Is it possible to extend the console object?
I tried something like:
Console.prototype.log = function(msg){
Console.prototype.log.call(msg);
alert(msg);
}
But this didn't work.
I want to add additional logging to the console object via a framework like log4javascript and still use the standard console object (in cases where log4javascript is not available) in my code.
Thanks in advance!
Try following:
(function() {
var exLog = console.log;
console.log = function(msg) {
exLog.apply(this, arguments);
alert(msg);
}
})()
You Can Also add log Time in This Way :
added Momentjs or use New Date() instead of moment.
var oldConsole = console.log;
console.log = function(){
var timestamp = "[" + moment().format("YYYY-MM-DD HH:mm:ss:SSS") + "] ";
Array.prototype.unshift.call(arguments, timestamp);
oldConsole.apply(this, arguments);
};
It's really the same solution some others have given, but I believe this is the most elegant and least hacky way to accomplish this. The spread syntax (...args) makes sure not a single argument is lost.
var _console={...console}
console.log = function(...args) {
var msg = {...args}[0];
//YOUR_CODE
_console.log(...args);
}
For ECMAScript 2015 and later
You can use the newer Proxy feature from the ECMAScript 2015 standard to "hijack" the global console.log.
Source-Code
'use strict';
class Mocker {
static mockConsoleLog() {
Mocker.oldGlobalConsole = window.console;
window.console = new Proxy(window.console, {
get(target, property) {
if (property === 'log') {
return function(...parameters) {
Mocker.consoleLogReturnValue = parameters.join(' ');
}
}
return target[property];
}
});
}
static unmockConsoleLog() {
window.console = Mocker.oldGlobalConsole;
}
}
Mocker.mockConsoleLog();
console.log('hello'); // nothing happens here
Mocker.unmockConsoleLog();
if (Mocker.consoleLogReturnValue === 'hello') {
console.log('Hello world!'); // Hello world!
alert(Mocker.consoleLogReturnValue);
// anything you want to do with the console log return value here...
}
Online Demo
Repl.it.
Node.js users...
... I do not forget you. You can take this source-code and replace window.console by gloabl.console to properly reference the console object (and of course, get rid of the alert call). In fact, I wrote this code initially and tested it on Node.js.
// console aliases and verbose logger - console doesnt prototype
var c = console;
c.l = c.log,
c.e = c.error,
c.v = c.verbose = function() {
if (!myclass || !myclass.verbose) // verbose switch
return;
var args = Array.prototype.slice.call(arguments); // toArray
args.unshift('Verbose:');
c.l.apply(this, args); // log
};
// you can then do
var myclass = new myClass();
myclass.prototype.verbose = false;
// generally these calls would be inside your class
c.v('1 This will NOT log as verbose == false');
c.l('2 This will log');
myclass.verbose = true;
c.v('3 This will log');
I noted that the above use of Array.prototype.unshift.call by nitesh is a better way to add the 'Verbose:' tag.
You can override the default behavior of the console.log function using the below approach, the below example demonstrates to log the line number using the overridden function.
let line = 0;
const log = console.log;
console.log = (...data) => log(`${++line} ===>`, ...data)
console.log(11, 1, 2)
console.log(11, 1, 'some')
Classical (non-js) approach to overloading:
function myFunc(){
//code
}
function myFunc(overloaded){
//other code
}
Javascript wont let more than one function be defined with the same name. As such, things like this show up:
function myFunc(options){
if(options["overloaded"]){
//code
}
}
Is there a better workaround for function overloading in javascript other than passing an object with the overloads in it?
Passing in overloads can quickly cause a function to become too verbose because each possible overload would then need a conditional statement. Using functions to accomplish the //code inside of those conditional statements can cause tricky situations with scopes.
There are multiple aspects to argument overloading in Javascript:
Variable arguments - You can pass different sets of arguments (in both type and quantity) and the function will behave in a way that matches the arguments passed to it.
Default arguments - You can define a default value for an argument if it is not passed.
Named arguments - Argument order becomes irrelevant and you just name which arguments you want to pass to the function.
Below is a section on each of these categories of argument handling.
Variable Arguments
Because javascript has no type checking on arguments or required qty of arguments, you can just have one implementation of myFunc() that can adapt to what arguments were passed to it by checking the type, presence or quantity of arguments.
jQuery does this all the time. You can make some of the arguments optional or you can branch in your function depending upon what arguments are passed to it.
In implementing these types of overloads, you have several different techniques you can use:
You can check for the presence of any given argument by checking to see if the declared argument name value is undefined.
You can check the total quantity or arguments with arguments.length.
You can check the type of any given argument.
For variable numbers of arguments, you can use the arguments pseudo-array to access any given argument with arguments[i].
Here are some examples:
Let's look at jQuery's obj.data() method. It supports four different forms of usage:
obj.data("key");
obj.data("key", value);
obj.data();
obj.data(object);
Each one triggers a different behavior and, without using this dynamic form of overloading, would require four separate functions.
Here's how one can discern between all these options in English and then I'll combine them all in code:
// get the data element associated with a particular key value
obj.data("key");
If the first argument passed to .data() is a string and the second argument is undefined, then the caller must be using this form.
// set the value associated with a particular key
obj.data("key", value);
If the second argument is not undefined, then set the value of a particular key.
// get all keys/values
obj.data();
If no arguments are passed, then return all keys/values in a returned object.
// set all keys/values from the passed in object
obj.data(object);
If the type of the first argument is a plain object, then set all keys/values from that object.
Here's how you could combine all of those in one set of javascript logic:
// method declaration for .data()
data: function(key, value) {
if (arguments.length === 0) {
// .data()
// no args passed, return all keys/values in an object
} else if (typeof key === "string") {
// first arg is a string, look at type of second arg
if (typeof value !== "undefined") {
// .data("key", value)
// set the value for a particular key
} else {
// .data("key")
// retrieve a value for a key
}
} else if (typeof key === "object") {
// .data(object)
// set all key/value pairs from this object
} else {
// unsupported arguments passed
}
},
The key to this technique is to make sure that all forms of arguments you want to accept are uniquely identifiable and there is never any confusion about which form the caller is using. This generally requires ordering the arguments appropriately and making sure that there is enough uniqueness in the type and position of the arguments that you can always tell which form is being used.
For example, if you have a function that takes three string arguments:
obj.query("firstArg", "secondArg", "thirdArg");
You can easily make the third argument optional and you can easily detect that condition, but you cannot make only the second argument optional because you can't tell which of these the caller means to be passing because there is no way to identify if the second argument is meant to be the second argument or the second argument was omitted so what's in the second argument's spot is actually the third argument:
obj.query("firstArg", "secondArg");
obj.query("firstArg", "thirdArg");
Since all three arguments are the same type, you can't tell the difference between different arguments so you don't know what the caller intended. With this calling style, only the third argument can be optional. If you wanted to omit the second argument, it would have to be passed as null (or some other detectable value) instead and your code would detect that:
obj.query("firstArg", null, "thirdArg");
Here's a jQuery example of optional arguments. both arguments are optional and take on default values if not passed:
clone: function( dataAndEvents, deepDataAndEvents ) {
dataAndEvents = dataAndEvents == null ? false : dataAndEvents;
deepDataAndEvents = deepDataAndEvents == null ? dataAndEvents : deepDataAndEvents;
return this.map( function () {
return jQuery.clone( this, dataAndEvents, deepDataAndEvents );
});
},
Here's a jQuery example where the argument can be missing or any one of three different types which gives you four different overloads:
html: function( value ) {
if ( value === undefined ) {
return this[0] && this[0].nodeType === 1 ?
this[0].innerHTML.replace(rinlinejQuery, "") :
null;
// See if we can take a shortcut and just use innerHTML
} else if ( typeof value === "string" && !rnoInnerhtml.test( value ) &&
(jQuery.support.leadingWhitespace || !rleadingWhitespace.test( value )) &&
!wrapMap[ (rtagName.exec( value ) || ["", ""])[1].toLowerCase() ] ) {
value = value.replace(rxhtmlTag, "<$1></$2>");
try {
for ( var i = 0, l = this.length; i < l; i++ ) {
// Remove element nodes and prevent memory leaks
if ( this[i].nodeType === 1 ) {
jQuery.cleanData( this[i].getElementsByTagName("*") );
this[i].innerHTML = value;
}
}
// If using innerHTML throws an exception, use the fallback method
} catch(e) {
this.empty().append( value );
}
} else if ( jQuery.isFunction( value ) ) {
this.each(function(i){
var self = jQuery( this );
self.html( value.call(this, i, self.html()) );
});
} else {
this.empty().append( value );
}
return this;
},
Named Arguments
Other languages (like Python) allow one to pass named arguments as a means of passing only some arguments and making the arguments independent of the order they are passed in. Javascript does not directly support the feature of named arguments. A design pattern that is commonly used in its place is to pass a map of properties/values. This can be done by passing an object with properties and values or in ES6 and above, you could actually pass a Map object itself.
Here's a simple ES5 example:
jQuery's $.ajax() accepts a form of usage where you just pass it a single parameter which is a regular Javascript object with properties and values. Which properties you pass it determine which arguments/options are being passed to the ajax call. Some may be required, many are optional. Since they are properties on an object, there is no specific order. In fact, there are more than 30 different properties that can be passed on that object, only one (the url) is required.
Here's an example:
$.ajax({url: "http://www.example.com/somepath", data: myArgs, dataType: "json"}).then(function(result) {
// process result here
});
Inside of the $.ajax() implementation, it can then just interrogate which properties were passed on the incoming object and use those as named arguments. This can be done either with for (prop in obj) or by getting all the properties into an array with Object.keys(obj) and then iterating that array.
This technique is used very commonly in Javascript when there are large numbers of arguments and/or many arguments are optional. Note: this puts an onus on the implementating function to make sure that a minimal valid set of arguments is present and to give the caller some debug feedback what is missing if insufficient arguments are passed (probably by throwing an exception with a helpful error message).
In an ES6 environment, it is possible to use destructuring to create default properties/values for the above passed object. This is discussed in more detail in this reference article.
Here's one example from that article:
function selectEntries({ start=0, end=-1, step=1 } = {}) {
···
};
Then, you can call this like any of these:
selectEntries({start: 5});
selectEntries({start: 5, end: 10});
selectEntries({start: 5, end: 10, step: 2});
selectEntries({step: 3});
selectEntries();
The arguments you do not list in the function call will pick up their default values from the function declaration.
This creates default properties and values for the start, end and step properties on an object passed to the selectEntries() function.
Default values for function arguments
In ES6, Javascript adds built-in language support for default values for arguments.
For example:
function multiply(a, b = 1) {
return a*b;
}
multiply(5); // 5
Further description of the ways this can be used here on MDN.
Overloading a function in JavaScript can be done in many ways. All of them involve a single master function that either performs all the processes, or delegates to sub-functions/processes.
One of the most common simple techniques involves a simple switch:
function foo(a, b) {
switch (arguments.length) {
case 0:
//do basic code
break;
case 1:
//do code with `a`
break;
case 2:
default:
//do code with `a` & `b`
break;
}
}
A more elegant technique would be to use an array (or object if you're not making overloads for every argument count):
fooArr = [
function () {
},
function (a) {
},
function (a,b) {
}
];
function foo(a, b) {
return fooArr[arguments.length](a, b);
}
That previous example isn't very elegant, anyone could modify fooArr, and it would fail if someone passes in more than 2 arguments to foo, so a better form would be to use a module pattern and a few checks:
var foo = (function () {
var fns;
fns = [
function () {
},
function (a) {
},
function (a, b) {
}
];
function foo(a, b) {
var fnIndex;
fnIndex = arguments.length;
if (fnIndex > foo.length) {
fnIndex = foo.length;
}
return fns[fnIndex].call(this, a, b);
}
return foo;
}());
Of course your overloads might want to use a dynamic number of parameters, so you could use an object for the fns collection.
var foo = (function () {
var fns;
fns = {};
fns[0] = function () {
};
fns[1] = function (a) {
};
fns[2] = function (a, b) {
};
fns.params = function (a, b /*, params */) {
};
function foo(a, b) {
var fnIndex;
fnIndex = arguments.length;
if (fnIndex > foo.length) {
fnIndex = 'params';
}
return fns[fnIndex].apply(this, Array.prototype.slice.call(arguments));
}
return foo;
}());
My personal preference tends to be the switch, although it does bulk up the master function. A common example of where I'd use this technique would be a accessor/mutator method:
function Foo() {} //constructor
Foo.prototype = {
bar: function (val) {
switch (arguments.length) {
case 0:
return this._bar;
case 1:
this._bar = val;
return this;
}
}
}
You cannot do method overloading in strict sense. Not like the way it is supported in java or c#.
The issue is that JavaScript does NOT natively support method overloading. So, if it sees/parses two or more functions with a same names it’ll just consider the last defined function and overwrite the previous ones.
One of the way I think is suitable for most of the case is follows -
Lets say you have method
function foo(x)
{
}
Instead of overloading method which is not possible in javascript you can define a new method
fooNew(x,y,z)
{
}
and then modify the 1st function as follows -
function foo(x)
{
if(arguments.length==2)
{
return fooNew(arguments[0], arguments[1]);
}
}
If you have many such overloaded method consider using switch than just if-else statements.
(more details)
PS: Above link goes to my personal blog that has additional details on this.
I am using a bit different overloading approach based on arguments number.
However i believe John Fawcett's approach is also good.
Here the example, code based on John Resig's (jQuery's Author) explanations.
// o = existing object, n = function name, f = function.
function overload(o, n, f){
var old = o[n];
o[n] = function(){
if(f.length == arguments.length){
return f.apply(this, arguments);
}
else if(typeof o == 'function'){
return old.apply(this, arguments);
}
};
}
usability:
var obj = {};
overload(obj, 'function_name', function(){ /* what we will do if no args passed? */});
overload(obj, 'function_name', function(first){ /* what we will do if 1 arg passed? */});
overload(obj, 'function_name', function(first, second){ /* what we will do if 2 args passed? */});
overload(obj, 'function_name', function(first,second,third){ /* what we will do if 3 args passed? */});
//... etc :)
I tried to develop an elegant solution to this problem described here. And you can find the demo here. The usage looks like this:
var out = def({
'int': function(a) {
alert('Here is int '+a);
},
'float': function(a) {
alert('Here is float '+a);
},
'string': function(a) {
alert('Here is string '+a);
},
'int,string': function(a, b) {
alert('Here is an int '+a+' and a string '+b);
},
'default': function(obj) {
alert('Here is some other value '+ obj);
}
});
out('ten');
out(1);
out(2, 'robot');
out(2.5);
out(true);
The methods used to achieve this:
var def = function(functions, parent) {
return function() {
var types = [];
var args = [];
eachArg(arguments, function(i, elem) {
args.push(elem);
types.push(whatis(elem));
});
if(functions.hasOwnProperty(types.join())) {
return functions[types.join()].apply(parent, args);
} else {
if (typeof functions === 'function')
return functions.apply(parent, args);
if (functions.hasOwnProperty('default'))
return functions['default'].apply(parent, args);
}
};
};
var eachArg = function(args, fn) {
var i = 0;
while (args.hasOwnProperty(i)) {
if(fn !== undefined)
fn(i, args[i]);
i++;
}
return i-1;
};
var whatis = function(val) {
if(val === undefined)
return 'undefined';
if(val === null)
return 'null';
var type = typeof val;
if(type === 'object') {
if(val.hasOwnProperty('length') && val.hasOwnProperty('push'))
return 'array';
if(val.hasOwnProperty('getDate') && val.hasOwnProperty('toLocaleTimeString'))
return 'date';
if(val.hasOwnProperty('toExponential'))
type = 'number';
if(val.hasOwnProperty('substring') && val.hasOwnProperty('length'))
return 'string';
}
if(type === 'number') {
if(val.toString().indexOf('.') > 0)
return 'float';
else
return 'int';
}
return type;
};
In javascript you can implement the function just once and invoke the function without the parameters myFunc() You then check to see if options is 'undefined'
function myFunc(options){
if(typeof options != 'undefined'){
//code
}
}
https://github.com/jrf0110/leFunc
var getItems = leFunc({
"string": function(id){
// Do something
},
"string,object": function(id, options){
// Do something else
},
"string,object,function": function(id, options, callback){
// Do something different
callback();
},
"object,string,function": function(options, message, callback){
// Do something ca-raaaaazzzy
callback();
}
});
getItems("123abc"); // Calls the first function - "string"
getItems("123abc", {poop: true}); // Calls the second function - "string,object"
getItems("123abc", {butt: true}, function(){}); // Calls the third function - "string,object,function"
getItems({butt: true}, "What what?" function(){}); // Calls the fourth function - "object,string,function"
No Problem with Overloading in JS , The pb how to maintain a clean code when overloading function ?
You can use a forward to have clean code, based on two things:
Number of arguments (when calling the function).
Type of arguments (when calling the function)
function myFunc(){
return window['myFunc_'+arguments.length+Array.from(arguments).map((arg)=>typeof arg).join('_')](...arguments);
}
/** one argument & this argument is string */
function myFunc_1_string(){
}
//------------
/** one argument & this argument is object */
function myFunc_1_object(){
}
//----------
/** two arguments & those arguments are both string */
function myFunc_2_string_string(){
}
//--------
/** Three arguments & those arguments are : id(number),name(string), callback(function) */
function myFunc_3_number_string_function(){
let args=arguments;
new Person(args[0],args[1]).onReady(args[3]);
}
//--- And so on ....
How about using a proxy (ES6 Feature)?
I didn't find anywhere mentioning this method of doing it. It might be impractical but it's an interesting way nonetheless.
It's similar to Lua's metatables, where you can "overload" the call operator with the __call metamethod in order to achieve overloading.
In JS, it can be done with the apply method in a Proxy handler. You can check the arguments' existence, types, etc. inside the said method, without having to do it in the actual function.
MDN: proxy apply method
function overloads() {}
overloads.overload1 = (a, b) => {
return a + b;
}
overloads.overload2 = (a, b, c) => {
return a + b + c;
}
const overloadedFn = new Proxy(overloads, { // the first arg needs to be an Call-able object
apply(target, thisArg, args) {
if (args[2]) {
return target.overload2(...args);
}
return target.overload1(...args);
}
})
console.log(overloadedFn(1, 2, 3)); // 6
console.log(overloadedFn(1, 2)); // 3
Check this out:
http://www.codeproject.com/Articles/688869/Overloading-JavaScript-Functions
Basically in your class, you number your functions that you want to be overloaded and then with one function call you add function overloading, fast and easy.
Since JavaScript doesn't have function overload options object can be used instead. If there are one or two required arguments, it's better to keep them separate from the options object. Here is an example on how to use options object and populated values to default value in case if value was not passed in options object.
function optionsObjectTest(x, y, opts) {
opts = opts || {}; // default to an empty options object
var stringValue = opts.stringValue || "string default value";
var boolValue = !!opts.boolValue; // coerces value to boolean with a double negation pattern
var numericValue = opts.numericValue === undefined ? 123 : opts.numericValue;
return "{x:" + x + ", y:" + y + ", stringValue:'" + stringValue + "', boolValue:" + boolValue + ", numericValue:" + numericValue + "}";
}
here is an example on how to use options object
For this you need to create a function that adds the function to an object, then it will execute depending on the amount of arguments you send to the function:
<script >
//Main function to add the methods
function addMethod(object, name, fn) {
var old = object[name];
object[name] = function(){
if (fn.length == arguments.length)
return fn.apply(this, arguments)
else if (typeof old == 'function')
return old.apply(this, arguments);
};
}
 var ninjas = {
values: ["Dean Edwards", "Sam Stephenson", "Alex Russell"]
};
//Here we declare the first function with no arguments passed
addMethod(ninjas, "find", function(){
return this.values;
});
//Second function with one argument
addMethod(ninjas, "find", function(name){
var ret = [];
for (var i = 0; i < this.values.length; i++)
if (this.values[i].indexOf(name) == 0)
ret.push(this.values[i]);
return ret;
});
//Third function with two arguments
addMethod(ninjas, "find", function(first, last){
var ret = [];
for (var i = 0; i < this.values.length; i++)
if (this.values[i] == (first + " " + last))
ret.push(this.values[i]);
return ret;
});
//Now you can do:
ninjas.find();
ninjas.find("Sam");
ninjas.find("Dean", "Edwards")
</script>
How about using spread operator as a parameter? The same block can be called with Multiple parameters. All the parameters are added into an array and inside the method you can loop in based on the length.
function mName(...opt){
console.log(opt);
}
mName(1,2,3,4); //[1,2,3,4]
mName(1,2,3); //[1,2,3]
I like to add sub functions within a parent function to achieve the ability to differentiate between argument groups for the same functionality.
var doSomething = function() {
var foo;
var bar;
};
doSomething.withArgSet1 = function(arg0, arg1) {
var obj = new doSomething();
// do something the first way
return obj;
};
doSomething.withArgSet2 = function(arg2, arg3) {
var obj = new doSomething();
// do something the second way
return obj;
};
What you are trying to achieve is best done using the function's local arguments variable.
function foo() {
if (arguments.length === 0) {
//do something
}
if (arguments.length === 1) {
//do something else
}
}
foo(); //do something
foo('one'); //do something else
You can find a better explanation of how this works here.
(() => {
//array that store functions
var Funcs = []
/**
* #param {function} f overload function
* #param {string} fname overload function name
* #param {parameters} vtypes function parameters type descriptor (number,string,object....etc
*/
overloadFunction = function(f, fname, ...vtypes) {
var k,l, n = false;
if (!Funcs.hasOwnProperty(fname)) Funcs[fname] = [];
Funcs[fname].push([f, vtypes?vtypes: 0 ]);
window[fname] = function() {
for (k = 0; k < Funcs[fname].length; k++)
if (arguments.length == Funcs[fname][k][0].length) {
n=true;
if (Funcs[fname][k][1]!=0)
for(i=0;i<arguments.length;i++)
{
if(typeof arguments[i]!=Funcs[fname][k][1][i])
{
n=false;
}
}
if(n) return Funcs[fname][k][0].apply(this, arguments);
}
}
}
})();
//First sum function definition with parameter type descriptors
overloadFunction(function(a,b){return a+b},"sum","number","number")
//Second sum function definition with parameter with parameter type descriptors
overloadFunction(function(a,b){return a+" "+b},"sum","string","string")
//Third sum function definition (not need parameter type descriptors,because no other functions with the same number of parameters
overloadFunction(function(a,b,c){return a+b+c},"sum")
//call first function
console.log(sum(4,2));//return 6
//call second function
console.log(sum("4","2"));//return "4 2"
//call third function
console.log(sum(3,2,5));//return 10
//ETC...
This question already has answers here:
Test for existence of nested JavaScript object key
(64 answers)
Closed 8 years ago.
I have to check deeply-nested object property such as YAHOO.Foo.Bar.xyz.
The code I'm currently using is
if (YAHOO && YAHOO.Foo && YAHOO.Foo.Bar && YAHOO.Foo.Bar.xyz) {
// operate on YAHOO.Foo.Bar.xyz
}
This works, but looks clumsy.
Is there any better way to check such deeply nested property?
If you expect YAHOO.Foo.Bar to be a valid object, but want to make your code bulletproof just in case it isn't, then it can be cleanest to just put a try catch around it and let one error handler catch any missing segment. Then, you can just use one if condition instead of four that will detect if the terminal property exists and a catch handler to catch things if the intermediate objects don't exist:
try {
if (YAHOO.Foo.Bar.xyz) {
// operate on YAHOO.Foo.Bar.xyz
} catch(e) {
// handle error here
}
or, depending upon how your code works, it might even just be this:
try {
// operate on YAHOO.Foo.Bar.xyz
} catch(e) {
// do whatever you want to do when YAHOO.Foo.Bar.xyz doesn't exist
}
I particularly use these when dealing with foreign input that is supposed to be of a particular format, but invalid input is a possibility that I want to catch and handle myself rather than just letting an exception propagate upwards.
In general, some javascript developers under-use try/catch. I find that I can sometimes replace 5-10 if statements checking input with a single try/catch around a larger function block and make the code a lot simpler and more readable at the same time. Obviously, when this is appropriate depends upon the particular code, but it's definitely worth considering.
FYI, if the usual operation is to not throw an exception with the try/catch, it can be a lot faster than a bunch of if statements too.
If you don't want to use the exception handler, you can create a function to test any arbitrary path for you:
function checkPath(base, path) {
var current = base;
var components = path.split(".");
for (var i = 0; i < components.length; i++) {
if ((typeof current !== "object") || (!current.hasOwnProperty(components[i]))) {
return false;
}
current = current[components[i]];
}
return true;
}
Example usage:
var a = {b: {c: {d: 5}}};
if (checkPath(a, "b.c.d")) {
// a.b.c.d exists and can be safely accessed
}
var _ = {};
var x = ((YAHOO.Foo || _).Bar || _).xyz;
Consider this utility function:
function defined(ref, strNames) {
var name;
var arrNames = strNames.split('.');
while (name = arrNames.shift()) {
if (!ref.hasOwnProperty(name)) return false;
ref = ref[name];
}
return true;
}
Usage:
if (defined(YAHOO, 'Foo.Bar.xyz')) {
// operate on YAHOO.Foo.Bar.xyz
}
Live demo: http://jsfiddle.net/DWefK/5/
If you need to check the correctness of the path, rather than the existance of the "xyz" member on the "YAHOO.Foo.Bar" object, it will probably be easiest to wrap the call in a try catch:
var xyz;
try {
xyz = YAHOO.Foo.Bar.xyz;
} catch (e) {
// fail;
};
Alternately, you can do some string-kong-fu-magicTM:
function checkExists (key, obj) {
obj = obj || window;
key = key.split(".");
if (typeof obj !== "object") {
return false;
}
while (key.length && (obj = obj[key.shift()]) && typeof obj == "object" && obj !== null) ;
return (!key.length && typeof obj !== "undefined");
}
The use as follows:
if (checkExists("YAHOO.Foo.Bar.xyz")) {
// Woo!
};
This problem is solved quite beautifully by coffeescript (which compiles down to javascript):
if YAHOO.Foo?.Bar?.xyz
// operate on YAHOO.Foo.Bar.xyz
use a try catch.
a={
b:{}
};
//a.b.c.d?true:false; Errors and stops the program.
try{
a.b.c.d;
}
catch(e){
console.log(e);//Log the error
console.log(a.b);//This will run
}
I actually voted to close the question as duplicate of javascript convert dotnotation string into objects.
However, I guess it's a different topic, but the answer there might still be helpful if you don't want to try-catch all the time.
Looks like I've re-invented the wheel, but somehow this isn't working in Internet Explorer 9, but does in IE6.
function debug()
if(!window.console) {
window.console = { log: function() { /* do something */ } };
}
console.log.apply(console, arguments);
}
Related:
Apply() question for javascript
F12 Debugger tells me that this "object" (console.log) does not support method 'apply'.
Is it not even recognized as a function?
Any other pointers or ideas?
The second part of an answer I gave recently answers this question too. I don't consider this a duplicate of that one so, for convenience, I'll paste it here:
The console object is not part of any standard and is an extension to the Document Object Model. Like other DOM objects, it is considered a host object and is not required to inherit from Object, nor its methods from Function, like native ECMAScript functions and objects do. This is the reason apply and call are undefined on those methods. In IE 9, most DOM objects were improved to inherit from native ECMAScript types. As the developer tools are considered an extension to IE (albeit, a built-in extension), they clearly didn't receive the same improvements as the rest of the DOM.
For what it's worth, you can still use some Function.prototype methods on console methods with a little bind() magic:
var log = Function.prototype.bind.call(console.log, console);
log.apply(console, ["this", "is", "a", "test"]);
//-> "thisisatest"
So you could fix up all the console methods for IE 9 in the same manner:
if (Function.prototype.bind && window.console && typeof console.log == "object"){
[
"log","info","warn","error","assert","dir","clear","profile","profileEnd"
].forEach(function (method) {
console[method] = this.bind(console[method], console);
}, Function.prototype.call);
}
This replaces the "host" functions with native functions that call the "host" functions. You can get it working in Internet Explorer 8 by including the compatibility implementations for Function.prototype.bind and Array.prototype.forEach in your code, or rewriting the above snippet to incorporate the techniques used by those methods.
See also
console.log typeof is "object" instead of "function" - Microsoft Connect (Live account required)
There is also Paul Irish's way of doing it. It is simpler than some of the answers above, but makes log always output an array (even if only one argument was passed in):
// usage: log('inside coolFunc',this,arguments);
// http://paulirish.com/2009/log-a-lightweight-wrapper-for-consolelog/
window.log = function(){
log.history = log.history || []; // store logs to an array for reference
log.history.push(arguments);
if(this.console){
console.log( Array.prototype.slice.call(arguments) );
}
};
Several of IE's host object functions aren't really JavaScript functions and so don't have apply or call. (alert, for example.)
So you'll have to do it the hard way:
function debug()
var index;
if(!window.console) {
window.console = { log: function() { /* do something */ } };
}
for (index = 0; index < arguments.length; ++index) {
console.log(arguments[index]);
}
}
I came across the same IE trouble and made a routine for it.
It is not as fancy as all the above implementations, but it works in ALL modern browsers.
I tested it with Firefox (Firebug), IE 7,8,9 Chrome and Opera.
It makes use of the evil EVAL, but you will only want to debug in development.
Afterwards you will replace the code with debug = function () {};
So here it is.
Regards, Hans
(function(ns) {
var msgs = [];
// IE compatiblity
function argtoarr (args,from) {
var a = [];
for (var i = from || 0; i<args.length; i++) a.push(args[i]);
return a;
}
function log(arg) {
var params = "", format = "", type , output,
types = {
"number" : "%d",
"object" : "{%o}",
"array" : "[%o]"
};
for (var i=0; i<arg.length; i++) {
params += (params ? "," : "")+"arg["+i+"]";
type = types[toType(arg[i])] || "%s";
if (type === "%d" && parseFloat(arg[i]) == parseInt(arg[i], 10)) type = "%f";
format += (format ? "," : "")+type;
}
// opera does not support string format, so leave it out
output = "console.log("+(window.opera ? "" : "'%f',".replace("%f",format))+"%p);".replace("%p",params);
eval(output);
}
ns.debug = function () {
msgs.push(argtoarr(arguments));
if (console !== undefined) while (msgs.length>0) log(msgs.shift());
}
})(window);
Oops forgot my toType function, here it is.
function toType(obj) {
if (obj === undefined) return "undefined";
if (obj === null) return "null";
var m = obj.constructor;
if (!m) return "window";
m = m.toString().match(/(?:function|\[object)\s*([a-z|A-Z|0-9|_|#]*)/);
return m[1].toLowerCase();
}
Ok, it works when you write it this way:
function debug()
if(!window.console) {
window.console = {};
console.log = function() { /* do something */ };
}
console.log.apply(console, arguments);
}
Odd behaviour... but if you write it this way 'console.log' gets recognized as a function.
The reason I came to this question was that I as trying to 'spicy' the console.log function for a specific module, so I'd have more localized and insightful debug info by playing a bit with the arguments, IE 9 broke it.
#Andy E answer is great and helped me with lots of insight about apply. I just don't take the same approach to support IE9, so my solution is running the console only on "modern browsers" (being that modern means whatever browsers that behave the way I expect =)
var C = function() {
var args = Array.prototype.slice.call(arguments);
var console = window.console;
args[0] = "Module X: "+args[0];
if( typeof console == 'object' && console.log && console.log.apply ){
console.log.apply(console, args);
}
};
Try:
function log(type) {
if (typeof console !== 'undefined' && typeof console.log !== 'undefined' &&
console[type] && Function.prototype.bind) {
var log = Function.prototype.bind.call(console[type], console);
log.apply(console, Array.prototype.slice.call(arguments, 1));
}
}
log('info', 'test', 'pass');
log('error', 'test', 'fail');
Works for log, debug, info, warn, error, group or groupEnd.