In Haskell there are two functions that allow one to perform an operation on a list of items in order to reduce it to a single value. (There are more than two, of course, but these are the two I'm interested in.) They are `foldl1`

and `foldr1`

. If the operation to be performed is commutative (such as addition), it doesn't matter which of these you use. The result will be the same. However, if the operation is *not* commutative (e.g., subtraction), then the two produce very different results. For example:

```
foldr1 (-) [1..9]
foldl1 (-) [1..9]
```

The answer to the first one is 5 and to the second, -43. The J equivalent of `foldr1`

is the insert adverb, `/`

, e.g.,

```
-/ 1+i.9
```

which is the equivalent of `foldr1 (-) [1..9]`

. I want to create an adverb in J that works like the insert adverb, but folds left instead of right. The best I could come up with is the following:

```
foldl =: 1 : 'u~/@|.'
```

Thus, one could say:

```
- foldl 1+i.9
```

and get -43 as the answer, which is what is expected from a left fold.

Is there a better way to do this in J? For some reason, reversing the `y`

argument does not seem efficient to me. Perhaps there is a way to do this without having to resort to that.