module Language.Elna.RiscV.CodeGenerator ( Directive(..) , Statement(..) , generateRiscV , riscVConfiguration ) where import Control.Monad.Trans.State (State, get, evalState, modify') import Data.HashMap.Strict (HashMap) import qualified Data.HashMap.Strict as HashMap import Data.Int (Int32) import Data.Word (Word32) import Data.Vector (Vector) import qualified Data.Vector as Vector import qualified Language.Elna.Architecture.RiscV as RiscV import Language.Elna.Backend.Allocator (MachineConfiguration(..), Store(..)) import Language.Elna.Backend.Intermediate ( Label(..) , Operand(..) , ProcedureQuadruples(..) , Quadruple(..) ) import Language.Elna.Location (Identifier(..)) import Data.Bits (Bits(..)) import Data.Foldable (Foldable(..), foldlM) import Data.Text (Text) import qualified Data.Text.Lazy.Builder.Int as Text.Builder import qualified Data.Text.Lazy.Builder as Text.Builder import qualified Data.Text.Lazy as Text.Lazy data Directive = GlobalDirective | FunctionDirective deriving (Eq, Show) data Statement = Instruction RiscV.Instruction | JumpLabel Text [Directive] deriving Eq riscVConfiguration :: MachineConfiguration RiscV.XRegister riscVConfiguration = MachineConfiguration { temporaryRegisters = [ RiscV.T0 , RiscV.T1 , RiscV.T2 , RiscV.T3 , RiscV.T4 , RiscV.T5 , RiscV.T6 ] } -- | Reserved register used for calculations to save an immediate temporary. immediateRegister :: RiscV.XRegister immediateRegister = RiscV.A7 type RiscVStore = Store RiscV.XRegister type RiscVQuadruple = Quadruple RiscVStore type RiscVOperand = Operand RiscVStore newtype RiscVGenerator a = RiscVGenerator { runRiscVGenerator :: State Word32 a } instance Functor RiscVGenerator where fmap f (RiscVGenerator x) = RiscVGenerator $ f <$> x instance Applicative RiscVGenerator where pure = RiscVGenerator . pure (RiscVGenerator f) <*> (RiscVGenerator x) = RiscVGenerator $ f <*> x instance Monad RiscVGenerator where (RiscVGenerator x) >>= f = RiscVGenerator $ x >>= (runRiscVGenerator . f) createLabel :: RiscVGenerator Text createLabel = do currentCounter <- RiscVGenerator get RiscVGenerator $ modify' (+ 1) pure $ mappend ".A" $ Text.Lazy.toStrict $ Text.Builder.toLazyText $ Text.Builder.decimal currentCounter generateRiscV :: HashMap Identifier (ProcedureQuadruples RiscVStore) -> Vector Statement generateRiscV = flip evalState 0 . runRiscVGenerator . foldlM go Vector.empty . HashMap.toList where go accumulator (Identifier key, ProcedureQuadruples{ quadruples = value }) = let code = Vector.cons (JumpLabel key [GlobalDirective, FunctionDirective]) . fold <$> mapM quadruple value in (accumulator <>) <$> code quadruple :: RiscVQuadruple -> RiscVGenerator (Vector Statement) quadruple StartQuadruple = pure $ Vector.fromList [ Instruction (RiscV.BaseInstruction RiscV.OpImm $ RiscV.I RiscV.SP RiscV.ADDI RiscV.SP (negate 4)) , Instruction (RiscV.BaseInstruction RiscV.Store $ RiscV.S 0 RiscV.SW RiscV.SP RiscV.S0) , Instruction (RiscV.BaseInstruction RiscV.Store $ RiscV.S 4 RiscV.SW RiscV.SP RiscV.RA) , Instruction (RiscV.BaseInstruction RiscV.OpImm $ RiscV.I RiscV.S0 RiscV.ADDI RiscV.SP 4) ] quadruple (ParameterQuadruple operand1) = let (operandRegister, statements) = loadImmediateOrRegister operand1 RiscV.A0 in pure $ mappend statements $ Vector.fromList [ Instruction (RiscV.BaseInstruction RiscV.OpImm $ RiscV.I RiscV.SP RiscV.ADDI RiscV.SP (negate 4)) , Instruction (RiscV.BaseInstruction RiscV.Store $ RiscV.S 0 RiscV.SW RiscV.SP operandRegister) ] quadruple (CallQuadruple callName numberOfArguments) = pure $ Vector.fromList [ Instruction (RiscV.CallInstruction callName) , Instruction (RiscV.BaseInstruction RiscV.OpImm $ RiscV.I RiscV.SP RiscV.ADDI RiscV.SP (numberOfArguments * 4)) ] quadruple StopQuadruple = pure $ Vector.fromList [ Instruction (RiscV.BaseInstruction RiscV.Load $ RiscV.I RiscV.S0 RiscV.LW RiscV.SP 0) , Instruction (RiscV.BaseInstruction RiscV.Load $ RiscV.I RiscV.RA RiscV.LW RiscV.SP 4) , Instruction (RiscV.BaseInstruction RiscV.OpImm $ RiscV.I RiscV.SP RiscV.ADDI RiscV.SP 4) , Instruction (RiscV.BaseInstruction RiscV.Jalr $ RiscV.I RiscV.RA RiscV.JALR RiscV.Zero 0) ] quadruple (AddQuadruple operand1 operand2 store) = commutativeBinary (+) RiscV.ADD (RiscV.Funct7 0b0000000) (operand1, operand2) store quadruple (ProductQuadruple operand1 operand2 store) = commutativeBinary (*) RiscV.MUL (RiscV.Funct7 0b0000001) (operand1, operand2) store quadruple (SubtractionQuadruple operand1 operand2 (Store register)) | IntOperand immediateOperand1 <- operand1 , IntOperand immediateOperand2 <- operand2 = pure $ lui (immediateOperand1 - immediateOperand2) register | VariableOperand variableOperand1 <- operand1 , VariableOperand variableOperand2 <- operand2 = let Store operandRegister1 = variableOperand1 Store operandRegister2 = variableOperand2 in pure $ Vector.singleton $ Instruction $ RiscV.BaseInstruction RiscV.Op $ RiscV.R register RiscV.SUB operandRegister1 operandRegister2 $ RiscV.Funct7 0b0100000 | IntOperand immediateOperand1 <- operand1 , VariableOperand variableOperand2 <- operand2 = let statements1 = lui immediateOperand1 register Store operandRegister2 = variableOperand2 in pure $ Vector.snoc statements1 $ Instruction $ RiscV.BaseInstruction RiscV.Op $ RiscV.R register RiscV.SUB register operandRegister2 $ RiscV.Funct7 0b0100000 | VariableOperand variableOperand1 <- operand1 , IntOperand immediateOperand2 <- operand2 = let statements2 = lui (negate immediateOperand2) register Store operandRegister1 = variableOperand1 in pure $ Vector.snoc statements2 $ Instruction $ RiscV.BaseInstruction RiscV.Op $ RiscV.R register RiscV.ADD register operandRegister1 $ RiscV.Funct7 0b0000000 quadruple (NegationQuadruple operand1 (Store register)) | IntOperand immediateOperand1 <- operand1 = pure $ lui (negate immediateOperand1) register | VariableOperand variableOperand1 <- operand1 = let Store operandRegister1 = variableOperand1 in pure $ Vector.singleton $ Instruction $ RiscV.BaseInstruction RiscV.Op $ RiscV.R register RiscV.SUB RiscV.Zero operandRegister1 $ RiscV.Funct7 0b0100000 quadruple (DivisionQuadruple operand1 operand2 (Store register)) | IntOperand immediateOperand1 <- operand1 , IntOperand immediateOperand2 <- operand2 = if immediateOperand2 == 0 then pure $ Vector.singleton $ Instruction (RiscV.CallInstruction "_divide_by_zero_error") else pure $ lui (quot immediateOperand1 immediateOperand2) register | VariableOperand variableOperand1 <- operand1 , VariableOperand variableOperand2 <- operand2 = do let Store operandRegister1 = variableOperand1 Store operandRegister2 = variableOperand2 divisionInstruction = Instruction $ RiscV.BaseInstruction RiscV.Op $ RiscV.R register RiscV.DIV operandRegister1 operandRegister2 (RiscV.Funct7 0b0000001) branchLabel <- createLabel let branchInstruction = Instruction $ RiscV.RelocatableInstruction RiscV.Branch $ RiscV.RBranch branchLabel RiscV.BNE RiscV.Zero operandRegister2 pure $ Vector.fromList [ branchInstruction , Instruction (RiscV.CallInstruction "_divide_by_zero_error") , JumpLabel branchLabel [] , divisionInstruction ] | VariableOperand variableOperand1 <- operand1 , IntOperand immediateOperand2 <- operand2 = let statements2 = lui immediateOperand2 register Store operandRegister1 = variableOperand1 operationInstruction | immediateOperand2 == 0 = RiscV.CallInstruction "_divide_by_zero_error" | otherwise = RiscV.BaseInstruction RiscV.Op $ RiscV.R register RiscV.DIV operandRegister1 register $ RiscV.Funct7 0b0000001 in pure $ Vector.snoc statements2 $ Instruction operationInstruction | IntOperand immediateOperand1 <- operand1 , VariableOperand variableOperand2 <- operand2 = do let statements1 = lui immediateOperand1 register Store operandRegister2 = variableOperand2 divisionInstruction = Instruction $ RiscV.BaseInstruction RiscV.Op $ RiscV.R register RiscV.DIV register operandRegister2 (RiscV.Funct7 0b0000001) branchLabel <- createLabel let branchInstruction = Instruction $ RiscV.RelocatableInstruction RiscV.Branch $ RiscV.RBranch branchLabel RiscV.BNE RiscV.Zero operandRegister2 pure $ mappend statements1 $ Vector.fromList [ branchInstruction , Instruction (RiscV.CallInstruction "_divide_by_zero_error") , JumpLabel branchLabel [] , divisionInstruction ] quadruple (LabelQuadruple (Label label)) = pure $ Vector.singleton $ JumpLabel label mempty quadruple (GoToQuadruple label) = pure $ Vector.singleton $ unconditionalJal label quadruple (EqualQuadruple operand1 operand2 goToLabel) = commutativeComparison (==) RiscV.BEQ (operand1, operand2) goToLabel quadruple (NonEqualQuadruple operand1 operand2 goToLabel) = commutativeComparison (/=) RiscV.BNE (operand1, operand2) goToLabel quadruple (LessQuadruple operand1 operand2 goToLabel) = lessThan (operand1, operand2) goToLabel quadruple (GreaterQuadruple operand1 operand2 goToLabel) = lessThan (operand2, operand1) goToLabel quadruple (LessOrEqualQuadruple operand1 operand2 goToLabel) = lessOrEqualThan (operand1, operand2) goToLabel quadruple (GreaterOrEqualQuadruple operand1 operand2 goToLabel) = lessOrEqualThan (operand2, operand1) goToLabel quadruple (AssignQuadruple operand1 (Store register)) | IntOperand immediateOperand1 <- operand1 = pure $ lui immediateOperand1 register | VariableOperand variableOperand1 <- operand1 = let Store operandRegister1 = variableOperand1 in pure $ Vector.singleton $ Instruction $ RiscV.BaseInstruction RiscV.OpImm $ RiscV.I register RiscV.ADDI operandRegister1 0 unconditionalJal :: Label -> Statement unconditionalJal (Label goToLabel) = Instruction $ RiscV.RelocatableInstruction RiscV.Jal $ RiscV.RJal RiscV.Zero goToLabel loadImmediateOrRegister :: RiscVOperand -> RiscV.XRegister -> (RiscV.XRegister, Vector Statement) loadImmediateOrRegister (IntOperand intValue) targetRegister = (targetRegister, lui intValue targetRegister) loadImmediateOrRegister (VariableOperand (Store register)) _ = (register, Vector.empty) lui :: Int32 -> RiscV.XRegister -> Vector Statement lui intValue targetRegister | intValue >= -2048 , intValue <= 2047 = Vector.singleton $ Instruction (RiscV.BaseInstruction RiscV.OpImm $ RiscV.I targetRegister RiscV.ADDI RiscV.Zero lo) | intValue .&. 0x800 /= 0 = Vector.fromList [ Instruction (RiscV.BaseInstruction RiscV.Lui $ RiscV.U targetRegister $ fromIntegral $ succ hi) , Instruction (RiscV.BaseInstruction RiscV.OpImm $ RiscV.I targetRegister RiscV.ADDI targetRegister lo) ] | otherwise = Vector.fromList [ Instruction (RiscV.BaseInstruction RiscV.Lui $ RiscV.U targetRegister $ fromIntegral hi) , Instruction (RiscV.BaseInstruction RiscV.OpImm $ RiscV.I targetRegister RiscV.ADDI targetRegister lo) ] where hi = intValue `shiftR` 12 lo = fromIntegral intValue commutativeBinary :: (Int32 -> Int32 -> Int32) -> RiscV.Funct3 -> RiscV.Funct7 -> (Operand RiscVStore, Operand RiscVStore) -> Store RiscV.XRegister -> RiscVGenerator (Vector Statement) commutativeBinary immediateOperation funct3 funct7 (operand1, operand2) (Store register) | IntOperand immediateOperand1 <- operand1 , IntOperand immediateOperand2 <- operand2 = pure $ lui (immediateOperation immediateOperand1 immediateOperand2) register | VariableOperand variableOperand1 <- operand1 , VariableOperand variableOperand2 <- operand2 = let Store operandRegister1 = variableOperand1 Store operandRegister2 = variableOperand2 in pure $ Vector.singleton $ Instruction $ RiscV.BaseInstruction RiscV.Op $ RiscV.R register funct3 operandRegister1 operandRegister2 funct7 | VariableOperand variableOperand1 <- operand1 , IntOperand immediateOperand2 <- operand2 = commutativeImmediateRegister variableOperand1 immediateOperand2 | IntOperand immediateOperand1 <- operand1 , VariableOperand variableOperand2 <- operand2 = commutativeImmediateRegister variableOperand2 immediateOperand1 where commutativeImmediateRegister variableOperand immediateOperand = let statements = lui immediateOperand register Store operandRegister = variableOperand in pure $ Vector.snoc statements $ Instruction $ RiscV.BaseInstruction RiscV.Op $ RiscV.R register funct3 register operandRegister funct7 commutativeComparison :: (Int32 -> Int32 -> Bool) -> RiscV.Funct3 -> (Operand RiscVStore, Operand RiscVStore) -> Label -> RiscVGenerator (Vector Statement) commutativeComparison immediateOperation funct3 (operand1, operand2) goToLabel | IntOperand immediateOperand1 <- operand1 , IntOperand immediateOperand2 <- operand2 = if immediateOperation immediateOperand1 immediateOperand2 then pure $ Vector.singleton $ unconditionalJal goToLabel else pure Vector.empty | VariableOperand variableOperand1 <- operand1 , VariableOperand variableOperand2 <- operand2 = do let Store operandRegister1 = variableOperand1 Store operandRegister2 = variableOperand2 Label goToLabel' = goToLabel pure $ Vector.singleton $ Instruction $ RiscV.RelocatableInstruction RiscV.Branch $ RiscV.RBranch goToLabel' funct3 operandRegister1 operandRegister2 | VariableOperand variableOperand1 <- operand1 , IntOperand immediateOperand2 <- operand2 = compareImmediateRegister variableOperand1 immediateOperand2 | IntOperand immediateOperand1 <- operand1 , VariableOperand variableOperand2 <- operand2 = compareImmediateRegister variableOperand2 immediateOperand1 where compareImmediateRegister variableOperand immediateOperand = let statements = lui immediateOperand immediateRegister Store operandRegister = variableOperand Label goToLabel' = goToLabel in pure $ Vector.snoc statements $ Instruction $ RiscV.RelocatableInstruction RiscV.Branch $ RiscV.RBranch goToLabel' funct3 operandRegister immediateRegister lessThan :: (Operand RiscVStore, Operand RiscVStore) -> Label -> RiscVGenerator (Vector Statement) lessThan (operand1, operand2) goToLabel | IntOperand immediateOperand1 <- operand1 , IntOperand immediateOperand2 <- operand2 = if immediateOperand1 < immediateOperand2 then pure $ Vector.singleton $ unconditionalJal goToLabel else pure Vector.empty | VariableOperand variableOperand1 <- operand1 , VariableOperand variableOperand2 <- operand2 = do let Store operandRegister1 = variableOperand1 Store operandRegister2 = variableOperand2 Label goToLabel' = goToLabel pure $ Vector.singleton $ Instruction $ RiscV.RelocatableInstruction RiscV.Branch $ RiscV.RBranch goToLabel' RiscV.BLT operandRegister1 operandRegister2 | VariableOperand variableOperand1 <- operand1 , IntOperand immediateOperand2 <- operand2 = let statements2 = lui immediateOperand2 immediateRegister Store operandRegister1 = variableOperand1 Label goToLabel' = goToLabel in pure $ Vector.snoc statements2 $ Instruction $ RiscV.RelocatableInstruction RiscV.Branch $ RiscV.RBranch goToLabel' RiscV.BLT operandRegister1 immediateRegister | IntOperand immediateOperand1 <- operand1 , VariableOperand variableOperand2 <- operand2 = let statements1 = lui immediateOperand1 immediateRegister Store operandRegister2 = variableOperand2 Label goToLabel' = goToLabel in pure $ Vector.snoc statements1 $ Instruction $ RiscV.RelocatableInstruction RiscV.Branch $ RiscV.RBranch goToLabel' RiscV.BLT immediateRegister operandRegister2 lessOrEqualThan :: (Operand RiscVStore, Operand RiscVStore) -> Label -> RiscVGenerator (Vector Statement) lessOrEqualThan (operand1, operand2) goToLabel | IntOperand immediateOperand1 <- operand1 , IntOperand immediateOperand2 <- operand2 = if immediateOperand1 <= immediateOperand2 then pure $ Vector.singleton $ unconditionalJal goToLabel else pure Vector.empty | VariableOperand variableOperand1 <- operand1 , VariableOperand variableOperand2 <- operand2 = do let Store operandRegister1 = variableOperand1 Store operandRegister2 = variableOperand2 Label goToLabel' = goToLabel pure $ Vector.singleton $ Instruction $ RiscV.RelocatableInstruction RiscV.Branch $ RiscV.RBranch goToLabel' RiscV.BGE operandRegister2 operandRegister1 | VariableOperand variableOperand1 <- operand1 , IntOperand immediateOperand2 <- operand2 = let statements2 = lui immediateOperand2 immediateRegister Store operandRegister1 = variableOperand1 Label goToLabel' = goToLabel in pure $ Vector.snoc statements2 $ Instruction $ RiscV.RelocatableInstruction RiscV.Branch $ RiscV.RBranch goToLabel' RiscV.BGE immediateRegister operandRegister1 | IntOperand immediateOperand1 <- operand1 , VariableOperand variableOperand2 <- operand2 = let statements1 = lui immediateOperand1 immediateRegister Store operandRegister2 = variableOperand2 Label goToLabel' = goToLabel in pure $ Vector.snoc statements1 $ Instruction $ RiscV.RelocatableInstruction RiscV.Branch $ RiscV.RBranch goToLabel' RiscV.BGE operandRegister2 immediateRegister