(Question 1)
In Flanagan's JS Definitive Guide, he defines the Function
method bind()
in case it's not available (wasn't available n ECMAScript 3).
It looks like this:
function bind(f, o) {
if (f.bind) return f.bind(o); // Use the bind method, if there is one
else return function() { // Otherwise, bind it like this
return f.apply(o, arguments);
};
}
He illustrates the use of it with an example (which I have modified to change the 3rd line from f.bind(o)
):
function f(y) { return this.x + y; } // This function needs to be bound
var o = { x : 1 }; // An object we'll bind to
var g = bind(f, o); // Calling g(x) invokes o.f(x)
g(2) // => 3
When I first saw this, I thought "Wouldn't arguments
refer to the arguments variable within the bind function we're defining? But we want the arguments property of the function we eventually apply it to, like g in the example above..."
I verified that his example did indeed work and surmised that the line return f.apply(o, arguments)
isn't evaluated until var g = bind(f, o)
up above. That is, I thought, when you return a function, are you just returning the source code for that function, no? Until its evaluated? So I tested this theory by trying out a slightly different version of bind:
function mybind2(f, o) {
var arguments = 6;
return function() { // Otherwise, bind it like this
return f.apply(o, arguments);
};
}
If it's simply returning tbe unevaluated function source, there's no way that it stores arguments = 6
when later evaluated, right? And after checking, I still got g(2)
=> 3. But then I realized -- if it's just returning unevaluated code, how is the o
in return f.apply(o, arguments)
getting passed?
So I decided that what must be happening is this:
The o
and the arguments
variables (even when arguments
equals 6) are getting passed on to the function. It's just that when the function g
is eventually called, the arguments
variable is redefined by the interpreter to be the arguments of g
(in g(2)
) and hence the original value of arguments that I tried to pass on was replaced. But this implies that it was sort of storing the function as text up until then, because otherwise o
and arguments
would have simply been data in the program, rather than variables that could be overwritten. Is this explanation correct?
(Question 2) Earlier on the same page, he defines the following function which makes use the apply
method to trace a function for debugging:
function trace(o, m) {
var original = o[m]; // Remember original method in the closure.
o[m] = function() { // Now define the new method.
console.log(new Date(), "Entering:", m); // Log message.
var result = original.apply(this, arguments); // Invoke original.
console.log(new Date(), "Exiting:", m); // Log message.
return result; // Return result.
};
}
Wouldn't the this
here refer to the function that we're defining, rather than the object o
? Or are those two things one and the same?