implementation module gen
-
import StdMisc
import StdList
import StdOverloaded
import StdString
-
-from Data.Func import $
-from Text import class Text(join), instance Text String
-from Data.List import intersperse
+from StdFunc import id, const
+import StdTuple
+import StdEnum
+
+import Data.Func
+import qualified Data.Map as Map
+import Data.List
+import Data.Either
+import Data.Tuple
+import Data.Functor
+import Data.Monoid
+import Data.Maybe
+import Control.Applicative
+import Control.Monad
+import Control.Monad.Trans
+from Text import class Text(concat), instance Text String
import AST
+import RWST
//Instruction is an instruction, with possible arguments and a possible comment
//Or is a label
+TRUE :== -1
+FALSE :== 0
:: Instr = Instr String [Arg] String
- | Label String
-:: Arg = L String | Lit Int
+ | Lab Label
+:: Label :== String
+:: Arg = L Label | Lit Int | Raw String
:: SSMProgram :== [Instr]
-
-gen :: AST -> String
-gen _ = toString [Label "Test"
- ,Instr "ldc" [Lit 1] "Eerste instructie"
- ,Instr "ldc" [Lit 2] "Tweede instructie"]
-
-
-class g a :: a -> SSMProgram
+:: GenError = Error String
+:: GenMap :== 'Map'.Map String LoadPlace
+//completely change to either Stack, Heap, Register?
+:: LoadPlace = LDA Int | LDC Int | LDH Int | LDL Int
+ | LDR Int | LDS Int
+ | FUNC Label
+:: Gen a :== RWST Label SSMProgram (GenMap, [Label]) (Either GenError) a
+
+labelStream :: [Label]
+labelStream = ["lbl_" +++ toString i\\i<-[1..]]
+
+gen :: AST -> Either String String
+gen (AST fds) = case evalRWST prog "" ('Map'.newMap, labelStream) of
+ Left (Error e) = Left e
+ Right (_, p) = Right $ toString p
+ where
+ prog = tell [Instr "bra" [L "main"] ""] >>| mapM_ g fds
+//gen _ = prog
+// where
+// expr = (Op2Expr zero (Op1Expr zero UnMinus (IntExpr zero 4)) BiPlus (IntExpr zero 7))
+// expr2 = (FunExpr zero "test" [IntExpr zero 4] [])
+// stmt = (IfStmt (BoolExpr zero True) [] [])
+// prog = case evalRWST (g stmt) 0 ('Map'.newMap, labelStream) of
+// Left (Error e) = abort e
+// Right (_, prog) = toString prog
+//gen _ = toString [Lab "Test"
+// ,Instr "ldc" [Lit 1] "Eerste instructie"
+// ,Instr "ldc" [Lit 2] "Tweede instructie"]
+
+//Current issues:
+//All VarDecls are added as function, how to deal with assignments?
+// (And when we deal with assignments, how to deal with assignments to higher order functions?)
+//Dealing with arguments
+//Dealing with types that do not fit on the Stack
+// Probably completely change LoadPlace to a Type and a position relative to *something*
+// And where the type determines if this position is a pointer to the heap or an
+// unboxed value
+
+//helper functions for the gen monad
+genMap :: Gen GenMap
+genMap = gets fst
+
+changeGenMap :: (GenMap -> GenMap) -> Gen GenMap
+changeGenMap f = modify (appFst f) >>| genMap
+
+extend :: String LoadPlace GenMap -> GenMap
+extend k pl g = 'Map'.put k pl g
+
+fresh :: Gen Label
+fresh = gets snd >>= \vars->
+ modify (appSnd $ const $ tail vars) >>|
+ pure (head vars)
+
+class g a :: a -> Gen ()
instance g Expr where
- g _ = undef
-
-
+ g (VarExpr _ (VarDef k fs)) = load k >>= \instr-> tell [instr] //note: pure is pure for list, i.e. []
+ g (IntExpr _ i) = loadP (LDC i) >>= \instr-> tell [instr]
+ g (CharExpr _ c) = abort "How to deal with chars?"
+ g (BoolExpr _ True) = loadP (LDC TRUE) >>= \instr-> tell [instr]
+ g (BoolExpr _ False) = loadP (LDC FALSE) >>= \instr-> tell [instr]
+ g (Op2Expr _ e1 op e2) = g e1 >>| g e2 >>| tell [Instr (op2ins op) [] ""]
+ g (Op1Expr _ UnNegation e) = g e >>| tell [Instr "not" [] ""]
+ g (Op1Expr _ UnMinus e) = g e >>| tell [Instr "neg" [] ""]
+ g (EmptyListExpr _) = abort "Shit, empty list expr"
+ g (TupleExpr p (e1,e2)) = abort "How to deal with tuples?"
+ g (FunExpr _ k es fs) =
+ mapM g es >>| //put all arguments on the stack (todo: fix argument handling!)
+ jump "bsr" k >>= \instr->
+ tell [instr] >>| //actually branch to function
+ tell [Instr "ldr" [Raw "RR"] ""] //push return value on stack, todo: check for VOID
+
+instance g Stmt where
+ g (IfStmt cond th el) =
+ fresh >>= \elseLabel->
+ fresh >>= \endLabel->
+ g cond >>|
+ tell [Instr "brf" [L elseLabel] "branch else"] >>|
+ mapM_ g th >>|
+ tell [Instr "bra" [L endLabel] "branch end if"] >>|
+ tell [Lab elseLabel] >>|
+ mapM_ g el >>|
+ tell [Lab endLabel]
+ g (WhileStmt cond th) =
+ fresh >>= \startLabel->
+ fresh >>= \endLabel ->
+ tell [Lab startLabel] >>|
+ g cond >>|
+ tell [Instr "brf" [L endLabel] "branch end while"] >>|
+ mapM_ g th >>|
+ tell [Instr "bra" [L startLabel] "branch start while"] >>|
+ tell [Lab endLabel]
+ g (AssStmt (VarDef k fs) e) =
+ g e >>|
+ abort "Shit, an assignment, figure out something with storing vars or something"
+ //vars will be on stack in locals (possible pointers to heap)
+ g (FunStmt _ _) = abort "CodeGen, FunStmt unused" //not used
+ g (ReturnStmt Nothing) = tell [Instr "ret" [] ""] //NOTE! Assumes only return address on stack, safe?
+ g (ReturnStmt (Just e)) =
+ g e >>|
+ tell [Instr "str" [Raw "RR"] ""] >>|
+ g (ReturnStmt Nothing)
+
+instance g VarDecl where
+ g (VarDecl _ Nothing _ _) = liftT (Left $ Error "PANIC: untyped vardecl")
+ g (VarDecl _ (Just t) k e) =
+ (\l->k+++"_"+++l) <$> fresh >>= \lbl->
+ changeGenMap (extend k (FUNC lbl)) >>|
+ tell [Lab lbl] >>|
+ g e >>|
+ tell [Instr "str" [Raw "RR"] ""] >>|
+ tell [Instr "ret" [] ""]
+
+
+instance g FunDecl where
+ g (FunDecl _ k _ _ vds stms) =
+ //varDecls can call the enclosing function, so first reserve a label for it
+ (\l-> if (k=="main") "main" (l+++"_"+++k)) <$> fresh >>= \lbl->
+ changeGenMap (extend k (FUNC lbl)) >>|
+ //then generate functions for the VarDecls
+ genMap >>= \oldMap ->
+ mapM_ g vds >>|
+ //then the main function
+ tell [Lab lbl] >>|
+ mapM_ g stms >>|
+ changeGenMap (const oldMap) >>| pure ()
+
+op2ins :: Op2 -> String
+op2ins op = case op of
+ BiPlus = "add"
+ BiMinus = "sub"
+ BiTimes = "mul"
+ BiDivide = "div"
+ BiMod = "mod"
+ BiEquals = "eq"
+ BiLesser = "lt"
+ BiGreater = "gt"
+ BiLesserEq = "le"
+ BiGreaterEq = "ge"
+ BiUnEqual = "ne"
+ BiAnd = "and"
+ BiOr = "or"
+ BiCons = abort "Shit, Cons, how to deal with this?"
+
+load :: String -> Gen Instr
+load k = genMap >>= \g-> case 'Map'.member k g of
+ False = liftT (Left $ Error $ concat ["PANIC: ", k, " not found in variable mapping"])
+ True = loadP $ 'Map'.find k g
+
+loadP :: LoadPlace -> Gen Instr
+loadP pl = dec pl >>= \(instr, arg)-> pure $ Instr instr [arg] ""
+where
+ dec (LDA i) = pure ("lda", Lit i)
+ dec (LDC i) = pure ("ldc", Lit i)
+ dec (LDH i) = pure ("ldh", Lit i)
+ dec (LDL i) = pure ("ldl", Lit i)
+ dec (LDR i) = pure ("ldr", Lit i)
+ dec (LDS i) = pure ("lds", Lit i)
+ dec _ = liftT (Left $ Error "PANIC: trying to load non adres")
+
+//Instruction (String), key of function to jump to
+jump :: String String -> Gen Instr
+jump instr k = genMap >>= \g-> case 'Map'.member k g of
+ False = liftT (Left $ Error $ concat ["PANIC: ", k, " not found as function"])
+ True = dec ('Map'.find k g) >>= \lbl-> pure $ Instr instr [lbl] (k +++"()")
+where
+ dec (FUNC l) = pure (L l)
+ dec _ = liftT (Left $ Error "PANIC: trying to jump to non label")
class print a :: a -> [String]
instance print Instr where
- print (Label l) = [l, ":", "\n"]
+ print (Lab l) = [l, ":", "\n"]
print (Instr i args com) = ["\t", i] ++ print args ++ [" ;", com, "\n"]
instance print [Arg] where
instance toString Arg where
toString (L l) = l
toString (Lit int) = toString int
+ toString (Raw s) = s
instance toString SSMProgram where
- toString p = join " " $ map (\i-> join " " $ print i) p
\ No newline at end of file
+ toString p = concat $ intersperse " " $ map (\i-> concat $ intersperse " " $ print i) p