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removing codemirror (it wasn't active, anyway) - see discussion in #2

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This commit is contained in:
Ben Word
2011-06-22 20:11:48 -06:00
parent f06c413f64
commit cd1f00909d
19 changed files with 2 additions and 5191 deletions
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582
inc/js/codemirror/codemirror.js
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/* CodeMirror main module (http://codemirror.net/)
*
* Implements the CodeMirror constructor and prototype, which take care
* of initializing the editor frame, and providing the outside interface.
*/
// The CodeMirrorConfig object is used to specify a default
// configuration. If you specify such an object before loading this
// file, the values you put into it will override the defaults given
// below. You can also assign to it after loading.
var CodeMirrorConfig = window.CodeMirrorConfig || {};
var CodeMirror = (function(){
function setDefaults(object, defaults) {
for (var option in defaults) {
if (!object.hasOwnProperty(option))
object[option] = defaults[option];
}
}
function forEach(array, action) {
for (var i = 0; i < array.length; i++)
action(array[i]);
}
function createHTMLElement(el) {
if (document.createElementNS && document.documentElement.namespaceURI !== null)
return document.createElementNS("http://www.w3.org/1999/xhtml", el)
else
return document.createElement(el)
}
// These default options can be overridden by passing a set of
// options to a specific CodeMirror constructor. See manual.html for
// their meaning.
setDefaults(CodeMirrorConfig, {
stylesheet: [],
path: "",
parserfile: [],
basefiles: ["util.js", "stringstream.js", "select.js", "undo.js", "editor.js", "tokenize.js"],
iframeClass: null,
passDelay: 200,
passTime: 50,
lineNumberDelay: 200,
lineNumberTime: 50,
continuousScanning: false,
saveFunction: null,
onLoad: null,
onChange: null,
undoDepth: 50,
undoDelay: 800,
disableSpellcheck: true,
textWrapping: true,
readOnly: false,
width: "",
height: "300px",
minHeight: 100,
autoMatchParens: false,
markParen: null,
unmarkParen: null,
parserConfig: null,
tabMode: "indent", // or "spaces", "default", "shift"
enterMode: "indent", // or "keep", "flat"
electricChars: true,
reindentOnLoad: false,
activeTokens: null,
onCursorActivity: null,
lineNumbers: false,
firstLineNumber: 1,
onLineNumberClick: null,
indentUnit: 2,
domain: null,
noScriptCaching: false,
incrementalLoading: false
});
function addLineNumberDiv(container, firstNum) {
var nums = createHTMLElement("div"),
scroller = createHTMLElement("div");
nums.style.position = "absolute";
nums.style.height = "100%";
if (nums.style.setExpression) {
try {nums.style.setExpression("height", "this.previousSibling.offsetHeight + 'px'");}
catch(e) {} // Seems to throw 'Not Implemented' on some IE8 versions
}
nums.style.top = "0px";
nums.style.left = "0px";
nums.style.overflow = "hidden";
container.appendChild(nums);
scroller.className = "CodeMirror-line-numbers";
nums.appendChild(scroller);
scroller.innerHTML = "<div>" + firstNum + "</div>";
return nums;
}
function frameHTML(options) {
if (typeof options.parserfile == "string")
options.parserfile = [options.parserfile];
if (typeof options.basefiles == "string")
options.basefiles = [options.basefiles];
if (typeof options.stylesheet == "string")
options.stylesheet = [options.stylesheet];
var sp = " spellcheck=\"" + (options.disableSpellcheck ? "false" : "true") + "\"";
var html = ["<!DOCTYPE HTML PUBLIC \"-//W3C//DTD HTML 4.0 Transitional//EN\" \"http://www.w3.org/TR/html4/loose.dtd\"><html" + sp + "><head>"];
// Hack to work around a bunch of IE8-specific problems.
html.push("<meta http-equiv=\"X-UA-Compatible\" content=\"IE=EmulateIE7\"/>");
var queryStr = options.noScriptCaching ? "?nocache=" + new Date().getTime().toString(16) : "";
forEach(options.stylesheet, function(file) {
html.push("<link rel=\"stylesheet\" type=\"text/css\" href=\"" + file + queryStr + "\"/>");
});
forEach(options.basefiles.concat(options.parserfile), function(file) {
if (!/^https?:/.test(file)) file = options.path + file;
html.push("<script type=\"text/javascript\" src=\"" + file + queryStr + "\"><" + "/script>");
});
html.push("</head><body style=\"border-width: 0;\" class=\"editbox\"" + sp + "></body></html>");
return html.join("");
}
var internetExplorer = document.selection && window.ActiveXObject && /MSIE/.test(navigator.userAgent);
function CodeMirror(place, options) {
// Use passed options, if any, to override defaults.
this.options = options = options || {};
setDefaults(options, CodeMirrorConfig);
// Backward compatibility for deprecated options.
if (options.dumbTabs) options.tabMode = "spaces";
else if (options.normalTab) options.tabMode = "default";
if (options.cursorActivity) options.onCursorActivity = options.cursorActivity;
var frame = this.frame = createHTMLElement("iframe");
if (options.iframeClass) frame.className = options.iframeClass;
frame.frameBorder = 0;
frame.style.border = "0";
frame.style.width = '100%';
frame.style.height = '100%';
// display: block occasionally suppresses some Firefox bugs, so we
// always add it, redundant as it sounds.
frame.style.display = "block";
var div = this.wrapping = createHTMLElement("div");
div.style.position = "relative";
div.className = "CodeMirror-wrapping";
div.style.width = options.width;
div.style.height = (options.height == "dynamic") ? options.minHeight + "px" : options.height;
// This is used by Editor.reroutePasteEvent
var teHack = this.textareaHack = createHTMLElement("textarea");
div.appendChild(teHack);
teHack.style.position = "absolute";
teHack.style.left = "-10000px";
teHack.style.width = "10px";
teHack.tabIndex = 100000;
// Link back to this object, so that the editor can fetch options
// and add a reference to itself.
frame.CodeMirror = this;
if (options.domain && internetExplorer) {
this.html = frameHTML(options);
frame.src = "javascript:(function(){document.open();" +
(options.domain ? "document.domain=\"" + options.domain + "\";" : "") +
"document.write(window.frameElement.CodeMirror.html);document.close();})()";
}
else {
frame.src = "javascript:;";
}
if (place.appendChild) place.appendChild(div);
else place(div);
div.appendChild(frame);
if (options.lineNumbers) this.lineNumbers = addLineNumberDiv(div, options.firstLineNumber);
this.win = frame.contentWindow;
if (!options.domain || !internetExplorer) {
this.win.document.open();
this.win.document.write(frameHTML(options));
this.win.document.close();
}
}
CodeMirror.prototype = {
init: function() {
// Deprecated, but still supported.
if (this.options.initCallback) this.options.initCallback(this);
if (this.options.onLoad) this.options.onLoad(this);
if (this.options.lineNumbers) this.activateLineNumbers();
if (this.options.reindentOnLoad) this.reindent();
if (this.options.height == "dynamic") this.setDynamicHeight();
},
getCode: function() {return this.editor.getCode();},
setCode: function(code) {this.editor.importCode(code);},
selection: function() {this.focusIfIE(); return this.editor.selectedText();},
reindent: function() {this.editor.reindent();},
reindentSelection: function() {this.focusIfIE(); this.editor.reindentSelection(null);},
focusIfIE: function() {
// in IE, a lot of selection-related functionality only works when the frame is focused
if (this.win.select.ie_selection && document.activeElement != this.frame)
this.focus();
},
focus: function() {
this.win.focus();
if (this.editor.selectionSnapshot) // IE hack
this.win.select.setBookmark(this.win.document.body, this.editor.selectionSnapshot);
},
replaceSelection: function(text) {
this.focus();
this.editor.replaceSelection(text);
return true;
},
replaceChars: function(text, start, end) {
this.editor.replaceChars(text, start, end);
},
getSearchCursor: function(string, fromCursor, caseFold) {
return this.editor.getSearchCursor(string, fromCursor, caseFold);
},
undo: function() {this.editor.history.undo();},
redo: function() {this.editor.history.redo();},
historySize: function() {return this.editor.history.historySize();},
clearHistory: function() {this.editor.history.clear();},
grabKeys: function(callback, filter) {this.editor.grabKeys(callback, filter);},
ungrabKeys: function() {this.editor.ungrabKeys();},
setParser: function(name, parserConfig) {this.editor.setParser(name, parserConfig);},
setSpellcheck: function(on) {this.win.document.body.spellcheck = on;},
setStylesheet: function(names) {
if (typeof names === "string") names = [names];
var activeStylesheets = {};
var matchedNames = {};
var links = this.win.document.getElementsByTagName("link");
// Create hashes of active stylesheets and matched names.
// This is O(n^2) but n is expected to be very small.
for (var x = 0, link; link = links[x]; x++) {
if (link.rel.indexOf("stylesheet") !== -1) {
for (var y = 0; y < names.length; y++) {
var name = names[y];
if (link.href.substring(link.href.length - name.length) === name) {
activeStylesheets[link.href] = true;
matchedNames[name] = true;
}
}
}
}
// Activate the selected stylesheets and disable the rest.
for (var x = 0, link; link = links[x]; x++) {
if (link.rel.indexOf("stylesheet") !== -1) {
link.disabled = !(link.href in activeStylesheets);
}
}
// Create any new stylesheets.
for (var y = 0; y < names.length; y++) {
var name = names[y];
if (!(name in matchedNames)) {
var link = this.win.document.createElement("link");
link.rel = "stylesheet";
link.type = "text/css";
link.href = name;
this.win.document.getElementsByTagName('head')[0].appendChild(link);
}
}
},
setTextWrapping: function(on) {
if (on == this.options.textWrapping) return;
this.win.document.body.style.whiteSpace = on ? "" : "nowrap";
this.options.textWrapping = on;
if (this.lineNumbers) {
this.setLineNumbers(false);
this.setLineNumbers(true);
}
},
setIndentUnit: function(unit) {this.win.indentUnit = unit;},
setUndoDepth: function(depth) {this.editor.history.maxDepth = depth;},
setTabMode: function(mode) {this.options.tabMode = mode;},
setEnterMode: function(mode) {this.options.enterMode = mode;},
setLineNumbers: function(on) {
if (on && !this.lineNumbers) {
this.lineNumbers = addLineNumberDiv(this.wrapping,this.options.firstLineNumber);
this.activateLineNumbers();
}
else if (!on && this.lineNumbers) {
this.wrapping.removeChild(this.lineNumbers);
this.wrapping.style.paddingLeft = "";
this.lineNumbers = null;
}
},
cursorPosition: function(start) {this.focusIfIE(); return this.editor.cursorPosition(start);},
firstLine: function() {return this.editor.firstLine();},
lastLine: function() {return this.editor.lastLine();},
nextLine: function(line) {return this.editor.nextLine(line);},
prevLine: function(line) {return this.editor.prevLine(line);},
lineContent: function(line) {return this.editor.lineContent(line);},
setLineContent: function(line, content) {this.editor.setLineContent(line, content);},
removeLine: function(line){this.editor.removeLine(line);},
insertIntoLine: function(line, position, content) {this.editor.insertIntoLine(line, position, content);},
selectLines: function(startLine, startOffset, endLine, endOffset) {
this.win.focus();
this.editor.selectLines(startLine, startOffset, endLine, endOffset);
},
nthLine: function(n) {
var line = this.firstLine();
for (; n > 1 && line !== false; n--)
line = this.nextLine(line);
return line;
},
lineNumber: function(line) {
var num = 0;
while (line !== false) {
num++;
line = this.prevLine(line);
}
return num;
},
jumpToLine: function(line) {
if (typeof line == "number") line = this.nthLine(line);
this.selectLines(line, 0);
this.win.focus();
},
currentLine: function() { // Deprecated, but still there for backward compatibility
return this.lineNumber(this.cursorLine());
},
cursorLine: function() {
return this.cursorPosition().line;
},
cursorCoords: function(start) {return this.editor.cursorCoords(start);},
activateLineNumbers: function() {
var frame = this.frame, win = frame.contentWindow, doc = win.document, body = doc.body,
nums = this.lineNumbers, scroller = nums.firstChild, self = this;
var barWidth = null;
nums.onclick = function(e) {
var handler = self.options.onLineNumberClick;
if (handler) {
var div = (e || window.event).target || (e || window.event).srcElement;
var num = div == nums ? NaN : Number(div.innerHTML);
if (!isNaN(num)) handler(num, div);
}
};
function sizeBar() {
if (frame.offsetWidth == 0) return;
for (var root = frame; root.parentNode; root = root.parentNode){}
if (!nums.parentNode || root != document || !win.Editor) {
// Clear event handlers (their nodes might already be collected, so try/catch)
try{clear();}catch(e){}
clearInterval(sizeInterval);
return;
}
if (nums.offsetWidth != barWidth) {
barWidth = nums.offsetWidth;
frame.parentNode.style.paddingLeft = barWidth + "px";
}
}
function doScroll() {
nums.scrollTop = body.scrollTop || doc.documentElement.scrollTop || 0;
}
// Cleanup function, registered by nonWrapping and wrapping.
var clear = function(){};
sizeBar();
var sizeInterval = setInterval(sizeBar, 500);
function ensureEnoughLineNumbers(fill) {
var lineHeight = scroller.firstChild.offsetHeight;
if (lineHeight == 0) return;
var targetHeight = 50 + Math.max(body.offsetHeight, Math.max(frame.offsetHeight, body.scrollHeight || 0)),
lastNumber = Math.ceil(targetHeight / lineHeight);
for (var i = scroller.childNodes.length; i <= lastNumber; i++) {
var div = createHTMLElement("div");
div.appendChild(document.createTextNode(fill ? String(i + self.options.firstLineNumber) : "\u00a0"));
scroller.appendChild(div);
}
}
function nonWrapping() {
function update() {
ensureEnoughLineNumbers(true);
doScroll();
}
self.updateNumbers = update;
var onScroll = win.addEventHandler(win, "scroll", doScroll, true),
onResize = win.addEventHandler(win, "resize", update, true);
clear = function(){
onScroll(); onResize();
if (self.updateNumbers == update) self.updateNumbers = null;
};
update();
}
function wrapping() {
var node, lineNum, next, pos, changes = [], styleNums = self.options.styleNumbers;
function setNum(n, node) {
// Does not typically happen (but can, if you mess with the
// document during the numbering)
if (!lineNum) lineNum = scroller.appendChild(createHTMLElement("div"));
if (styleNums) styleNums(lineNum, node, n);
// Changes are accumulated, so that the document layout
// doesn't have to be recomputed during the pass
changes.push(lineNum); changes.push(n);
pos = lineNum.offsetHeight + lineNum.offsetTop;
lineNum = lineNum.nextSibling;
}
function commitChanges() {
for (var i = 0; i < changes.length; i += 2)
changes[i].innerHTML = changes[i + 1];
changes = [];
}
function work() {
if (!scroller.parentNode || scroller.parentNode != self.lineNumbers) return;
var endTime = new Date().getTime() + self.options.lineNumberTime;
while (node) {
setNum(next++, node.previousSibling);
for (; node && !win.isBR(node); node = node.nextSibling) {
var bott = node.offsetTop + node.offsetHeight;
while (scroller.offsetHeight && bott - 3 > pos) {
var oldPos = pos;
setNum("&nbsp;");
if (pos <= oldPos) break;
}
}
if (node) node = node.nextSibling;
if (new Date().getTime() > endTime) {
commitChanges();
pending = setTimeout(work, self.options.lineNumberDelay);
return;
}
}
while (lineNum) setNum(next++);
commitChanges();
doScroll();
}
function start(firstTime) {
doScroll();
ensureEnoughLineNumbers(firstTime);
node = body.firstChild;
lineNum = scroller.firstChild;
pos = 0;
next = self.options.firstLineNumber;
work();
}
start(true);
var pending = null;
function update() {
if (pending) clearTimeout(pending);
if (self.editor.allClean()) start();
else pending = setTimeout(update, 200);
}
self.updateNumbers = update;
var onScroll = win.addEventHandler(win, "scroll", doScroll, true),
onResize = win.addEventHandler(win, "resize", update, true);
clear = function(){
if (pending) clearTimeout(pending);
if (self.updateNumbers == update) self.updateNumbers = null;
onScroll();
onResize();
};
}
(this.options.textWrapping || this.options.styleNumbers ? wrapping : nonWrapping)();
},
setDynamicHeight: function() {
var self = this, activity = self.options.onCursorActivity, win = self.win, body = win.document.body,
lineHeight = null, timeout = null, vmargin = 2 * self.frame.offsetTop;
body.style.overflowY = "hidden";
win.document.documentElement.style.overflowY = "hidden";
this.frame.scrolling = "no";
function updateHeight() {
var trailingLines = 0, node = body.lastChild, computedHeight;
while (node && win.isBR(node)) {
if (!node.hackBR) trailingLines++;
node = node.previousSibling;
}
if (node) {
lineHeight = node.offsetHeight;
computedHeight = node.offsetTop + (1 + trailingLines) * lineHeight;
}
else if (lineHeight) {
computedHeight = trailingLines * lineHeight;
}
if (computedHeight)
self.wrapping.style.height = Math.max(vmargin + computedHeight, self.options.minHeight) + "px";
}
setTimeout(updateHeight, 300);
self.options.onCursorActivity = function(x) {
if (activity) activity(x);
clearTimeout(timeout);
timeout = setTimeout(updateHeight, 100);
};
}
};
CodeMirror.InvalidLineHandle = {toString: function(){return "CodeMirror.InvalidLineHandle";}};
CodeMirror.replace = function(element) {
if (typeof element == "string")
element = document.getElementById(element);
return function(newElement) {
element.parentNode.replaceChild(newElement, element);
};
};
CodeMirror.fromTextArea = function(area, options) {
if (typeof area == "string")
area = document.getElementById(area);
options = options || {};
if (area.style.width && options.width == null)
options.width = area.style.width;
if (area.style.height && options.height == null)
options.height = area.style.height;
if (options.content == null) options.content = area.value;
function updateField() {
area.value = mirror.getCode();
}
if (area.form) {
if (typeof area.form.addEventListener == "function")
area.form.addEventListener("submit", updateField, false);
else
area.form.attachEvent("onsubmit", updateField);
var realSubmit = area.form.submit;
function wrapSubmit() {
updateField();
// Can't use realSubmit.apply because IE6 is too stupid
area.form.submit = realSubmit;
area.form.submit();
area.form.submit = wrapSubmit;
}
try {area.form.submit = wrapSubmit;} catch(e){}
}
function insert(frame) {
if (area.nextSibling)
area.parentNode.insertBefore(frame, area.nextSibling);
else
area.parentNode.appendChild(frame);
}
area.style.display = "none";
var mirror = new CodeMirror(insert, options);
mirror.save = updateField;
mirror.toTextArea = function() {
updateField();
area.parentNode.removeChild(mirror.wrapping);
area.style.display = "";
if (area.form) {
try {area.form.submit = realSubmit;} catch(e) {}
if (typeof area.form.removeEventListener == "function")
area.form.removeEventListener("submit", updateField, false);
else
area.form.detachEvent("onsubmit", updateField);
}
};
return mirror;
};
CodeMirror.isProbablySupported = function() {
// This is rather awful, but can be useful.
var match;
if (window.opera)
return Number(window.opera.version()) >= 9.52;
else if (/Apple Computer, Inc/.test(navigator.vendor) && (match = navigator.userAgent.match(/Version\/(\d+(?:\.\d+)?)\./)))
return Number(match[1]) >= 3;
else if (document.selection && window.ActiveXObject && (match = navigator.userAgent.match(/MSIE (\d+(?:\.\d*)?)\b/)))
return Number(match[1]) >= 6;
else if (match = navigator.userAgent.match(/gecko\/(\d{8})/i))
return Number(match[1]) >= 20050901;
else if (match = navigator.userAgent.match(/AppleWebKit\/(\d+)/))
return Number(match[1]) >= 525;
else
return null;
};
return CodeMirror;
})();

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inc/js/codemirror/editor.js
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68
inc/js/codemirror/highlight.js
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// Minimal framing needed to use CodeMirror-style parsers to highlight
// code. Load this along with tokenize.js, stringstream.js, and your
// parser. Then call highlightText, passing a string as the first
// argument, and as the second argument either a callback function
// that will be called with an array of SPAN nodes for every line in
// the code, or a DOM node to which to append these spans, and
// optionally (not needed if you only loaded one parser) a parser
// object.
// Stuff from util.js that the parsers are using.
var StopIteration = {toString: function() {return "StopIteration"}};
var Editor = {};
var indentUnit = 2;
(function(){
function normaliseString(string) {
var tab = "";
for (var i = 0; i < indentUnit; i++) tab += " ";
string = string.replace(/\t/g, tab).replace(/\u00a0/g, " ").replace(/\r\n?/g, "\n");
var pos = 0, parts = [], lines = string.split("\n");
for (var line = 0; line < lines.length; line++) {
if (line != 0) parts.push("\n");
parts.push(lines[line]);
}
return {
next: function() {
if (pos < parts.length) return parts[pos++];
else throw StopIteration;
}
};
}
window.highlightText = function(string, callback, parser) {
parser = (parser || Editor.Parser).make(stringStream(normaliseString(string)));
var line = [];
if (callback.nodeType == 1) {
var node = callback;
callback = function(line) {
for (var i = 0; i < line.length; i++)
node.appendChild(line[i]);
node.appendChild(document.createElement("br"));
};
}
try {
while (true) {
var token = parser.next();
if (token.value == "\n") {
callback(line);
line = [];
}
else {
var span = document.createElement("span");
span.className = token.style;
span.appendChild(document.createTextNode(token.value));
line.push(span);
}
}
}
catch (e) {
if (e != StopIteration) throw e;
}
if (line.length) callback(line);
}
})();

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inc/js/codemirror/mirrorframe.js
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/* Demonstration of embedding CodeMirror in a bigger application. The
* interface defined here is a mess of prompts and confirms, and
* should probably not be used in a real project.
*/
function MirrorFrame(place, options) {
this.home = document.createElement("div");
if (place.appendChild)
place.appendChild(this.home);
else
place(this.home);
var self = this;
function makeButton(name, action) {
var button = document.createElement("input");
button.type = "button";
button.value = name;
self.home.appendChild(button);
button.onclick = function(){self[action].call(self);};
}
makeButton("Search", "search");
makeButton("Replace", "replace");
makeButton("Current line", "line");
makeButton("Jump to line", "jump");
makeButton("Insert constructor", "macro");
makeButton("Indent all", "reindent");
this.mirror = new CodeMirror(this.home, options);
}
MirrorFrame.prototype = {
search: function() {
var text = prompt("Enter search term:", "");
if (!text) return;
var first = true;
do {
var cursor = this.mirror.getSearchCursor(text, first);
first = false;
while (cursor.findNext()) {
cursor.select();
if (!confirm("Search again?"))
return;
}
} while (confirm("End of document reached. Start over?"));
},
replace: function() {
// This is a replace-all, but it is possible to implement a
// prompting replace.
var from = prompt("Enter search string:", ""), to;
if (from) to = prompt("What should it be replaced with?", "");
if (to == null) return;
var cursor = this.mirror.getSearchCursor(from, false);
while (cursor.findNext())
cursor.replace(to);
},
jump: function() {
var line = prompt("Jump to line:", "");
if (line && !isNaN(Number(line)))
this.mirror.jumpToLine(Number(line));
},
line: function() {
alert("The cursor is currently at line " + this.mirror.currentLine());
this.mirror.focus();
},
macro: function() {
var name = prompt("Name your constructor:", "");
if (name)
this.mirror.replaceSelection("function " + name + "() {\n \n}\n\n" + name + ".prototype = {\n \n};\n");
},
reindent: function() {
this.mirror.reindent();
}
};

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inc/js/codemirror/parsecss.js
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/* Simple parser for CSS */
var CSSParser = Editor.Parser = (function() {
var tokenizeCSS = (function() {
function normal(source, setState) {
var ch = source.next();
if (ch == "@") {
source.nextWhileMatches(/\w/);
return "css-at";
}
else if (ch == "/" && source.equals("*")) {
setState(inCComment);
return null;
}
else if (ch == "<" && source.equals("!")) {
setState(inSGMLComment);
return null;
}
else if (ch == "=") {
return "css-compare";
}
else if (source.equals("=") && (ch == "~" || ch == "|")) {
source.next();
return "css-compare";
}
else if (ch == "\"" || ch == "'") {
setState(inString(ch));
return null;
}
else if (ch == "#") {
source.nextWhileMatches(/\w/);
return "css-hash";
}
else if (ch == "!") {
source.nextWhileMatches(/[ \t]/);
source.nextWhileMatches(/\w/);
return "css-important";
}
else if (/\d/.test(ch)) {
source.nextWhileMatches(/[\w.%]/);
return "css-unit";
}
else if (/[,.+>*\/]/.test(ch)) {
return "css-select-op";
}
else if (/[;{}:\[\]]/.test(ch)) {
return "css-punctuation";
}
else {
source.nextWhileMatches(/[\w\\\-_]/);
return "css-identifier";
}
}
function inCComment(source, setState) {
var maybeEnd = false;
while (!source.endOfLine()) {
var ch = source.next();
if (maybeEnd && ch == "/") {
setState(normal);
break;
}
maybeEnd = (ch == "*");
}
return "css-comment";
}
function inSGMLComment(source, setState) {
var dashes = 0;
while (!source.endOfLine()) {
var ch = source.next();
if (dashes >= 2 && ch == ">") {
setState(normal);
break;
}
dashes = (ch == "-") ? dashes + 1 : 0;
}
return "css-comment";
}
function inString(quote) {
return function(source, setState) {
var escaped = false;
while (!source.endOfLine()) {
var ch = source.next();
if (ch == quote && !escaped)
break;
escaped = !escaped && ch == "\\";
}
if (!escaped)
setState(normal);
return "css-string";
};
}
return function(source, startState) {
return tokenizer(source, startState || normal);
};
})();
function indentCSS(inBraces, inRule, base) {
return function(nextChars) {
if (!inBraces || /^\}/.test(nextChars)) return base;
else if (inRule) return base + indentUnit * 2;
else return base + indentUnit;
};
}
// This is a very simplistic parser -- since CSS does not really
// nest, it works acceptably well, but some nicer colouroing could
// be provided with a more complicated parser.
function parseCSS(source, basecolumn) {
basecolumn = basecolumn || 0;
var tokens = tokenizeCSS(source);
var inBraces = false, inRule = false, inDecl = false;;
var iter = {
next: function() {
var token = tokens.next(), style = token.style, content = token.content;
if (style == "css-hash")
style = token.style = inRule ? "css-colorcode" : "css-identifier";
if (style == "css-identifier") {
if (inRule) token.style = "css-value";
else if (!inBraces && !inDecl) token.style = "css-selector";
}
if (content == "\n")
token.indentation = indentCSS(inBraces, inRule, basecolumn);
if (content == "{" && inDecl == "@media")
inDecl = false;
else if (content == "{")
inBraces = true;
else if (content == "}")
inBraces = inRule = inDecl = false;
else if (content == ";")
inRule = inDecl = false;
else if (inBraces && style != "css-comment" && style != "whitespace")
inRule = true;
else if (!inBraces && style == "css-at")
inDecl = content;
return token;
},
copy: function() {
var _inBraces = inBraces, _inRule = inRule, _tokenState = tokens.state;
return function(source) {
tokens = tokenizeCSS(source, _tokenState);
inBraces = _inBraces;
inRule = _inRule;
return iter;
};
}
};
return iter;
}
return {make: parseCSS, electricChars: "}"};
})();

32
inc/js/codemirror/parsedummy.js
View File

@@ -1,32 +0,0 @@
var DummyParser = Editor.Parser = (function() {
function tokenizeDummy(source) {
while (!source.endOfLine()) source.next();
return "text";
}
function parseDummy(source) {
function indentTo(n) {return function() {return n;}}
source = tokenizer(source, tokenizeDummy);
var space = 0;
var iter = {
next: function() {
var tok = source.next();
if (tok.type == "whitespace") {
if (tok.value == "\n") tok.indentation = indentTo(space);
else space = tok.value.length;
}
return tok;
},
copy: function() {
var _space = space;
return function(_source) {
space = _space;
source = tokenizer(_source, tokenizeDummy);
return iter;
};
}
};
return iter;
}
return {make: parseDummy};
})();

93
inc/js/codemirror/parsehtmlmixed.js
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@@ -1,93 +0,0 @@
var HTMLMixedParser = Editor.Parser = (function() {
// tags that trigger seperate parsers
var triggers = {
"script": "JSParser",
"style": "CSSParser"
};
function checkDependencies() {
var parsers = ['XMLParser'];
for (var p in triggers) parsers.push(triggers[p]);
for (var i in parsers) {
if (!window[parsers[i]]) throw new Error(parsers[i] + " parser must be loaded for HTML mixed mode to work.");
}
XMLParser.configure({useHTMLKludges: true});
}
function parseMixed(stream) {
checkDependencies();
var htmlParser = XMLParser.make(stream), localParser = null, inTag = false;
var iter = {next: top, copy: copy};
function top() {
var token = htmlParser.next();
if (token.content == "<")
inTag = true;
else if (token.style == "xml-tagname" && inTag === true)
inTag = token.content.toLowerCase();
else if (token.content == ">") {
if (triggers[inTag]) {
var parser = window[triggers[inTag]];
iter.next = local(parser, "</" + inTag);
}
inTag = false;
}
return token;
}
function local(parser, tag) {
var baseIndent = htmlParser.indentation();
localParser = parser.make(stream, baseIndent + indentUnit);
return function() {
if (stream.lookAhead(tag, false, false, true)) {
localParser = null;
iter.next = top;
return top();
}
var token = localParser.next();
var lt = token.value.lastIndexOf("<"), sz = Math.min(token.value.length - lt, tag.length);
if (lt != -1 && token.value.slice(lt, lt + sz).toLowerCase() == tag.slice(0, sz) &&
stream.lookAhead(tag.slice(sz), false, false, true)) {
stream.push(token.value.slice(lt));
token.value = token.value.slice(0, lt);
}
if (token.indentation) {
var oldIndent = token.indentation;
token.indentation = function(chars) {
if (chars == "</")
return baseIndent;
else
return oldIndent(chars);
};
}
return token;
};
}
function copy() {
var _html = htmlParser.copy(), _local = localParser && localParser.copy(),
_next = iter.next, _inTag = inTag;
return function(_stream) {
stream = _stream;
htmlParser = _html(_stream);
localParser = _local && _local(_stream);
iter.next = _next;
inTag = _inTag;
return iter;
};
}
return iter;
}
return {
make: parseMixed,
electricChars: "{}/:",
configure: function(obj) {
if (obj.triggers) triggers = obj.triggers;
}
};
})();

359
inc/js/codemirror/parsejavascript.js
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@@ -1,359 +0,0 @@
/* Parse function for JavaScript. Makes use of the tokenizer from
* tokenizejavascript.js. Note that your parsers do not have to be
* this complicated -- if you don't want to recognize local variables,
* in many languages it is enough to just look for braces, semicolons,
* parentheses, etc, and know when you are inside a string or comment.
*
* See manual.html for more info about the parser interface.
*/
var JSParser = Editor.Parser = (function() {
// Token types that can be considered to be atoms.
var atomicTypes = {"atom": true, "number": true, "variable": true, "string": true, "regexp": true};
// Setting that can be used to have JSON data indent properly.
var json = false;
// Constructor for the lexical context objects.
function JSLexical(indented, column, type, align, prev, info) {
// indentation at start of this line
this.indented = indented;
// column at which this scope was opened
this.column = column;
// type of scope ('vardef', 'stat' (statement), 'form' (special form), '[', '{', or '(')
this.type = type;
// '[', '{', or '(' blocks that have any text after their opening
// character are said to be 'aligned' -- any lines below are
// indented all the way to the opening character.
if (align != null)
this.align = align;
// Parent scope, if any.
this.prev = prev;
this.info = info;
}
// My favourite JavaScript indentation rules.
function indentJS(lexical) {
return function(firstChars) {
var firstChar = firstChars && firstChars.charAt(0), type = lexical.type;
var closing = firstChar == type;
if (type == "vardef")
return lexical.indented + 4;
else if (type == "form" && firstChar == "{")
return lexical.indented;
else if (type == "stat" || type == "form")
return lexical.indented + indentUnit;
else if (lexical.info == "switch" && !closing)
return lexical.indented + (/^(?:case|default)\b/.test(firstChars) ? indentUnit : 2 * indentUnit);
else if (lexical.align)
return lexical.column - (closing ? 1 : 0);
else
return lexical.indented + (closing ? 0 : indentUnit);
};
}
// The parser-iterator-producing function itself.
function parseJS(input, basecolumn) {
// Wrap the input in a token stream
var tokens = tokenizeJavaScript(input);
// The parser state. cc is a stack of actions that have to be
// performed to finish the current statement. For example we might
// know that we still need to find a closing parenthesis and a
// semicolon. Actions at the end of the stack go first. It is
// initialized with an infinitely looping action that consumes
// whole statements.
var cc = [json ? expressions : statements];
// Context contains information about the current local scope, the
// variables defined in that, and the scopes above it.
var context = null;
// The lexical scope, used mostly for indentation.
var lexical = new JSLexical((basecolumn || 0) - indentUnit, 0, "block", false);
// Current column, and the indentation at the start of the current
// line. Used to create lexical scope objects.
var column = 0;
var indented = 0;
// Variables which are used by the mark, cont, and pass functions
// below to communicate with the driver loop in the 'next'
// function.
var consume, marked;
// The iterator object.
var parser = {next: next, copy: copy};
function next(){
// Start by performing any 'lexical' actions (adjusting the
// lexical variable), or the operations below will be working
// with the wrong lexical state.
while(cc[cc.length - 1].lex)
cc.pop()();
// Fetch a token.
var token = tokens.next();
// Adjust column and indented.
if (token.type == "whitespace" && column == 0)
indented = token.value.length;
column += token.value.length;
if (token.content == "\n"){
indented = column = 0;
// If the lexical scope's align property is still undefined at
// the end of the line, it is an un-aligned scope.
if (!("align" in lexical))
lexical.align = false;
// Newline tokens get an indentation function associated with
// them.
token.indentation = indentJS(lexical);
}
// No more processing for meaningless tokens.
if (token.type == "whitespace" || token.type == "comment")
return token;
// When a meaningful token is found and the lexical scope's
// align is undefined, it is an aligned scope.
if (!("align" in lexical))
lexical.align = true;
// Execute actions until one 'consumes' the token and we can
// return it.
while(true) {
consume = marked = false;
// Take and execute the topmost action.
cc.pop()(token.type, token.content);
if (consume){
// Marked is used to change the style of the current token.
if (marked)
token.style = marked;
// Here we differentiate between local and global variables.
else if (token.type == "variable" && inScope(token.content))
token.style = "js-localvariable";
return token;
}
}
}
// This makes a copy of the parser state. It stores all the
// stateful variables in a closure, and returns a function that
// will restore them when called with a new input stream. Note
// that the cc array has to be copied, because it is contantly
// being modified. Lexical objects are not mutated, and context
// objects are not mutated in a harmful way, so they can be shared
// between runs of the parser.
function copy(){
var _context = context, _lexical = lexical, _cc = cc.concat([]), _tokenState = tokens.state;
return function copyParser(input){
context = _context;
lexical = _lexical;
cc = _cc.concat([]); // copies the array
column = indented = 0;
tokens = tokenizeJavaScript(input, _tokenState);
return parser;
};
}
// Helper function for pushing a number of actions onto the cc
// stack in reverse order.
function push(fs){
for (var i = fs.length - 1; i >= 0; i--)
cc.push(fs[i]);
}
// cont and pass are used by the action functions to add other
// actions to the stack. cont will cause the current token to be
// consumed, pass will leave it for the next action.
function cont(){
push(arguments);
consume = true;
}
function pass(){
push(arguments);
consume = false;
}
// Used to change the style of the current token.
function mark(style){
marked = style;
}
// Push a new scope. Will automatically link the current scope.
function pushcontext(){
context = {prev: context, vars: {"this": true, "arguments": true}};
}
// Pop off the current scope.
function popcontext(){
context = context.prev;
}
// Register a variable in the current scope.
function register(varname){
if (context){
mark("js-variabledef");
context.vars[varname] = true;
}
}
// Check whether a variable is defined in the current scope.
function inScope(varname){
var cursor = context;
while (cursor) {
if (cursor.vars[varname])
return true;
cursor = cursor.prev;
}
return false;
}
// Push a new lexical context of the given type.
function pushlex(type, info) {
var result = function(){
lexical = new JSLexical(indented, column, type, null, lexical, info)
};
result.lex = true;
return result;
}
// Pop off the current lexical context.
function poplex(){
if (lexical.type == ")")
indented = lexical.indented;
lexical = lexical.prev;
}
poplex.lex = true;
// The 'lex' flag on these actions is used by the 'next' function
// to know they can (and have to) be ran before moving on to the
// next token.
// Creates an action that discards tokens until it finds one of
// the given type.
function expect(wanted){
return function expecting(type){
if (type == wanted) cont();
else if (wanted == ";") pass();
else cont(arguments.callee);
};
}
// Looks for a statement, and then calls itself.
function statements(type){
return pass(statement, statements);
}
function expressions(type){
return pass(expression, expressions);
}
// Dispatches various types of statements based on the type of the
// current token.
function statement(type){
if (type == "var") cont(pushlex("vardef"), vardef1, expect(";"), poplex);
else if (type == "keyword a") cont(pushlex("form"), expression, statement, poplex);
else if (type == "keyword b") cont(pushlex("form"), statement, poplex);
else if (type == "{") cont(pushlex("}"), block, poplex);
else if (type == ";") cont();
else if (type == "function") cont(functiondef);
else if (type == "for") cont(pushlex("form"), expect("("), pushlex(")"), forspec1, expect(")"), poplex, statement, poplex);
else if (type == "variable") cont(pushlex("stat"), maybelabel);
else if (type == "switch") cont(pushlex("form"), expression, pushlex("}", "switch"), expect("{"), block, poplex, poplex);
else if (type == "case") cont(expression, expect(":"));
else if (type == "default") cont(expect(":"));
else if (type == "catch") cont(pushlex("form"), pushcontext, expect("("), funarg, expect(")"), statement, poplex, popcontext);
else pass(pushlex("stat"), expression, expect(";"), poplex);
}
// Dispatch expression types.
function expression(type){
if (atomicTypes.hasOwnProperty(type)) cont(maybeoperator);
else if (type == "function") cont(functiondef);
else if (type == "keyword c") cont(expression);
else if (type == "(") cont(pushlex(")"), expression, expect(")"), poplex, maybeoperator);
else if (type == "operator") cont(expression);
else if (type == "[") cont(pushlex("]"), commasep(expression, "]"), poplex, maybeoperator);
else if (type == "{") cont(pushlex("}"), commasep(objprop, "}"), poplex, maybeoperator);
else cont();
}
// Called for places where operators, function calls, or
// subscripts are valid. Will skip on to the next action if none
// is found.
function maybeoperator(type, value){
if (type == "operator" && /\+\+|--/.test(value)) cont(maybeoperator);
else if (type == "operator") cont(expression);
else if (type == ";") pass();
else if (type == "(") cont(pushlex(")"), commasep(expression, ")"), poplex, maybeoperator);
else if (type == ".") cont(property, maybeoperator);
else if (type == "[") cont(pushlex("]"), expression, expect("]"), poplex, maybeoperator);
}
// When a statement starts with a variable name, it might be a
// label. If no colon follows, it's a regular statement.
function maybelabel(type){
if (type == ":") cont(poplex, statement);
else pass(maybeoperator, expect(";"), poplex);
}
// Property names need to have their style adjusted -- the
// tokenizer thinks they are variables.
function property(type){
if (type == "variable") {mark("js-property"); cont();}
}
// This parses a property and its value in an object literal.
function objprop(type){
if (type == "variable") mark("js-property");
if (atomicTypes.hasOwnProperty(type)) cont(expect(":"), expression);
}
// Parses a comma-separated list of the things that are recognized
// by the 'what' argument.
function commasep(what, end){
function proceed(type) {
if (type == ",") cont(what, proceed);
else if (type == end) cont();
else cont(expect(end));
}
return function commaSeparated(type) {
if (type == end) cont();
else pass(what, proceed);
};
}
// Look for statements until a closing brace is found.
function block(type){
if (type == "}") cont();
else pass(statement, block);
}
// Variable definitions are split into two actions -- 1 looks for
// a name or the end of the definition, 2 looks for an '=' sign or
// a comma.
function vardef1(type, value){
if (type == "variable"){register(value); cont(vardef2);}
else cont();
}
function vardef2(type, value){
if (value == "=") cont(expression, vardef2);
else if (type == ",") cont(vardef1);
}
// For loops.
function forspec1(type){
if (type == "var") cont(vardef1, forspec2);
else if (type == ";") pass(forspec2);
else if (type == "variable") cont(formaybein);
else pass(forspec2);
}
function formaybein(type, value){
if (value == "in") cont(expression);
else cont(maybeoperator, forspec2);
}
function forspec2(type, value){
if (type == ";") cont(forspec3);
else if (value == "in") cont(expression);
else cont(expression, expect(";"), forspec3);
}
function forspec3(type) {
if (type == ")") pass();
else cont(expression);
}
// A function definition creates a new context, and the variables
// in its argument list have to be added to this context.
function functiondef(type, value){
if (type == "variable"){register(value); cont(functiondef);}
else if (type == "(") cont(pushcontext, commasep(funarg, ")"), statement, popcontext);
}
function funarg(type, value){
if (type == "variable"){register(value); cont();}
}
return parser;
}
return {
make: parseJS,
electricChars: "{}:",
configure: function(obj) {
if (obj.json != null) json = obj.json;
}
};
})();

162
inc/js/codemirror/parsesparql.js
View File

@@ -1,162 +0,0 @@
var SparqlParser = Editor.Parser = (function() {
function wordRegexp(words) {
return new RegExp("^(?:" + words.join("|") + ")$", "i");
}
var ops = wordRegexp(["str", "lang", "langmatches", "datatype", "bound", "sameterm", "isiri", "isuri",
"isblank", "isliteral", "union", "a"]);
var keywords = wordRegexp(["base", "prefix", "select", "distinct", "reduced", "construct", "describe",
"ask", "from", "named", "where", "order", "limit", "offset", "filter", "optional",
"graph", "by", "asc", "desc"]);
var operatorChars = /[*+\-<>=&|]/;
var tokenizeSparql = (function() {
function normal(source, setState) {
var ch = source.next();
if (ch == "$" || ch == "?") {
source.nextWhileMatches(/[\w\d]/);
return "sp-var";
}
else if (ch == "<" && !source.matches(/[\s\u00a0=]/)) {
source.nextWhileMatches(/[^\s\u00a0>]/);
if (source.equals(">")) source.next();
return "sp-uri";
}
else if (ch == "\"" || ch == "'") {
setState(inLiteral(ch));
return null;
}
else if (/[{}\(\),\.;\[\]]/.test(ch)) {
return "sp-punc";
}
else if (ch == "#") {
while (!source.endOfLine()) source.next();
return "sp-comment";
}
else if (operatorChars.test(ch)) {
source.nextWhileMatches(operatorChars);
return "sp-operator";
}
else if (ch == ":") {
source.nextWhileMatches(/[\w\d\._\-]/);
return "sp-prefixed";
}
else {
source.nextWhileMatches(/[_\w\d]/);
if (source.equals(":")) {
source.next();
source.nextWhileMatches(/[\w\d_\-]/);
return "sp-prefixed";
}
var word = source.get(), type;
if (ops.test(word))
type = "sp-operator";
else if (keywords.test(word))
type = "sp-keyword";
else
type = "sp-word";
return {style: type, content: word};
}
}
function inLiteral(quote) {
return function(source, setState) {
var escaped = false;
while (!source.endOfLine()) {
var ch = source.next();
if (ch == quote && !escaped) {
setState(normal);
break;
}
escaped = !escaped && ch == "\\";
}
return "sp-literal";
};
}
return function(source, startState) {
return tokenizer(source, startState || normal);
};
})();
function indentSparql(context) {
return function(nextChars) {
var firstChar = nextChars && nextChars.charAt(0);
if (/[\]\}]/.test(firstChar))
while (context && context.type == "pattern") context = context.prev;
var closing = context && firstChar == matching[context.type];
if (!context)
return 0;
else if (context.type == "pattern")
return context.col;
else if (context.align)
return context.col - (closing ? context.width : 0);
else
return context.indent + (closing ? 0 : indentUnit);
}
}
function parseSparql(source) {
var tokens = tokenizeSparql(source);
var context = null, indent = 0, col = 0;
function pushContext(type, width) {
context = {prev: context, indent: indent, col: col, type: type, width: width};
}
function popContext() {
context = context.prev;
}
var iter = {
next: function() {
var token = tokens.next(), type = token.style, content = token.content, width = token.value.length;
if (content == "\n") {
token.indentation = indentSparql(context);
indent = col = 0;
if (context && context.align == null) context.align = false;
}
else if (type == "whitespace" && col == 0) {
indent = width;
}
else if (type != "sp-comment" && context && context.align == null) {
context.align = true;
}
if (content != "\n") col += width;
if (/[\[\{\(]/.test(content)) {
pushContext(content, width);
}
else if (/[\]\}\)]/.test(content)) {
while (context && context.type == "pattern")
popContext();
if (context && content == matching[context.type])
popContext();
}
else if (content == "." && context && context.type == "pattern") {
popContext();
}
else if ((type == "sp-word" || type == "sp-prefixed" || type == "sp-uri" || type == "sp-var" || type == "sp-literal") &&
context && /[\{\[]/.test(context.type)) {
pushContext("pattern", width);
}
return token;
},
copy: function() {
var _context = context, _indent = indent, _col = col, _tokenState = tokens.state;
return function(source) {
tokens = tokenizeSparql(source, _tokenState);
context = _context;
indent = _indent;
col = _col;
return iter;
};
}
};
return iter;
}
return {make: parseSparql, electricChars: "}]"};
})();

291
inc/js/codemirror/parsexml.js
View File

@@ -1,291 +0,0 @@
/* This file defines an XML parser, with a few kludges to make it
* useable for HTML. autoSelfClosers defines a set of tag names that
* are expected to not have a closing tag, and doNotIndent specifies
* the tags inside of which no indentation should happen (see Config
* object). These can be disabled by passing the editor an object like
* {useHTMLKludges: false} as parserConfig option.
*/
var XMLParser = Editor.Parser = (function() {
var Kludges = {
autoSelfClosers: {"br": true, "img": true, "hr": true, "link": true, "input": true,
"meta": true, "col": true, "frame": true, "base": true, "area": true},
doNotIndent: {"pre": true, "!cdata": true}
};
var NoKludges = {autoSelfClosers: {}, doNotIndent: {"!cdata": true}};
var UseKludges = Kludges;
var alignCDATA = false;
// Simple stateful tokenizer for XML documents. Returns a
// MochiKit-style iterator, with a state property that contains a
// function encapsulating the current state. See tokenize.js.
var tokenizeXML = (function() {
function inText(source, setState) {
var ch = source.next();
if (ch == "<") {
if (source.equals("!")) {
source.next();
if (source.equals("[")) {
if (source.lookAhead("[CDATA[", true)) {
setState(inBlock("xml-cdata", "]]>"));
return null;
}
else {
return "xml-text";
}
}
else if (source.lookAhead("--", true)) {
setState(inBlock("xml-comment", "-->"));
return null;
}
else if (source.lookAhead("DOCTYPE", true)) {
source.nextWhileMatches(/[\w\._\-]/);
setState(inBlock("xml-doctype", ">"));
return "xml-doctype";
}
else {
return "xml-text";
}
}
else if (source.equals("?")) {
source.next();
source.nextWhileMatches(/[\w\._\-]/);
setState(inBlock("xml-processing", "?>"));
return "xml-processing";
}
else {
if (source.equals("/")) source.next();
setState(inTag);
return "xml-punctuation";
}
}
else if (ch == "&") {
while (!source.endOfLine()) {
if (source.next() == ";")
break;
}
return "xml-entity";
}
else {
source.nextWhileMatches(/[^&<\n]/);
return "xml-text";
}
}
function inTag(source, setState) {
var ch = source.next();
if (ch == ">") {
setState(inText);
return "xml-punctuation";
}
else if (/[?\/]/.test(ch) && source.equals(">")) {
source.next();
setState(inText);
return "xml-punctuation";
}
else if (ch == "=") {
return "xml-punctuation";
}
else if (/[\'\"]/.test(ch)) {
setState(inAttribute(ch));
return null;
}
else {
source.nextWhileMatches(/[^\s\u00a0=<>\"\'\/?]/);
return "xml-name";
}
}
function inAttribute(quote) {
return function(source, setState) {
while (!source.endOfLine()) {
if (source.next() == quote) {
setState(inTag);
break;
}
}
return "xml-attribute";
};
}
function inBlock(style, terminator) {
return function(source, setState) {
while (!source.endOfLine()) {
if (source.lookAhead(terminator, true)) {
setState(inText);
break;
}
source.next();
}
return style;
};
}
return function(source, startState) {
return tokenizer(source, startState || inText);
};
})();
// The parser. The structure of this function largely follows that of
// parseJavaScript in parsejavascript.js (there is actually a bit more
// shared code than I'd like), but it is quite a bit simpler.
function parseXML(source) {
var tokens = tokenizeXML(source), token;
var cc = [base];
var tokenNr = 0, indented = 0;
var currentTag = null, context = null;
var consume;
function push(fs) {
for (var i = fs.length - 1; i >= 0; i--)
cc.push(fs[i]);
}
function cont() {
push(arguments);
consume = true;
}
function pass() {
push(arguments);
consume = false;
}
function markErr() {
token.style += " xml-error";
}
function expect(text) {
return function(style, content) {
if (content == text) cont();
else {markErr(); cont(arguments.callee);}
};
}
function pushContext(tagname, startOfLine) {
var noIndent = UseKludges.doNotIndent.hasOwnProperty(tagname) || (context && context.noIndent);
context = {prev: context, name: tagname, indent: indented, startOfLine: startOfLine, noIndent: noIndent};
}
function popContext() {
context = context.prev;
}
function computeIndentation(baseContext) {
return function(nextChars, current) {
var context = baseContext;
if (context && context.noIndent)
return current;
if (alignCDATA && /<!\[CDATA\[/.test(nextChars))
return 0;
if (context && /^<\//.test(nextChars))
context = context.prev;
while (context && !context.startOfLine)
context = context.prev;
if (context)
return context.indent + indentUnit;
else
return 0;
};
}
function base() {
return pass(element, base);
}
var harmlessTokens = {"xml-text": true, "xml-entity": true, "xml-comment": true, "xml-processing": true, "xml-doctype": true};
function element(style, content) {
if (content == "<") cont(tagname, attributes, endtag(tokenNr == 1));
else if (content == "</") cont(closetagname, expect(">"));
else if (style == "xml-cdata") {
if (!context || context.name != "!cdata") pushContext("!cdata");
if (/\]\]>$/.test(content)) popContext();
cont();
}
else if (harmlessTokens.hasOwnProperty(style)) cont();
else {markErr(); cont();}
}
function tagname(style, content) {
if (style == "xml-name") {
currentTag = content.toLowerCase();
token.style = "xml-tagname";
cont();
}
else {
currentTag = null;
pass();
}
}
function closetagname(style, content) {
if (style == "xml-name") {
token.style = "xml-tagname";
if (context && content.toLowerCase() == context.name) popContext();
else markErr();
}
cont();
}
function endtag(startOfLine) {
return function(style, content) {
if (content == "/>" || (content == ">" && UseKludges.autoSelfClosers.hasOwnProperty(currentTag))) cont();
else if (content == ">") {pushContext(currentTag, startOfLine); cont();}
else {markErr(); cont(arguments.callee);}
};
}
function attributes(style) {
if (style == "xml-name") {token.style = "xml-attname"; cont(attribute, attributes);}
else pass();
}
function attribute(style, content) {
if (content == "=") cont(value);
else if (content == ">" || content == "/>") pass(endtag);
else pass();
}
function value(style) {
if (style == "xml-attribute") cont(value);
else pass();
}
return {
indentation: function() {return indented;},
next: function(){
token = tokens.next();
if (token.style == "whitespace" && tokenNr == 0)
indented = token.value.length;
else
tokenNr++;
if (token.content == "\n") {
indented = tokenNr = 0;
token.indentation = computeIndentation(context);
}
if (token.style == "whitespace" || token.type == "xml-comment")
return token;
while(true){
consume = false;
cc.pop()(token.style, token.content);
if (consume) return token;
}
},
copy: function(){
var _cc = cc.concat([]), _tokenState = tokens.state, _context = context;
var parser = this;
return function(input){
cc = _cc.concat([]);
tokenNr = indented = 0;
context = _context;
tokens = tokenizeXML(input, _tokenState);
return parser;
};
}
};
}
return {
make: parseXML,
electricChars: "/",
configure: function(config) {
if (config.useHTMLKludges != null)
UseKludges = config.useHTMLKludges ? Kludges : NoKludges;
if (config.alignCDATA)
alignCDATA = config.alignCDATA;
}
};
})();

699
inc/js/codemirror/select.js
View File

@@ -1,699 +0,0 @@
/* Functionality for finding, storing, and restoring selections
*
* This does not provide a generic API, just the minimal functionality
* required by the CodeMirror system.
*/
// Namespace object.
var select = {};
(function() {
select.ie_selection = document.selection && document.selection.createRangeCollection;
// Find the 'top-level' (defined as 'a direct child of the node
// passed as the top argument') node that the given node is
// contained in. Return null if the given node is not inside the top
// node.
function topLevelNodeAt(node, top) {
while (node && node.parentNode != top)
node = node.parentNode;
return node;
}
// Find the top-level node that contains the node before this one.
function topLevelNodeBefore(node, top) {
while (!node.previousSibling && node.parentNode != top)
node = node.parentNode;
return topLevelNodeAt(node.previousSibling, top);
}
var fourSpaces = "\u00a0\u00a0\u00a0\u00a0";
select.scrollToNode = function(node, cursor) {
if (!node) return;
var element = node, body = document.body,
html = document.documentElement,
atEnd = !element.nextSibling || !element.nextSibling.nextSibling
|| !element.nextSibling.nextSibling.nextSibling;
// In Opera (and recent Webkit versions), BR elements *always*
// have a offsetTop property of zero.
var compensateHack = 0;
while (element && !element.offsetTop) {
compensateHack++;
element = element.previousSibling;
}
// atEnd is another kludge for these browsers -- if the cursor is
// at the end of the document, and the node doesn't have an
// offset, just scroll to the end.
if (compensateHack == 0) atEnd = false;
// WebKit has a bad habit of (sometimes) happily returning bogus
// offsets when the document has just been changed. This seems to
// always be 5/5, so we don't use those.
if (webkit && element && element.offsetTop == 5 && element.offsetLeft == 5)
return;
var y = compensateHack * (element ? element.offsetHeight : 0), x = 0,
width = (node ? node.offsetWidth : 0), pos = element;
while (pos && pos.offsetParent) {
y += pos.offsetTop;
// Don't count X offset for <br> nodes
if (!isBR(pos))
x += pos.offsetLeft;
pos = pos.offsetParent;
}
var scroll_x = body.scrollLeft || html.scrollLeft || 0,
scroll_y = body.scrollTop || html.scrollTop || 0,
scroll = false, screen_width = window.innerWidth || html.clientWidth || 0;
if (cursor || width < screen_width) {
if (cursor) {
var off = select.offsetInNode(node), size = nodeText(node).length;
if (size) x += width * (off / size);
}
var screen_x = x - scroll_x;
if (screen_x < 0 || screen_x > screen_width) {
scroll_x = x;
scroll = true;
}
}
var screen_y = y - scroll_y;
if (screen_y < 0 || atEnd || screen_y > (window.innerHeight || html.clientHeight || 0) - 50) {
scroll_y = atEnd ? 1e6 : y;
scroll = true;
}
if (scroll) window.scrollTo(scroll_x, scroll_y);
};
select.scrollToCursor = function(container) {
select.scrollToNode(select.selectionTopNode(container, true) || container.firstChild, true);
};
// Used to prevent restoring a selection when we do not need to.
var currentSelection = null;
select.snapshotChanged = function() {
if (currentSelection) currentSelection.changed = true;
};
// Find the 'leaf' node (BR or text) after the given one.
function baseNodeAfter(node) {
var next = node.nextSibling;
if (next) {
while (next.firstChild) next = next.firstChild;
if (next.nodeType == 3 || isBR(next)) return next;
else return baseNodeAfter(next);
}
else {
var parent = node.parentNode;
while (parent && !parent.nextSibling) parent = parent.parentNode;
return parent && baseNodeAfter(parent);
}
}
// This is called by the code in editor.js whenever it is replacing
// a text node. The function sees whether the given oldNode is part
// of the current selection, and updates this selection if it is.
// Because nodes are often only partially replaced, the length of
// the part that gets replaced has to be taken into account -- the
// selection might stay in the oldNode if the newNode is smaller
// than the selection's offset. The offset argument is needed in
// case the selection does move to the new object, and the given
// length is not the whole length of the new node (part of it might
// have been used to replace another node).
select.snapshotReplaceNode = function(from, to, length, offset) {
if (!currentSelection) return;
function replace(point) {
if (from == point.node) {
currentSelection.changed = true;
if (length && point.offset > length) {
point.offset -= length;
}
else {
point.node = to;
point.offset += (offset || 0);
}
}
else if (select.ie_selection && point.offset == 0 && point.node == baseNodeAfter(from)) {
currentSelection.changed = true;
}
}
replace(currentSelection.start);
replace(currentSelection.end);
};
select.snapshotMove = function(from, to, distance, relative, ifAtStart) {
if (!currentSelection) return;
function move(point) {
if (from == point.node && (!ifAtStart || point.offset == 0)) {
currentSelection.changed = true;
point.node = to;
if (relative) point.offset = Math.max(0, point.offset + distance);
else point.offset = distance;
}
}
move(currentSelection.start);
move(currentSelection.end);
};
// Most functions are defined in two ways, one for the IE selection
// model, one for the W3C one.
if (select.ie_selection) {
function selRange() {
var sel = document.selection;
if (!sel) return null;
if (sel.createRange) return sel.createRange();
else return sel.createTextRange();
}
function selectionNode(start) {
var range = selRange();
range.collapse(start);
function nodeAfter(node) {
var found = null;
while (!found && node) {
found = node.nextSibling;
node = node.parentNode;
}
return nodeAtStartOf(found);
}
function nodeAtStartOf(node) {
while (node && node.firstChild) node = node.firstChild;
return {node: node, offset: 0};
}
var containing = range.parentElement();
if (!isAncestor(document.body, containing)) return null;
if (!containing.firstChild) return nodeAtStartOf(containing);
var working = range.duplicate();
working.moveToElementText(containing);
working.collapse(true);
for (var cur = containing.firstChild; cur; cur = cur.nextSibling) {
if (cur.nodeType == 3) {
var size = cur.nodeValue.length;
working.move("character", size);
}
else {
working.moveToElementText(cur);
working.collapse(false);
}
var dir = range.compareEndPoints("StartToStart", working);
if (dir == 0) return nodeAfter(cur);
if (dir == 1) continue;
if (cur.nodeType != 3) return nodeAtStartOf(cur);
working.setEndPoint("StartToEnd", range);
return {node: cur, offset: size - working.text.length};
}
return nodeAfter(containing);
}
select.markSelection = function() {
currentSelection = null;
var sel = document.selection;
if (!sel) return;
var start = selectionNode(true),
end = selectionNode(false);
if (!start || !end) return;
currentSelection = {start: start, end: end, changed: false};
};
select.selectMarked = function() {
if (!currentSelection || !currentSelection.changed) return;
function makeRange(point) {
var range = document.body.createTextRange(),
node = point.node;
if (!node) {
range.moveToElementText(document.body);
range.collapse(false);
}
else if (node.nodeType == 3) {
range.moveToElementText(node.parentNode);
var offset = point.offset;
while (node.previousSibling) {
node = node.previousSibling;
offset += (node.innerText || "").length;
}
range.move("character", offset);
}
else {
range.moveToElementText(node);
range.collapse(true);
}
return range;
}
var start = makeRange(currentSelection.start), end = makeRange(currentSelection.end);
start.setEndPoint("StartToEnd", end);
start.select();
};
select.offsetInNode = function(node) {
var range = selRange();
if (!range) return 0;
var range2 = range.duplicate();
try {range2.moveToElementText(node);} catch(e){return 0;}
range.setEndPoint("StartToStart", range2);
return range.text.length;
};
// Get the top-level node that one end of the cursor is inside or
// after. Note that this returns false for 'no cursor', and null
// for 'start of document'.
select.selectionTopNode = function(container, start) {
var range = selRange();
if (!range) return false;
var range2 = range.duplicate();
range.collapse(start);
var around = range.parentElement();
if (around && isAncestor(container, around)) {
// Only use this node if the selection is not at its start.
range2.moveToElementText(around);
if (range.compareEndPoints("StartToStart", range2) == 1)
return topLevelNodeAt(around, container);
}
// Move the start of a range to the start of a node,
// compensating for the fact that you can't call
// moveToElementText with text nodes.
function moveToNodeStart(range, node) {
if (node.nodeType == 3) {
var count = 0, cur = node.previousSibling;
while (cur && cur.nodeType == 3) {
count += cur.nodeValue.length;
cur = cur.previousSibling;
}
if (cur) {
try{range.moveToElementText(cur);}
catch(e){return false;}
range.collapse(false);
}
else range.moveToElementText(node.parentNode);
if (count) range.move("character", count);
}
else {
try{range.moveToElementText(node);}
catch(e){return false;}
}
return true;
}
// Do a binary search through the container object, comparing
// the start of each node to the selection
var start = 0, end = container.childNodes.length - 1;
while (start < end) {
var middle = Math.ceil((end + start) / 2), node = container.childNodes[middle];
if (!node) return false; // Don't ask. IE6 manages this sometimes.
if (!moveToNodeStart(range2, node)) return false;
if (range.compareEndPoints("StartToStart", range2) == 1)
start = middle;
else
end = middle - 1;
}
if (start == 0) {
var test1 = selRange(), test2 = test1.duplicate();
try {
test2.moveToElementText(container);
} catch(exception) {
return null;
}
if (test1.compareEndPoints("StartToStart", test2) == 0)
return null;
}
return container.childNodes[start] || null;
};
// Place the cursor after this.start. This is only useful when
// manually moving the cursor instead of restoring it to its old
// position.
select.focusAfterNode = function(node, container) {
var range = document.body.createTextRange();
range.moveToElementText(node || container);
range.collapse(!node);
range.select();
};
select.somethingSelected = function() {
var range = selRange();
return range && (range.text != "");
};
function insertAtCursor(html) {
var range = selRange();
if (range) {
range.pasteHTML(html);
range.collapse(false);
range.select();
}
}
// Used to normalize the effect of the enter key, since browsers
// do widely different things when pressing enter in designMode.
select.insertNewlineAtCursor = function() {
insertAtCursor("<br>");
};
select.insertTabAtCursor = function() {
insertAtCursor(fourSpaces);
};
// Get the BR node at the start of the line on which the cursor
// currently is, and the offset into the line. Returns null as
// node if cursor is on first line.
select.cursorPos = function(container, start) {
var range = selRange();
if (!range) return null;
var topNode = select.selectionTopNode(container, start);
while (topNode && !isBR(topNode))
topNode = topNode.previousSibling;
var range2 = range.duplicate();
range.collapse(start);
if (topNode) {
range2.moveToElementText(topNode);
range2.collapse(false);
}
else {
// When nothing is selected, we can get all kinds of funky errors here.
try { range2.moveToElementText(container); }
catch (e) { return null; }
range2.collapse(true);
}
range.setEndPoint("StartToStart", range2);
return {node: topNode, offset: range.text.length};
};
select.setCursorPos = function(container, from, to) {
function rangeAt(pos) {
var range = document.body.createTextRange();
if (!pos.node) {
range.moveToElementText(container);
range.collapse(true);
}
else {
range.moveToElementText(pos.node);
range.collapse(false);
}
range.move("character", pos.offset);
return range;
}
var range = rangeAt(from);
if (to && to != from)
range.setEndPoint("EndToEnd", rangeAt(to));
range.select();
}
// Some hacks for storing and re-storing the selection when the editor loses and regains focus.
select.getBookmark = function (container) {
var from = select.cursorPos(container, true), to = select.cursorPos(container, false);
if (from && to) return {from: from, to: to};
};
// Restore a stored selection.
select.setBookmark = function(container, mark) {
if (!mark) return;
select.setCursorPos(container, mark.from, mark.to);
};
}
// W3C model
else {
// Find the node right at the cursor, not one of its
// ancestors with a suitable offset. This goes down the DOM tree
// until a 'leaf' is reached (or is it *up* the DOM tree?).
function innerNode(node, offset) {
while (node.nodeType != 3 && !isBR(node)) {
var newNode = node.childNodes[offset] || node.nextSibling;
offset = 0;
while (!newNode && node.parentNode) {
node = node.parentNode;
newNode = node.nextSibling;
}
node = newNode;
if (!newNode) break;
}
return {node: node, offset: offset};
}
// Store start and end nodes, and offsets within these, and refer
// back to the selection object from those nodes, so that this
// object can be updated when the nodes are replaced before the
// selection is restored.
select.markSelection = function () {
var selection = window.getSelection();
if (!selection || selection.rangeCount == 0)
return (currentSelection = null);
var range = selection.getRangeAt(0);
currentSelection = {
start: innerNode(range.startContainer, range.startOffset),
end: innerNode(range.endContainer, range.endOffset),
changed: false
};
};
select.selectMarked = function () {
var cs = currentSelection;
// on webkit-based browsers, it is apparently possible that the
// selection gets reset even when a node that is not one of the
// endpoints get messed with. the most common situation where
// this occurs is when a selection is deleted or overwitten. we
// check for that here.
function focusIssue() {
if (cs.start.node == cs.end.node && cs.start.offset == cs.end.offset) {
var selection = window.getSelection();
if (!selection || selection.rangeCount == 0) return true;
var range = selection.getRangeAt(0), point = innerNode(range.startContainer, range.startOffset);
return cs.start.node != point.node || cs.start.offset != point.offset;
}
}
if (!cs || !(cs.changed || (webkit && focusIssue()))) return;
var range = document.createRange();
function setPoint(point, which) {
if (point.node) {
// Some magic to generalize the setting of the start and end
// of a range.
if (point.offset == 0)
range["set" + which + "Before"](point.node);
else
range["set" + which](point.node, point.offset);
}
else {
range.setStartAfter(document.body.lastChild || document.body);
}
}
setPoint(cs.end, "End");
setPoint(cs.start, "Start");
selectRange(range);
};
// Helper for selecting a range object.
function selectRange(range) {
var selection = window.getSelection();
if (!selection) return;
selection.removeAllRanges();
selection.addRange(range);
}
function selectionRange() {
var selection = window.getSelection();
if (!selection || selection.rangeCount == 0)
return false;
else
return selection.getRangeAt(0);
}
// Finding the top-level node at the cursor in the W3C is, as you
// can see, quite an involved process.
select.selectionTopNode = function(container, start) {
var range = selectionRange();
if (!range) return false;
var node = start ? range.startContainer : range.endContainer;
var offset = start ? range.startOffset : range.endOffset;
// Work around (yet another) bug in Opera's selection model.
if (window.opera && !start && range.endContainer == container && range.endOffset == range.startOffset + 1 &&
container.childNodes[range.startOffset] && isBR(container.childNodes[range.startOffset]))
offset--;
// For text nodes, we look at the node itself if the cursor is
// inside, or at the node before it if the cursor is at the
// start.
if (node.nodeType == 3){
if (offset > 0)
return topLevelNodeAt(node, container);
else
return topLevelNodeBefore(node, container);
}
// Occasionally, browsers will return the HTML node as
// selection. If the offset is 0, we take the start of the frame
// ('after null'), otherwise, we take the last node.
else if (node.nodeName.toUpperCase() == "HTML") {
return (offset == 1 ? null : container.lastChild);
}
// If the given node is our 'container', we just look up the
// correct node by using the offset.
else if (node == container) {
return (offset == 0) ? null : node.childNodes[offset - 1];
}
// In any other case, we have a regular node. If the cursor is
// at the end of the node, we use the node itself, if it is at
// the start, we use the node before it, and in any other
// case, we look up the child before the cursor and use that.
else {
if (offset == node.childNodes.length)
return topLevelNodeAt(node, container);
else if (offset == 0)
return topLevelNodeBefore(node, container);
else
return topLevelNodeAt(node.childNodes[offset - 1], container);
}
};
select.focusAfterNode = function(node, container) {
var range = document.createRange();
range.setStartBefore(container.firstChild || container);
// In Opera, setting the end of a range at the end of a line
// (before a BR) will cause the cursor to appear on the next
// line, so we set the end inside of the start node when
// possible.
if (node && !node.firstChild)
range.setEndAfter(node);
else if (node)
range.setEnd(node, node.childNodes.length);
else
range.setEndBefore(container.firstChild || container);
range.collapse(false);
selectRange(range);
};
select.somethingSelected = function() {
var range = selectionRange();
return range && !range.collapsed;
};
select.offsetInNode = function(node) {
var range = selectionRange();
if (!range) return 0;
range = range.cloneRange();
range.setStartBefore(node);
return range.toString().length;
};
select.insertNodeAtCursor = function(node) {
var range = selectionRange();
if (!range) return;
range.deleteContents();
range.insertNode(node);
webkitLastLineHack(document.body);
// work around weirdness where Opera will magically insert a new
// BR node when a BR node inside a span is moved around. makes
// sure the BR ends up outside of spans.
if (window.opera && isBR(node) && isSpan(node.parentNode)) {
var next = node.nextSibling, p = node.parentNode, outer = p.parentNode;
outer.insertBefore(node, p.nextSibling);
var textAfter = "";
for (; next && next.nodeType == 3; next = next.nextSibling) {
textAfter += next.nodeValue;
removeElement(next);
}
outer.insertBefore(makePartSpan(textAfter, document), node.nextSibling);
}
range = document.createRange();
range.selectNode(node);
range.collapse(false);
selectRange(range);
}
select.insertNewlineAtCursor = function() {
select.insertNodeAtCursor(document.createElement("BR"));
};
select.insertTabAtCursor = function() {
select.insertNodeAtCursor(document.createTextNode(fourSpaces));
};
select.cursorPos = function(container, start) {
var range = selectionRange();
if (!range) return;
var topNode = select.selectionTopNode(container, start);
while (topNode && !isBR(topNode))
topNode = topNode.previousSibling;
range = range.cloneRange();
range.collapse(start);
if (topNode)
range.setStartAfter(topNode);
else
range.setStartBefore(container);
var text = range.toString();
return {node: topNode, offset: text.length};
};
select.setCursorPos = function(container, from, to) {
var range = document.createRange();
function setPoint(node, offset, side) {
if (offset == 0 && node && !node.nextSibling) {
range["set" + side + "After"](node);
return true;
}
if (!node)
node = container.firstChild;
else
node = node.nextSibling;
if (!node) return;
if (offset == 0) {
range["set" + side + "Before"](node);
return true;
}
var backlog = []
function decompose(node) {
if (node.nodeType == 3)
backlog.push(node);
else
forEach(node.childNodes, decompose);
}
while (true) {
while (node && !backlog.length) {
decompose(node);
node = node.nextSibling;
}
var cur = backlog.shift();
if (!cur) return false;
var length = cur.nodeValue.length;
if (length >= offset) {
range["set" + side](cur, offset);
return true;
}
offset -= length;
}
}
to = to || from;
if (setPoint(to.node, to.offset, "End") && setPoint(from.node, from.offset, "Start"))
selectRange(range);
};
}
})();

159
inc/js/codemirror/stringstream.js
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@@ -1,159 +0,0 @@
/* String streams are the things fed to parsers (which can feed them
* to a tokenizer if they want). They provide peek and next methods
* for looking at the current character (next 'consumes' this
* character, peek does not), and a get method for retrieving all the
* text that was consumed since the last time get was called.
*
* An easy mistake to make is to let a StopIteration exception finish
* the token stream while there are still characters pending in the
* string stream (hitting the end of the buffer while parsing a
* token). To make it easier to detect such errors, the stringstreams
* throw an exception when this happens.
*/
// Make a stringstream stream out of an iterator that returns strings.
// This is applied to the result of traverseDOM (see codemirror.js),
// and the resulting stream is fed to the parser.
var stringStream = function(source){
// String that's currently being iterated over.
var current = "";
// Position in that string.
var pos = 0;
// Accumulator for strings that have been iterated over but not
// get()-ed yet.
var accum = "";
// Make sure there are more characters ready, or throw
// StopIteration.
function ensureChars() {
while (pos == current.length) {
accum += current;
current = ""; // In case source.next() throws
pos = 0;
try {current = source.next();}
catch (e) {
if (e != StopIteration) throw e;
else return false;
}
}
return true;
}
return {
// peek: -> character
// Return the next character in the stream.
peek: function() {
if (!ensureChars()) return null;
return current.charAt(pos);
},
// next: -> character
// Get the next character, throw StopIteration if at end, check
// for unused content.
next: function() {
if (!ensureChars()) {
if (accum.length > 0)
throw "End of stringstream reached without emptying buffer ('" + accum + "').";
else
throw StopIteration;
}
return current.charAt(pos++);
},
// get(): -> string
// Return the characters iterated over since the last call to
// .get().
get: function() {
var temp = accum;
accum = "";
if (pos > 0){
temp += current.slice(0, pos);
current = current.slice(pos);
pos = 0;
}
return temp;
},
// Push a string back into the stream.
push: function(str) {
current = current.slice(0, pos) + str + current.slice(pos);
},
lookAhead: function(str, consume, skipSpaces, caseInsensitive) {
function cased(str) {return caseInsensitive ? str.toLowerCase() : str;}
str = cased(str);
var found = false;
var _accum = accum, _pos = pos;
if (skipSpaces) this.nextWhileMatches(/[\s\u00a0]/);
while (true) {
var end = pos + str.length, left = current.length - pos;
if (end <= current.length) {
found = str == cased(current.slice(pos, end));
pos = end;
break;
}
else if (str.slice(0, left) == cased(current.slice(pos))) {
accum += current; current = "";
try {current = source.next();}
catch (e) {if (e != StopIteration) throw e; break;}
pos = 0;
str = str.slice(left);
}
else {
break;
}
}
if (!(found && consume)) {
current = accum.slice(_accum.length) + current;
pos = _pos;
accum = _accum;
}
return found;
},
// Wont't match past end of line.
lookAheadRegex: function(regex, consume) {
if (regex.source.charAt(0) != "^")
throw new Error("Regexps passed to lookAheadRegex must start with ^");
// Fetch the rest of the line
while (current.indexOf("\n", pos) == -1) {
try {current += source.next();}
catch (e) {if (e != StopIteration) throw e; break;}
}
var matched = current.slice(pos).match(regex);
if (matched && consume) pos += matched[0].length;
return matched;
},
// Utils built on top of the above
// more: -> boolean
// Produce true if the stream isn't empty.
more: function() {
return this.peek() !== null;
},
applies: function(test) {
var next = this.peek();
return (next !== null && test(next));
},
nextWhile: function(test) {
var next;
while ((next = this.peek()) !== null && test(next))
this.next();
},
matches: function(re) {
var next = this.peek();
return (next !== null && re.test(next));
},
nextWhileMatches: function(re) {
var next;
while ((next = this.peek()) !== null && re.test(next))
this.next();
},
equals: function(ch) {
return ch === this.peek();
},
endOfLine: function() {
var next = this.peek();
return next == null || next == "\n";
}
};
};

57
inc/js/codemirror/tokenize.js
View File

@@ -1,57 +0,0 @@
// A framework for simple tokenizers. Takes care of newlines and
// white-space, and of getting the text from the source stream into
// the token object. A state is a function of two arguments -- a
// string stream and a setState function. The second can be used to
// change the tokenizer's state, and can be ignored for stateless
// tokenizers. This function should advance the stream over a token
// and return a string or object containing information about the next
// token, or null to pass and have the (new) state be called to finish
// the token. When a string is given, it is wrapped in a {style, type}
// object. In the resulting object, the characters consumed are stored
// under the content property. Any whitespace following them is also
// automatically consumed, and added to the value property. (Thus,
// content is the actual meaningful part of the token, while value
// contains all the text it spans.)
function tokenizer(source, state) {
// Newlines are always a separate token.
function isWhiteSpace(ch) {
// The messy regexp is because IE's regexp matcher is of the
// opinion that non-breaking spaces are no whitespace.
return ch != "\n" && /^[\s\u00a0]*$/.test(ch);
}
var tokenizer = {
state: state,
take: function(type) {
if (typeof(type) == "string")
type = {style: type, type: type};
type.content = (type.content || "") + source.get();
if (!/\n$/.test(type.content))
source.nextWhile(isWhiteSpace);
type.value = type.content + source.get();
return type;
},
next: function () {
if (!source.more()) throw StopIteration;
var type;
if (source.equals("\n")) {
source.next();
return this.take("whitespace");
}
if (source.applies(isWhiteSpace))
type = "whitespace";
else
while (!type)
type = this.state(source, function(s) {tokenizer.state = s;});
return this.take(type);
}
};
return tokenizer;
}

174
inc/js/codemirror/tokenizejavascript.js
View File

@@ -1,174 +0,0 @@
/* Tokenizer for JavaScript code */
var tokenizeJavaScript = (function() {
// Advance the stream until the given character (not preceded by a
// backslash) is encountered, or the end of the line is reached.
function nextUntilUnescaped(source, end) {
var escaped = false;
while (!source.endOfLine()) {
var next = source.next();
if (next == end && !escaped)
return false;
escaped = !escaped && next == "\\";
}
return escaped;
}
// A map of JavaScript's keywords. The a/b/c keyword distinction is
// very rough, but it gives the parser enough information to parse
// correct code correctly (we don't care that much how we parse
// incorrect code). The style information included in these objects
// is used by the highlighter to pick the correct CSS style for a
// token.
var keywords = function(){
function result(type, style){
return {type: type, style: "js-" + style};
}
// keywords that take a parenthised expression, and then a
// statement (if)
var keywordA = result("keyword a", "keyword");
// keywords that take just a statement (else)
var keywordB = result("keyword b", "keyword");
// keywords that optionally take an expression, and form a
// statement (return)
var keywordC = result("keyword c", "keyword");
var operator = result("operator", "keyword");
var atom = result("atom", "atom");
return {
"if": keywordA, "while": keywordA, "with": keywordA,
"else": keywordB, "do": keywordB, "try": keywordB, "finally": keywordB,
"return": keywordC, "break": keywordC, "continue": keywordC, "new": keywordC, "delete": keywordC, "throw": keywordC,
"in": operator, "typeof": operator, "instanceof": operator,
"var": result("var", "keyword"), "function": result("function", "keyword"), "catch": result("catch", "keyword"),
"for": result("for", "keyword"), "switch": result("switch", "keyword"),
"case": result("case", "keyword"), "default": result("default", "keyword"),
"true": atom, "false": atom, "null": atom, "undefined": atom, "NaN": atom, "Infinity": atom
};
}();
// Some helper regexps
var isOperatorChar = /[+\-*&%=<>!?|]/;
var isHexDigit = /[0-9A-Fa-f]/;
var isWordChar = /[\w\$_]/;
// Wrapper around jsToken that helps maintain parser state (whether
// we are inside of a multi-line comment and whether the next token
// could be a regular expression).
function jsTokenState(inside, regexp) {
return function(source, setState) {
var newInside = inside;
var type = jsToken(inside, regexp, source, function(c) {newInside = c;});
var newRegexp = type.type == "operator" || type.type == "keyword c" || type.type.match(/^[\[{}\(,;:]$/);
if (newRegexp != regexp || newInside != inside)
setState(jsTokenState(newInside, newRegexp));
return type;
};
}
// The token reader, intended to be used by the tokenizer from
// tokenize.js (through jsTokenState). Advances the source stream
// over a token, and returns an object containing the type and style
// of that token.
function jsToken(inside, regexp, source, setInside) {
function readHexNumber(){
source.next(); // skip the 'x'
source.nextWhileMatches(isHexDigit);
return {type: "number", style: "js-atom"};
}
function readNumber() {
source.nextWhileMatches(/[0-9]/);
if (source.equals(".")){
source.next();
source.nextWhileMatches(/[0-9]/);
}
if (source.equals("e") || source.equals("E")){
source.next();
if (source.equals("-"))
source.next();
source.nextWhileMatches(/[0-9]/);
}
return {type: "number", style: "js-atom"};
}
// Read a word, look it up in keywords. If not found, it is a
// variable, otherwise it is a keyword of the type found.
function readWord() {
source.nextWhileMatches(isWordChar);
var word = source.get();
var known = keywords.hasOwnProperty(word) && keywords.propertyIsEnumerable(word) && keywords[word];
return known ? {type: known.type, style: known.style, content: word} :
{type: "variable", style: "js-variable", content: word};
}
function readRegexp() {
nextUntilUnescaped(source, "/");
source.nextWhileMatches(/[gimy]/); // 'y' is "sticky" option in Mozilla
return {type: "regexp", style: "js-string"};
}
// Mutli-line comments are tricky. We want to return the newlines
// embedded in them as regular newline tokens, and then continue
// returning a comment token for every line of the comment. So
// some state has to be saved (inside) to indicate whether we are
// inside a /* */ sequence.
function readMultilineComment(start){
var newInside = "/*";
var maybeEnd = (start == "*");
while (true) {
if (source.endOfLine())
break;
var next = source.next();
if (next == "/" && maybeEnd){
newInside = null;
break;
}
maybeEnd = (next == "*");
}
setInside(newInside);
return {type: "comment", style: "js-comment"};
}
function readOperator() {
source.nextWhileMatches(isOperatorChar);
return {type: "operator", style: "js-operator"};
}
function readString(quote) {
var endBackSlash = nextUntilUnescaped(source, quote);
setInside(endBackSlash ? quote : null);
return {type: "string", style: "js-string"};
}
// Fetch the next token. Dispatches on first character in the
// stream, or first two characters when the first is a slash.
if (inside == "\"" || inside == "'")
return readString(inside);
var ch = source.next();
if (inside == "/*")
return readMultilineComment(ch);
else if (ch == "\"" || ch == "'")
return readString(ch);
// with punctuation, the type of the token is the symbol itself
else if (/[\[\]{}\(\),;\:\.]/.test(ch))
return {type: ch, style: "js-punctuation"};
else if (ch == "0" && (source.equals("x") || source.equals("X")))
return readHexNumber();
else if (/[0-9]/.test(ch))
return readNumber();
else if (ch == "/"){
if (source.equals("*"))
{ source.next(); return readMultilineComment(ch); }
else if (source.equals("/"))
{ nextUntilUnescaped(source, null); return {type: "comment", style: "js-comment"};}
else if (regexp)
return readRegexp();
else
return readOperator();
}
else if (isOperatorChar.test(ch))
return readOperator();
else
return readWord();
}
// The external interface to the tokenizer.
return function(source, startState) {
return tokenizer(source, startState || jsTokenState(false, true));
};
})();

413
inc/js/codemirror/undo.js
View File

@@ -1,413 +0,0 @@
/**
* Storage and control for undo information within a CodeMirror
* editor. 'Why on earth is such a complicated mess required for
* that?', I hear you ask. The goal, in implementing this, was to make
* the complexity of storing and reverting undo information depend
* only on the size of the edited or restored content, not on the size
* of the whole document. This makes it necessary to use a kind of
* 'diff' system, which, when applied to a DOM tree, causes some
* complexity and hackery.
*
* In short, the editor 'touches' BR elements as it parses them, and
* the UndoHistory stores these. When nothing is touched in commitDelay
* milliseconds, the changes are committed: It goes over all touched
* nodes, throws out the ones that did not change since last commit or
* are no longer in the document, and assembles the rest into zero or
* more 'chains' -- arrays of adjacent lines. Links back to these
* chains are added to the BR nodes, while the chain that previously
* spanned these nodes is added to the undo history. Undoing a change
* means taking such a chain off the undo history, restoring its
* content (text is saved per line) and linking it back into the
* document.
*/
// A history object needs to know about the DOM container holding the
// document, the maximum amount of undo levels it should store, the
// delay (of no input) after which it commits a set of changes, and,
// unfortunately, the 'parent' window -- a window that is not in
// designMode, and on which setTimeout works in every browser.
function UndoHistory(container, maxDepth, commitDelay, editor) {
this.container = container;
this.maxDepth = maxDepth; this.commitDelay = commitDelay;
this.editor = editor;
// This line object represents the initial, empty editor.
var initial = {text: "", from: null, to: null};
// As the borders between lines are represented by BR elements, the
// start of the first line and the end of the last one are
// represented by null. Since you can not store any properties
// (links to line objects) in null, these properties are used in
// those cases.
this.first = initial; this.last = initial;
// Similarly, a 'historyTouched' property is added to the BR in
// front of lines that have already been touched, and 'firstTouched'
// is used for the first line.
this.firstTouched = false;
// History is the set of committed changes, touched is the set of
// nodes touched since the last commit.
this.history = []; this.redoHistory = []; this.touched = []; this.lostundo = 0;
}
UndoHistory.prototype = {
// Schedule a commit (if no other touches come in for commitDelay
// milliseconds).
scheduleCommit: function() {
var self = this;
parent.clearTimeout(this.commitTimeout);
this.commitTimeout = parent.setTimeout(function(){self.tryCommit();}, this.commitDelay);
},
// Mark a node as touched. Null is a valid argument.
touch: function(node) {
this.setTouched(node);
this.scheduleCommit();
},
// Undo the last change.
undo: function() {
// Make sure pending changes have been committed.
this.commit();
if (this.history.length) {
// Take the top diff from the history, apply it, and store its
// shadow in the redo history.
var item = this.history.pop();
this.redoHistory.push(this.updateTo(item, "applyChain"));
this.notifyEnvironment();
return this.chainNode(item);
}
},
// Redo the last undone change.
redo: function() {
this.commit();
if (this.redoHistory.length) {
// The inverse of undo, basically.
var item = this.redoHistory.pop();
this.addUndoLevel(this.updateTo(item, "applyChain"));
this.notifyEnvironment();
return this.chainNode(item);
}
},
clear: function() {
this.history = [];
this.redoHistory = [];
this.lostundo = 0;
},
// Ask for the size of the un/redo histories.
historySize: function() {
return {undo: this.history.length, redo: this.redoHistory.length, lostundo: this.lostundo};
},
// Push a changeset into the document.
push: function(from, to, lines) {
var chain = [];
for (var i = 0; i < lines.length; i++) {
var end = (i == lines.length - 1) ? to : document.createElement("br");
chain.push({from: from, to: end, text: cleanText(lines[i])});
from = end;
}
this.pushChains([chain], from == null && to == null);
this.notifyEnvironment();
},
pushChains: function(chains, doNotHighlight) {
this.commit(doNotHighlight);
this.addUndoLevel(this.updateTo(chains, "applyChain"));
this.redoHistory = [];
},
// Retrieve a DOM node from a chain (for scrolling to it after undo/redo).
chainNode: function(chains) {
for (var i = 0; i < chains.length; i++) {
var start = chains[i][0], node = start && (start.from || start.to);
if (node) return node;
}
},
// Clear the undo history, make the current document the start
// position.
reset: function() {
this.history = []; this.redoHistory = []; this.lostundo = 0;
},
textAfter: function(br) {
return this.after(br).text;
},
nodeAfter: function(br) {
return this.after(br).to;
},
nodeBefore: function(br) {
return this.before(br).from;
},
// Commit unless there are pending dirty nodes.
tryCommit: function() {
if (!window || !window.parent || !window.UndoHistory) return; // Stop when frame has been unloaded
if (this.editor.highlightDirty()) this.commit(true);
else this.scheduleCommit();
},
// Check whether the touched nodes hold any changes, if so, commit
// them.
commit: function(doNotHighlight) {
parent.clearTimeout(this.commitTimeout);
// Make sure there are no pending dirty nodes.
if (!doNotHighlight) this.editor.highlightDirty(true);
// Build set of chains.
var chains = this.touchedChains(), self = this;
if (chains.length) {
this.addUndoLevel(this.updateTo(chains, "linkChain"));
this.redoHistory = [];
this.notifyEnvironment();
}
},
// [ end of public interface ]
// Update the document with a given set of chains, return its
// shadow. updateFunc should be "applyChain" or "linkChain". In the
// second case, the chains are taken to correspond the the current
// document, and only the state of the line data is updated. In the
// first case, the content of the chains is also pushed iinto the
// document.
updateTo: function(chains, updateFunc) {
var shadows = [], dirty = [];
for (var i = 0; i < chains.length; i++) {
shadows.push(this.shadowChain(chains[i]));
dirty.push(this[updateFunc](chains[i]));
}
if (updateFunc == "applyChain")
this.notifyDirty(dirty);
return shadows;
},
// Notify the editor that some nodes have changed.
notifyDirty: function(nodes) {
forEach(nodes, method(this.editor, "addDirtyNode"))
this.editor.scheduleHighlight();
},
notifyEnvironment: function() {
if (this.onChange) this.onChange(this.editor);
// Used by the line-wrapping line-numbering code.
if (window.frameElement && window.frameElement.CodeMirror.updateNumbers)
window.frameElement.CodeMirror.updateNumbers();
},
// Link a chain into the DOM nodes (or the first/last links for null
// nodes).
linkChain: function(chain) {
for (var i = 0; i < chain.length; i++) {
var line = chain[i];
if (line.from) line.from.historyAfter = line;
else this.first = line;
if (line.to) line.to.historyBefore = line;
else this.last = line;
}
},
// Get the line object after/before a given node.
after: function(node) {
return node ? node.historyAfter : this.first;
},
before: function(node) {
return node ? node.historyBefore : this.last;
},
// Mark a node as touched if it has not already been marked.
setTouched: function(node) {
if (node) {
if (!node.historyTouched) {
this.touched.push(node);
node.historyTouched = true;
}
}
else {
this.firstTouched = true;
}
},
// Store a new set of undo info, throw away info if there is more of
// it than allowed.
addUndoLevel: function(diffs) {
this.history.push(diffs);
if (this.history.length > this.maxDepth) {
this.history.shift();
lostundo += 1;
}
},
// Build chains from a set of touched nodes.
touchedChains: function() {
var self = this;
// The temp system is a crummy hack to speed up determining
// whether a (currently touched) node has a line object associated
// with it. nullTemp is used to store the object for the first
// line, other nodes get it stored in their historyTemp property.
var nullTemp = null;
function temp(node) {return node ? node.historyTemp : nullTemp;}
function setTemp(node, line) {
if (node) node.historyTemp = line;
else nullTemp = line;
}
function buildLine(node) {
var text = [];
for (var cur = node ? node.nextSibling : self.container.firstChild;
cur && (!isBR(cur) || cur.hackBR); cur = cur.nextSibling)
if (!cur.hackBR && cur.currentText) text.push(cur.currentText);
return {from: node, to: cur, text: cleanText(text.join(""))};
}
// Filter out unchanged lines and nodes that are no longer in the
// document. Build up line objects for remaining nodes.
var lines = [];
if (self.firstTouched) self.touched.push(null);
forEach(self.touched, function(node) {
if (node && (node.parentNode != self.container || node.hackBR)) return;
if (node) node.historyTouched = false;
else self.firstTouched = false;
var line = buildLine(node), shadow = self.after(node);
if (!shadow || shadow.text != line.text || shadow.to != line.to) {
lines.push(line);
setTemp(node, line);
}
});
// Get the BR element after/before the given node.
function nextBR(node, dir) {
var link = dir + "Sibling", search = node[link];
while (search && !isBR(search))
search = search[link];
return search;
}
// Assemble line objects into chains by scanning the DOM tree
// around them.
var chains = []; self.touched = [];
forEach(lines, function(line) {
// Note that this makes the loop skip line objects that have
// been pulled into chains by lines before them.
if (!temp(line.from)) return;
var chain = [], curNode = line.from, safe = true;
// Put any line objects (referred to by temp info) before this
// one on the front of the array.
while (true) {
var curLine = temp(curNode);
if (!curLine) {
if (safe) break;
else curLine = buildLine(curNode);
}
chain.unshift(curLine);
setTemp(curNode, null);
if (!curNode) break;
safe = self.after(curNode);
curNode = nextBR(curNode, "previous");
}
curNode = line.to; safe = self.before(line.from);
// Add lines after this one at end of array.
while (true) {
if (!curNode) break;
var curLine = temp(curNode);
if (!curLine) {
if (safe) break;
else curLine = buildLine(curNode);
}
chain.push(curLine);
setTemp(curNode, null);
safe = self.before(curNode);
curNode = nextBR(curNode, "next");
}
chains.push(chain);
});
return chains;
},
// Find the 'shadow' of a given chain by following the links in the
// DOM nodes at its start and end.
shadowChain: function(chain) {
var shadows = [], next = this.after(chain[0].from), end = chain[chain.length - 1].to;
while (true) {
shadows.push(next);
var nextNode = next.to;
if (!nextNode || nextNode == end)
break;
else
next = nextNode.historyAfter || this.before(end);
// (The this.before(end) is a hack -- FF sometimes removes
// properties from BR nodes, in which case the best we can hope
// for is to not break.)
}
return shadows;
},
// Update the DOM tree to contain the lines specified in a given
// chain, link this chain into the DOM nodes.
applyChain: function(chain) {
// Some attempt is made to prevent the cursor from jumping
// randomly when an undo or redo happens. It still behaves a bit
// strange sometimes.
var cursor = select.cursorPos(this.container, false), self = this;
// Remove all nodes in the DOM tree between from and to (null for
// start/end of container).
function removeRange(from, to) {
var pos = from ? from.nextSibling : self.container.firstChild;
while (pos != to) {
var temp = pos.nextSibling;
removeElement(pos);
pos = temp;
}
}
var start = chain[0].from, end = chain[chain.length - 1].to;
// Clear the space where this change has to be made.
removeRange(start, end);
// Insert the content specified by the chain into the DOM tree.
for (var i = 0; i < chain.length; i++) {
var line = chain[i];
// The start and end of the space are already correct, but BR
// tags inside it have to be put back.
if (i > 0)
self.container.insertBefore(line.from, end);
// Add the text.
var node = makePartSpan(fixSpaces(line.text));
self.container.insertBefore(node, end);
// See if the cursor was on this line. Put it back, adjusting
// for changed line length, if it was.
if (cursor && cursor.node == line.from) {
var cursordiff = 0;
var prev = this.after(line.from);
if (prev && i == chain.length - 1) {
// Only adjust if the cursor is after the unchanged part of
// the line.
for (var match = 0; match < cursor.offset &&
line.text.charAt(match) == prev.text.charAt(match); match++){}
if (cursor.offset > match)
cursordiff = line.text.length - prev.text.length;
}
select.setCursorPos(this.container, {node: line.from, offset: Math.max(0, cursor.offset + cursordiff)});
}
// Cursor was in removed line, this is last new line.
else if (cursor && (i == chain.length - 1) && cursor.node && cursor.node.parentNode != this.container) {
select.setCursorPos(this.container, {node: line.from, offset: line.text.length});
}
}
// Anchor the chain in the DOM tree.
this.linkChain(chain);
return start;
}
};

44
inc/js/codemirror/unittests.js
View File

@@ -1,44 +0,0 @@
/**
* Test Harness for CodeMirror
* JS-unit compatible tests here. The two available assertions are
* assertEquals (strict equality) and assertEquivalent (looser equivalency).
*
* 'editor' is a global object for the CodeMirror editor shared between all
* tests. After manipulating it in each test, try to restore it to
* approximately its original state.
*/
function testSetGet() {
var code = 'It was the best of times.\nIt was the worst of times.';
editor.setCode(code);
assertEquals(code, editor.getCode());
editor.setCode('');
assertEquals('', editor.getCode());
}
function testSetStylesheet() {
function cssStatus() {
// Returns a list of tuples, for each CSS link return the filename and
// whether it is enabled.
links = editor.win.document.getElementsByTagName('link');
css = [];
for (var x = 0, link; link = links[x]; x++) {
if (link.rel.indexOf("stylesheet") !== -1) {
css.push([link.href.substring(link.href.lastIndexOf('/') + 1),
!link.disabled])
}
}
return css;
}
assertEquivalent([], cssStatus());
editor.setStylesheet('css/jscolors.css');
assertEquivalent([['jscolors.css', true]], cssStatus());
editor.setStylesheet(['css/csscolors.css', 'css/xmlcolors.css']);
assertEquivalent([['jscolors.css', false], ['csscolors.css', true], ['xmlcolors.css', true]], cssStatus());
editor.setStylesheet([]);
assertEquivalent([['jscolors.css', false], ['csscolors.css', false], ['xmlcolors.css', false]], cssStatus());
}
// Update this list of tests as new ones are added.
var tests = ['testSetGet', 'testSetStylesheet'];

133
inc/js/codemirror/util.js
View File

@@ -1,133 +0,0 @@
/* A few useful utility functions. */
// Capture a method on an object.
function method(obj, name) {
return function() {obj[name].apply(obj, arguments);};
}
// The value used to signal the end of a sequence in iterators.
var StopIteration = {toString: function() {return "StopIteration"}};
// Apply a function to each element in a sequence.
function forEach(iter, f) {
if (iter.next) {
try {while (true) f(iter.next());}
catch (e) {if (e != StopIteration) throw e;}
}
else {
for (var i = 0; i < iter.length; i++)
f(iter[i]);
}
}
// Map a function over a sequence, producing an array of results.
function map(iter, f) {
var accum = [];
forEach(iter, function(val) {accum.push(f(val));});
return accum;
}
// Create a predicate function that tests a string againsts a given
// regular expression. No longer used but might be used by 3rd party
// parsers.
function matcher(regexp){
return function(value){return regexp.test(value);};
}
// Test whether a DOM node has a certain CSS class.
function hasClass(element, className) {
var classes = element.className;
return classes && new RegExp("(^| )" + className + "($| )").test(classes);
}
function removeClass(element, className) {
element.className = element.className.replace(new RegExp(" " + className + "\\b", "g"), "");
return element;
}
// Insert a DOM node after another node.
function insertAfter(newNode, oldNode) {
var parent = oldNode.parentNode;
parent.insertBefore(newNode, oldNode.nextSibling);
return newNode;
}
function removeElement(node) {
if (node.parentNode)
node.parentNode.removeChild(node);
}
function clearElement(node) {
while (node.firstChild)
node.removeChild(node.firstChild);
}
// Check whether a node is contained in another one.
function isAncestor(node, child) {
while (child = child.parentNode) {
if (node == child)
return true;
}
return false;
}
// The non-breaking space character.
var nbsp = "\u00a0";
var matching = {"{": "}", "[": "]", "(": ")",
"}": "{", "]": "[", ")": "("};
// Standardize a few unportable event properties.
function normalizeEvent(event) {
if (!event.stopPropagation) {
event.stopPropagation = function() {this.cancelBubble = true;};
event.preventDefault = function() {this.returnValue = false;};
}
if (!event.stop) {
event.stop = function() {
this.stopPropagation();
this.preventDefault();
};
}
if (event.type == "keypress") {
event.code = (event.charCode == null) ? event.keyCode : event.charCode;
event.character = String.fromCharCode(event.code);
}
return event;
}
// Portably register event handlers.
function addEventHandler(node, type, handler, removeFunc) {
function wrapHandler(event) {
handler(normalizeEvent(event || window.event));
}
if (typeof node.addEventListener == "function") {
node.addEventListener(type, wrapHandler, false);
if (removeFunc) return function() {node.removeEventListener(type, wrapHandler, false);};
}
else {
node.attachEvent("on" + type, wrapHandler);
if (removeFunc) return function() {node.detachEvent("on" + type, wrapHandler);};
}
}
function nodeText(node) {
return node.textContent || node.innerText || node.nodeValue || "";
}
function nodeTop(node) {
var top = 0;
while (node.offsetParent) {
top += node.offsetTop;
node = node.offsetParent;
}
return top;
}
function isBR(node) {
var nn = node.nodeName;
return nn == "BR" || nn == "br";
}
function isSpan(node) {
var nn = node.nodeName;
return nn == "SPAN" || nn == "span";
}

11
inc/js/scripts.js
View File

@@ -2,13 +2,6 @@ jQuery.noConflict();
jQuery(document).ready(function(){
// var editor = CodeMirror.fromTextArea('content', {
// height: "350px",
// parserfile: "parsexml.js",
// stylesheet: "../wp-content/themes/roots/inc/css/codemirror/xmlcolors.css",
// path: "../wp-content/themes/roots/inc/js/codemirror/",
// continuousScanning: 500,
// lineNumbers: false
// });
});

3
inc/roots-admin.php
View File

@@ -7,9 +7,6 @@ function roots_admin_init() {
$home_url = home_url();
$theme_name = next(explode('/themes/', get_template_directory()));
//wp_register_script('roots_codemirror', "$home_url/wp-content/themes/roots/inc/js/codemirror/codemirror.js");
//wp_enqueue_script('roots_codemirror');
wp_register_style('roots_admin_css', "$home_url/wp-content/themes/$theme_name/inc/css/admin.css");
wp_enqueue_style('roots_admin_css');