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In my program for solving discrete maths, I want to let the user input a string of logic operations; e.g., if the user inputs let f (x:y:_) = x && y, then I would get a function f for use in the rest of the program. In GHCi, I can easily test my program by inputting let f (x:y:_) = x && y.

I have no idea how to achieve this task. I have taken a look into the eval function from the plugins package, but it seems not to be the right function. Can I do this in Haskell?

The code I'm planning to use this with is:

type TruthTable = [[Bool]]
type TruthTableResult = [([Bool], Bool)]

solveTable :: ([Bool] -> Bool) -> Integer -> (TruthTableResult)
solveTable f n = let table = truthTable n
                     result = map f table
                 in  zipWith (\v r -> (v, r)) table result
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3 Answers 3

up vote 13 down vote accepted

There is no standard Haskell function, because Haskell is complied, not interpreted. However, there are libraries that allow you to read and compile Haskell code at run time. One of them is hint. Example for your case:

import Control.Monad
import Language.Haskell.Interpreter

main = do
    -- fExpr is a Haskell code supplied by your user as a String
    let fExpr = "let f (x:y:_) = x && y in f"
    -- Create an interpreter that runs fExpr
    r <- runInterpreter $ do
            setImports ["Prelude"]
            interpret fExpr (const True :: [Bool] -> Bool)
    -- run it and get an interface to the function
    case r of
        Left err -> putStrLn $ "Ups... " ++ (show err)
        Right f  -> do
            print $ f [True, False]
            print $ f [True, True]

More examples available here.

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Common Lisp is often compiled and has an eval function so that's not really an argument. ;) – kqr Sep 16 '13 at 9:34
@kqr: more generally, there is no such connection at all. Both Python and Java produce bytecode for a VM, but Python has eval, while Java doesn't (and Clojure, which produces JVM bytecode too, does). OpenCL is C99, so it's compiled, right? But I can construct and run an OpenCL kernel in runtime, which is essentially eval. And so on. – fjarri Sep 16 '13 at 11:10
@kqr That's true. What I meant that interpreted languages usually get an eval implementation for free. Compiled ones must somehow include an interpreter or compiler. And this is what hint is - a wrapper around the GHC API. – Petr Pudlák Sep 16 '13 at 11:46
@PetrPudlák Thanks for your answer, it works perfectly for my program. I can now let the user input the formula, and get the truth table. However, I find that the executable program is not a self-contained executable, it requires ghc and hint for execution... – code4j Sep 16 '13 at 16:50
@code4j: think about it. How is a haskell program going to know how to run any arbitrary string without something equivalent to a full version of GHC? – Justin L. Sep 17 '13 at 10:17

You are writing an eval function - a form of runtime metaprogramming.

eval :: String -> a

If the string represents a Haskell program, then you must parse the string, type check it, and then compile it to a target interpreter or runtime. This requires access to the compiler as a library, either exported as a runtime service (in an interpreter) or as a separate package (as for a compiler).

The GHC implementation of Haskell has several libraries for doing runtime evaluation of Haskell code:

  • via the GHCi interpreter- hint
  • via the compiler - plugins

These apply only if your input language is Haskell.

If instead your input string represents a program in some other language, then you are looking for a DSL interpreter. This can be done by writing your own interpreter for the input language (or reusing a library if it is a common language).

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The short answer is that Haskell has no "eval" function, unlike interpreted languages which can do this quite easily (after all, they have the interpreter handy and already running).

You can include the Haskell compiler as a library: see This is the nearest thing to what you ask for.

However it sounds like you don't want the whole of Haskell here; what you are really want is a different language which may have Haskell-like syntax but is not the whole of Haskell. If so then the real solution is to define that language and write a parser for it. The Parsec library is the place to start for that.

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Another alternative is for OP to write their program as a library and let the users input their functions by writing a program in Haskell using OPs library. – kqr Sep 16 '13 at 6:56

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