When implementing an `Alternative f`

(or `MonadPlus f`

) instance, you have to select a monoid over `f a`

and implement it using `empty`

and `<|>`

. For some structures, such as lists, there can be several possibilities. The most natural monoidal operation for lists is their concatenation (with `[]`

being the identity element). Taking the first non-empty element, as you suggest, is also a possibility, but not as natural for lists. Your operation almost ignores the structure (the length) of lists, it only checks if a list is empty or not. And it doesn't add anything new, because this kind of monoidal operation is already available as `Maybe`

's instance of `Alternative`

, which is designed to represent (non)empty values.

This is also reflected in the instance of `MonadPlus`

of `[]`

. As described on HaskellWiki, there are two possible sets of laws for instances of `MonadPlus`

:

- Monoid + LeftZero + LeftDistribution - statisfied by
`[]`

- Monoid + LeftZero + LeftCatch - statisfied by
`Maybe`

, `IO`

and `STM`

.

If we chose your implementation of `Alternative`

and `MonadPlus`

, then we'd have only instances satisfying `... + LeftCatch`

, nothing satisfying LeftDistribution. And again, `MonadPlus`

of `[]`

wouldn't be very different from `MonadPlus`

of `Maybe`

. And we wouldn't have anything that would enable us to solve things like the send+more=money puzzle. So it's much more interesting to choose the `mplus`

/`<|>`

of `[]`

to be concatenation.

`Maybe`

, not`[]`

. – Louis Wasserman Jan 7 '13 at 17:33`[] <|> [1] <|> [2,3]`

to mean the same as`[1,2,3]`

. – AndrewC Jan 16 '13 at 22:58