# *** Exception: Prelude.read: no parse in Haskell - Parsing, Expressions and Recursion

This portion of code should read in two or more numbers (main io function omitted), then a "+" to give the sum. Rationals are used because later i will do multiplications and such other operations.

``````data Expression =  Number Rational
deriving(Show,Eq)

solve :: Expression -> Expression
solve (Add (Number x) (Number y)) = Number (x + y)

parse :: [String] -> [Expression] -> Double
parse ("+":s)(a:b:xs) = parse s (solve (Add a b):xs)
parse (x:xs) (y) = parse (xs) ((Number (toRational (read x::Float))):y)
``````

The (second) error is with the parse function unable to handle

``````*Main> parse ["1","2","+"] [Number 3]

``````

I have looked on the Data.Ratio page and on the web for this solution but haven't found it and would appreciate some help. Thanks,

CSJC

-
Your second error is already treated in my answer :) –  Daniel Fischer Apr 26 '12 at 18:43
Yes, it seems you had already preempted such a thing as i was typing it out! –  CSJC Apr 26 '12 at 18:48

The first equation,

``````parse ("+":s)(a:b:xs) = parse (s)((solve (Add (Number a) (Number b))):xs)
``````

should be

``````parse ("+":s)(a:b:xs) = parse (s)((solve (Add a b)):xs)
``````

since per the type signature, `a` and `b` already are `Expression`s.

Or, in line with the second and third equations, change the type to

``````parse :: [String] -> [Rational] -> Double
``````

and change the first equation to

``````parse ("+":s)(a:b:xs) = parse s ((a + b):xs)
``````

Two possible ways of fixing the code (there were more problematic parts):

``````-- Complete solve to handle all cases
solve :: Expression -> Expression
solve expr@(Number _) = expr
solve (Add (Number x) (Number y)) = Number (x + y)

-- Convert an Expression to Double
toDouble :: Expression -> Double
toDouble (Number x) = fromRational x
toDouble e = toDouble (solve e)

-- parse using a stack of `Expression`s
parse :: [String] -> [Expression] -> Double
parse ("+":s) (a:b:xs) = parse s ((solve (Add a b)):xs)
parse (x:xs) ys = parse xs (Number (toRational (read x :: Double)) : ys)
parse _ _ = 0

-- parse using a stack of `Rational`s
parseR :: [String] -> [Rational] -> Double
parseR ("+":s) (a:b:xs) = parseR s (a+b : xs)
parseR (x:xs) y = parseR xs ((toRational (read x::Double)):y)
parseR _ _ = 0
``````

The latter is rather circumspect, since in the end a `Double` is produced, there's no real point using `Rational`s for the stack.

In your code for `parse`, the third equation leaves out the conversion of a `Rational` to an `Expression` via the `Number` constructor, but is otherwise fine. The second equation, however, contains a different type of problem:

``````parse [] (answer:xs) = fromRational (toRational (read (show answer)::Float))
``````

If `answer` is either an `Expression` or a `Rational`, `show answer` cannot be parsed as a `Float`, so that will lead to a runtime error, as exemplified by your edit:

The (second) error is with the parse function unable to handle

``````*Main> parse ["1","2","+"] [Number 3]
At the point where the second equation is used, the first element (`answer`) on the stack is `Number (3 % 1)`, and `show (Number (3 % 1))` is `"Number (3 % 1)"`, which is not a `String` that `read` can parse as a `Float`.
No. In `Add x y`, `x` and `y` are `Expression`s, but `Number` takes a `Rational` argument, and `(+)` isn't defined for `Expression`s. `solve` is correct as far as it's implemented (it's incomplete, of course). –  Daniel Fischer Apr 26 '12 at 18:05