Haskell is a static and compiled language and you can interpret a string as a function by using Language.Haskell.Interpreter.
A minimal example that reads a binary function with type Int -> Int -> Int
is:
import Language.Haskell.Interpreter
import System.Environment (getArgs)
main :: IO ()
main = do
args <- getArgs
-- check that head args exists!
errorOrF <- runInterpreter $ do
setImports ["Prelude"]
interpret (head args) (as::Int -> Int -> Int)
case errorOrF of
Left errs -> print errs
Right f -> print $ f 1 2
You can call this program in this way (here I assume the filename with the code is test.hs
):
> ghc test.hs
...
> ./test "\\x y -> x + y"
3
The core of the program is runInterpreter, that is where the interpreter interprets the String. We first add the Prelude
module to the context with setImports to make available, for example, the +
function. Then we call interpret to interpret the first argument as a function and we use as Int -> Int -> Int
to enforce the type.
The result of runInterpreter
is a Either InterpretError a
where a
is your type. If the result is Left
then you have an error, else you have your function or value. Once you have extracted it from Right
, you can use it as you use a Haskell function. See f 1 2
above, for example.
If you want a more complete example you can check haskell-awk, that is my and gelisam project to implement a awk-like command line utility that use Haskell code instead of AWK code. We use Language.Haskell.Interpreter
to interpret the user function.