?
            sortClassName(this.elementProperties.className + " " + cssClass) : cssClass;

        // Initialize tag names
        this.applyToAnyTagName = false;
        var type = typeof tagNames;
        if (type == "string") {
            if (tagNames == "*") {
                this.applyToAnyTagName = true;
            } else {
                this.tagNames = trim(tagNames.toLowerCase()).split(/\s*,\s*/);
            }
        } else if (type == "object" && typeof tagNames.length == "number") {
            this.tagNames = [];
            for (i = 0, len = tagNames.length; i < len; ++i) {
                if (tagNames[i] == "*") {
                    this.applyToAnyTagName = true;
                } else {
                    this.tagNames.push(tagNames[i].toLowerCase());
                }
            }
        } else {
            this.tagNames = [this.elementTagName];
        }
    }

    CssClassApplier.prototype = {
        elementTagName: defaultTagName,
        elementProperties: {},
        ignoreWhiteSpace: true,
        applyToEditableOnly: false,

        hasClass: function(node) {
            return node.nodeType == 1 && dom.arrayContains(this.tagNames, node.tagName.toLowerCase()) && hasClass(node, this.cssClass);
        },

        getSelfOrAncestorWithClass: function(node) {
            while (node) {
                if (this.hasClass(node, this.cssClass)) {
                    return node;
                }
                node = node.parentNode;
            }
            return null;
        },

        isModifiable: function(node) {
            return !this.applyToEditableOnly || isEditable(node);
        },

        // White space adjacent to an unwrappable node can be ignored for wrapping
        isIgnorableWhiteSpaceNode: function(node) {
            return this.ignoreWhiteSpace && node && node.nodeType == 3 && isUnrenderedWhiteSpaceNode(node);
        },

        // Normalizes nodes after applying a CSS class to a Range.
        postApply: function(textNodes, range, isUndo) {

            var firstNode = textNodes[0], lastNode = textNodes[textNodes.length - 1];

            var merges = [], currentMerge;

            var rangeStartNode = firstNode, rangeEndNode = lastNode;
            var rangeStartOffset = 0, rangeEndOffset = lastNode.length;

            var textNode, precedingTextNode;

            for (var i = 0, len = textNodes.length; i < len; ++i) {
                textNode = textNodes[i];
                precedingTextNode = getPreviousMergeableTextNode(textNode, !isUndo);

                if (precedingTextNode) {
                    if (!currentMerge) {
                        currentMerge = new Merge(precedingTextNode);
                        merges.push(currentMerge);
                    }
                    currentMerge.textNodes.push(textNode);
                    if (textNode === firstNode) {
                        rangeStartNode = currentMerge.firstTextNode;
                        rangeStartOffset = rangeStartNode.length;
                    }
                    if (textNode === lastNode) {
                        rangeEndNode = currentMerge.firstTextNode;
                        rangeEndOffset = currentMerge.getLength();
                    }
                } else {
                    currentMerge = null;
                }
            }

            // Test whether the first node after the range needs merging
            var nextTextNode = getNextMergeableTextNode(lastNode, !isUndo);

            if (nextTextNode) {
                if (!currentMerge) {
                    currentMerge = new Merge(lastNode);
                    merges.push(currentMerge);
                }
                currentMerge.textNodes.push(nextTextNode);
            }

            // Do the merges
            if (merges.length) {

                for (i = 0, len = merges.length; i < len; ++i) {
                    merges[i].doMerge();
                }


                // Set the range boundaries
                range.setStart(rangeStartNode, rangeStartOffset);
                range.setEnd(rangeEndNode, rangeEndOffset);
            }

        },

        createContainer: function(doc) {
            var el = doc.createElement(this.elementTagName);
            api.util.extend(el, this.elementProperties);
            addClass(el, this.cssClass);
            return el;
        },

        applyToTextNode: function(textNode) {


            var parent = textNode.parentNode;
            if (parent.childNodes.length == 1 && dom.arrayContains(this.tagNames, parent.tagName.toLowerCase())) {
                addClass(parent, this.cssClass);
            } else {
                var el = this.createContainer(dom.getDocument(textNode));
                textNode.parentNode.insertBefore(el, textNode);
                el.appendChild(textNode);
            }

        },

        isRemovable: function(el) {
            return el.tagName.toLowerCase() == this.elementTagName
                    && getSortedClassName(el) == this.elementSortedClassName
                    && elementHasProps(el, this.elementProperties)
                    && !elementHasNonClassAttributes(el, this.attrExceptions)
                    && this.isModifiable(el);
        },

        undoToTextNode: function(textNode, range, ancestorWithClass) {

            if (!range.containsNode(ancestorWithClass)) {
                // Split out the portion of the ancestor from which we can remove the CSS class
                //var parent = ancestorWithClass.parentNode, index = dom.getNodeIndex(ancestorWithClass);
                var ancestorRange = range.cloneRange();
                ancestorRange.selectNode(ancestorWithClass);

                if (ancestorRange.isPointInRange(range.endContainer, range.endOffset)/* && isSplitPoint(range.endContainer, range.endOffset)*/) {
                    splitNodeAt(ancestorWithClass, range.endContainer, range.endOffset, [range]);
                    range.setEndAfter(ancestorWithClass);
                }
                if (ancestorRange.isPointInRange(range.startContainer, range.startOffset)/* && isSplitPoint(range.startContainer, range.startOffset)*/) {
                    ancestorWithClass = splitNodeAt(ancestorWithClass, range.startContainer, range.startOffset, [range]);
                }
            }

            if (this.isRemovable(ancestorWithClass)) {
                replaceWithOwnChildren(ancestorWithClass);
            } else {
                removeClass(ancestorWithClass, this.cssClass);
            }
        },

        applyToRange: function(range) {
            range.splitBoundaries();
            var textNodes = getEffectiveTextNodes(range);

            if (textNodes.length) {
                var textNode;

                for (var i = 0, len = textNodes.length; i < len; ++i) {
                    textNode = textNodes[i];

                    if (!this.isIgnorableWhiteSpaceNode(textNode) && !this.getSelfOrAncestorWithClass(textNode)
                            && this.isModifiable(textNode)) {
                        this.applyToTextNode(textNode);
                    }
                }
                range.setStart(textNodes[0], 0);
                textNode = textNodes[textNodes.length - 1];
                range.setEnd(textNode, textNode.length);
                if (this.normalize) {
                    this.postApply(textNodes, range, false);
                }
            }
        },

        applyToSelection: function(win) {

            win = win || window;
            var sel = api.getSelection(win);

            var range, ranges = sel.getAllRanges();
            sel.removeAllRanges();
            var i = ranges.length;
            while (i--) {
                range = ranges[i];
                this.applyToRange(range);
                sel.addRange(range);
            }

        },

        undoToRange: function(range) {

            range.splitBoundaries();
            var textNodes = getEffectiveTextNodes(range);
            var textNode, ancestorWithClass;
            var lastTextNode = textNodes[textNodes.length - 1];

            if (textNodes.length) {
                for (var i = 0, len = textNodes.length; i < len; ++i) {
                    textNode = textNodes[i];
                    ancestorWithClass = this.getSelfOrAncestorWithClass(textNode);
                    if (ancestorWithClass && this.isModifiable(textNode)) {
                        this.undoToTextNode(textNode, range, ancestorWithClass);
                    }

                    // Ensure the range is still valid
                    range.setStart(textNodes[0], 0);
                    range.setEnd(lastTextNode, lastTextNode.length);
                }



                if (this.normalize) {
                    this.postApply(textNodes, range, true);
                }
            }
        },

        undoToSelection: function(win) {
            win = win || window;
            var sel = api.getSelection(win);
            var ranges = sel.getAllRanges(), range;
            sel.removeAllRanges();
            for (var i = 0, len = ranges.length; i < len; ++i) {
                range = ranges[i];
                this.undoToRange(range);
                sel.addRange(range);
            }
        },

        getTextSelectedByRange: function(textNode, range) {
            var textRange = range.cloneRange();
            textRange.selectNodeContents(textNode);

            var intersectionRange = textRange.intersection(range);
            var text = intersectionRange ? intersectionRange.toString() : "";
            textRange.detach();

            return text;
        },

        isAppliedToRange: function(range) {
            if (range.collapsed) {
                return !!this.getSelfOrAncestorWithClass(range.commonAncestorContainer);
            } else {
                var textNodes = range.getNodes( [3] );
                for (var i = 0, textNode; textNode = textNodes[i++]; ) {
                    if (!this.isIgnorableWhiteSpaceNode(textNode) && rangeSelectsAnyText(range, textNode)
                            && this.isModifiable(textNode) && !this.getSelfOrAncestorWithClass(textNode)) {
                        return false;
                    }
                }
                return true;
            }
        },

        isAppliedToSelection: function(win) {
            win = win || window;
            var sel = api.getSelection(win);
            var ranges = sel.getAllRanges();
            var i = ranges.length;
            while (i--) {
                if (!this.isAppliedToRange(ranges[i])) {
                    return false;
                }
            }

            return true;
        },

        toggleRange: function(range) {
            if (this.isAppliedToRange(range)) {
                this.undoToRange(range);
            } else {
                this.applyToRange(range);
            }
        },

        toggleSelection: function(win) {
            if (this.isAppliedToSelection(win)) {
                this.undoToSelection(win);
            } else {
                this.applyToSelection(win);
            }
        },

        detach: function() {}
    };

    function createCssClassApplier(cssClass, options, tagNames) {
        return new CssClassApplier(cssClass, options, tagNames);
    }

    CssClassApplier.util = {
        hasClass: hasClass,
        addClass: addClass,
        removeClass: removeClass,
        hasSameClasses: haveSameClasses,
        replaceWithOwnChildren: replaceWithOwnChildren,
        elementsHaveSameNonClassAttributes: elementsHaveSameNonClassAttributes,
        elementHasNonClassAttributes: elementHasNonClassAttributes,
        splitNodeAt: splitNodeAt,
        isEditableElement: isEditableElement,
        isEditingHost: isEditingHost,
        isEditable: isEditable
    };

    api.CssClassApplier = CssClassApplier;
    api.createCssClassApplier = createCssClassApplier;
});