/* * This file contains miscellaneous utility methods that depends on various helper classes * like `Ext.Array` and `Ext.Date`. Historically these methods were defined in Ext.js or * Ext-more.js but that creates circular dependencies so they were consolidated here. */Ext.apply(Ext, {// @define Ext.Util // @require Ext // @require Ext.lang.* // shortcut for the special named scopes for listener scope resolution _namedScopes: { 'this': { isThis: 1 }, controller: { isController: 1 }, owner: { isOwner: 1 }, // these two are private, used to indicate that listeners were declared on the // class body with either an unspecified scope, or scope:'controller' self: { isSelf: 1 }, 'self.controller': { isSelf: 1, isController: 1 } }, escapeId: (function(){ var validIdRe = /^[a-zA-Z_][a-zA-Z0-9_\-]*$/i, escapeRx = /([\W]{1})/g, leadingNumRx = /^(\d)/g, escapeFn = function(match, capture){ return "\\" + capture; }, numEscapeFn = function(match, capture){ return '\\00' + capture.charCodeAt(0).toString(16) + ' '; }; return function(id) { return validIdRe.test(id) ? id : // replace the number portion last to keep the trailing ' ' // from being escaped id.replace(escapeRx, escapeFn).replace(leadingNumRx, numEscapeFn); }; }()), /** * @method callback * @member Ext * Execute a callback function in a particular scope. If `callback` argument is a * function reference, that is called. If it is a string, the string is assumed to * be the name of a method on the given `scope`. If no function is passed the call * is ignored. * * For example, these calls are equivalent: * * var myFunc = this.myFunc; * * Ext.callback('myFunc', this, [arg1, arg2]); * Ext.callback(myFunc, this, [arg1, arg2]); * * Ext.isFunction(myFunc) && this.myFunc(arg1, arg2); * * @param {Function/String} callback The callback function to execute or the name of * the callback method on the provided `scope`. * @param {Object} [scope] The scope in which `callback` should be invoked. If `callback` * is a string this object provides the method by that name. If this is `null` then * the `caller` is used to resolve the scope to a `ViewController` or the proper * `defaultListenerScope`. * @param {Array} [args] The arguments to pass to the function. * @param {Number} [delay] Pass a number to delay the call by a number of milliseconds. * @param {Object} [caller] The object calling the callback. This is used to resolve * named methods when no explicit `scope` is provided. * @param {Object} [defaultScope=caller] The default scope to return if none is found. * @return The value returned by the callback or `undefined` (if there is a `delay` * or if the `callback` is not a function). */ callback: function (callback, scope, args, delay, caller, defaultScope) { if (!callback) { return; } var namedScope = (scope in Ext._namedScopes); if (callback.charAt) { // if (isString(fn)) // Custom components cannot often use declarative method resolution when // they need to allow the user to supply declarative method names that can // reach the user's controller. The "up" callback syntax can help with that: // // xtype: 'button', // handler: 'up.onFoo', // // When Ext.callback('up.onFoo',..., button) is called, we can perform a // "button.up('[onFoo]')" search for the handler. Thus we have a declarative // way to dispatch such handlers that will work even if the user can supply // such handlers. // if (callback[2] === '.') { // callback = 'up.foo' //<debug> if (callback.substr(0,2) !== 'up') { Ext.raise('Invalid callback method name "' + callback + '"'); } if (scope) { Ext.raise('Callback "up" syntax is incompatible with scopes'); } if (!caller || !Ext.isFunction(caller.up)) { Ext.raise('Callback "up" syntax requires a caller with "up" method'); } //</debug> callback = callback.substr(3); // A good bit cheaper then caller.up('[' + callback + ']') for (scope = caller.up(); scope && !scope[callback]; scope = scope.up()) { // empty } //<debug> if (!scope || !Ext.isFunction(scope[callback])) { Ext.raise('No such method "' + callback + '" found up() from ' + scope.getId ? scope.getId() : scope.id); } //</debug> } else if ((!scope || namedScope) && caller) { scope = caller.resolveListenerScope(namedScope ? scope : defaultScope); } //<debug> if (!scope || !Ext.isObject(scope)) { Ext.raise('Named method "' + callback + '" requires a scope object'); } if (!Ext.isFunction(scope[callback])) { Ext.raise('No method named "' + callback + '" on ' + (scope.$className || 'scope object')); } //</debug> callback = scope[callback]; } else if (namedScope) { scope = defaultScope || caller; } else if (!scope) { scope = caller; } var ret; if (callback && Ext.isFunction(callback)) { scope = scope || Ext.global; if (delay) { Ext.defer(callback, delay, scope, args); } else { ret = args ? callback.apply(scope, args) : callback.call(scope); } } return ret; }, /** * @method coerce * @member Ext * Coerces the first value if possible so that it is comparable to the second value. * * Coercion only works between the basic atomic data types String, Boolean, Number, Date, null and undefined. * * Numbers and numeric strings are coerced to Dates using the value as the millisecond era value. * * Strings are coerced to Dates by parsing using the {@link Ext.Date#defaultFormat defaultFormat}. * * For example * * Ext.coerce('false', true); * * returns the boolean value `false` because the second parameter is of type `Boolean`. * * @param {Mixed} from The value to coerce * @param {Mixed} to The value it must be compared against * @return The coerced value. */ coerce: function (from, to) { var fromType = Ext.typeOf(from), toType = Ext.typeOf(to), isString = typeof from === 'string'; if (fromType !== toType) { switch (toType) { case 'string': return String(from); case 'number': return Number(from); case 'boolean': // See http://ecma262-5.com/ELS5_HTML.htm#Section_11.9.3 as to why '0'. // TL;DR => ('0' == 0), so if given string '0', we must return boolean false. return isString && (!from || from === 'false' || from === '0') ? false : Boolean(from); case 'null': return isString && (!from || from === 'null') ? null : false; case 'undefined': return isString && (!from || from === 'undefined') ? undefined : false; case 'date': return isString && isNaN(from) ? Ext.Date.parse(from, Ext.Date.defaultFormat) : Date(Number(from)); } } return from; }, /** * @method copyTo * @member Ext * Copies a set of named properties fom the source object to the destination object. * * Example: * * var foo = { a: 1, b: 2, c: 3 }; * * var bar = Ext.copyTo({}, foo, 'a,c'); * // bar = { a: 1, c: 3 }; * * Important note: To borrow class prototype methods, use {@link Ext.Base#borrow} instead. * * @param {Object} dest The destination object. * @param {Object} source The source object. * @param {String/String[]} names Either an Array of property names, or a comma-delimited list * of property names to copy. * @param {Boolean} [usePrototypeKeys=false] Pass `true` to copy keys off of the * prototype as well as the instance. * @return {Object} The `dest` object. * @deprecated 6.0.1 Use {@link Ext#copy Ext.copy} instead. This old method * would copy the named preoperties even if they did not exist in the source which * could produce `undefined` values in the destination. */ copyTo: function (dest, source, names, usePrototypeKeys) { if (typeof names === 'string') { names = names.split(Ext.propertyNameSplitRe); } for (var name, i = 0, n = names ? names.length : 0; i < n; i++) { name = names[i]; if (usePrototypeKeys || source.hasOwnProperty(name)) { dest[name] = source[name]; } } return dest; }, /** * @method copy * @member Ext * Copies a set of named properties fom the source object to the destination object. * * Example: * * var foo = { a: 1, b: 2, c: 3 }; * * var bar = Ext.copy({}, foo, 'a,c'); * // bar = { a: 1, c: 3 }; * * Important note: To borrow class prototype methods, use {@link Ext.Base#borrow} instead. * * @param {Object} dest The destination object. * @param {Object} source The source object. * @param {String/String[]} names Either an Array of property names, or a comma-delimited list * of property names to copy. * @param {Boolean} [usePrototypeKeys=false] Pass `true` to copy keys off of the * prototype as well as the instance. * @return {Object} The `dest` object. */ copy: function (dest, source, names, usePrototypeKeys) { if (typeof names === 'string') { names = names.split(Ext.propertyNameSplitRe); } for (var name, i = 0, n = names ? names.length : 0; i < n; i++) { name = names[i]; // Only copy a property if the source actually *has* that property. // If we are including prototype properties, then ensure that a property of // that name can be found *somewhere* in the prototype chain (otherwise we'd be copying undefined in which may break things) if (source.hasOwnProperty(name) || (usePrototypeKeys && name in source)) { dest[name] = source[name]; } } return dest; }, propertyNameSplitRe: /[,;\s]+/, /** * @method copyToIf * @member Ext * Copies a set of named properties fom the source object to the destination object * if the destination object does not already have them. * * Example: * * var foo = { a: 1, b: 2, c: 3 }; * * var bar = Ext.copyToIf({ a:42 }, foo, 'a,c'); * // bar = { a: 42, c: 3 }; * * @param {Object} destination The destination object. * @param {Object} source The source object. * @param {String/String[]} names Either an Array of property names, or a single string * with a list of property names separated by ",", ";" or spaces. * @return {Object} The `dest` object. * @deprecated 6.0.1 Use {@link Ext#copyIf Ext.copyIf} instead. This old method * would copy the named preoperties even if they did not exist in the source which * could produce `undefined` values in the destination. */ copyToIf: function (destination, source, names) { if (typeof names === 'string') { names = names.split(Ext.propertyNameSplitRe); } for (var name, i = 0, n = names ? names.length : 0; i < n; i++) { name = names[i]; if (destination[name] === undefined) { destination[name] = source[name]; } } return destination; }, /** * @method copyIf * @member Ext * Copies a set of named properties fom the source object to the destination object * if the destination object does not already have them. * * Example: * * var foo = { a: 1, b: 2, c: 3 }; * * var bar = Ext.copyIf({ a:42 }, foo, 'a,c'); * // bar = { a: 42, c: 3 }; * * @param {Object} destination The destination object. * @param {Object} source The source object. * @param {String/String[]} names Either an Array of property names, or a single string * with a list of property names separated by ",", ";" or spaces. * @return {Object} The `dest` object. */ copyIf: function (destination, source, names) { if (typeof names === 'string') { names = names.split(Ext.propertyNameSplitRe); } for (var name, i = 0, n = names ? names.length : 0; i < n; i++) { name = names[i]; // Only copy a property if the destination has no property by that name if (!(name in destination) && (name in source)) { destination[name] = source[name]; } } return destination; }, /** * @method extend * @member Ext * This method deprecated. Use {@link Ext#define Ext.define} instead. * @param {Function} superclass * @param {Object} overrides * @return {Function} The subclass constructor from the <tt>overrides</tt> parameter, or a generated one if not provided. * @deprecated 4.0.0 Use {@link Ext#define Ext.define} instead */ extend: (function () { // inline overrides var objectConstructor = Object.prototype.constructor, inlineOverrides = function (o) { var m; for (m in o) { if (!o.hasOwnProperty(m)) { continue; } this[m] = o[m]; } }; return function(subclass, superclass, overrides) { // First we check if the user passed in just the superClass with overrides if (Ext.isObject(superclass)) { overrides = superclass; superclass = subclass; subclass = overrides.constructor !== objectConstructor ? overrides.constructor : function() { superclass.apply(this, arguments); }; } //<debug> if (!superclass) { Ext.raise({ sourceClass: 'Ext', sourceMethod: 'extend', msg: 'Attempting to extend from a class which has not been loaded on the page.' }); } //</debug> // We create a new temporary class var F = function() {}, subclassProto, superclassProto = superclass.prototype; F.prototype = superclassProto; subclassProto = subclass.prototype = new F(); subclassProto.constructor = subclass; subclass.superclass = superclassProto; if (superclassProto.constructor === objectConstructor) { superclassProto.constructor = superclass; } subclass.override = function(overrides) { Ext.override(subclass, overrides); }; subclassProto.override = inlineOverrides; subclassProto.proto = subclassProto; subclass.override(overrides); subclass.extend = function(o) { return Ext.extend(subclass, o); }; return subclass; }; }()), /** * Indicates if the page is currently running in online or offline mode, according * to the `navigator.onLine` property. * @return {Boolean} `true` if the page is currently running in an online mode. * * @since 6.2.1 */ isOnline: function() { return Ext.global.navigator.onLine; }, /** * @method iterate * @member Ext * Iterates either an array or an object. This method delegates to * {@link Ext.Array#each Ext.Array.each} if the given value is iterable, and {@link Ext.Object#each Ext.Object.each} otherwise. * * @param {Object/Array} object The object or array to be iterated. * @param {Function} fn The function to be called for each iteration. See and {@link Ext.Array#each Ext.Array.each} and * {@link Ext.Object#each Ext.Object.each} for detailed lists of arguments passed to this function depending on the given object * type that is being iterated. * @param {Object} [scope] The scope (`this` reference) in which the specified function is executed. * Defaults to the object being iterated itself. */ iterate: function(object, fn, scope) { if (Ext.isEmpty(object)) { return; } if (scope === undefined) { scope = object; } if (Ext.isIterable(object)) { Ext.Array.each.call(Ext.Array, object, fn, scope); } else { Ext.Object.each.call(Ext.Object, object, fn, scope); } }, _resourcePoolRe: /^[<]([^<>@:]*)(?:[@]([^<>@:]+))?[>](.+)$/, /** * Resolves a resource URL that may contain a resource pool identifier token at the * front. The tokens are formatted as HTML tags "<poolName@packageName>" followed * by a normal relative path. This token is only processed if present at the first * character of the given string. * * These tokens are parsed and the pieces are then passed to the * {@link Ext#getResourcePath} method. * * For example: * * [{ * xtype: 'image', * src: '<shared>images/foo.png' * },{ * xtype: 'image', * src: '<@package>images/foo.png' * },{ * xtype: 'image', * src: '<shared@package>images/foo.png' * }] * * In the above example, "shared" is the name of a Sencha Cmd resource pool and * "package" is the name of a Sencha Cmd package. * @member Ext * @param {String} url The URL that may contain a resource pool token at the front. * @return {String} * @since 6.0.1 */ resolveResource: function (url) { var ret = url, m; if (url && url.charAt(0) === '<') { m = Ext._resourcePoolRe.exec(url); if (m) { ret = Ext.getResourcePath(m[3], m[1], m[2]); } } return ret; }, /** * * @member Ext * @method urlEncode * @inheritdoc Ext.Object#toQueryString * @deprecated 4.0.0 Use {@link Ext.Object#toQueryString} instead */ urlEncode: function () { var args = Ext.Array.from(arguments), prefix = ''; // Support for the old `pre` argument if (Ext.isString(args[1])) { prefix = args[1] + '&'; args[1] = false; } return prefix + Ext.Object.toQueryString.apply(Ext.Object, args); }, /** * Alias for {@link Ext.Object#fromQueryString}. * * @member Ext * @method urlDecode * @inheritdoc Ext.Object#fromQueryString * @deprecated 4.0.0 Use {@link Ext.Object#fromQueryString} instead */ urlDecode: function() { return Ext.Object.fromQueryString.apply(Ext.Object, arguments); }, /** * @method getScrollbarSize * @member Ext * Returns the size of the browser scrollbars. This can differ depending on * operating system settings, such as the theme or font size. * @param {Boolean} [force] true to force a recalculation of the value. * @return {Object} An object containing scrollbar sizes. * @return {Number} return.width The width of the vertical scrollbar. * @return {Number} return.height The height of the horizontal scrollbar. */ getScrollbarSize: function (force) { //<debug> if (!Ext.isDomReady) { Ext.raise("getScrollbarSize called before DomReady"); } //</debug> var scrollbarSize = Ext._scrollbarSize; if (force || !scrollbarSize) { var db = document.body, div = document.createElement('div'), h, w; div.style.width = div.style.height = '100px'; div.style.overflow = 'scroll'; div.style.position = 'absolute'; db.appendChild(div); // now we can measure the div... // at least in iE9 the div is not 100px - the scrollbar size is removed! Ext._scrollbarSize = scrollbarSize = { width: w = div.offsetWidth - div.clientWidth, height: h = div.offsetHeight - div.clientHeight }; scrollbarSize.reservedWidth = w ? 'calc(100% - ' + w + 'px)' : ''; scrollbarSize.reservedHeight = h ? 'calc(100% - ' + h + 'px)' : ''; db.removeChild(div); } return scrollbarSize; }, /** * @method typeOf * @member Ext * Returns the type of the given variable in string format. List of possible values are: * * - `undefined`: If the given value is `undefined` * - `null`: If the given value is `null` * - `string`: If the given value is a string * - `number`: If the given value is a number * - `boolean`: If the given value is a boolean value * - `date`: If the given value is a `Date` object * - `function`: If the given value is a function reference * - `object`: If the given value is an object * - `array`: If the given value is an array * - `regexp`: If the given value is a regular expression * - `element`: If the given value is a DOM Element * - `textnode`: If the given value is a DOM text node and contains something other than whitespace * - `whitespace`: If the given value is a DOM text node and contains only whitespace * * @param {Object} value * @return {String} */ typeOf: (function () { var nonWhitespaceRe = /\S/, toString = Object.prototype.toString, typeofTypes = { number: 1, string: 1, 'boolean': 1, 'undefined': 1 }, toStringTypes = { '[object Array]' : 'array', '[object Date]' : 'date', '[object Boolean]': 'boolean', '[object Number]' : 'number', '[object RegExp]' : 'regexp' }; return function(value) { if (value === null) { return 'null'; } var type = typeof value, ret, typeToString; if (typeofTypes[type]) { return type; } ret = toStringTypes[typeToString = toString.call(value)]; if (ret) { return ret; } if (type === 'function') { return 'function'; } if (type === 'object') { if (value.nodeType !== undefined) { if (value.nodeType === 3) { return nonWhitespaceRe.test(value.nodeValue) ? 'textnode' : 'whitespace'; } else { return 'element'; } } return 'object'; } //<debug> Ext.raise({ sourceClass: 'Ext', sourceMethod: 'typeOf', msg: 'Failed to determine the type of "' + value + '".' }); //</debug> return typeToString; }; }()), /** * A global factory method to instantiate a class from a config object. For example, * these two calls are equivalent: * * Ext.factory({ text: 'My Button' }, 'Ext.Button'); * Ext.create('Ext.Button', { text: 'My Button' }); * * If an existing instance is also specified, it will be updated with the supplied config object. This is useful * if you need to either create or update an object, depending on if an instance already exists. For example: * * var button; * button = Ext.factory({ text: 'New Button' }, 'Ext.Button', button); // Button created * button = Ext.factory({ text: 'Updated Button' }, 'Ext.Button', button); // Button updated * * @param {Object} config The config object to instantiate or update an instance with. * @param {String} [classReference] The class to instantiate from (if there is a default). * @param {Object} [instance] The instance to update. * @param [aliasNamespace] * @member Ext * @deprecated 6.5.0 Use the {@link Ext.Factory#method!update update} method of the * associated factory instead. */ factory: function(config, classReference, instance, aliasNamespace) { var manager = Ext.ClassManager, newInstance; // If config is falsy or a valid instance, destroy the current instance // (if it exists) and replace with the new one if (!config || config.isInstance) { if (instance && instance !== config) { instance.destroy(); } return config; } if (aliasNamespace) { // If config is a string value, treat it as an alias if (typeof config === 'string') { return manager.instantiateByAlias(aliasNamespace + '.' + config); } // Same if 'type' is given in config else if (Ext.isObject(config) && 'type' in config) { return manager.instantiateByAlias(aliasNamespace + '.' + config.type, config); } } if (config === true) { //<debug> if (!instance && !classReference) { Ext.raise('[Ext.factory] Cannot determine type of class to create'); } //</debug> return instance || Ext.create(classReference); } //<debug> if (!Ext.isObject(config)) { Ext.raise("Invalid config, must be a valid config object"); } //</debug> if ('xtype' in config) { newInstance = manager.instantiateByAlias('widget.' + config.xtype, config); } else if ('xclass' in config) { newInstance = Ext.create(config.xclass, config); } if (newInstance) { if (instance) { instance.destroy(); } return newInstance; } if (instance) { return instance.setConfig(config); } return Ext.create(classReference, config); }, /** * This method converts an object containing config objects keyed by `itemId` into * an array of config objects. * * @param {Object} items An object containing config objects keyed by `itemId`. * @param {String} [defaultProperty="xtype"] The property to set for string items. * @param functionProperty * @return {Object[]} * @member Ext * @since 6.5.0 * @private */ convertKeyedItems: function (items, defaultProperty, functionProperty) { if (items && !items.isInstance && Ext.isObject(items)) { var obj = items, item, itemId, value; items = []; // See if obj looks like a single thing if (obj.xtype || obj.xclass || obj.itemId || obj.id) { items.push(obj); } else { for (itemId in obj) { item = obj[itemId]; if (item) { if (item === true) { item = {}; } else if (typeof item === 'function') { //<debug> if (!functionProperty) { Ext.raise('Function not expected here'); } //</debug> value = item; item = {}; item[functionProperty] = value; } else if (typeof item === 'string') { value = item; item = {}; item[defaultProperty || 'xtype'] = value; } else { item = Ext.apply({}, item); } item.itemId = itemId; items.push(item); } } } } return items; }, /** * Comparison function for sorting an array of objects in ascending order of `weight`. * @param {Object} lhs * @param {Object} rhs * @return {Number} * @member Ext * @private * @since 6.5.0 */ weightSortFn: function (lhs, rhs) { return (lhs.weight || 0) - (rhs.weight || 0); }, /** * Concatenate 2 arrays. If either argument is `null` or `undefined` then it's not * concatenated. * * @param {Object/Object[]} a * @param {Ojbect/Object[]} b * @return {Object[]} * @private * @since 6.5.1 */ concat: function(a, b) { var noB = b == null, E = Ext.emptyArray; return (a == null) ? (noB ? a : E.concat(b)) : (noB ? E.concat(a) : E.concat(a, b)); }, /** * @method log * @member Ext * Logs a message. If a console is present it will be used. On Opera, the method * "opera.postError" is called. In other cases, the message is logged to an array * "Ext.log.out". An attached debugger can watch this array and view the log. The * log buffer is limited to a maximum of "Ext.log.max" entries (defaults to 250). * * If additional parameters are passed, they are joined and appended to the message. * A technique for tracing entry and exit of a function is this: * * function foo () { * Ext.log({ indent: 1 }, '>> foo'); * * // log statements in here or methods called from here will be indented * // by one step * * Ext.log({ outdent: 1 }, '<< foo'); * } * * This method does nothing in a release build. * * @param {String/Object} [options] The message to log or an options object with any * of the following properties: * * - `msg`: The message to log (required). * - `level`: One of: "error", "warn", "info" or "log" (the default is "log"). * - `dump`: An object to dump to the log as part of the message. * - `stack`: True to include a stack trace in the log. * - `indent`: Cause subsequent log statements to be indented one step. * - `outdent`: Cause this and following statements to be one step less indented. * * @param {String...} [message] The message to log (required unless specified in * options object). */ log: //<debug> (function () { /* * Iterate through an object to dump its content into a string. * For example: * { * style: { * lineWidth: 1 * }, * label: {}, * marker: { * strokeStyle: "#555", * radius: 3, * size: 3 * }, * subStyle: { * fillStyle: [ * 0: "#133987", * 1: "#1c55ca", * 2: "#4d7fe6" * ] * }, * markerSubStyle: {} * } * * @param {Object} object The object to iterate * @param {Number} [level] Current level of identation (and recursion). Default is 0. * @param {Number} [maxLevel] Maximum level of recursion. Default is 3. * @param {Boolean} [withFunctions] Include functions in the output. * @return {String} The string with the contents of the object */ var primitiveRe = /string|number|boolean/; function dumpObject (object, level, maxLevel, withFunctions) { var member, type, value, name, prefix, suffix, members = []; if (Ext.isArray(object)) { prefix = '['; suffix = ']'; } else if (Ext.isObject(object)) { prefix = '{'; suffix = '}'; } if (!maxLevel) { maxLevel = 3; } if (level > maxLevel) { return prefix+'...'+suffix; } level = level || 1; var spacer = (new Array(level)).join(' '); // Cannot use Ext.encode since it can recurse endlessly for (name in object) { if (object.hasOwnProperty(name)) { value = object[name]; type = typeof value; if (type === 'function') { if (!withFunctions) { continue; } member = type; } else if (type === 'undefined') { member = type; } else if (value === null || primitiveRe.test(type) || Ext.isDate(value)) { member = Ext.encode(value); } else if (Ext.isArray(value)) { member = dumpObject(value, level+1, maxLevel, withFunctions); } else if (Ext.isObject(value)) { member = dumpObject(value, level+1, maxLevel, withFunctions); } else { member = type; } members.push(spacer + name + ': ' + member); // or Ext.encode(name) } } if (members.length) { return prefix + '\n '+ members.join(',\n ') + '\n'+spacer+suffix; } return prefix+suffix; } function log (message) { var options, dump, con = Ext.global.console, level = 'log', indent = log.indent || 0, prefix, stack, fn, out, max; log.indent = indent; if (typeof message !== 'string') { options = message; message = options.msg || ''; level = options.level || level; dump = options.dump; stack = options.stack; prefix = options.prefix; fn = options.fn; if (options.indent) { ++log.indent; } else if (options.outdent) { log.indent = indent = Math.max(indent - 1, 0); } if (dump && !(con && con.dir)) { message += dumpObject(dump); dump = null; } } if (arguments.length > 1) { message += Array.prototype.slice.call(arguments, 1).join(''); } if (prefix) { message = prefix + ' - ' + message; } message = indent ? Ext.String.repeat(' ', log.indentSize * indent) + message : message; // w/o console, all messages are equal, so munge the level into the message: if (level !== 'log') { message = '[' + level.charAt(0).toUpperCase() + '] ' + message; } if (fn) { message += '\nCaller: ' + fn.toString(); } // Not obvious, but 'console' comes and goes when Firebug is turned on/off, so // an early test may fail either direction if Firebug is toggled. // if (con) { // if (Firebug-like console) if (con[level]) { con[level](message); } else { con.log(message); } if (dump) { con.dir(dump); } if (stack && con.trace) { // Firebug's console.error() includes a trace already... if (!con.firebug || level !== 'error') { con.trace(); } } } else if (Ext.isOpera) { opera.postError(message); // jshint ignore:line } else { out = log.out; max = log.max; if (out.length >= max) { // this formula allows out.max to change (via debugger), where the // more obvious "max/4" would not quite be the same Ext.Array.erase(out, 0, out.length - 3 * Math.floor(max / 4)); // keep newest 75% } out.push(message); } // Mostly informational, but the Ext.Error notifier uses them: ++log.count; ++log.counters[level]; } function logx (level, args) { if (typeof args[0] === 'string') { args.unshift({}); } args[0].level = level; log.apply(this, args); } log.error = function () { logx('error', Array.prototype.slice.call(arguments)); }; log.info = function () { logx('info', Array.prototype.slice.call(arguments)); }; log.warn = function () { logx('warn', Array.prototype.slice.call(arguments)); }; log.count = 0; log.counters = { error: 0, warn: 0, info: 0, log: 0 }; log.indentSize = 2; log.out = []; log.max = 750; return log; }()) || //</debug> (function () { var nullLog = function () {}; nullLog.info = nullLog.warn = nullLog.error = Ext.emptyFn; return nullLog; }())});