Few things to mention here, before giving the actual answer:

- Your question doesn't have anything to do with
`left`

, it's rather about the difference between reducing and folding
- The difference is not the implementation at all, just look at the signatures.
- The question doesn't have anything to do with Scala in particular, it's rather about the two concepts of functional programming.

**Back to your question:**

Here is the signature of `foldLeft`

(could also have been `foldRight`

for the point I'm going to make):

```
def foldLeft [B] (z: B)(f: (B, A) => B): B
```

And here is the signature of `reduceLeft`

(again the direction doesn't matter here)

```
def reduceLeft [B >: A] (f: (B, A) => B): B
```

These two look very similar and thus caused the confusion. `reduceLeft`

is a special case of `foldLeft`

(which by the way means that you **sometimes** can express the same thing by using either of them).

When you call `reduceLeft`

say on a `List[Int]`

it will literally reduce the whole list of integers into a single value, which is going to be of type `Int`

(or a supertype of `Int`

, hence `[B >: A]`

).

When you call `foldLeft`

say on a `List[Int]`

it will fold the whole list (imagine rolling a piece of paper) into a single value, but this value doesn't have to be even related to `Int`

(hence `[B]`

).

Here is an example:

```
def listWithSum(numbers: List[Int]) = numbers.foldLeft((List[Int](), 0)) {
(resultingTuple, currentInteger) =>
(currentInteger :: resultingTuple._1, currentInteger + resultingTuple._2)
}
```

This method takes a `List[Int]`

and returns a `Tuple2[List[Int], Int]`

or `(List[Int] -> Int)`

. It calculates the sum and returns a tuple with a list of integers and it's sum. By the way the list is returned backwards, because we used `foldLeft`

instead of `foldRight`

.