I see that reduce is being passed an anonymous function rather than the combine function

That is not really true. The anonymous function *is* the `combine`

function.

`combine(base, element)`

vs `function(total, element)`

these two function calls essentially equal to each other: combine(base,element) and function(total,element)?

No, they're completely different things.

The former a function call, to a function referenced by `combine`

.

The second, however, evaluates to a new function value. In the case of:

```
reduce(function(total, element) {...}, ...);
```

`reduce()`

is being passed a function value, what this means is, that a *new function* is **created**, a function that accepts two parameters (denoted by `total`

and `element`

). This function is then passed to `reduce`

.

Let me recycle my visualization from yesterday. It is important to realize, that this does not only apply to *your case*, but it applies to *every* embodiment of the *reduce(left)* concept.

```
return value of reduce()
/
etc ...
/
combine
/ \
combine xs[2]
/ \
combine xs[1]
/ \
0 xs[0]
```

Of course, this only shows *what* happens, not the *how* and I think in your case you're asking for *how*. Just keep this visualization in mind to see what the result is going to do.

## Substituting functions

To make it more clear what is going on, I'm going to gradually substitute the functions that are being passed around.

**Start of the program:**

```
function countZeroes(array) {
return count(equals(0), array);
}
```

`equals(0)`

(you could call this a form of currying) evaluates to a function, that is being passed to `count()`

.

This results in basically the following `count()`

function:

```
function count(array) {
return reduce(function(total, element) { // Where is the value for total coming from?
return total + (0 == element ? 1 : 0);
}, 0, array);
}
```

From here, we can extract the `combine`

argument:

```
function combine(total, element) { // Where is the value for total coming from?
return total + (0 == element ? 1 : 0);
}
```

That is the function, that is used within the reduce function:

```
function reduce(base = 0, array) {
forEach(array, function (element) {
base = combine(base, element);
});
return base;
}
```

`reduce(0, array)`

is called from the `count()`

function. The function that is passed to `forEach`

could now be rewritten like this, taking into our account implementation of `combine`

:

```
function reduce(base = 0, array) {
forEach(array, function (element) {
base = base + (0 == element ? 1 : 0);
});
return base;
}
```

Keep in mind, that `base`

represents our `total`

.

As our final step, we take into account what `forEach()`

does.

```
function reduce(base = 0, array) {
for (var i = 0; i < array.length; i++)
base = base + (0 == array[i] ? 1 : 0);
}
return base;
}
```

So this is what `count()`

essentially looks like, all calls unwrapped:

```
function count(array) {
var base = 0;
for (var i = 0; i < array.length; i++)
base = base + (0 == array[i] ? 1 : 0);
}
return base;
}
```

`base`

is being passed as the`total`

argument, as far as I can tell.`base`

here is 0, so`total`

is 0 in that evaluation. – Asad Saeeduddin Nov 3 '12 at 20:04