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I'm very new to haskell, writing a simple code that returns how many inputs are larger than their average value. I got error:

ERROR file:.\AverageThree.hs:5 - Type error in application * Expression : x y z Term : x Type : Int * Does not match : a -> b -> c

Code:

averageThree :: Int -> Int -> Int -> Float
averageThree x y z = (fromIntegral x+ fromIntegral y+ fromIntegral z)/3

howManyAverageThree ::Int -> Int -> Int -> Int
howManyAverageThree x y z  = length > averageThree

Anyone help me?

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2 Answers 2

up vote 4 down vote accepted

The trouble you're having comes from a few places.

First, you aren't applying either function, length or averageThree - and hence also not using your arguments to howManyAverageThree.

Second, the type of length is [a] -> Int. As you don't have a list here, you either have to use a different function, or make a list.

If I understand your desired algorithm correctly, you are going to need to do a few things:

  1. Apply x y and z to averageThree.
  2. Use the filter function, comparing this computed average with each passed in parameter; this will result in a list.
  3. Find the length of the resulting list.

The code I dashed off to do this follows:

howManyAverageThree ::Int -> Int -> Int -> Int
howManyAverageThree x y z = length $ filter (> avg) the_three
    where avg = averageThree x y z
          the_three = [fromIntegral x,fromIntegral y,fromIntegral z]

This takes advantage of a couple of neat features:

  1. Currying, sometimes called "partial function application". That's what I was using with (> avg); normally, the infix function > takes two parameters of the same type, and returns a Bool - by wrapping in parenthesis and providing an expression on one side, I have partially applied it, which allows it to be used as a filter function
  2. The where keyword. I used this to clean it all up a little and make it more readable.
  3. The filter function, which I mentioned above.
  4. Function application using $. This operator just changes the function application from left-associative to right-associative.
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It worked! Thanks a lot! –  Eric Wang Oct 17 '11 at 12:23
    
Terminology nitpicks: #1 would technically be called a "section", which of course does make use of partial application. "Currying" generally refers to the act of making a function so that it can be partially applied, so the "currying" isn't really done by you; in the case of Haskell all functions are curried by default. You can also use curry to curry an uncurried 2-argument function. –  Dan Burton Oct 19 '11 at 22:37
    
@DanBurton - Absolutely. I originally clipped that bullet from a prior answer of mine here, but cut the text about sections because it got long winded. –  Nate Oct 19 '11 at 22:48

There are a number of problems here:

  • length doesn't do what you want it to. length returns the length of a list, and there are no lists in your howManyAvergageThree

  • averageThree returns a Float. howManyAverageThree needs to account for that. Specifically, > needs its arguments to be of the same type.

  • The call to averageThree in the second function needs some arguments.

Here's a working version:

howManyAverageThree x y z = length [ i | i <- [x, y, z], fromIntegral i > avg]
        where avg = averageThree x y z
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ERROR file:.\AverageThree.hs:4 - Undefined variable "i" –  Eric Wang Oct 17 '11 at 12:18
    
I think I had the clauses of my list comprehension backwards. Put i <- [x, y, z] first (as in the current, edited version) and it works for me. –  Zopa Oct 17 '11 at 12:25

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