I have an assignment where we are not supposed to use any higher order functions, could a list comprehension be classified as a higher order function?

  • 16
    I think this is debatable enough that in reality, only whoever made the assignment can tell whether it's allowed. Mar 15, 2015 at 0:53
  • I can't say yes but I can't say no either; list comprehensions aren't functions (should be safe to use for your assignment). Mar 15, 2015 at 8:37
  • My feeling is that the restriction "do not use higher order functions" could be meant to force students into using explicit recursion. It's not crystal clear, though.
    – chi
    Mar 15, 2015 at 9:27

2 Answers 2


A list comprehension in Haskell is just syntactic sugar. It is defined in the Haskell 2010 Report here like so:

[ e | True ]          = [e]
[ e | q ]             = [ e | q, True ]
[ e | b, Q  ]         = if b then [ e | Q ] else []
[ e | p <- l, Q ]     = let ok p = [ e | Q ]
                            ok _ = []
                        in concatMap ok  l
[ e | let decls, Q ]  = let decls in [ e | Q ]

Note the use of Q, which ranges over qualifiers (which can include functions), in the patterns. So the answer is yes, a list comprehension is higher-order.

  • 5
    One possible translation (assuming no language extensions) is given in the List Comprehensions section of the Report, and does not mention Monad at all; it does use concatMap, which happens to be similar to the bind for the monad, but it can be completely independent. Of course concatMap is just as much a higher-order function as (>>=) is. Mar 15, 2015 at 3:31
  • @DanielWagner I got my information from this wiki page. But the report, of course, should be the basis for judgement. I will edit my answer.
    – d3dave
    Mar 15, 2015 at 3:38
  • 1
    @d3dave Using higher order functions to define something does not make it higher order. I can say ys = map f xs, which uses map which is higher order, but that does not make ys higher order.
    – Abhay
    Mar 15, 2015 at 13:51
  • @Abhay: yes, but Q in the list comprehension ranges over qualifiers, which can include functions, and is used in the ok function. So it would be more correct to mention the usage Q in the pattern perhaps.
    – d3dave
    Mar 15, 2015 at 13:55
  • 1
    I mean to say, whatever is used inside, the result of a list comprehension is a list. And a list is a non-function value, so order-zero.
    – Abhay
    Mar 15, 2015 at 14:00

”Higher order" has a specific meaning. If a function takes an argument which is a function (or returns a function), the former is said to be higher order. (For example: map.)

List comprehensions are expressions representing list values, not functions. So the answer is: No.

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