elna/lib/Language/Elna/Backend/Allocator.hs

158 lines
6.2 KiB
Haskell

module Language.Elna.Backend.Allocator
( MachineConfiguration(..)
, Store(..)
, allocate
) where
import Data.HashMap.Strict (HashMap)
import Data.Int (Int32)
import Data.Word (Word32)
import Data.Vector (Vector)
import Language.Elna.Backend.Intermediate
( ProcedureQuadruples(..)
, Operand(..)
, Quadruple(..)
, Variable(..)
)
import Language.Elna.Location (Identifier(..))
import Control.Monad.Trans.Reader (ReaderT, asks, runReaderT)
import Control.Monad.Trans.State (State, runState, modify')
import GHC.Records (HasField(..))
import Control.Monad.Trans.Class (MonadTrans(..))
import Control.Monad.Trans.Except (ExceptT(..), runExceptT, throwE)
import Data.List ((!?))
data Store r
= RegisterStore r
| StackStore Int32 r
data AllocationError = AllocationError
deriving Eq
instance Show AllocationError
where
show = const "Ran out of registers during register allocation"
newtype MachineConfiguration r = MachineConfiguration
{ temporaryRegisters :: [r]
}
newtype MachineState = MachineState
{ stackSize :: Word32
} deriving (Eq, Show)
newtype Allocator r a = Allocator
{ runAllocator :: ExceptT AllocationError (ReaderT (MachineConfiguration r) (State MachineState)) a
}
instance forall r. Functor (Allocator r)
where
fmap f = Allocator . fmap f . runAllocator
instance forall r. Applicative (Allocator r)
where
pure = Allocator . pure
(Allocator x) <*> (Allocator y) = Allocator $ x <*> y
instance forall r. Monad (Allocator r)
where
(Allocator allocator) >>= f = Allocator $ allocator >>= (runAllocator . f)
allocate
:: forall r
. MachineConfiguration r
-> HashMap Identifier (Vector (Quadruple Variable))
-> Either AllocationError (HashMap Identifier (ProcedureQuadruples (Store r)))
allocate machineConfiguration = traverse function
where
run = flip runState (MachineState{ stackSize = 0 })
. flip runReaderT machineConfiguration
. runExceptT
. runAllocator
. mapM quadruple
function :: Vector (Quadruple Variable) -> Either AllocationError (ProcedureQuadruples (Store r))
function quadruples' =
let (result, lastState) = run quadruples'
in makeResult lastState <$> result
makeResult MachineState{ stackSize } result = ProcedureQuadruples
{ quadruples = result
, stackSize = stackSize
}
quadruple :: Quadruple Variable -> Allocator r (Quadruple (Store r))
quadruple = \case
StartQuadruple -> pure StartQuadruple
StopQuadruple -> pure StopQuadruple
ParameterQuadruple operand1 -> do
operand1' <- operand operand1
pure $ ParameterQuadruple operand1'
CallQuadruple name count -> pure $ CallQuadruple name count
AddQuadruple operand1 operand2 variable -> do
operand1' <- operand operand1
operand2' <- operand operand2
AddQuadruple operand1' operand2' <$> storeVariable variable
SubtractionQuadruple operand1 operand2 variable -> do
operand1' <- operand operand1
operand2' <- operand operand2
SubtractionQuadruple operand1' operand2' <$> storeVariable variable
NegationQuadruple operand1 variable -> do
operand1' <- operand operand1
NegationQuadruple operand1' <$> storeVariable variable
ProductQuadruple operand1 operand2 variable -> do
operand1' <- operand operand1
operand2' <- operand operand2
ProductQuadruple operand1' operand2' <$> storeVariable variable
DivisionQuadruple operand1 operand2 variable -> do
operand1' <- operand operand1
operand2' <- operand operand2
DivisionQuadruple operand1' operand2' <$> storeVariable variable
LabelQuadruple label -> pure $ LabelQuadruple label
GoToQuadruple label -> pure $ GoToQuadruple label
EqualQuadruple operand1 operand2 goToLabel -> do
operand1' <- operand operand1
operand2' <- operand operand2
pure $ EqualQuadruple operand1' operand2' goToLabel
NonEqualQuadruple operand1 operand2 goToLabel -> do
operand1' <- operand operand1
operand2' <- operand operand2
pure $ NonEqualQuadruple operand1' operand2' goToLabel
LessQuadruple operand1 operand2 goToLabel -> do
operand1' <- operand operand1
operand2' <- operand operand2
pure $ LessQuadruple operand1' operand2' goToLabel
GreaterQuadruple operand1 operand2 goToLabel -> do
operand1' <- operand operand1
operand2' <- operand operand2
pure $ GreaterQuadruple operand1' operand2' goToLabel
LessOrEqualQuadruple operand1 operand2 goToLabel -> do
operand1' <- operand operand1
operand2' <- operand operand2
pure $ LessOrEqualQuadruple operand1' operand2' goToLabel
GreaterOrEqualQuadruple operand1 operand2 goToLabel -> do
operand1' <- operand operand1
operand2' <- operand operand2
pure $ GreaterOrEqualQuadruple operand1' operand2' goToLabel
AssignQuadruple operand1 variable -> do
operand1' <- operand operand1
AssignQuadruple operand1' <$> storeVariable variable
operand :: Operand Variable -> Allocator r (Operand (Store r))
operand (IntOperand x) = pure $ IntOperand x
operand (VariableOperand variableOperand) =
VariableOperand <$> storeVariable variableOperand
storeVariable :: Variable -> Allocator r (Store r)
storeVariable (TempVariable index) = do
temporaryRegisters' <- Allocator $ lift $ asks $ getField @"temporaryRegisters"
maybe (Allocator $ throwE AllocationError) (pure . RegisterStore)
$ temporaryRegisters' !? fromIntegral index
storeVariable (LocalVariable index) = do
temporaryRegisters' <- Allocator $ lift $ asks $ getField @"temporaryRegisters"
Allocator $ lift $ lift $ modify' $ MachineState . (+ 4) . getField @"stackSize"
maybe (Allocator $ throwE AllocationError) (pure . StackStore (fromIntegral (succ index) * (-4)))
$ temporaryRegisters' !? pred (length temporaryRegisters' - fromIntegral index)
storeVariable (ParameterVariable index) = do
temporaryRegisters' <- Allocator $ lift $ asks $ getField @"temporaryRegisters"
maybe (Allocator $ throwE AllocationError) (pure . StackStore (fromIntegral index * 4))
$ temporaryRegisters' !? fromIntegral index