Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I have a Haskell Map, containing strings as keys and some lambda functions as items . Eg.:

-- List of supported Operators -> mapping with functions
ops = Map.fromList [("+", \x y -> x + y),
                    ("-", \x y -> y - x),
                    ("*", \x y -> x * y),
                    ("/", \x y -> y / x)]

I want to write a function that takes as input:

  • A string representing an operator ["+", "-", "*", "/"]
  • Two numbers

Based on the operator and the ops map, the function will evaluate the sum/subtraction/etc. of the two numbers .

I've tried something like:

(Map.lookup "+" a) 1 2

But it's not working .

The error is:

Top level:
    No instance for (Show (Integer -> Integer))
      arising from use of `print' at Top level
    Probable fix: add an instance declaration for (Show (Integer
    In a 'do' expression: print it

    No instance for (Monad ((->) t))
      arising from use of `Data.Map.lookup' at <interactive>:1:1-
    Probable fix: add an instance declaration for (Monad ((->) t)
    In the definition of `it': it = (Data.Map.lookup "+" a) 1 2

... not very helpful for me.

Any suggestions ? Thank you !

share|improve this question
Note that you can just do [("+", (+)), ("-", (-)), ...] (the operator in parens is called a section and does the same thing as your lambdas more neatly; it also works for infix application of functions and when either argument is fixed, e.g. (`mod` 2) or (2/)). – delnan Jan 6 '11 at 12:15
@delnan Although he has the arguments to - and / the "wrong" way round to do that. – dave4420 Jan 6 '11 at 12:57
@Dave: Yes, silly me. Still, no need for an explicit lambda: flip (-) and flip (/) :) – delnan Jan 6 '11 at 12:58
Thanks for your answers . Eventually I followed Bill's advice, and the things worked as I espected . – Andrei Ciobanu Jan 6 '11 at 20:31
up vote 7 down vote accepted

lookup is of type lookup :: Ord k => k -> Map k a -> Maybe a. The result is wrapped in a Maybe to indicate that the key may not be present in the map.

Here's a way to do it that will work:

runOp :: String -> a -> a -> b
runOp key x y = case lookup key ops of
                  Just op -> op x y
                  Nothing -> error ("Couldn't find operator: " ++ key)

This will bottom out if the key is not present. You could also return an Either or Maybe result from runOp to accommodate the possibility that the key isn't present, but that's up to you.

Maybe is defined as follows:

data Maybe a = Just a | Nothing

that is, it either holds a result value or an empty value. Like an existential philosopher, Haskell forces you to acknowledge the possibility of Nothing.

share|improve this answer
I'd leave out the bit about sections: given the way Andrei defined ops, it should be flip (-) and flip (/). – dave4420 Jan 6 '11 at 12:59
Oh weird, you're right. I hadn't noticed that they were flipped. Thanks. – Bill Jan 6 '11 at 13:09

First of all the error you showed is not caused by the code you showed. Your code causes the following error (in ghc):

Couldn't match expected type `t1 -> t2 -> t'
against inferred type `Data.Maybe.Maybe

That error is caused by the fact that lookup returns a Maybe. So you need to unwrap the Maybe first.

share|improve this answer
import Control.Applicative

ops :: (Fractional a) => Map.Map String (a -> a -> a)
ops = Map.fromList [("+", (+)),
                    ("-", flip (-)),
                    ("*", (*)),
                    ("/", flip (/))]

apply :: (Fractional a) => String -> a -> a -> Maybe a
apply op x y = Map.lookup op ops <*> y <*> x

Because lookup returns a Maybe a (well, Maybe (a -> a -> a) in this case), there is no way to directly apply it to an a. We can use <*> to pull the LHS out of the mote, apply it to the RHS, and inject it back into the monad. (Or do it manually like Bill.)

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.