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A further question about List:

aaa ::  [[(Char, Float)]] -> Float ->  [[(Char, Float)]]
aaa [[]] a = error "no indata"
aaa [[(a,b)]] c = [[(a, b/c)]] 
aaa ([(a,b)]:tail) c = [(a, b/c)] : (aaa tail c)

How to make it work with:

aaa [[('a',3),('b',4),('c',5)],[('a',3),('b',4),('c',5)] ] 4

the result:


Any hint pls, thx!

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What have you tried? –  sth Oct 6 '11 at 11:17

3 Answers 3

up vote 0 down vote accepted

how about:

> let l = [[('a',3),('b',4),('c',5)],[('a',3),('b',4),('c',5)] ]
> let aaa list n = map (map (\(c,y) -> (c,(fromIntegral y) / n))) list
> aaa l 4.0

The types in your snippet down match. You try to apply functions defined on float on integers. You have to pass floats to the functions. That's why i convert the integers with (fromIntegral y) to floats before applying the floating point division "/" on them. The second argument has to be a floating point number too, so use 4.0 instead of 4.

HTH Chris

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Thee is no fromIntegral needed, since the numbers in the list are already Floats. –  FUZxxl Oct 6 '11 at 11:19
4 has a type of (Num a) => a which is to say, any number type. If you use 4 in a way that makes it clear that it means 4.0 the compiler will play along; Haskell is not Ocaml (no offense to any ML/ML-derivative users). –  BMeph Apr 17 '12 at 20:26

There is a number a ways you can achieve your goal. I think it is instructive to try to implement the recursion explicitly, as you have tried to do. However, I think your code will be more clear, if you split it up into smaller parts. Consider having two functions, with the following signatures:

innerTransform :: [(Char, Float)] -> Float -> [(Char, Float)]

aaa :: [[Char, Float]] -> Float -> [[(Char, Float)]]

Then you can use innerTransform in your implementation of aaa.

When you have implemented aaa through explicit recursion, you can try to work towards implementing it with functions such as map, as described in another answer. As a middle step in that direction, try solving it by mapping innerTransform over the outer list. You need to fiddle around a bit with the argument order to innerTransform:

innerTransformFlipped :: Float -> [(Char, Float)] -> [(Char, Float)]

and then partially apply that function to the float to obtain:

mappingFunction :: [(Char, Float)] -> [(Char, Float)]

which you can use as an argument to map.

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Using list comprehension this could be something like :

aaa l v = [map (\(a,­b) -> (a,b/v))  x | x <- l]
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