I have primitive interpreter written in haskell.
This interpreter can correctly handle
return statements (see my previous question).
Now I want to add global state to my interpreter.
This state could be changed from global code or from function's code
(function's code is runned with
runCont to provide
The code is presented here:
import Control.Monad.Cont import Control.Monad.State type MyState = String data Statement = Return Int | GetState | SetState MyState | FuncCall [Statement] deriving (Show) data Value = Undefined | Value Int | StateValue MyState deriving (Show) type Eval a = StateT MyState (Cont (Value, MyState)) a runEval ::(Eval Value) -> MyState -> (Value, MyState) runEval eval state = runCont (runStateT eval state) id evalProg :: [Statement] -> Value evalProg stmts = fst $ runEval (evalBlock stmts) $ "" evalBlock :: [Statement] -> Eval Value evalBlock  = return Undefined evalBlock [stmt] = evalStatment stmt evalBlock (st:stmts) = evalStatment st >> evalBlock stmts evalStatment :: Statement -> Eval Value evalStatment (Return val) = do state <- get lift $ cont $ \_ -> (Value val, state) evalStatment (SetState state) = put state >> return Undefined evalStatment (FuncCall stmts) = do -- I don't like this peace of code state <- get (value, newState) <- return $ runEval (evalBlock stmts) $ state put newState return value evalStatment GetState = get >>= return . StateValue test2 = evalProg [SetState "Hello", FuncCall [SetState "Galaxy", Return 3], GetState] -- result is StateValue "Galaxy"
This code works fine, but I don't like the
evalStatment (FuncCall stmts) part of this code.
I pass current state of interpreter to
then get back modified state and set it as new interpreter's state.
Is it possible to improve this code? Can I somehow make function's code (
operate on interpreter's state implicitly (without getting current state and running function's
code and setting interpreter's new state explicitly) ?