// Copyright (c) 2006-2008 by Martin Stubenschrott // Copyright (c) 2007-2011 by Doug Kearns // Copyright (c) 2008-2011 by Kris Maglione // // This work is licensed for reuse under an MIT license. Details are // given in the LICENSE.txt file included with this file. "use strict"; try { Components.utils.import("resource://dactyl/bootstrap.jsm"); let frag=1; defineModule("util", { exports: ["frag", "FailedAssertion", "Math", "NS", "Point", "Util", "XBL", "XHTML", "XUL", "util"], require: ["services"], use: ["commands", "config", "highlight", "messages", "storage", "template"] }, this); var XBL = Namespace("xbl", "http://www.mozilla.org/xbl"); var XHTML = Namespace("html", "http://www.w3.org/1999/xhtml"); var XUL = Namespace("xul", "http://www.mozilla.org/keymaster/gatekeeper/there.is.only.xul"); var NS = Namespace("dactyl", "http://vimperator.org/namespaces/liberator"); default xml namespace = XHTML; var FailedAssertion = Class("FailedAssertion", ErrorBase, { init: function init(message, level, noTrace) { if (noTrace !== undefined) this.noTrace = noTrace; init.supercall(this, message, level); }, level: 3, noTrace: true }); var Point = Struct("x", "y"); var wrapCallback = function wrapCallback(fn) { fn.wrapper = function wrappedCallback () { try { return fn.apply(this, arguments); } catch (e) { util.reportError(e); return undefined; } }; fn.wrapper.wrapped = fn; return fn.wrapper; } var getAttr = function getAttr(elem, ns, name) elem.hasAttributeNS(ns, name) ? elem.getAttributeNS(ns, name) : null; var setAttr = function setAttr(elem, ns, name, val) { if (val == null) elem.removeAttributeNS(ns, name); else elem.setAttributeNS(ns, name, val); } var Util = Module("Util", XPCOM([Ci.nsIObserver, Ci.nsISupportsWeakReference]), { init: function () { this.Array = array; this.addObserver(this); this.overlays = {}; }, cleanup: function cleanup() { for (let { document: doc } in iter(services.windowMediator.getEnumerator(null))) { for (let elem in values(doc.dactylOverlayElements || [])) if (elem.parentNode) elem.parentNode.removeChild(elem); for (let [elem, ns, name, orig, value] in values(doc.dactylOverlayAttributes || [])) if (getAttr(elem, ns, name) === value) setAttr(elem, ns, name, orig); delete doc.dactylOverlayElements; delete doc.dactylOverlayAttributes; delete doc.dactylOverlays; } }, // FIXME: Only works for Pentadactyl get activeWindow() services.windowMediator.getMostRecentWindow("navigator:browser"), dactyl: update(function dactyl(obj) { if (obj) var global = Class.objectGlobal(obj); return { __noSuchMethod__: function (meth, args) { let win = util.activeWindow; var dactyl = global && global.dactyl || win && win.dactyl; if (!dactyl) return null; let prop = dactyl[meth]; if (callable(prop)) return prop.apply(dactyl, args); return prop; } }; }, { __noSuchMethod__: function () this().__noSuchMethod__.apply(null, arguments) }), /** * Registers a obj as a new observer with the observer service. obj.observe * must be an object where each key is the name of a target to observe and * each value is a function(subject, data) to be called when the given * target is broadcast. obj.observe will be replaced with a new opaque * function. The observer is automatically unregistered on application * shutdown. * * @param {object} obj */ addObserver: update(function addObserver(obj) { if (!obj.observers) obj.observers = obj.observe; function register(meth) { for (let target in Set(["dactyl-cleanup-modules", "quit-application"].concat(Object.keys(obj.observers)))) try { services.observer[meth](obj, target, true); } catch (e) {} } Class.replaceProperty(obj, "observe", function (subject, target, data) { try { if (target == "quit-application" || target == "dactyl-cleanup-modules") register("removeObserver"); if (obj.observers[target]) obj.observers[target].call(obj, subject, data); } catch (e) { if (typeof util === "undefined") addObserver.dump("dactyl: error: " + e + "\n" + (e.stack || addObserver.Error().stack).replace(/^/gm, "dactyl: ")); else util.reportError(e); } }); obj.observe.unregister = function () register("removeObserver"); register("addObserver"); }, { dump: dump, Error: Error }), /* * Tests a condition and throws a FailedAssertion error on * failure. * * @param {boolean} condition The condition to test. * @param {string} message The message to present to the * user on failure. */ assert: function (condition, message, quiet) { if (!condition) throw FailedAssertion(message, 1, quiet === undefined ? true : quiet); return condition; }, /** * Capitalizes the first character of the given string. * @param {string} str The string to capitalize * @returns {string} */ capitalize: function capitalize(str) str && str[0].toUpperCase() + str.slice(1).toLowerCase(), /** * Returns a RegExp object that matches characters specified in the range * expression *list*, or signals an appropriate error if *list* is invalid. * * @param {string} list Character list, e.g., "a b d-xA-Z" produces /[abd-xA-Z]/. * @param {string} accepted Character range(s) to accept, e.g. "a-zA-Z" for * ASCII letters. Used to validate *list*. * @returns {RegExp} */ charListToRegexp: function charListToRegexp(list, accepted) { list = list.replace(/\s+/g, ""); // check for chars not in the accepted range this.assert(RegExp("^[" + accepted + "-]+$").test(list), _("error.charactersOutsideRange", accepted.quote())); // check for illegal ranges for (let [match] in this.regexp.iterate(/.-./g, list)) this.assert(match.charCodeAt(0) <= match.charCodeAt(2), _("error.invalidCharacterRange", list.slice(list.indexOf(match)))); return RegExp("[" + util.regexp.escape(list) + "]"); }, get chromePackages() { // Horrible hack. let res = {}; function process(manifest) { for each (let line in manifest.split(/\n+/)) { let match = /^\s*(content|skin|locale|resource)\s+([^\s#]+)\s/.exec(line); if (match) res[match[2]] = true; } } function processJar(file) { let jar = services.ZipReader(file); if (jar) { if (jar.hasEntry("chrome.manifest")) process(File.readStream(jar.getInputStream("chrome.manifest"))); jar.close(); } } for each (let dir in ["UChrm", "AChrom"]) { dir = File(services.directory.get(dir, Ci.nsIFile)); if (dir.exists() && dir.isDirectory()) for (let file in dir.iterDirectory()) if (/\.manifest$/.test(file.leafName)) process(file.read()); dir = File(dir.parent); if (dir.exists() && dir.isDirectory()) for (let file in dir.iterDirectory()) if (/\.jar$/.test(file.leafName)) processJar(file); dir = dir.child("extensions"); if (dir.exists() && dir.isDirectory()) for (let ext in dir.iterDirectory()) { if (/\.xpi$/.test(ext.leafName)) processJar(ext); else { if (ext.isFile()) ext = File(ext.read().replace(/\n*$/, "")); let mf = ext.child("chrome.manifest"); if (mf.exists()) process(mf.read()); } } } return Object.keys(res).sort(); }, /** * Returns a shallow copy of *obj*. * * @param {Object} obj * @returns {Object} */ cloneObject: function cloneObject(obj) { if (isArray(obj)) return obj.slice(); let newObj = {}; for (let [k, v] in Iterator(obj)) newObj[k] = v; return newObj; }, /** * Clips a string to a given length. If the input string is longer * than *length*, an ellipsis is appended. * * @param {string} str The string to truncate. * @param {number} length The length of the returned string. * @returns {string} */ clip: function clip(str, length) { return str.length <= length ? str : str.substr(0, length - 3) + "..."; }, /** * Compares two strings, case insensitively. Return values are as * in String#localeCompare. * * @param {string} a * @param {string} b * @returns {number} */ compareIgnoreCase: function compareIgnoreCase(a, b) String.localeCompare(a.toLowerCase(), b.toLowerCase()), compileFormat: function compileFormat(format) { let stack = [frame()]; stack.__defineGetter__("top", function () this[this.length - 1]); function frame() update( function _frame(obj) _frame === stack.top || _frame.valid(obj) ? _frame.elements.map(function (e) callable(e) ? e(obj) : e).join("") : "", { elements: [], seen: {}, valid: function (obj) this.elements.every(function (e) !e.test || e.test(obj)) }); let end = 0; for (let match in util.regexp.iterate(/(.*?)%(.)/gy, format)) { let [, prefix, char] = match; end += match[0].length; if (prefix) stack.top.elements.push(prefix); if (char === "%") stack.top.elements.push("%"); else if (char === "[") { let f = frame(); stack.top.elements.push(f); stack.push(f); } else if (char === "]") { stack.pop(); util.assert(stack.length, /*L*/"Unmatched %] in format"); } else { let quote = function quote(obj, char) obj[char]; if (char !== char.toLowerCase()) quote = function quote(obj, char) Commands.quote(obj[char]); char = char.toLowerCase(); stack.top.elements.push(update( function (obj) obj[char] != null ? quote(obj, char) : "", { test: function (obj) obj[char] != null })); for (let elem in array.iterValues(stack)) elem.seen[char] = true; } } if (end < format.length) stack.top.elements.push(format.substr(end)); util.assert(stack.length === 1, /*L*/"Unmatched %[ in format"); return stack.top; }, /** * Compiles a macro string into a function which generates a string * result based on the input *macro* and its parameters. The * definitive documentation for macro strings resides in :help * macro-string. * * Macro parameters may have any of the following flags: * e: The parameter is only tested for existence. Its * interpolation is always empty. * q: The result is quoted such that it is parsed as a single * argument by the Ex argument parser. * * The returned function has the following additional properties: * * seen {set}: The set of parameters used in this macro. * * valid {function(object)}: Returns true if every parameter of * this macro is provided by the passed object. * * @param {string} macro The macro string to compile. * @param {boolean} keepUnknown If true, unknown macro parameters * are left untouched. Otherwise, they are replaced with the null * string. * @returns {function} */ compileMacro: function compileMacro(macro, keepUnknown) { let stack = [frame()]; stack.__defineGetter__("top", function () this[this.length - 1]); let unknown = util.identity; if (!keepUnknown) unknown = function () ""; function frame() update( function _frame(obj) _frame === stack.top || _frame.valid(obj) ? _frame.elements.map(function (e) callable(e) ? e(obj) : e).join("") : "", { elements: [], seen: {}, valid: function (obj) this.elements.every(function (e) !e.test || e.test(obj)) }); let defaults = { lt: "<", gt: ">" }; let re = util.regexp() | // 3 4 5 (\}>) // 6 ) ]]>, "gixy"); macro = String(macro); let end = 0; for (let match in re.iterate(macro)) { let [, prefix, open, full, macro, idx, close] = match; end += match[0].length; if (prefix) stack.top.elements.push(prefix); if (open) { let f = frame(); stack.top.elements.push(f); stack.push(f); } else if (close) { stack.pop(); util.assert(stack.length, /*L*/"Unmatched %] in macro"); } else { let [, flags, name] = /^((?:[a-z]-)*)(.*)/.exec(macro); flags = Set(flags); let quote = util.identity; if (flags.q) quote = function quote(obj) typeof obj === "number" ? obj : String.quote(obj); if (flags.e) quote = function quote(obj) ""; if (Set.has(defaults, name)) stack.top.elements.push(quote(defaults[name])); else { if (idx) { idx = Number(idx) - 1; stack.top.elements.push(update( function (obj) obj[name] != null && idx in obj[name] ? quote(obj[name][idx]) : Set.has(obj, name) ? "" : unknown(full), { test: function (obj) obj[name] != null && idx in obj[name] && obj[name][idx] !== false && (!flags.e || obj[name][idx] != "") })); } else { stack.top.elements.push(update( function (obj) obj[name] != null ? quote(obj[name]) : Set.has(obj, name) ? "" : unknown(full), { test: function (obj) obj[name] != null && obj[name] !== false && (!flags.e || obj[name] != "") })); } for (let elem in array.iterValues(stack)) elem.seen[name] = true; } } } if (end < macro.length) stack.top.elements.push(macro.substr(end)); util.assert(stack.length === 1, /*L*/"Unmatched <{ in macro"); return stack.top; }, /** * Compiles a CSS spec and XPath pattern matcher based on the given * list. List elements prefixed with "xpath:" are parsed as XPath * patterns, while other elements are parsed as CSS specs. The * returned function will, given a node, return an iterator of all * descendants of that node which match the given specs. * * @param {[string]} list The list of patterns to match. * @returns {function(Node)} */ compileMatcher: function compileMatcher(list) { let xpath = [], css = []; for (let elem in values(list)) if (/^xpath:/.test(elem)) xpath.push(elem.substr(6)); else css.push(elem); return update( function matcher(node) { if (matcher.xpath) for (let elem in util.evaluateXPath(matcher.xpath, node)) yield elem; if (matcher.css) for (let [, elem] in iter(node.querySelectorAll(matcher.css))) yield elem; }, { css: css.join(", "), xpath: xpath.join(" | ") }); }, /** * Validates a list as input for {@link #compileMatcher}. Returns * true if and only if every element of the list is a valid XPath or * CSS selector. * * @param {[string]} list The list of patterns to test * @returns {boolean} True when the patterns are all valid. */ validateMatcher: function validateMatcher(list) { let evaluator = services.XPathEvaluator(); let node = services.XMLDocument(); return this.testValues(list, function (value) { if (/^xpath:/.test(value)) evaluator.createExpression(value.substr(6), util.evaluateXPath.resolver); else node.querySelector(value); return true; }); }, /** * Returns an object representing a Node's computed CSS style. * * @param {Node} node * @returns {Object} */ computedStyle: function computedStyle(node) { while (!(node instanceof Ci.nsIDOMElement) && node.parentNode) node = node.parentNode; try { var res = node.ownerDocument.defaultView.getComputedStyle(node, null); } catch (e) {} if (res == null) { util.dumpStack(_("error.nullComputedStyle", node)); Cu.reportError(Error(_("error.nullComputedStyle", node))); return {}; } return res; }, /** * Converts any arbitrary string into an URI object. Returns null on * failure. * * @param {string} str * @returns {nsIURI|null} */ createURI: function createURI(str) { try { return services.urifixup.createFixupURI(str, services.urifixup.FIXUP_FLAG_ALLOW_KEYWORD_LOOKUP); } catch (e) { return null; } }, /** * Expands brace globbing patterns in a string. * * Example: * "a{b,c}d" => ["abd", "acd"] * * @param {string|[string|Array]} pattern The pattern to deglob. * @returns [string] The resulting strings. */ debrace: function debrace(pattern) { if (isArray(pattern)) { let res = []; let rec = function rec(acc) { let vals; while (isString(vals = pattern[acc.length])) acc.push(vals); if (acc.length == pattern.length) res.push(acc.join("")) else for (let val in values(vals)) rec(acc.concat(val)); } rec([]); return res; } if (pattern.indexOf("{") == -1) return [pattern]; function split(pattern, re, fn, dequote) { let end = 0, match, res = []; while (match = re.exec(pattern)) { end = match.index + match[0].length; res.push(match[1]); if (fn) fn(match); } res.push(pattern.substr(end)); return res.map(function (s) util.dequote(s, dequote)); } let patterns = []; let substrings = split(pattern, /((?:[^\\{]|\\.)*)\{((?:[^\\}]|\\.)*)\}/gy, function (match) { patterns.push(split(match[2], /((?:[^\\,]|\\.)*),/gy, null, ",{}")); }, "{}"); let res = []; function rec(acc) { if (acc.length == patterns.length) res.push(array(substrings).zip(acc).flatten().join("")); else for (let [, pattern] in Iterator(patterns[acc.length])) rec(acc.concat(pattern)); } rec([]); return res; }, /** * Removes certain backslash-quoted characters while leaving other * backslash-quoting sequences untouched. * * @param {string} pattern The string to unquote. * @param {string} chars The characters to unquote. * @returns {string} */ dequote: function dequote(pattern, chars) pattern.replace(/\\(.)/, function (m0, m1) chars.indexOf(m1) >= 0 ? m1 : m0), /** * Converts a given DOM Node, Range, or Selection to a string. If * *html* is true, the output is HTML, otherwise it is presentation * text. * * @param {nsIDOMNode | nsIDOMRange | nsISelection} node The node to * stringify. * @param {boolean} html Whether the output should be HTML rather * than presentation text. */ domToString: function (node, html) { if (node instanceof Ci.nsISelection && node.isCollapsed) return ""; if (node instanceof Ci.nsIDOMNode) { let range = node.ownerDocument.createRange(); range.selectNode(node); node = range; } let doc = (node.getRangeAt ? node.getRangeAt(0) : node).startContainer; doc = doc.ownerDocument || doc; let encoder = services.HtmlEncoder(); encoder.init(doc, "text/unicode", encoder.OutputRaw|encoder.OutputPreformatted); if (node instanceof Ci.nsISelection) encoder.setSelection(node); else if (node instanceof Ci.nsIDOMRange) encoder.setRange(node); let str = services.String(encoder.encodeToString()); if (html) return str.data; let [result, length] = [{}, {}]; services.HtmlConverter().convert("text/html", str, str.data.length*2, "text/unicode", result, length); return result.value.QueryInterface(Ci.nsISupportsString).data; }, /** * Prints a message to the console. If *msg* is an object it is pretty * printed. * * @param {string|Object} msg The message to print. */ dump: defineModule.dump, /** * Returns a list of reformatted stack frames from * {@seeĀ Error#stack}. * * @param {string} stack The stack trace from an Error. * @returns {[string]} The stack frames. */ stackLines: function (stack) { let lines = []; let match, re = /([^]*?)@([^@\n]*)(?:\n|$)/g; while (match = re.exec(stack)) lines.push(match[1].replace(/\n/g, "\\n").substr(0, 80) + "@" + util.fixURI(match[2])); return lines; }, /** * Dumps a stack trace to the console. * * @param {string} msg The trace message. * @param {number} frames The number of frames to print. */ dumpStack: function dumpStack(msg, frames) { let stack = util.stackLines(Error().stack); stack = stack.slice(1, 1 + (frames || stack.length)).join("\n").replace(/^/gm, " "); util.dump((arguments.length == 0 ? "Stack" : msg) + "\n" + stack + "\n"); }, /** * The set of input element type attribute values that mark the element as * an editable field. */ editableInputs: Set(["date", "datetime", "datetime-local", "email", "file", "month", "number", "password", "range", "search", "tel", "text", "time", "url", "week"]), /** * Converts HTML special characters in *str* to the equivalent HTML * entities. * * @param {string} str * @returns {string} */ escapeHTML: function escapeHTML(str) { return str.replace(/&/g, "&").replace(/= 1024) { tmpNum /= 1024; if (++unitIndex > (unitVal.length - 1)) break; } let decPower = Math.pow(10, decimalPlaces); strNum = ((Math.round(tmpNum * decPower) / decPower) + "").split(".", 2); if (!strNum[1]) strNum[1] = ""; while (strNum[1].length < decimalPlaces) // pad with "0" to the desired decimalPlaces) strNum[1] += "0"; } for (let u = strNum[0].length - 3; u > 0; u -= 3) // make a 10000 a 10,000 strNum[0] = strNum[0].substr(0, u) + "," + strNum[0].substr(u); if (unitIndex) // decimalPlaces only when > Bytes strNum[0] += "." + strNum[1]; return strNum[0] + " " + unitVal[unitIndex]; }, /** * Converts *seconds* into a human readable time string. * * @param {number} seconds * @returns {string} */ formatSeconds: function formatSeconds(seconds) { function pad(n, val) ("0000000" + val).substr(-Math.max(n, String(val).length)); function div(num, denom) [Math.round(num / denom), Math.round(num % denom)]; let days, hours, minutes; [minutes, seconds] = div(seconds, 60); [hours, minutes] = div(minutes, 60); [days, hours] = div(hours, 24); if (days) return /*L*/days + " days " + hours + " hours" if (hours) return /*L*/hours + "h " + minutes + "m"; if (minutes) return /*L*/minutes + ":" + pad(2, seconds); return /*L*/seconds + "s"; }, /** * Returns the file which backs a given URL, if available. * * @param {nsIURI} uri The URI for which to find a file. * @returns {File|null} */ getFile: function getFile(uri) { try { if (isString(uri)) uri = util.newURI(util.fixURI(uri)); if (uri instanceof Ci.nsIFileURL) return File(uri.file); let channel = services.io.newChannelFromURI(uri); channel.cancel(Cr.NS_BINDING_ABORTED); if (channel instanceof Ci.nsIFileChannel) return File(channel.file); } catch (e) {} return null; }, /** * Returns the host for the given URL, or null if invalid. * * @param {string} url * @returns {string|null} */ getHost: function (url) { try { return util.createURI(url).host; } catch (e) {} return null; }, /** * Returns true if the current Gecko runtime is of the given version * or greater. * * @param {string} ver The required version. * @returns {boolean} */ haveGecko: function (ver) services.versionCompare.compare(services.runtime.platformVersion, ver) >= 0, /** * Sends a synchronous or asynchronous HTTP request to *url* and returns * the XMLHttpRequest object. If *callback* is specified the request is * asynchronous and the *callback* is invoked with the object as its * argument. * * @param {string} url * @param {function(XMLHttpRequest)} callback * @returns {XMLHttpRequest} */ httpGet: function httpGet(url, callback, self) { let params = callback; if (!isObject(params)) params = { callback: params && function () callback.apply(self, arguments) }; try { let xmlhttp = services.Xmlhttp(); xmlhttp.mozBackgroundRequest = true; let async = params.callback || params.onload || params.onerror; if (async) { xmlhttp.onload = function handler(event) { util.trapErrors(params.onload || params.callback, params, xmlhttp, event) }; xmlhttp.onerror = function handler(event) { util.trapErrors(params.onerror || params.callback, params, xmlhttp, event) }; } if (params.mimeType) xmlhttp.overrideMimeType(params.mimeType); xmlhttp.open(params.method || "GET", url, async, params.user, params.pass); xmlhttp.send(null); return xmlhttp; } catch (e) { util.dactyl.log(_("error.cantOpen", String.quote(url), e), 1); return null; } }, /** * The identity function. * * @param {Object} k * @returns {Object} */ identity: function identity(k) k, /** * Returns the intersection of two rectangles. * * @param {Object} r1 * @param {Object} r2 * @returns {Object} */ intersection: function (r1, r2) ({ get width() this.right - this.left, get height() this.bottom - this.top, left: Math.max(r1.left, r2.left), right: Math.min(r1.right, r2.right), top: Math.max(r1.top, r2.top), bottom: Math.min(r1.bottom, r2.bottom) }), /** * Returns true if the given stack frame resides in Dactyl code. * * @param {nsIStackFrame} frame * @returns {boolean} */ isDactyl: Class.memoize(function () { let base = util.regexp.escape(Components.stack.filename.replace(/[^\/]+$/, "")); let re = RegExp("^(?:.* -> )?(?:resource://dactyl(?!-content/eval.js)|" + base + ")\\S+$"); return function isDactyl(frame) re.test(frame.filename); }), /** * Returns true if *url* is in the domain *domain*. * * @param {string} url * @param {string} domain * @returns {boolean} */ isDomainURL: function isDomainURL(url, domain) util.isSubdomain(util.getHost(url), domain), /** Dactyl's notion of the current operating system platform. */ OS: memoize({ _arch: services.runtime.OS, /** * @property {string} The normalised name of the OS. This is one of * "Windows", "Mac OS X" or "Unix". */ get name() this.isWindows ? "Windows" : this.isMacOSX ? "Mac OS X" : "Unix", /** @property {boolean} True if the OS is Windows. */ get isWindows() this._arch == "WINNT", /** @property {boolean} True if the OS is Mac OS X. */ get isMacOSX() this._arch == "Darwin", /** @property {boolean} True if the OS is some other *nix variant. */ get isUnix() !this.isWindows && !this.isMacOSX, /** @property {RegExp} A RegExp which matches illegal characters in path components. */ get illegalCharacters() this.isWindows ? /[<>:"/\\|?*\x00-\x1f]/g : /\//g }), /** * Returns true if *host* is a subdomain of *domain*. * * @param {string} host The host to check. * @param {string} domain The base domain to check the host against. * @returns {boolean} */ isSubdomain: function isSubdomain(host, domain) { if (host == null) return false; let idx = host.lastIndexOf(domain); return idx > -1 && idx + domain.length == host.length && (idx == 0 || host[idx - 1] == "."); }, /** * Returns true if the given DOM node is currently visible. * * @param {Node} node * @returns {boolean} */ isVisible: function (node) { let style = util.computedStyle(node); return style.visibility == "visible" && style.display != "none"; }, /** * Iterates over all currently open documents, including all * top-level window and sub-frames thereof. */ iterDocuments: function iterDocuments() { let windows = services.windowMediator.getXULWindowEnumerator(null); while (windows.hasMoreElements()) { let window = windows.getNext().QueryInterface(Ci.nsIXULWindow); for each (let type in ["typeChrome", "typeContent"]) { let docShells = window.docShell.getDocShellEnumerator(Ci.nsIDocShellTreeItem[type], Ci.nsIDocShell.ENUMERATE_FORWARDS); while (docShells.hasMoreElements()) let (viewer = docShells.getNext().QueryInterface(Ci.nsIDocShell).contentViewer) { if (viewer) yield viewer.DOMDocument; } } } }, // ripped from Firefox; modified unsafeURI: Class.memoize(function () util.regexp(String.replace(, /U/g, "\\u"), "gx")), losslessDecodeURI: function losslessDecodeURI(url) { return url.split("%25").map(function (url) { // Non-UTF-8 compliant URLs cause "malformed URI sequence" errors. try { return decodeURI(url).replace(this.unsafeURI, encodeURIComponent); } catch (e) { return url; } }, this).join("%25"); }, /** * Returns an XPath union expression constructed from the specified node * tests. An expression is built with node tests for both the null and * XHTML namespaces. See {@link Buffer#evaluateXPath}. * * @param nodes {Array(string)} * @returns {string} */ makeXPath: function makeXPath(nodes) { return array(nodes).map(util.debrace).flatten() .map(function (node) /^[a-z]+:/.test(node) ? node : [node, "xhtml:" + node]).flatten() .map(function (node) "//" + node).join(" | "); }, /** * Creates a DTD fragment from the given object. Each property of * the object is converted to an ENTITY declaration. SGML special * characters other than ' and % are left intact. * * @param {object} obj The object to convert. * @returns {string} The DTD fragment containing entity declaration * for *obj*. */ makeDTD: let (map = { "'": "'", '"': """, "%": "%", "&": "&", "<": "<", ">": ">" }) function makeDTD(obj) iter(obj) .map(function ([k, v]) ["]/g, function (m) map[m]), "'>"].join("")) .join("\n"), map: deprecated("iter.map", function map(obj, fn, self) iter(obj).map(fn, self).toArray()), writeToClipboard: deprecated("dactyl.clipboardWrite", function writeToClipboard(str, verbose) util.dactyl.clipboardWrite(str, verbose)), readFromClipboard: deprecated("dactyl.clipboardRead", function readFromClipboard() util.dactyl.clipboardRead(false)), /** * Converts a URI string into a URI object. * * @param {string} uri * @returns {nsIURI} */ // FIXME: createURI needed too? newURI: function newURI(uri, charset, base) this.withProperErrors("newURI", services.io, uri, charset, base), /** * Removes leading garbage prepended to URIs by the subscript * loader. */ fixURI: function fixURI(url) String.replace(url, /.* -> /, ""), /** * Pretty print a JavaScript object. Use HTML markup to color certain items * if *color* is true. * * @param {Object} object The object to pretty print. * @param {boolean} color Whether the output should be colored. * @returns {string} */ objectToString: function objectToString(object, color) { // Use E4X literals so html is automatically quoted // only when it's asked for. No one wants to see < // on their console or :map :foo in their buffer // when they expect :map :foo. XML.prettyPrinting = false; XML.ignoreWhitespace = false; if (object == null) return object + "\n"; if (!isObject(object)) return String(object); function namespaced(node) { var ns = NAMESPACES[node.namespaceURI] || /^(?:(.*?):)?/.exec(node.name)[0]; if (!ns) return node.localName; if (color) return <>{ns}{node.localName} return ns + ":" + node.localName; } if (object instanceof Ci.nsIDOMElement) { const NAMESPACES = array.toObject([ [NS, "dactyl"], [XHTML, "html"], [XUL, "xul"] ]); let elem = object; if (elem.nodeType == elem.TEXT_NODE) return elem.data; try { let hasChildren = elem.firstChild && (!/^\s*$/.test(elem.firstChild) || elem.firstChild.nextSibling) if (color) return <{ namespaced(elem)} { template.map(array.iterValues(elem.attributes), function (attr) {namespaced(attr)} + {attr.value}, <> ) }{ !hasChildren ? "/>" : ">" }{ !hasChildren ? "" : <>... + <{namespaced(elem)}> }; let tag = "<" + [namespaced(elem)].concat( [namespaced(a) + "=" + template.highlight(a.value, true) for ([i, a] in array.iterItems(elem.attributes))]).join(" "); return tag + (!hasChildren ? "/>" : ">..."); } catch (e) { return {}.toString.call(elem); } } try { // for window.JSON var obj = String(object); } catch (e) { obj = Object.prototype.toString.call(obj); } obj = template.highlightFilter(util.clip(obj, 150), "\n", !color ? function () "^J" : function () ^J); let string = <>{obj}:: ; let keys = []; // window.content often does not want to be queried with "var i in object" try { let hasValue = !("__iterator__" in object || isinstance(object, ["Generator", "Iterator"])); if (object.dactyl && object.modules && object.modules.modules == object.modules) { object = Iterator(object); hasValue = false; } for (let i in object) { let value = ]]>; try { value = object[i]; } catch (e) {} if (!hasValue) { if (isArray(i) && i.length == 2) [i, value] = i; else var noVal = true; } value = template.highlight(value, true, 150); let key = {i}; if (!isNaN(i)) i = parseInt(i); else if (/^[A-Z_]+$/.test(i)) i = ""; keys.push([i, <>{key}{noVal ? "" : <>: {value}} ]); } } catch (e) {} function compare(a, b) { if (!isNaN(a[0]) && !isNaN(b[0])) return a[0] - b[0]; return String.localeCompare(a[0], b[0]); } string += template.map(keys.sort(compare), function (f) f[1]); return color ?
{string}
: [s for each (s in string)].join(""); }, observers: { "dactyl-cleanup-modules": function (subject, reason) { defineModule.loadLog.push("dactyl: util: observe: dactyl-cleanup-modules " + reason); for (let module in values(defineModule.modules)) if (module.cleanup) { util.dump("cleanup: " + module.constructor.className); util.trapErrors(module.cleanup, module, reason); } JSMLoader.cleanup(); if (!this.rehashing) services.observer.addObserver(this, "dactyl-rehash", true); }, "dactyl-rehash": function () { services.observer.removeObserver(this, "dactyl-rehash"); defineModule.loadLog.push("dactyl: util: observe: dactyl-rehash"); if (!this.rehashing) for (let module in values(defineModule.modules)) { defineModule.loadLog.push("dactyl: util: init(" + module + ")"); if (module.reinit) module.reinit(); else module.init(); } }, "dactyl-purge": function () { this.rehashing = 1; }, "toplevel-window-ready": function (window, data) { window.addEventListener("DOMContentLoaded", wrapCallback(function listener(event) { if (event.originalTarget === window.document) { window.removeEventListener("DOMContentLoaded", listener.wrapper, true); util._loadOverlays(window); } }), true); }, "chrome-document-global-created": function (window, uri) { this.observe(window, "toplevel-window-ready", null); }, "content-document-global-created": function (window, uri) { this.observe(window, "toplevel-window-ready", null); } }, _loadOverlays: function _loadOverlays(window) { if (!window.dactylOverlays) window.dactylOverlays = []; for each (let obj in util.overlays[window.document.documentURI] || []) { if (window.dactylOverlays.indexOf(obj) >= 0) continue; window.dactylOverlays.push(obj); this._loadOverlay(window, obj(window)); } }, _loadOverlay: function _loadOverlay(window, obj) { let doc = window.document; if (!doc.dactylOverlayElements) { doc.dactylOverlayElements = []; doc.dactylOverlayAttributes = []; } function overlay(key, fn) { if (obj[key]) { let iterator = Iterator(obj[key]); if (!isObject(obj[key])) iterator = ([elem.@id, elem.elements(), elem.@*::*.(function::name() != "id")] for each (elem in obj[key])); for (let [elem, xml, attr] in iterator) { if (elem = doc.getElementById(elem)) { let node = util.xmlToDom(xml, doc, obj.objects); if (!(node instanceof Ci.nsIDOMDocumentFragment)) doc.dactylOverlayElements.push(node); else for (let n in array.iterValues(node.childNodes)) doc.dactylOverlayElements.push(n); fn(elem, node); for each (let attr in attr || []) { let ns = attr.namespace(), name = attr.localName(); doc.dactylOverlayAttributes.push([elem, ns, name, getAttr(elem, ns, name), String(attr)]); if (attr.name() != "highlight") elem.setAttributeNS(ns, name, String(attr)); else highlight.highlightNode(elem, String(attr)); } } } } } overlay("before", function (elem, dom) elem.parentNode.insertBefore(dom, elem)); overlay("after", function (elem, dom) elem.parentNode.insertBefore(dom, elem.nextSibling)); overlay("append", function (elem, dom) elem.appendChild(dom)); overlay("prepend", function (elem, dom) elem.insertBefore(dom, elem.firstChild)); if (obj.init) obj.init(window); if (obj.load) if (doc.readyState === "complete") obj.load(window); else doc.addEventListener("load", wrapCallback(function load(event) { if (event.originalTarget === event.target) { doc.removeEventListener("load", load.wrapper, true); obj.load(window, event); } }), true); }, /** * Overlays an object with the given property overrides. Each * property in *overrides* is added to *object*, replacing any * original value. Functions in *overrides* are augmented with the * new properties *super*, *supercall*, and *superapply*, in the * same manner as class methods, so that they man call their * overridden counterparts. * * @param {object} object The object to overlay. * @param {object} overrides An object containing properties to * override. * @returns {function} A function which, when called, will remove * the overlay. */ overlayObject: function (object, overrides) { let original = Object.create(object); overrides = update(Object.create(original), overrides); Object.getOwnPropertyNames(overrides).forEach(function (k) { let orig, desc = Object.getOwnPropertyDescriptor(overrides, k); if (desc.value instanceof Class.Property) desc = desc.value.init(k) || desc.value; if (k in object) { for (let obj = object; obj && !orig; obj = Object.getPrototypeOf(obj)) if (orig = Object.getOwnPropertyDescriptor(obj, k)) Object.defineProperty(original, k, orig); if (!orig) if (orig = Object.getPropertyDescriptor(object, k)) Object.defineProperty(original, k, orig); } // Guard against horrible add-ons that use eval-based monkey // patching. let value = desc.value; if (callable(desc.value)) { delete desc.value; delete desc.writable; desc.get = function get() value; desc.set = function set(val) { if (!callable(val) || Function.prototype.toString(val).indexOf(sentinel) < 0) Class.replaceProperty(this, k, val); else { let package_ = util.newURI(util.fixURI(Components.stack.caller.filename)).host; util.reportError(Error(_("error.monkeyPatchOverlay", package_))); util.dactyl.echoerr(_("error.monkeyPatchOverlay", package_)); } }; } try { Object.defineProperty(object, k, desc); if (callable(value)) { let sentinel = "(function DactylOverlay() {}())" value.toString = function toString() toString.toString.call(this).replace(/\}?$/, sentinel + "; $&"); value.toSource = function toSource() toSource.toSource.call(this).replace(/\}?$/, sentinel + "; $&"); } } catch (e) { try { if (value) { object[k] = value; return; } } catch (f) {} util.reportError(e); } }, this); return function unwrap() { for each (let k in Object.getOwnPropertyNames(original)) if (Object.getOwnPropertyDescriptor(object, k).configurable) Object.defineProperty(object, k, Object.getOwnPropertyDescriptor(original, k)); else { try { object[k] = original[k]; } catch (e) {} } }; }, overlayWindow: function (url, fn) { if (url instanceof Ci.nsIDOMWindow) util._loadOverlay(url, fn); else { Array.concat(url).forEach(function (url) { if (!this.overlays[url]) this.overlays[url] = []; this.overlays[url].push(fn); }, this); for (let doc in util.iterDocuments()) if (["interactive", "complete"].indexOf(doc.readyState) >= 0) this._loadOverlays(doc.defaultView); else this.observe(doc.defaultView, "toplevel-window-ready"); } }, /** * Parses the fields of a form and returns a URL/POST-data pair * that is the equivalent of submitting the form. * * @param {nsINode} field One of the fields of the given form. * @returns {array} */ // Nuances gleaned from browser.jar/content/browser/browser.js parseForm: function parseForm(field) { function encode(name, value, param) { param = param ? "%s" : ""; if (post) return name + "=" + encodeComponent(value + param); return encodeComponent(name) + "=" + encodeComponent(value) + param; } let form = field.form; let doc = form.ownerDocument; let charset = doc.characterSet; let converter = services.CharsetConv(charset); for each (let cs in form.acceptCharset.split(/\s*,\s*|\s+/)) { let c = services.CharsetConv(cs); if (c) { converter = services.CharsetConv(cs); charset = cs; } } let uri = util.newURI(doc.baseURI.replace(/\?.*/, ""), charset); let url = util.newURI(form.action, charset, uri).spec; let post = form.method.toUpperCase() == "POST"; let encodeComponent = encodeURIComponent; if (charset !== "UTF-8") encodeComponent = function encodeComponent(str) escape(converter.ConvertFromUnicode(str) + converter.Finish()); let elems = []; if (field instanceof Ci.nsIDOMHTMLInputElement && field.type == "submit") elems.push(encode(field.name, field.value)); for (let [, elem] in iter(form.elements)) if (elem.name && !elem.disabled) { if (Set.has(util.editableInputs, elem.type) || /^(?:hidden|textarea)$/.test(elem.type) || elem.type == "submit" && elem == field || elem.checked && /^(?:checkbox|radio)$/.test(elem.type)) elems.push(encode(elem.name, elem.value, elem === field)); else if (elem instanceof Ci.nsIDOMHTMLSelectElement) { for (let [, opt] in Iterator(elem.options)) if (opt.selected) elems.push(encode(elem.name, opt.value)); } } if (post) return [url, elems.join('&'), charset, elems]; return [url + "?" + elems.join('&'), null, charset, elems]; }, /** * A generator that returns the values between *start* and *end*, in *step* * increments. * * @param {number} start The interval's start value. * @param {number} end The interval's end value. * @param {boolean} step The value to step the range by. May be * negative. @default 1 * @returns {Iterator(Object)} */ range: function range(start, end, step) { if (!step) step = 1; if (step > 0) { for (; start < end; start += step) yield start; } else { while (start > end) yield start += step; } }, /** * An interruptible generator that returns all values between *start* and * *end*. The thread yields every *time* milliseconds. * * @param {number} start The interval's start value. * @param {number} end The interval's end value. * @param {number} time The time in milliseconds between thread yields. * @returns {Iterator(Object)} */ interruptibleRange: function interruptibleRange(start, end, time) { let endTime = Date.now() + time; while (start < end) { if (Date.now() > endTime) { util.threadYield(true, true); endTime = Date.now() + time; } yield start++; } }, /** * Creates a new RegExp object based on the value of expr stripped * of all white space and interpolated with the values from tokens. * If tokens, any string in the form of in expr is replaced * with the value of the property, 'key', from tokens, if that * property exists. If the property value is itself a RegExp, its * source is substituted rather than its string value. * * Additionally, expr is stripped of all JavaScript comments. * * This is similar to Perl's extended regular expression format. * * @param {string|XML} expr The expression to compile into a RegExp. * @param {string} flags Flags to apply to the new RegExp. * @param {object} tokens The tokens to substitute. @optional * @returns {RegExp} A custom regexp object. */ regexp: update(function (expr, flags, tokens) { flags = flags || [k for ([k, v] in Iterator({ g: "global", i: "ignorecase", m: "multiline", y: "sticky" })) if (expr[v])].join(""); if (isinstance(expr, ["RegExp"])) expr = expr.source; expr = String.replace(expr, /\\(.)/, function (m, m1) { if (m1 === "c") flags = flags.replace(/i/g, "") + "i"; else if (m === "C") flags = flags.replace(/i/g, ""); else return m; return ""; }); // Replace replacement . if (tokens) expr = String.replace(expr, /(\(?P)?<(\w+)>/g, function (m, n1, n2) !n1 && Set.has(tokens, n2) ? tokens[n2].dactylSource || tokens[n2].source || tokens[n2] : m); // Strip comments and white space. if (/x/.test(flags)) expr = String.replace(expr, /(\\.)|\/\/[^\n]*|\/\*[^]*?\*\/|\s+/gm, function (m, m1) m1 || ""); // Replace (?P parameters) if (/\(\?P]+)>|(\?))?/gy, function (m0, m1, m2, m3) { if (!m3) groups.push(m2 || "-group-" + groups.length); return m1 + "(" + (m3 || ""); }); var struct = Struct.apply(null, groups); } let res = update(RegExp(expr, flags.replace("x", "")), { closure: Class.Property(Object.getOwnPropertyDescriptor(Class.prototype, "closure")), dactylPropertyNames: ["exec", "match", "test", "toSource", "toString", "global", "ignoreCase", "lastIndex", "multiLine", "source", "sticky"], iterate: function (str, idx) util.regexp.iterate(this, str, idx) }); // Return a struct with properties for named parameters if we // have them. if (struct) update(res, { exec: function exec() let (match = exec.superapply(this, arguments)) match && struct.fromArray(match), dactylSource: source, struct: struct }); return res; }, { /** * Escapes Regular Expression special characters in *str*. * * @param {string} str * @returns {string} */ escape: function regexp_escape(str) str.replace(/([\\{}()[\]^$.?*+|])/g, "\\$1"), /** * Given a RegExp, returns its source in the form showable to the user. * * @param {RegExp} re The regexp showable source of which is to be returned. * @returns {string} */ getSource: function regexp_getSource(re) re.source.replace(/\\(.)/g, function (m0, m1) m1 === "/" ? "/" : m0), /** * Iterates over all matches of the given regexp in the given * string. * * @param {RegExp} regexp The regular expression to execute. * @param {string} string The string to search. * @param {number} lastIndex The index at which to begin searching. @optional */ iterate: function iterate(regexp, string, lastIndex) iter(function () { regexp.lastIndex = lastIndex = lastIndex || 0; let match; while (match = regexp.exec(string)) { lastIndex = regexp.lastIndex; yield match; regexp.lastIndex = lastIndex; if (match[0].length == 0 || !regexp.global) break; } }()) }), /** * Reloads dactyl in entirety by disabling the add-on and * re-enabling it. */ rehash: function (args) { storage.session.commandlineArgs = args; this.timeout(function () { services.observer.notifyObservers(null, "startupcache-invalidate", ""); this.rehashing = true; let addon = config.addon; addon.userDisabled = true; addon.userDisabled = false; }); }, errorCount: 0, errors: Class.memoize(function () []), maxErrors: 15, /** * Reports an error to the Error Console and the standard output, * along with a stack trace and other relevant information. The * error is appended to {@seeĀ #errors}. */ reportError: function (error) { if (error.noTrace) return; if (isString(error)) error = Error(error); if (Cu.reportError) Cu.reportError(error); try { this.errorCount++; let obj = update({}, error, { toString: function () String(error), stack: <>{util.stackLines(String(error.stack || Error().stack)).join("\n").replace(/^/mg, "\t")} }); this.errors.push([new Date, obj + "\n" + obj.stack]); this.errors = this.errors.slice(-this.maxErrors); this.errors.toString = function () [k + "\n" + v for ([k, v] in array.iterValues(this))].join("\n\n"); this.dump(String(error)); this.dump(obj); this.dump(""); } catch (e) { try { this.dump(String(error)); this.dump(util.stackLines(error.stack).join("\n")); } catch (e) { dump(e + "\n"); } } // ctypes.open("libc.so.6").declare("kill", ctypes.default_abi, ctypes.void_t, ctypes.int, ctypes.int)( // ctypes.open("libc.so.6").declare("getpid", ctypes.default_abi, ctypes.int)(), 2) }, /** * Given a domain, returns an array of all non-toplevel subdomains * of that domain. * * @param {string} host The host for which to find subdomains. * @returns {[string]} */ subdomains: function subdomains(host) { if (/(^|\.)\d+$|:.*:/.test(host)) // IP address or similar return [host]; let base = host.replace(/.*\.(.+?\..+?)$/, "$1"); try { base = services.tld.getBaseDomainFromHost(host); } catch (e) {} let ary = host.split("."); ary = [ary.slice(i).join(".") for (i in util.range(ary.length, 0, -1))]; return ary.filter(function (h) h.length >= base.length); }, /** * Scrolls an element into view if and only if it's not already * fully visible. * * @param {Node} elem The element to make visible. */ scrollIntoView: function scrollIntoView(elem, alignWithTop) { let win = elem.ownerDocument.defaultView; let rect = elem.getBoundingClientRect(); if (!(rect && rect.bottom <= win.innerHeight && rect.top >= 0 && rect.left < win.innerWidth && rect.right > 0)) elem.scrollIntoView(arguments.length > 1 ? alignWithTop : Math.abs(rect.top) < Math.abs(win.innerHeight - rect.bottom)); }, /** * Returns the selection controller for the given window. * * @param {Window} window * @returns {nsISelectionController} */ selectionController: function (win) win.QueryInterface(Ci.nsIInterfaceRequestor).getInterface(Ci.nsIWebNavigation) .QueryInterface(Ci.nsIInterfaceRequestor).getInterface(Ci.nsISelectionDisplay) .QueryInterface(Ci.nsISelectionController), /** * Suspend execution for at least *delay* milliseconds. Functions by * yielding execution to the next item in the main event queue, and * so may lead to unexpected call graphs, and long delays if another * handler yields execution while waiting. * * @param {number} delay The time period for which to sleep in milliseconds. */ sleep: function (delay) { let mainThread = services.threading.mainThread; let end = Date.now() + delay; while (Date.now() < end) mainThread.processNextEvent(true); return true; }, /** * Behaves like String.split, except that when *limit* is reached, * the trailing element contains the entire trailing portion of the * string. * * util.split("a, b, c, d, e", /, /, 3) -> ["a", "b", "c, d, e"] * * @param {string} str The string to split. * @param {RegExp|string} re The regular expression on which to split the string. * @param {number} limit The maximum number of elements to return. * @returns {[string]} */ split: function (str, re, limit) { re.lastIndex = 0; if (!re.global) re = RegExp(re.source || re, "g"); let match, start = 0, res = []; while (--limit && (match = re.exec(str)) && match[0].length) { res.push(str.substring(start, match.index)); start = match.index + match[0].length; } res.push(str.substring(start)); return res; }, /** * Split a string on literal occurrences of a marker. * * Specifically this ignores occurrences preceded by a backslash, or * contained within 'single' or "double" quotes. * * It assumes backslash escaping on strings, and will thus not count quotes * that are preceded by a backslash or within other quotes as starting or * ending quoted sections of the string. * * @param {string} str * @param {RegExp} marker * @returns {[string]} */ splitLiteral: function splitLiteral(str, marker) { let results = []; let resep = RegExp(/^(([^\\'"]|\\.|'([^\\']|\\.)*'|"([^\\"]|\\.)*")*?)/.source + marker.source); let cont = true; while (cont) { cont = false; str = str.replace(resep, function (match, before) { results.push(before); cont = match !== ""; return ""; }); } results.push(str); return results; }, yielders: 0, /** * Yields execution to the next event in the current thread's event * queue. This is a potentially dangerous operation, since any * yielders higher in the event stack will prevent execution from * returning to the caller until they have finished their wait. The * potential for deadlock is high. * * @param {boolean} flush If true, flush all events in the event * queue before returning. Otherwise, wait for an event to * process before proceeding. * @param {boolean} interruptable If true, this yield may be * interrupted by pressing , in which case, * Error("Interrupted") will be thrown. */ threadYield: function (flush, interruptable) { this.yielders++; try { let mainThread = services.threading.mainThread; /* FIXME */ util.interrupted = false; do { mainThread.processNextEvent(!flush); if (util.interrupted) throw Error("Interrupted"); } while (flush === true && mainThread.hasPendingEvents()); } finally { this.yielders--; } }, /** * Waits for the function *test* to return true, or *timeout* * milliseconds to expire. * * @param {function} test The predicate on which to wait. * @param {object} self The 'this' object for *test*. * @param {Number} timeout The maximum number of milliseconds to * wait. * @optional * @param {boolean} interruptable If true, may be interrupted by * pressing , in which case, Error("Interrupted") will be * thrown. */ waitFor: function waitFor(test, self, timeout, interruptable) { let end = timeout && Date.now() + timeout, result; let timer = services.Timer(function () {}, 10, services.Timer.TYPE_REPEATING_SLACK); try { while (!(result = test.call(self)) && (!end || Date.now() < end)) this.threadYield(false, interruptable); } finally { timer.cancel(); } return result; }, /** * Makes the passed function yieldable. Each time the function calls * yield, execution is suspended for the yielded number of * milliseconds. * * Example: * let func = yieldable(function () { * util.dump(Date.now()); // 0 * yield 1500; * util.dump(Date.now()); // 1500 * }); * func(); * * @param {function} func The function to mangle. * @returns {function} A new function which may not execute * synchronously. */ yieldable: function yieldable(func) function magic() { let gen = func.apply(this, arguments); (function next() { try { util.timeout(next, gen.next()); } catch (e if e instanceof StopIteration) {}; })(); }, /** * Wraps a callback function such that its errors are not lost. This * is useful for DOM event listeners, which ordinarily eat errors. * The passed function has the property *wrapper* set to the new * wrapper function, while the wrapper has the property *wrapped* * set to the original callback. * * @param {function} callback The callback to wrap. * @returns {function} */ wrapCallback: wrapCallback, /** * Returns the top-level chrome window for the given window. * * @param {Window} win The child window. * @returns {Window} The top-level parent window. */ topWindow: function topWindow(win) win.QueryInterface(Ci.nsIInterfaceRequestor).getInterface(Ci.nsIWebNavigation) .QueryInterface(Ci.nsIDocShellTreeItem).rootTreeItem .QueryInterface(Ci.nsIInterfaceRequestor).getInterface(Ci.nsIDOMWindow), /** * Traps errors in the called function, possibly reporting them. * * @param {function} func The function to call * @param {object} self The 'this' object for the function. */ trapErrors: function trapErrors(func, self) { try { if (!callable(func)) func = self[func]; return func.apply(self || this, Array.slice(arguments, 2)); } catch (e) { util.reportError(e); return undefined; } }, /** * Returns the file path of a given *url*, for debugging purposes. * If *url* points to a file (even if indirectly), the native * filesystem path is returned. Otherwise, the URL itself is * returned. * * @param {string} url The URL to mangle. * @returns {string} The path to the file. */ urlPath: function urlPath(url) { try { return util.getFile(url).path; } catch (e) { return url; } }, /** * Returns a list of all domains and subdomains of documents in the * given window and all of its descendant frames. * * @param {nsIDOMWindow} win The window for which to find domains. * @returns {[string]} The visible domains. */ visibleHosts: function (win) { let res = [], seen = {}; (function rec(frame) { try { if (frame.location.hostname) res = res.concat(util.subdomains(frame.location.hostname)); } catch (e) {} Array.forEach(frame.frames, rec); })(win); return res.filter(function (h) !Set.add(seen, h)); }, /** * Returns a list of URIs of documents in the given window and all * of its descendant frames. * * @param {nsIDOMWindow} win The window for which to find URIs. * @returns {[nsIURI]} The visible URIs. */ visibleURIs: function (win) { let res = [], seen = {}; (function rec(frame) { try { res = res.concat(util.newURI(frame.location.href)); } catch (e) {} Array.forEach(frame.frames, rec); })(win); return res.filter(function (h) !Set.add(seen, h.spec)); }, /** * Wraps native exceptions thrown by the called function so that a * proper stack trace may be retrieved from them. * * @param {function|string} meth The method to call. * @param {object} self The 'this' object of the method. * @param ... Arguments to pass to *meth*. */ withProperErrors: function withProperErrors(meth, self) { try { return (callable(meth) ? meth : self[meth]).apply(self, Array.slice(arguments, withProperErrors.length)); } catch (e) { throw e.stack ? e : Error(e); } }, /** * Converts an E4X XML literal to a DOM node. Any attribute named * highlight is present, it is transformed into dactyl:highlight, * and the named highlight groups are guaranteed to be loaded. * * @param {Node} node * @param {Document} doc * @param {Object} nodes If present, nodes with the "key" attribute are * stored here, keyed to the value thereof. * @returns {Node} */ xmlToDom: function xmlToDom(node, doc, nodes) { XML.prettyPrinting = false; if (typeof node === "string") // Sandboxes can't currently pass us XML objects. node = XML(node); if (node.length() != 1) { let domnode = doc.createDocumentFragment(); for each (let child in node) domnode.appendChild(xmlToDom(child, doc, nodes)); return domnode; } switch (node.nodeKind()) { case "text": return doc.createTextNode(String(node)); case "element": let domnode = doc.createElementNS(node.namespace(), node.localName()); for each (let attr in node.@*::*) if (attr.name() != "highlight") domnode.setAttributeNS(attr.namespace(), attr.localName(), String(attr)); for each (let child in node.*::*) domnode.appendChild(xmlToDom(child, doc, nodes)); if (nodes && node.@key) nodes[node.@key] = domnode; if ("@highlight" in node) highlight.highlightNode(domnode, String(node.@highlight), nodes || true); return domnode; default: return null; } } }, { Array: array }); /** * Math utility methods. * @singleton */ var GlobalMath = Math; var Math = update(Object.create(GlobalMath), { /** * Returns the specified *value* constrained to the range *min* - *max*. * * @param {number} value The value to constrain. * @param {number} min The minimum constraint. * @param {number} max The maximum constraint. * @returns {number} */ constrain: function constrain(value, min, max) Math.min(Math.max(min, value), max) }); endModule(); } catch(e){ if (!e.stack) e = Error(e); dump(e.fileName+":"+e.lineNumber+": "+e+"\n" + e.stack); } // vim: set fdm=marker sw=4 ts=4 et ft=javascript: