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0.0.5 • Public • Published

deFunc v0.0.3

A powerful JavaScript helper function for specifying both required parameters and optional parameters with default values.

wrapped = deFunc(wrappee, offset, defaults);


  • wrappee A function to which you want to add deFunc functionality
  • offset A number that represents the zero-based offset into wrappee's parameters where the defaults begin
  • defaults An array of default values for wrappee's parameters

Parameters that are given default values become optional parameters. Otherwise, they become required parameters.

Basic Usage

Let's say that you have a function with the signature:

function([A, B, C])

NOTE Square brackets are used in function signatures as a short-hand to denote optional parameters. You would not use them in actual JavaScript code.

In this function, all the parameters are completely optional but you usually want to make sure that the parameters are all set to some some reasonable defaults if not provided by the caller. To do this you would use deFunc like this:

var foo = function(A, B, C) { /* function body */ };
var bar = deFunc(foo, 0, ["a", "b", "c"]);
bar(); // -> foo(    "a",     "b",  "c")
bar("new_a"); // -> foo("new_a",     "b",  "c")
bar("new_a", "new_b"); // -> foo("new_a", "new_b",  "c")

Optional parameters are always filled in from left to right. To set C, you must first provide both A and B.

More Usage

deFunc does not require that every function parameter is provided some default. Parameters without a default value automatically become required parameters.

Required parameters will throw a ReferenceError if they are not provided by the caller. With deFunc enforcing required parameters for you, your functions don't have to worry about getting "undefined" where it shouldn't be.

Say you wanted a function with this signature:

function(A[, B[, C]])

Using the same foo function defined above you can change deFunc's offset parameter to 1 and remove the first element ("a") from the array. Now, foo's first parameter, A, is required while both B and C remain optional:

var bar = deFunc(foo, 1, ["b", "c"]);
bar(); // -> Throws a ReferenceError
bar("a'"); // -> foo("a'",      "b",  "c")
bar("a'", "new_b"); // -> foo("a'",  "new_b",  "c")

The real power of deFunc lies in deFunc's offset parameter. If you change the offset back to 0 you can instead define parameters A and B as optional and make C the one that is required.

This small change results in a function with this signature:

function([A, [B ,]] C)

As you can see by the way additional parameters are passed to foo below:

var bar = deFunc(foo, 0, ["a", "b"]);
bar(); // -> Throws a ReferenceError
bar("c'"); // -> foo("a",      "b",  "c'")
bar("new_a", "c'"); // -> foo("new_a",  "b",  "c'")


jQuery, for example, has many functions with a signature similar to this:

function(id[, options], callback)

Where the parameter options is completely optional but both id and callback are required. Usually, this means that immediately before the main body of code the function must have something like this:

if(typeof callback === "undefined") {
    callback = options;
    options = default_options;

This is done in order to place the parameters back into the correct arguments and also set options to some reasonable default. I call this practice parameter-swizzling due to the similarities such a method has in common with array swizzling used in GPU programming.

The problem is that parameter swizzling done in this way is error prone and it requires each of your functions to have a preamble that puts considerable distance between your function's definition and the real function body.

deFunc takes all the parameter-swizzling logic out of your functions so you can be sure that you always get every parameter in exactly the right locations along with default values filling in the parameters that are optional and were not provided by the caller.

To achieve the same result as the parameter-swizzling code shown above, you would simply use deFunc like this:

var foo = function(id, options, callback) { /* function body */ };
var bar = deFunc(foo, 1, [{default:options}]);

This tells deFunc to take the "foo" function (which takes three parameters) and return a new function that takes two required parameters (id and callback) with a single optional parameter (options).

deFunc takes care of the rest of the parameter-swizzling for you:

bar("#id"); // -> Throws a ReferenceError
bar("#id", fn); // -> foo("#id", {default:options}, fn)
bar("#id", {new:options}, fn); // -> foo("#id", {new:options},     fn)

Advanced Usage

Building on the example above, lets say that you wanted a function where both the options and the callback parameters were optional but the callback parameter had a higher precedence.

function(id [[, option], callback])

You can do this quite easily with deFunc by nesting deFunc calls. Using the same foo function already defined, you can wrap it twice using deFunc like this:

var foo = function(id, options, callback) { /* function body */ };
var baz = deFunc( deFunc(foo, 1, [{default:options}]), 1, [default_fn]);
baz("#id"); // -> foo("#id", {default:options}, default_fn)
baz("#id", fn); // -> foo("#id", {default:options},         fn)
baz("#id", {new:options}, fn); // -> foo("#id", {new:options},             fn)

Advanced Usage Explained

Even though the callback parameter is the third parameter in the original function (foo), when you wrapped foo with deFunc, callback became the second required parameter. deFunc is only concerned with required parameters.

That means when you go to wrap your function a second time, the offset has changed because only required parameters are able to be deFunc'd. In fact, deFunc will throw an error if you try to pass more defaults than there are required parameters remaining.

In order to visualize this process let's go step by step through the process of nesting deFunc calls and the results. Each function has the offsets explicitly shown below to help in understanding the process.

First, you start with:

foo     (A, B, C)
offsets  0  1  2     // Initially, all parameters are considered required

Then make offset 1 (B) optional with:

bar = deFunc(foo, 1, [B's default value])

Which resulting in:

bar     (A[, B], C) 
offsets  0       1    // B no longer has an "offset" value because it has become optional

Then make offset 1 (C) optional with:

baz = deFunc(bar, 1, [C's default value])

Which resulting in our final function:

baz     (A[[, B], C])
offsets  0            // Finally, only A has an "offset" value because it's the only remaining required parameter

I hope that helps!

Change History

0.0.3   -  Fixed deFunc-wrapped functions not returning values
0.0.2   -  Rewrote deFunc to make it more flexible and powerful
0.0.1   -  Initial release




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