0

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

Solver.hs:63:48:
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:
  takeValuesFromMap
    ["x", "+", "y", "-", ....]
    (Map.fromList [("x", "5"), ("y", "4")])
    []

any idea how to fix this?

2
  • takeValuesFromMap xs m = [v | x <- xs, let v = maybe x id $ findKey x m]
    – Sassa NF
    Feb 3, 2014 at 13:48
  • 1
    if you remove Map.fromList in the call to takeValuesFromMap, it will work
    – Sassa NF
    Feb 3, 2014 at 13:53

3 Answers 3

1

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:

0

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 = ...
0

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.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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