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elna/lib/Language/Elna/Frontend/NameAnalysis.hs

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Haskell
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module Language.Elna.Frontend.NameAnalysis
( nameAnalysis
, Error(..)
) where
import qualified Data.List.NonEmpty as NonEmpty
import qualified Data.Vector as Vector
import qualified Language.Elna.Frontend.AST as AST
import qualified Language.Elna.Frontend.SymbolTable as SymbolTable
import Language.Elna.Frontend.SymbolTable
( SymbolTable
, Info(..)
, ParameterInfo(..)
)
import Control.Monad.Trans.Except (Except, runExcept, throwE)
import Data.Functor ((<&>))
import Language.Elna.Location (Identifier(..))
import Language.Elna.Frontend.Types (Type(..))
import Data.Foldable (traverse_)
import Control.Monad (foldM, unless)
data Error
= UndefinedTypeError Identifier
| UnexpectedTypeInfoError Info
| IdentifierAlreadyDefinedError Identifier
| UndefinedSymbolError Identifier
| UnexpectedArrayByValue Identifier
deriving Eq
instance Show Error
where
show (UndefinedTypeError identifier) =
concat ["Type \"", show identifier, "\" is not defined"]
show (UnexpectedTypeInfoError info) = show info
<> " expected to be a type"
show (IdentifierAlreadyDefinedError identifier) =
concat ["The identifier \"", show identifier, "\" is already defined"]
show (UndefinedSymbolError identifier) =
concat ["Symbol \"", show identifier, "\" is not defined"]
show (UnexpectedArrayByValue identifier) = concat
[ "Array \""
, show identifier
, "\" cannot be passed by value, only by reference"
]
newtype NameAnalysis a = NameAnalysis
{ runNameAnalysis :: Except Error a
}
instance Functor NameAnalysis
where
fmap f (NameAnalysis x) = NameAnalysis $ f <$> x
instance Applicative NameAnalysis
where
pure = NameAnalysis . pure
(NameAnalysis f) <*> (NameAnalysis x) = NameAnalysis $ f <*> x
instance Monad NameAnalysis
where
(NameAnalysis x) >>= f = NameAnalysis $ x >>= (runNameAnalysis . f)
nameAnalysis :: AST.Program -> Either Error SymbolTable
nameAnalysis = runExcept
. runNameAnalysis
. program SymbolTable.builtInSymbolTable
program :: SymbolTable -> AST.Program -> NameAnalysis SymbolTable
program symbolTable (AST.Program declarations) = do
globalTable <- foldM procedureDeclaration symbolTable declarations
foldM declaration globalTable declarations
procedureDeclaration :: SymbolTable -> AST.Declaration -> NameAnalysis SymbolTable
procedureDeclaration globalTable = \case
(AST.ProcedureDeclaration identifier parameters _ _)
-> mapM (parameter globalTable) parameters
>>= enterOrFail identifier
. ProcedureInfo SymbolTable.empty
. Vector.fromList
(AST.TypeDefinition identifier typeExpression)
-> dataType globalTable typeExpression
>>= enterOrFail identifier . SymbolTable.TypeInfo
where
enterOrFail identifier declarationInfo =
maybe (NameAnalysis $ throwE $ IdentifierAlreadyDefinedError identifier) pure
$ SymbolTable.enter identifier declarationInfo globalTable
declaration :: SymbolTable -> AST.Declaration -> NameAnalysis SymbolTable
declaration globalTable (AST.ProcedureDeclaration identifier parameters variables body) = do
variableInfo <- mapM (variableDeclaration globalTable) variables
parameterInfo <- mapM (parameterToVariableInfo globalTable) parameters
procedureTable <- fmap (SymbolTable.scope globalTable)
$ either (NameAnalysis . throwE . IdentifierAlreadyDefinedError . NonEmpty.head) pure
$ SymbolTable.fromList
$ parameterInfo <> variableInfo
traverse_ (statement procedureTable) body
pure $ SymbolTable.update (updater procedureTable) identifier globalTable
where
updater procedureTable (ProcedureInfo _ parameters') = Just
$ ProcedureInfo procedureTable parameters'
updater _ _ = Nothing
declaration globalTable (AST.TypeDefinition _ _) = pure globalTable
parameterToVariableInfo :: SymbolTable -> AST.Parameter -> NameAnalysis (Identifier, Info)
parameterToVariableInfo symbolTable (AST.Parameter identifier typeExpression isReferenceParameter')
= (identifier,) . VariableInfo isReferenceParameter'
<$> dataType symbolTable typeExpression
variableDeclaration :: SymbolTable -> AST.VariableDeclaration -> NameAnalysis (Identifier, Info)
variableDeclaration globalTable (AST.VariableDeclaration identifier typeExpression)
= (identifier,) . VariableInfo False
<$> dataType globalTable typeExpression
parameter :: SymbolTable -> AST.Parameter -> NameAnalysis ParameterInfo
parameter environmentSymbolTable (AST.Parameter identifier typeExpression isReferenceParameter') = do
parameterType <- dataType environmentSymbolTable typeExpression
case parameterType of
ArrayType _ _
| not isReferenceParameter' -> NameAnalysis
$ throwE $ UnexpectedArrayByValue identifier
_ ->
let parameterInfo = ParameterInfo
{ name = identifier
, type' = parameterType
, isReferenceParameter = isReferenceParameter'
}
in pure parameterInfo
dataType :: SymbolTable -> AST.TypeExpression -> NameAnalysis Type
dataType environmentSymbolTable (AST.NamedType baseType) = do
case SymbolTable.lookup baseType environmentSymbolTable of
Just baseInfo
| TypeInfo baseType' <- baseInfo -> pure baseType'
| otherwise -> NameAnalysis $ throwE $ UnexpectedTypeInfoError baseInfo
_ -> NameAnalysis $ throwE $ UndefinedTypeError baseType
dataType environmentSymbolTable (AST.ArrayType arraySize baseType) =
dataType environmentSymbolTable baseType <&> ArrayType (fromIntegral arraySize)
checkSymbol :: SymbolTable -> Identifier -> NameAnalysis ()
checkSymbol globalTable identifier
= unless (SymbolTable.member identifier globalTable)
$ NameAnalysis $ throwE
$ UndefinedSymbolError identifier
expression :: SymbolTable -> AST.Expression -> NameAnalysis ()
expression _ (AST.LiteralExpression _) = pure ()
expression globalTable (AST.SumExpression lhs rhs)
= expression globalTable lhs
>> expression globalTable rhs
expression globalTable (AST.SubtractionExpression lhs rhs)
= expression globalTable lhs
>> expression globalTable rhs
expression globalTable (AST.NegationExpression negation) =
expression globalTable negation
expression globalTable (AST.ProductExpression lhs rhs)
= expression globalTable lhs
>> expression globalTable rhs
expression globalTable (AST.DivisionExpression lhs rhs)
= expression globalTable lhs
>> expression globalTable rhs
{- expression globalTable (AST.VariableExpression variableExpression) =
variableAccess globalTable variableExpression
-}
statement :: SymbolTable -> AST.Statement -> NameAnalysis ()
statement _ AST.EmptyStatement = pure ()
statement globalTable (AST.CallStatement name arguments)
= checkSymbol globalTable name
>> traverse_ (expression globalTable) arguments
statement globalTable (AST.CompoundStatement statements) =
traverse_ (statement globalTable) statements
statement globalTable (AST.IfStatement ifCondition ifStatement elseStatement)
= condition globalTable ifCondition
>> statement globalTable ifStatement
>> maybe (pure ()) (statement globalTable) elseStatement
-- statement globalTable (AST.AssignmentStatement lvalue rvalue)
-- = variableAccess globalTable lvalue
-- >> expression globalTable rvalue
--statement globalTable (AST.WhileStatement whileCondition loop)
-- = condition globalTable whileCondition
-- >> statement globalTable loop
condition :: SymbolTable -> AST.Condition -> NameAnalysis ()
condition globalTable (AST.EqualCondition lhs rhs)
= expression globalTable lhs
>> expression globalTable rhs
condition globalTable (AST.NonEqualCondition lhs rhs)
= expression globalTable lhs
>> expression globalTable rhs
condition globalTable (AST.LessCondition lhs rhs)
= expression globalTable lhs
>> expression globalTable rhs
condition globalTable (AST.GreaterCondition lhs rhs)
= expression globalTable lhs
>> expression globalTable rhs
condition globalTable (AST.LessOrEqualCondition lhs rhs)
= expression globalTable lhs
>> expression globalTable rhs
condition globalTable (AST.GreaterOrEqualCondition lhs rhs)
= expression globalTable lhs
>> expression globalTable rhs
{-
variableAccess :: SymbolTable -> AST.VariableAccess -> NameAnalysis ()
variableAccess globalTable (AST.ArrayAccess arrayExpression indexExpression)
= variableAccess globalTable arrayExpression
>> expression globalTable indexExpression
variableAccess globalTable (AST.VariableAccess identifier) =
checkSymbol globalTable identifier
enter :: Identifier -> Info -> SymbolTable -> NameAnalysis SymbolTable
enter identifier info table
= maybe (identifierAlreadyDefinedError identifier) pure
$ SymbolTable.enter identifier info table
identifierAlreadyDefinedError :: Identifier -> NameAnalysis a
identifierAlreadyDefinedError = NameAnalysis
. lift
. throwE
. IdentifierAlreadyDefinedError
variableDeclaration :: AST.VariableDeclaration -> NameAnalysis (Identifier, Info)
variableDeclaration (AST.VariableDeclaration identifier typeExpression)
= (identifier,) . VariableInfo False
<$> dataType typeExpression
-}
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