## Some general thoughts

First of all, list comprehensions are just syntactic sugar, so there should be no inherent difference apart from readability.

But note that list comprehensions actually **unify** at least three higher-order functions, namely `map`

, `filter`

and `concatMap`

into *one* syntax. So in non-trivial cases where one would need complex combinations of these, the syntax can have big readability advantages.

Besides that, one can conveniently use value bindings to store results and make things even clearer:

```
[ (x, y) | x <- [1..10],
y <- [1..10],
let dist = (x - 5)² + (y - 5)²,
dist < 10² ]
```

But anyway, list comprehensions can be made much more general than just processing lists. Basically, they can process any `Monad`

using a uniform and convenient syntax. F# for example even extends this into controlling arbitrary programm flows.

Secondly, being even more abstract than the usual higher-order functions, list comprehensions *could* actually be faster, because the compiler can take advantage of optimization laws that would otherwise be up to the programmer to be considered.

```
[ x + 1 | x <- numbers, even x ]
```

The straightforward translation would be

```
map (\x -> x + 1) (filter even x)
```

where the list is iterated through *twice*, producing a worthless intermediate result.

The compiler however could recogize and optimize the above pattern and produce a direct, optimized `filterMap`

version.