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i have this problem: i want to have a list of strings representing math expression, and a map of arguments to replace the variables. so if my list is like ["x","+","y","-","5"] and arguments are [("x","5"),("y","4")] the function should return ["5","+","4","-","5"]

i have this function to find key from map (from the Learn you a haskell book)

findKey :: (Eq k) => k -> [(k,v)] -> Maybe v
findKey key [] = Nothing
findKey key ((k,v): xs) = 
        if key == k
           then Just v
           else findKey key xs

and then my function to replace the variables with values

takeValuesFromMap (x:str) m result
        |x == [] = result
        |findKey x m == Nothing = takeValuesFromMap str m (result++[x])
        |otherwise = takeValuesFromMap str m result++[fromJust (findKey x m)]

if no match in the map, we pass the regular string. Otherwise we pass to the result the value staying next to the key that matches.

but in the end when i call

takeValuesFromMap ["x","+","y","-","5"] (Map.fromList [("x","5"),("y","4")]) []

it says

Couldn't match expected type `[([Char], [Char])]'
            with actual type `Map.Map [Char] [Char]'
In the return type of a call of `Map.fromList'
In the second argument of `takeValuesFromMap', namely
  `(Map.fromList [("x", "5"), ("y", "4")])'
In the expression:
    ["x", "+", "y", "-", ....]
    (Map.fromList [("x", "5"), ("y", "4")])

any idea how to fix this?

share|improve this question
takeValuesFromMap xs m = [v | x <- xs, let v = maybe x id $ findKey x m] – Sassa NF Feb 3 '14 at 13:48
if you remove Map.fromList in the call to takeValuesFromMap, it will work – Sassa NF Feb 3 '14 at 13:53

I'm going to take a different track here, and suggest that you don't solve this problem. The reason is that the list ["x","+","y","-","5"] is a very poor representation of the algebraic expression x + y - 5. I don't know exactly what you're trying to do, but a better approach would represent the expression as an abstract syntax tree, using an algebraic datatype.

So for example, we could use the following type to represent the expressions:

data Expr a = Variable String 
            | Literal a 
            | Plus Expr Expr 
            | Minus Expr Expr

Given this type, your example goes like this:

example :: Expr Integer
example = Minus (Plus (Var "x") (Var "y")) (Literal 5)

It's easy to write a function that evaluates expressions of this type, given a Map from variable names to values:

-- | Evaluate an expression, reading variable's values from the given environment
-- (the Map argument).  Returns Nothing if any of the variables is undefined.
eval :: Num a => Expr a -> Map String a -> Maybe a
eval (Variable v) env = Map.lookup v env
eval (Literal x) _ = Just x

eval (Plus x y) env = 
    -- If this is confusing, read up on the Maybe monad in Learn You a Haskell
    do x' <- eval x env
       y' <- eval y env
       return (x + y)

eval (Minus x y) env = 
    do x' <- eval x env
       y' <- eval y env
       return (x - y)

More complex, but well worth learning, is then to write a parser that takes a string and turns it into an Expr. If you're reading Learn You A Haskell, you may want to first get more comfortable with monads and applicatives. But when you're ready to take that step, there's a number of pages on the web with calculator parser examples:

Though you may want to read this part of Real World Haskell first:

share|improve this answer

In findKey you require an association list, but you are actually using a Map. So, one way to fix it woulde be to remove Map.fromList.

Another point: Never replace pattern matching with equality checks! So please write:

| [] <-  x = ...
| Nothing <- findKey x m = ...
share|improve this answer

Inspect the type of Map.fromList. Am I right in assuming that you take Map from Data.Map? If so:

:t Data.Map.fromList
Data.Map.fromList :: Ord k => [(k, a)] -> Map k a

So, this function returns Map, but your findKey actuall wants a list of tuples [([Char],[Char])]. You have got two choices now:

  1. Use a function from Data.Map instead of your findKey to lookup a key.
  2. Use another function to build your list.
share|improve this answer

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