It looks like you have two distinct kinds of input: declarations (creating new variables and functions) and expressions (calculating things).
You should first define some data structures so you can work out what sort of things you are going to be dealing with. Something like:
data Command = Define Definition | Calculate Expression | Quit
type Name = String
data Definition = DefVar Name Expression | DefFunc Name [Name] Expression
-- ^ alternatively, implement variables as zero-argument functions
-- and merge these cases
data Expression = Var Name | Add Expression Expression | -- ... other stuff
type Environment = [Definition]
To start off with, just parse (tokenise and then parse the tokens, perhaps) the stuff into a
Command, and then decide what to do with it.
Expressions are comparatively easy. You assume you already have all the definitions you need (an
Environment) and then just look up any variables or do additions or whatever.
Definitions are a bit trickier. Once you've decided what new definition to make, you need to add it to the environment. How exactly you do this depends on how exactly you iterate through the lines, but you'll need to pass the new environment back from the interpreter to the thing which fetches the next line and runs the interpreter on it. Something like:
main :: IO ()
main = mainLoop emptyEnv
emptyEnv = 
mainLoop :: Environment -> IO ()
mainLoop env = do
str <- getLine
case parseCommnad str of
Nothing -> do
putStrLn "parse failed!"
Just Quit -> do
Just (Define d) -> do
mainLoop (d : env)
Just (Calculate e) -> do
putStrLn (calc env e)
-- the real meat:
parseCommand :: String -> Maybe Command
calc :: Environment -> Expression -> String -- or Integer or some other appropriate type
calc will need to look stuff up in the environment you create as you go along, so you'll probably also need a function for finding which
Definition corresponds to a given
Name (or complaining that there isn't one).
Some other decisions you should make:
- What do I do when someone tries to redefine a variable?
- What if I used one of those variables in the definition of a function? Do I evaluate a function definition when it is created or when it is used?
These questions may affect the design of the above program, but I'll leave it up to you to work out how.