module Language.Elna.Glue ( glue ) where import Control.Monad.Trans.State (State, gets, modify', runState) import Data.Bifunctor (Bifunctor(..)) import Data.Foldable (Foldable(..)) import Data.HashMap.Strict (HashMap) import qualified Data.HashMap.Strict as HashMap import Data.Maybe (catMaybes) import Data.Vector (Vector) 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 import qualified Data.Vector as Vector import Data.Word (Word32) import qualified Language.Elna.Frontend.AST as AST import Language.Elna.Backend.Intermediate ( Label(..) , Operand(..) , Quadruple(..) , Variable(..) ) import Language.Elna.Frontend.SymbolTable (SymbolTable) import GHC.Records (HasField(..)) data Paste = Paste { temporaryCounter :: Word32 , labelCounter :: Word32 } newtype Glue a = Glue { runGlue :: State Paste a } instance Functor Glue where fmap f (Glue x) = Glue $ f <$> x instance Applicative Glue where pure = Glue . pure (Glue f) <*> (Glue x) = Glue $ f <*> x instance Monad Glue where (Glue x) >>= f = Glue $ x >>= (runGlue . f) glue :: SymbolTable -> AST.Program -> HashMap AST.Identifier (Vector (Quadruple Variable)) glue globalTable = fst . flip runState Paste{ temporaryCounter = 0, labelCounter = 0 } . runGlue . program globalTable program :: SymbolTable -> AST.Program -> Glue (HashMap AST.Identifier (Vector (Quadruple Variable))) program globalTable (AST.Program declarations) = HashMap.fromList . catMaybes <$> traverse (declaration globalTable) declarations declaration :: SymbolTable -> AST.Declaration -> Glue (Maybe (AST.Identifier, Vector (Quadruple Variable))) declaration globalTable (AST.ProcedureDeclaration procedureName _ _ statements) = Just . (procedureName,) . Vector.cons StartQuadruple . flip Vector.snoc StopQuadruple . fold <$> traverse (statement globalTable) statements declaration _ (AST.TypeDefinition _ _) = pure Nothing statement :: SymbolTable -> AST.Statement -> Glue (Vector (Quadruple Variable)) statement _ AST.EmptyStatement = pure mempty statement localTable (AST.CallStatement (AST.Identifier callName) arguments) = do visitedArguments <- traverse (expression localTable) arguments let (parameterStatements, argumentStatements) = bimap (Vector.fromList . fmap ParameterQuadruple) Vector.concat $ unzip visitedArguments in pure $ Vector.snoc (argumentStatements <> parameterStatements) $ CallQuadruple callName $ fromIntegral $ Vector.length argumentStatements statement localTable (AST.CompoundStatement statements) = fold <$> traverse (statement localTable) statements statement localTable (AST.IfStatement ifCondition ifStatement elseStatement) = do (conditionStatements, jumpConstructor) <- condition localTable ifCondition ifLabel <- createLabel endLabel <- createLabel ifStatements <- statement localTable ifStatement possibleElseStatements <- traverse (statement localTable) elseStatement pure $ conditionStatements <> case possibleElseStatements of Just elseStatements -> Vector.cons (jumpConstructor ifLabel) elseStatements <> Vector.fromList [GoToQuadruple endLabel, LabelQuadruple ifLabel] <> Vector.snoc ifStatements (LabelQuadruple endLabel) Nothing -> Vector.fromList [jumpConstructor ifLabel, GoToQuadruple endLabel, LabelQuadruple ifLabel] <> Vector.snoc ifStatements (LabelQuadruple endLabel) {- statement localTable (AST.AssignmentStatement variableAccess' assignee) = do (rhsOperand, rhsStatements) <- expression localTable assignee let variableType' = variableType variableAccess' localTable accessResult <- variableAccess localTable variableAccess' Nothing variableType' mempty pure $ rhsStatements <> case accessResult of (AST.Identifier identifier, Just accumulatedIndex, accumulatedStatements) -> Vector.snoc accumulatedStatements $ ArrayAssignQuadruple rhsOperand accumulatedIndex $ Variable identifier (AST.Identifier identifier, Nothing, accumulatedStatements) -> Vector.snoc accumulatedStatements $ AssignQuadruple rhsOperand $ Variable identifier statement localTable (AST.WhileStatement whileCondition whileStatement) = do (conditionStatements, jumpConstructor) <- condition localTable whileCondition startLabel <- createLabel endLabel <- createLabel conditionLabel <- createLabel whileStatements <- statement localTable whileStatement pure $ Vector.fromList [LabelQuadruple conditionLabel] <> conditionStatements <> Vector.fromList [jumpConstructor startLabel, GoToQuadruple endLabel, LabelQuadruple startLabel] <> whileStatements <> Vector.fromList [GoToQuadruple conditionLabel, LabelQuadruple endLabel] -} createTemporary :: Glue Variable createTemporary = do currentCounter <- Glue $ gets $ getField @"temporaryCounter" Glue $ modify' modifier pure $ TempVariable currentCounter where modifier generator = generator { temporaryCounter = getField @"temporaryCounter" generator + 1 } createLabel :: Glue Label createLabel = do currentCounter <- Glue $ gets $ getField @"labelCounter" Glue $ modify' modifier pure $ Label $ Text.Lazy.toStrict $ Text.Builder.toLazyText $ ".L" <> Text.Builder.decimal currentCounter where modifier generator = generator { labelCounter = getField @"labelCounter" generator + 1 } condition :: SymbolTable -> AST.Condition -> Glue (Vector (Quadruple Variable), Label -> Quadruple Variable) condition localTable (AST.EqualCondition lhs rhs) = do (lhsOperand, lhsStatements) <- expression localTable lhs (rhsOperand, rhsStatements) <- expression localTable rhs pure ( lhsStatements <> rhsStatements , EqualQuadruple lhsOperand rhsOperand ) condition localTable (AST.NonEqualCondition lhs rhs) = do (lhsOperand, lhsStatements) <- expression localTable lhs (rhsOperand, rhsStatements) <- expression localTable rhs pure ( lhsStatements <> rhsStatements , NonEqualQuadruple lhsOperand rhsOperand ) condition localTable (AST.LessCondition lhs rhs) = do (lhsOperand, lhsStatements) <- expression localTable lhs (rhsOperand, rhsStatements) <- expression localTable rhs pure (lhsStatements <> rhsStatements, LessQuadruple lhsOperand rhsOperand) condition localTable (AST.GreaterCondition lhs rhs) = do (lhsOperand, lhsStatements) <- expression localTable lhs (rhsOperand, rhsStatements) <- expression localTable rhs pure ( lhsStatements <> rhsStatements , GreaterQuadruple lhsOperand rhsOperand ) condition localTable (AST.LessOrEqualCondition lhs rhs) = do (lhsOperand, lhsStatements) <- expression localTable lhs (rhsOperand, rhsStatements) <- expression localTable rhs pure ( lhsStatements <> rhsStatements , LessOrEqualQuadruple lhsOperand rhsOperand ) condition localTable (AST.GreaterOrEqualCondition lhs rhs) = do (lhsOperand, lhsStatements) <- expression localTable lhs (rhsOperand, rhsStatements) <- expression localTable rhs pure ( lhsStatements <> rhsStatements , GreaterOrEqualQuadruple lhsOperand rhsOperand ) {- import Language.Elna.Types (Type(..)) import qualified Language.Elna.SymbolTable as SymbolTable variableAccess :: SymbolTable -> AST.VariableAccess -> Maybe Operand -> Type -> Vector Quadruple -> Glue (AST.Identifier, Maybe Operand, Vector Quadruple) variableAccess _ (AST.VariableAccess identifier) accumulatedIndex _ accumulatedStatements = pure (identifier, accumulatedIndex, accumulatedStatements) variableAccess localTable (AST.ArrayAccess access1 index1) Nothing (ArrayType _ baseType) _ = do (indexPlace, statements) <- expression localTable index1 variableAccess localTable access1 (Just indexPlace) baseType statements variableAccess localTable (AST.ArrayAccess arrayAccess' arrayIndex) (Just baseIndex) (ArrayType arraySize baseType) statements = do (indexPlace, statements') <- expression localTable arrayIndex resultVariable <- createTemporary let resultOperand = VariableOperand resultVariable indexCalculation = Vector.fromList [ ProductQuadruple (IntOperand $ fromIntegral arraySize) baseIndex resultVariable , AddQuadruple indexPlace resultOperand resultVariable ] in variableAccess localTable arrayAccess' (Just resultOperand) baseType $ statements <> indexCalculation <> statements' variableAccess _ _ _ _ _ = error "Array access operator doesn't match the type." variableType :: AST.VariableAccess -> SymbolTable -> Type variableType (AST.VariableAccess identifier) symbolTable | Just (TypeInfo type') <- SymbolTable.lookup identifier symbolTable = type' | otherwise = error "Undefined type." variableType (AST.ArrayAccess arrayAccess' _) symbolTable = variableType arrayAccess' symbolTable -} expression :: SymbolTable -> AST.Expression -> Glue (Operand Variable, Vector (Quadruple Variable)) expression localTable = \case (AST.LiteralExpression literal') -> pure (literal literal', mempty) (AST.SumExpression lhs rhs) -> binaryExpression AddQuadruple lhs rhs (AST.SubtractionExpression lhs rhs) -> binaryExpression SubtractionQuadruple lhs rhs (AST.NegationExpression negation) -> do (operand, statements) <- expression localTable negation tempVariable <- createTemporary let negationQuadruple = NegationQuadruple operand tempVariable pure ( VariableOperand tempVariable , Vector.snoc statements negationQuadruple ) (AST.ProductExpression lhs rhs) -> binaryExpression ProductQuadruple lhs rhs (AST.DivisionExpression lhs rhs) -> binaryExpression DivisionQuadruple lhs rhs {- (AST.VariableExpression variableExpression) -> do let variableType' = variableType variableExpression localTable variableAccess' <- variableAccess localTable variableExpression Nothing variableType' mempty case variableAccess' of (AST.Identifier identifier, Nothing, statements) -> pure (VariableOperand (Variable identifier), statements) (AST.Identifier identifier, Just operand, statements) -> do arrayAddress <- createTemporary let arrayStatement = ArrayQuadruple (Variable identifier) operand arrayAddress pure ( VariableOperand arrayAddress , Vector.snoc statements arrayStatement ) -} where binaryExpression f lhs rhs = do (lhsOperand, lhsStatements) <- expression localTable lhs (rhsOperand, rhsStatements) <- expression localTable rhs tempVariable <- createTemporary let newQuadruple = f lhsOperand rhsOperand tempVariable pure ( VariableOperand tempVariable , Vector.snoc (lhsStatements <> rhsStatements) newQuadruple ) literal :: AST.Literal -> Operand Variable literal (AST.DecimalLiteral integer) = IntOperand integer literal (AST.HexadecimalLiteral integer) = IntOperand integer literal (AST.CharacterLiteral character) = IntOperand $ fromIntegral character