## Example

The `List.fold_left`

and `List.fold_right`

functions are higher-order functions that implement the outer logic of list aggregation. Aggregating a list, sometimes also referred to as reducing a list, means computing a value derived from the sequential inspection of all items in that list.

The documentation of the List module states that

`List.fold_left f a [b1; ...; bn]`

is `f (... (f (f a b1) b2) ...) bn`

.
`List.fold_right f [a1; ...; an] b`

is `f a1 (f a2 (... (f an b) ...))`

. (This latter function is not tail-recursive.)

In plain English computing `List.fold_left f a [b1; ...; bn]`

amounts to running through the list `[b1; ...; bn]`

keeping track of an *accumulator* initially set to `a`

: each time we see an item in the list, we use `f`

to update the value of the accumulator, and when we are done, the accumulator is the final value of our computation. The `List.fold_right`

function is similar.

Here are a few practical examples:

### Compute the total sum of a list of numbers

```
List.fold_left ( + ) 0 lst
```

### Compute the average of a list of floats

```
let average lst =
let (sum, n) =
List.fold_left (fun (sum, n) x -> (sum +. x, n + 1)) (0.0, 0) lst
in
sum /. (float_of_int n)
```

### Re-implement basic list processing

The functions `List.fold_left`

and `List.fold_right`

are so general that they can be used to implement almost every other functions from the list module:

```
let list_length lst = (* Alternative implementation to List.length *)
List.fold_left ( + ) 0 lst
let list_filter predicate lst = (* Alternative implementation to List.filter *)
List.fold_right (fun a b -> if predicate a then a :: b else b) lst []
```

It is even possible to reimplement the `List.iter`

function, remember that `()`

is the global state of the program to interpret this code as a further example of *list aggregation*:

```
let list_iter f lst = (* Alternation implementation to List.iter *)
List.fold_left (fun () b -> f b) () lst
```

These examples are meant to be learning material, these implementations have no virtue over the corresponding functions from the standard library.