Are named functions or anonymous functions preferred in JavaScript?

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JavaScript: var functionName = function() {} vs function functionName() {}

There are two possible methods for pulling out a function in Javascript:

var foo = function() { ... }

(this is a bit contrived; another common pattern is:

var foo = {
    baz: 43,
    doSomething:function() {
        ...
    }
}

)

versus

function foo() { ... }

Is there an explicit reason to prefer one or the other?


It all comes down to preference to where you declare your functions; hoisting.

Function declarations and variable declarations are always moved ("hoisted") invisibly to the top of their containing scope by the JavaScript interpreter. Function parameters and language-defined names are, obviously, already there. This means that code like this:

function foo() {
    bar();
    var x = 1;
}

is actually interpreted like this:

function foo() {
    var x;
    bar();
    x = 1;
}

Notice that the assignment portion of the declarations were not hoisted. Only the name is hoisted. This is not the case with function declarations, where the entire function body will be hoisted as well.

function test() {
    foo(); // TypeError "foo is not a function"
    bar(); // "this will run!"
    var foo = function () { // function expression assigned to local variable 'foo'
        alert("this won't run!");
    }
    function bar() { // function declaration, given the name 'bar'
        alert("this will run!");
    }
}
test();

In this case, only the function declaration has its body hoisted to the top. The name 'foo' is hoisted, but the body is left behind, to be assigned during execution.

You can give names to functions defined in function expressions, with syntax like a function declaration. This does not make it a function declaration, and the name is not brought into scope, nor is the body hoisted.

foo(); // TypeError "foo is not a function"
bar(); // valid
baz(); // TypeError "baz is not a function"
bin(); // ReferenceError "bin is not defined"

var foo = function () {}; // anonymous function expression ('foo' gets hoisted)
function bar() {}; // function declaration ('bar' and the function body get hoisted)
var baz = function bin() {}; // named function expression (only 'baz' gets hoisted)

foo(); // valid
bar(); // valid
baz(); // valid
bin(); // ReferenceError "bin is not defined"

So, if your preference is to have functions hoist to the top use a function declaration otherwise use expression . I prefer the latter as I typically build object literals with methods as function expressions .

Named function expressions can be handy when errors are thrown. The console will tell you what the function is instead of stating anonymous aka stack trace .


You've hit on a couple different things here, but I'll try to hit your main question first.

In general....

function() { ... } is a function expression. Syntaxically this is on the same level as 2 or [4,5] . This represents a value . So doing var foo=function(){ ... } will work as planned, every time.

function foo() { ... } is a function declaration. This might seem to do the same thing as var foo=function(){...} , but there's a small caveat. As its a declaration, it works similar to the concept of variable hoisting in JS (basically, all variable declarations are done before any expressions are evaluated).

A good example is from here:

function test() {
    foo(); // TypeError "foo is not a function"
    bar(); // "this will run!"
    var foo = function () { // function expression assigned to local variable 'foo'
        alert("this won't run!");
    }
    function bar() { // function declaration, given the name 'bar'
        alert("this will run!");
    }
}
test();

Basically variable hoisting has brought the value up to the top, so this code is equivalent (in theory) to :

function test() {
    var foo;//foo hoisted to top
    var bar=function(){//this as well
        alert("this will run!");
    }

    foo(); // TypeError "foo is not a function"
    bar(); // "this will run!"
    var foo = function () { // function expression assigned to local variable 'foo'
        alert("this won't run!");
    }
}

NB: I'd like to take this spot to say that JS interpreters have a hard time following theory, so trusting them on somewhat iffy behaviour is not recommended. Here you'll find a good example at the end of a section where theory and practice end up not working (there are also some more details on the topic of expressions vs declarations).

Fun fact: wrapping function foo() {...} in parentheses transforms it from a declaration to an expression, which can lead to some weird looking code like

(function foo() { return 1; })();// 1
foo; //ReferenceError: foo is not defined

Don't do this if you don't have a reason to, please.


Summary var foo=function(){ ... } is *sorta kinda * the same as function foo(){ ... } except that the former does what you think it does where you think it should whereas the latter does weird stuff unless you wrap it in parens, but that messes up the scope, and JS interpreters allow you to do things that are considered syntax errors in the spec so you're led to believe that wrong things are in fact right, etc....

please use function expressions ( var f=function(){...} ). There's no real reason not to, especially considering you're somewhat forced to do it when you're using dot syntax.


On to the second thing you touched.....

I'm not really sure what to say, it's kinda sorta completely different from everything else about this.

var foo = {
    baz: 43,
    doSomething:function() {
        ...
    }
}

this is known as object literal syntax. JSON, which is based off of this syntax, is a pretty neat way of formatting data, and this syntax in JS is often used to declare new objects, with singleton objects for example(avoiding all the mess with declaring a function and using new ). It can also be used in the same way XML is used, and is preferred by all the cool kids...

Anyways, basically object literal syntax works like this:

{ name1: val1, .... namek:valk }

This expression is an object with certain values initialised on it. so doing var obj={ name1: val1, .... namek:valk } means that :

obj.name1==val1;
obj['name1']==val1;// x['y'] is the same thing as x.y 
...
obj.namek==valk;

So what does this have to do with our example? Basically your expression is often used to declare singleton objects. But it can also be used to declare an object prototype, so someone can later do var newObj=Object.create(foo) , and newObj will have foo as a prototype.

Look into prototypal inheritence in detail if you want to really get how useful it is. Douglas Crockford talks about it in detail in one of his many talks).


There are few advantages to naming functions

  • names for meta analysis. functionInstance.name will show you the name.
  • Far more importantly, the name will be printed in stack traces.
  • names also help write self documenting or literate code.
  • There is a single disadvantage to named functions expressions

  • IE has memory leaks for NFE
  • There are no disadvantages to function declarations apart from less stylistic control

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