{-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE DeriveFunctor #-} {-# LANGUAGE DefaultSignatures #-} {-# LANGUAGE FlexibleContexts #-} -- orphans are instances of package-natives {-# OPTIONS_GHC -Wno-orphans #-} module Language.Fortran.AST where import Prelude hiding (init) import Data.Data import Data.Generics.Uniplate.Data () import Data.Typeable () import Data.Binary import GHC.Generics (Generic) import Control.DeepSeq import Text.PrettyPrint.GenericPretty import Language.Fortran.ParserMonad (FortranVersion(..)) import Language.Fortran.Util.Position import Language.Fortran.Util.FirstParameter import Language.Fortran.Util.SecondParameter type A0 = () type Name = String -- AST is polymorphic on some type a as that type is used for arbitrary -- annotations -- Many AST nodes such as executable statements, declerations, etc. may -- appear in lists, hence a dedicated annotated list type is defined data AList t a = AList a SrcSpan [t a] deriving (Eq, Show, Data, Typeable, Generic) instance Functor t => Functor (AList t) where fmap f (AList a s xs) = AList (f a) s (map (fmap f) xs) -- Convert non-empty list to AList. fromList :: Spanned (t a) => a -> [ t a ] -> AList t a fromList a xs = AList a (getSpan xs) xs -- Nothing iff list is empty fromList' :: Spanned (t a) => a -> [ t a ] -> Maybe (AList t a) fromList' _ [] = Nothing fromList' a xs = Just $ fromList a xs fromReverseList :: Spanned (t ()) => [ t () ] -> AList t () fromReverseList = fromList () . reverse fromReverseList' :: Spanned (t ()) => [ t () ] -> Maybe (AList t ()) fromReverseList' = fromList' () . reverse aCons :: t a -> AList t a -> AList t a aCons x (AList a s xs) = AList a s $ x:xs infixr 5 `aCons` aReverse :: AList t a -> AList t a aReverse (AList a s xs) = AList a s $ reverse xs aStrip :: AList t a -> [t a] aStrip (AList _ _ l) = l aStrip' :: Maybe (AList t a) -> [t a] aStrip' Nothing = [] aStrip' (Just a) = aStrip a aMap :: (t a -> r a) -> AList t a -> AList r a aMap f (AList a s xs) = AList a s (map f xs) -- Basic AST nodes data BaseType = TypeInteger | TypeReal | TypeDoublePrecision | TypeComplex | TypeDoubleComplex | TypeLogical | TypeCharacter (Maybe CharacterLen) (Maybe String) -- ^ len and kind, if specified | TypeCustom String | ClassStar | ClassCustom String | TypeByte deriving (Ord, Eq, Show, Data, Typeable, Generic) instance Binary BaseType data CharacterLen = CharLenStar -- ^ specified with a * | CharLenColon -- ^ specified with a : (Fortran2003) -- FIXME, possibly, with a more robust const-exp: | CharLenExp -- ^ specified with a non-trivial expression | CharLenInt Int -- ^ specified with a constant integer deriving (Ord, Eq, Show, Data, Typeable, Generic) instance Binary CharacterLen charLenSelector :: Maybe (Selector a) -> (Maybe CharacterLen, Maybe String) charLenSelector Nothing = (Nothing, Nothing) charLenSelector (Just (Selector _ _ mlen mkind)) = (l, k) where l | Just (ExpValue _ _ ValStar) <- mlen = Just CharLenStar | Just (ExpValue _ _ ValColon) <- mlen = Just CharLenColon | Just (ExpValue _ _ (ValInteger i)) <- mlen = Just $ CharLenInt (read i) | Nothing <- mlen = Nothing | otherwise = Just CharLenExp k | Just (ExpValue _ _ (ValInteger i)) <- mkind = Just i | Just (ExpValue _ _ (ValVariable s)) <- mkind = Just s -- FIXME: some references refer to things like kind=kanji but I can't find any spec for it | otherwise = Nothing data TypeSpec a = TypeSpec a SrcSpan BaseType (Maybe (Selector a)) deriving (Eq, Show, Data, Typeable, Generic, Functor) data Selector a = -- Maybe length | Maybe kind Selector a SrcSpan (Maybe (Expression a)) (Maybe (Expression a)) deriving (Eq, Show, Data, Typeable, Generic, Functor) data MetaInfo = MetaInfo { miVersion :: FortranVersion, miFilename :: String } deriving (Eq, Show, Data, Typeable, Generic) -- Program structure definition data ProgramFile a = ProgramFile MetaInfo [ ProgramUnit a ] deriving (Eq, Show, Data, Typeable, Generic, Functor) pfSetFilename :: String -> ProgramFile a -> ProgramFile a pfSetFilename fn (ProgramFile mi pus) = ProgramFile (mi { miFilename = fn }) pus pfGetFilename :: ProgramFile a -> String pfGetFilename (ProgramFile mi _) = miFilename mi data ProgramUnit a = PUMain a SrcSpan (Maybe Name) -- Program name [Block a] -- Body (Maybe [ProgramUnit a]) -- Subprograms | PUModule a SrcSpan Name -- Program name [Block a] -- Body (Maybe [ProgramUnit a]) -- Subprograms | PUSubroutine a SrcSpan (PrefixSuffix a) -- Subroutine options Name (Maybe (AList Expression a)) -- Arguments [Block a] -- Body (Maybe [ProgramUnit a]) -- Subprograms | PUFunction a SrcSpan (Maybe (TypeSpec a)) -- Return type (PrefixSuffix a) -- Function Options Name (Maybe (AList Expression a)) -- Arguments (Maybe (Expression a)) -- Result [Block a] -- Body (Maybe [ProgramUnit a]) -- Subprograms | PUBlockData a SrcSpan (Maybe Name) [Block a] -- Body | PUComment a SrcSpan (Comment a) deriving (Eq, Show, Data, Typeable, Generic, Functor) type Prefixes a = Maybe (AList Prefix a) type Suffixes a = Maybe (AList Suffix a) type PrefixSuffix a = (Prefixes a, Suffixes a) emptyPrefixes :: Prefixes a emptyPrefixes = Nothing emptySuffixes :: Suffixes a emptySuffixes = Nothing emptyPrefixSuffix :: PrefixSuffix a emptyPrefixSuffix = (emptyPrefixes, emptySuffixes) data Prefix a = PfxRecursive a SrcSpan | PfxElemental a SrcSpan | PfxPure a SrcSpan deriving (Eq, Show, Data, Typeable, Generic, Functor) -- see C1241 & C1242 (Fortran2003) validPrefixSuffix :: PrefixSuffix a -> Bool validPrefixSuffix (mpfxs, msfxs) = not (any isElem pfxs) || (not (any isRec pfxs) && not (any isBind sfxs)) where isElem (PfxElemental {}) = True; isElem _ = False isRec (PfxRecursive {}) = True; isRec _ = False isBind (SfxBind {}) = True pfxs = aStrip' mpfxs sfxs = aStrip' msfxs data Suffix a = SfxBind a SrcSpan (Maybe (Expression a)) deriving (Eq, Show, Data, Typeable, Generic, Functor) programUnitBody :: ProgramUnit a -> [Block a] programUnitBody (PUMain _ _ _ bs _) = bs programUnitBody (PUModule _ _ _ bs _) = bs programUnitBody (PUSubroutine _ _ _ _ _ bs _) = bs programUnitBody (PUFunction _ _ _ _ _ _ _ bs _) = bs programUnitBody (PUBlockData _ _ _ bs) = bs programUnitBody PUComment{} = [] updateProgramUnitBody :: ProgramUnit a -> [Block a] -> ProgramUnit a updateProgramUnitBody (PUMain a s n _ pu) bs' = PUMain a s n bs' pu updateProgramUnitBody (PUModule a s n _ pu) bs' = PUModule a s n bs' pu updateProgramUnitBody (PUSubroutine a s f n args _ pu) bs' = PUSubroutine a s f n args bs' pu updateProgramUnitBody (PUFunction a s t f n args res _ pu) bs' = PUFunction a s t f n args res bs' pu updateProgramUnitBody (PUBlockData a s n _) bs' = PUBlockData a s n bs' updateProgramUnitBody p@PUComment{} _ = p programUnitSubprograms :: ProgramUnit a -> Maybe [ProgramUnit a] programUnitSubprograms (PUMain _ _ _ _ s) = s programUnitSubprograms (PUModule _ _ _ _ s) = s programUnitSubprograms (PUSubroutine _ _ _ _ _ _ s) = s programUnitSubprograms (PUFunction _ _ _ _ _ _ _ _ s) = s programUnitSubprograms PUBlockData{} = Nothing programUnitSubprograms PUComment{} = Nothing newtype Comment a = Comment String deriving (Eq, Show, Data, Typeable, Generic, Functor) data Block a = BlStatement a SrcSpan (Maybe (Expression a)) -- Label (Statement a) -- Statement | BlForall a SrcSpan (Maybe (Expression a)) -- Label (Maybe String) -- Construct name (ForallHeader a) -- Header information [ Block a ] -- Body (Maybe (Expression a)) -- Label to END DO | BlIf a SrcSpan (Maybe (Expression a)) -- Label (Maybe String) -- Construct name [ Maybe (Expression a) ] -- Conditions [ [ Block a ] ] -- Bodies (Maybe (Expression a)) -- Label to END IF | BlCase a SrcSpan (Maybe (Expression a)) -- Label (Maybe String) -- Construct name (Expression a) -- Scrutinee [ Maybe (AList Index a) ] -- Case ranges [ [ Block a ] ] -- Bodies (Maybe (Expression a)) -- Label to END SELECT | BlDo a SrcSpan (Maybe (Expression a)) -- Label (Maybe String) -- Construct name (Maybe (Expression a)) -- Target label (Maybe (DoSpecification a)) -- Do Specification [ Block a ] -- Body (Maybe (Expression a)) -- Label to END DO | BlDoWhile a SrcSpan (Maybe (Expression a)) -- Label (Maybe String) -- Construct name (Maybe (Expression a)) -- Target label (Expression a) -- Condition [ Block a ] -- Body (Maybe (Expression a)) -- Label to END DO | BlInterface a SrcSpan (Maybe (Expression a)) -- label Bool -- abstract? [ ProgramUnit a ] -- Routine decls. in the interface [ Block a ] -- Module procedures | BlComment a SrcSpan (Comment a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data Statement a = StDeclaration a SrcSpan (TypeSpec a) (Maybe (AList Attribute a)) (AList Declarator a) | StStructure a SrcSpan (Maybe String) (AList StructureItem a) | StIntent a SrcSpan Intent (AList Expression a) | StOptional a SrcSpan (AList Expression a) | StPublic a SrcSpan (Maybe (AList Expression a)) | StPrivate a SrcSpan (Maybe (AList Expression a)) | StProtected a SrcSpan (Maybe (AList Expression a)) | StSave a SrcSpan (Maybe (AList Expression a)) | StDimension a SrcSpan (AList Declarator a) | StAllocatable a SrcSpan (AList Declarator a) | StAsynchronous a SrcSpan (AList Declarator a) | StPointer a SrcSpan (AList Declarator a) | StTarget a SrcSpan (AList Declarator a) | StValue a SrcSpan (AList Declarator a) | StVolatile a SrcSpan (AList Declarator a) | StData a SrcSpan (AList DataGroup a) | StAutomatic a SrcSpan (AList Declarator a) | StNamelist a SrcSpan (AList Namelist a) | StParameter a SrcSpan (AList Declarator a) | StExternal a SrcSpan (AList Expression a) | StIntrinsic a SrcSpan (AList Expression a) | StCommon a SrcSpan (AList CommonGroup a) | StEquivalence a SrcSpan (AList (AList Expression) a) | StFormat a SrcSpan (AList FormatItem a) | StImplicit a SrcSpan (Maybe (AList ImpList a)) | StEntry a SrcSpan (Expression a) (Maybe (AList Expression a)) (Maybe (Expression a)) | StInclude a SrcSpan (Expression a) (Maybe [Block a]) | StDo a SrcSpan (Maybe String) (Maybe (Expression a)) (Maybe (DoSpecification a)) | StDoWhile a SrcSpan (Maybe String) (Maybe (Expression a)) (Expression a) | StEnddo a SrcSpan (Maybe String) | StCycle a SrcSpan (Maybe (Expression a)) | StExit a SrcSpan (Maybe (Expression a)) | StIfLogical a SrcSpan (Expression a) (Statement a) -- Statement should not further recurse | StIfArithmetic a SrcSpan (Expression a) (Expression a) (Expression a) (Expression a) | StIfThen a SrcSpan (Maybe String) (Expression a) | StElse a SrcSpan (Maybe String) | StElsif a SrcSpan (Maybe String) (Expression a) | StEndif a SrcSpan (Maybe String) | StSelectCase a SrcSpan (Maybe String) (Expression a) | StCase a SrcSpan (Maybe String) (Maybe (AList Index a)) | StEndcase a SrcSpan (Maybe String) | StFunction a SrcSpan (Expression a) (AList Expression a) (Expression a) | StExpressionAssign a SrcSpan (Expression a) (Expression a) | StPointerAssign a SrcSpan (Expression a) (Expression a) | StLabelAssign a SrcSpan (Expression a) (Expression a) | StGotoUnconditional a SrcSpan (Expression a) | StGotoAssigned a SrcSpan (Expression a) (Maybe (AList Expression a)) | StGotoComputed a SrcSpan (AList Expression a) (Expression a) | StCall a SrcSpan (Expression a) (Maybe (AList Argument a)) | StReturn a SrcSpan (Maybe (Expression a)) | StContinue a SrcSpan | StStop a SrcSpan (Maybe (Expression a)) | StPause a SrcSpan (Maybe (Expression a)) | StRead a SrcSpan (AList ControlPair a) (Maybe (AList Expression a)) | StRead2 a SrcSpan (Expression a) (Maybe (AList Expression a)) | StWrite a SrcSpan (AList ControlPair a) (Maybe (AList Expression a)) | StPrint a SrcSpan (Expression a) (Maybe (AList Expression a)) | StTypePrint a SrcSpan (Expression a) (Maybe (AList Expression a)) | StOpen a SrcSpan (AList ControlPair a) | StClose a SrcSpan (AList ControlPair a) | StFlush a SrcSpan (AList FlushSpec a) | StInquire a SrcSpan (AList ControlPair a) | StRewind a SrcSpan (AList ControlPair a) | StRewind2 a SrcSpan (Expression a) | StBackspace a SrcSpan (AList ControlPair a) | StBackspace2 a SrcSpan (Expression a) | StEndfile a SrcSpan (AList ControlPair a) | StEndfile2 a SrcSpan (Expression a) | StAllocate a SrcSpan (Maybe (TypeSpec a)) (AList Expression a) (Maybe (AList AllocOpt a)) | StNullify a SrcSpan (AList Expression a) | StDeallocate a SrcSpan (AList Expression a) (Maybe (AList AllocOpt a)) | StWhere a SrcSpan (Expression a) (Statement a) | StWhereConstruct a SrcSpan (Maybe String) (Expression a) | StElsewhere a SrcSpan (Maybe String) (Maybe (Expression a)) | StEndWhere a SrcSpan (Maybe String) | StUse a SrcSpan (Expression a) (Maybe ModuleNature) Only (Maybe (AList Use a)) | StModuleProcedure a SrcSpan (AList Expression a) | StProcedure a SrcSpan (Maybe (ProcInterface a)) (Maybe (Attribute a)) (AList ProcDecl a) | StType a SrcSpan (Maybe (AList Attribute a)) String | StEndType a SrcSpan (Maybe String) | StSequence a SrcSpan | StForall a SrcSpan (Maybe String) (ForallHeader a) | StForallStatement a SrcSpan (ForallHeader a) (Statement a) | StEndForall a SrcSpan (Maybe String) | StImport a SrcSpan (AList Expression a) | StEnum a SrcSpan | StEnumerator a SrcSpan (AList Declarator a) | StEndEnum a SrcSpan -- Following is a temporary solution to a complicated FORMAT statement -- parsing problem. | StFormatBogus a SrcSpan String deriving (Eq, Show, Data, Typeable, Generic, Functor) -- R1214 proc-decl is procedure-entity-name [=> null-init] data ProcDecl a = ProcDecl a SrcSpan (Expression a) (Maybe (Expression a)) deriving (Eq, Show, Data, Typeable, Generic, Functor) -- R1212 proc-interface is interface-name or declaration-type-spec data ProcInterface a = ProcInterfaceName a SrcSpan (Expression a) | ProcInterfaceType a SrcSpan (TypeSpec a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data ForallHeader a = ForallHeader -- List of tuples: index-name, start subscript, end subscript, optional stride [(Name, Expression a, Expression a, Maybe (Expression a))] -- An optional expression for scaling (Maybe (Expression a)) deriving (Eq, Show, Data, Typeable, Generic, Functor) data Only = Exclusive | Permissive deriving (Eq, Show, Data, Typeable, Generic) data ModuleNature = ModIntrinsic | ModNonIntrinsic deriving (Eq, Show, Data, Typeable, Generic) data Use a = UseRename a SrcSpan (Expression a) (Expression a) | UseID a SrcSpan (Expression a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data Argument a = Argument a SrcSpan (Maybe String) (Expression a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data Attribute a = AttrAllocatable a SrcSpan | AttrAsynchronous a SrcSpan | AttrDimension a SrcSpan (AList DimensionDeclarator a) | AttrExternal a SrcSpan | AttrIntent a SrcSpan Intent | AttrIntrinsic a SrcSpan | AttrOptional a SrcSpan | AttrParameter a SrcSpan | AttrPointer a SrcSpan | AttrPrivate a SrcSpan | AttrProtected a SrcSpan | AttrPublic a SrcSpan | AttrSave a SrcSpan | AttrSuffix a SrcSpan (Suffix a) -- for language-binding-spec | AttrTarget a SrcSpan | AttrValue a SrcSpan | AttrVolatile a SrcSpan deriving (Eq, Show, Data, Typeable, Generic, Functor) data Intent = In | Out | InOut deriving (Eq, Show, Data, Typeable, Generic) data ControlPair a = ControlPair a SrcSpan (Maybe String) (Expression a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data AllocOpt a = AOStat a SrcSpan (Expression a) | AOErrMsg a SrcSpan (Expression a) | AOSource a SrcSpan (Expression a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data ImpList a = ImpList a SrcSpan (TypeSpec a) (AList ImpElement a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data ImpElement a = ImpCharacter a SrcSpan String | ImpRange a SrcSpan String String deriving (Eq, Show, Data, Typeable, Generic, Functor) data CommonGroup a = CommonGroup a SrcSpan (Maybe (Expression a)) (AList Expression a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data Namelist a = Namelist a SrcSpan (Expression a) (AList Expression a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data DataGroup a = DataGroup a SrcSpan (AList Expression a) (AList Expression a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data StructureItem a = StructFields a SrcSpan (TypeSpec a) (Maybe (AList Attribute a)) (AList Declarator a) | StructUnion a SrcSpan (AList UnionMap a) | StructStructure a SrcSpan (Maybe String) String (AList StructureItem a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data UnionMap a = UnionMap a SrcSpan (AList StructureItem a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data FormatItem a = FIFormatList a SrcSpan (Maybe String) (AList FormatItem a) | FIHollerith a SrcSpan (Value a) | FIDelimiter a SrcSpan -- descriptor type | annotation | span | repeat | descriptor | width | integer | FIFieldDescriptorDEFG a SrcSpan (Maybe Integer) Char Integer Integer | FIFieldDescriptorAIL a SrcSpan (Maybe Integer) Char Integer | FIBlankDescriptor a SrcSpan Integer | FIScaleFactor a SrcSpan Integer deriving (Eq, Show, Data, Typeable, Generic, Functor) data FlushSpec a = FSUnit a SrcSpan (Expression a) | FSIOStat a SrcSpan (Expression a) | FSIOMsg a SrcSpan (Expression a) | FSErr a SrcSpan (Expression a) deriving (Eq, Show, Data, Typeable, Generic, Functor) data DoSpecification a = DoSpecification a SrcSpan (Statement a) (Expression a) (Maybe (Expression a)) deriving (Eq, Show, Data, Typeable, Generic, Functor) data Expression a = ExpValue a SrcSpan (Value a) -- ^ Use a value as an expression. | ExpBinary a SrcSpan BinaryOp (Expression a) (Expression a) -- ^ A binary operator applied to two expressions. | ExpUnary a SrcSpan UnaryOp (Expression a) -- ^ A unary operator applied to two expressions. | ExpSubscript a SrcSpan (Expression a) (AList Index a) -- ^ Array indexing | ExpDataRef a SrcSpan (Expression a) (Expression a) -- ^ @%@ notation for variables inside data types | ExpFunctionCall a SrcSpan (Expression a) (Maybe (AList Argument a)) -- ^ A function expression applied to a list of arguments. | ExpImpliedDo a SrcSpan (AList Expression a) (DoSpecification a) -- ^ Implied do (i.e. one-liner do loops) | ExpInitialisation a SrcSpan (AList Expression a) -- ^ Array initialisation | ExpReturnSpec a SrcSpan (Expression a) -- ^ Function return value specification deriving (Eq, Show, Data, Typeable, Generic, Functor) data Index a = IxSingle a SrcSpan (Maybe String) (Expression a) | IxRange a SrcSpan (Maybe (Expression a)) -- Lower index (Maybe (Expression a)) -- Upper index (Maybe (Expression a)) -- Stride deriving (Eq, Show, Data, Typeable, Generic, Functor) -- All recursive Values data Value a = ValInteger String -- ^ The string representation of an integer literal | ValReal String -- ^ The string representation of a real literal | ValComplex (Expression a) (Expression a) -- ^ The real and imaginary parts of a complex value | ValString String -- ^ A string literal | ValHollerith String -- ^ A Hollerith literal | ValVariable Name -- ^ The name of a variable | ValIntrinsic Name -- ^ The name of a built-in function | ValLogical String -- ^ A boolean value | ValOperator String -- ^ User-defined operators in interfaces | ValAssignment -- ^ Overloaded assignment in interfaces | ValType String | ValStar | ValColon -- see R402 / C403 in Fortran2003 spec. deriving (Eq, Show, Data, Typeable, Generic, Functor) data Declarator a = DeclVariable a SrcSpan (Expression a) -- Variable (Maybe (Expression a)) -- Length (character) (Maybe (Expression a)) -- Initial value | DeclArray a SrcSpan (Expression a) -- Array (AList DimensionDeclarator a) -- Dimensions (Maybe (Expression a)) -- Length (character) (Maybe (Expression a)) -- Initial value deriving (Eq, Show, Data, Typeable, Generic, Functor) setInitialisation :: Declarator a -> Expression a -> Declarator a setInitialisation (DeclVariable a s v l Nothing) init = DeclVariable a (getTransSpan s init) v l (Just init) setInitialisation (DeclArray a s v ds l Nothing) init = DeclArray a (getTransSpan s init) v ds l (Just init) -- do nothing when there is already a value setInitialisation d _ = d data DimensionDeclarator a = DimensionDeclarator a SrcSpan (Maybe (Expression a)) (Maybe (Expression a)) deriving (Eq, Show, Data, Typeable, Generic, Functor) data UnaryOp = Plus | Minus | Not | UnCustom String deriving (Eq, Ord, Show, Data, Typeable, Generic) instance Binary UnaryOp data BinaryOp = Addition | Subtraction | Multiplication | Division | Exponentiation | Concatenation | GT | GTE | LT | LTE | EQ | NE | Or | XOr | And | Equivalent | NotEquivalent | BinCustom String deriving (Eq, Ord, Show, Data, Typeable, Generic) instance Binary BinaryOp -- Retrieving SrcSpan and Annotation from nodes class Annotated f where getAnnotation :: f a -> a setAnnotation :: a -> f a -> f a modifyAnnotation :: (a -> a) -> f a -> f a default getAnnotation :: (FirstParameter (f a) a) => f a -> a getAnnotation = getFirstParameter default setAnnotation :: (FirstParameter (f a) a) => a -> f a -> f a setAnnotation = setFirstParameter modifyAnnotation f x = setAnnotation (f (getAnnotation x)) x instance FirstParameter (AList t a) a instance FirstParameter (ProgramUnit a) a instance FirstParameter (Prefix a) a instance FirstParameter (Suffix a) a instance FirstParameter (Block a) a instance FirstParameter (Statement a) a instance FirstParameter (Argument a) a instance FirstParameter (Use a) a instance FirstParameter (TypeSpec a) a instance FirstParameter (ProcDecl a) a instance FirstParameter (ProcInterface a) a instance FirstParameter (Selector a) a instance FirstParameter (Attribute a) a instance FirstParameter (ImpList a) a instance FirstParameter (ImpElement a) a instance FirstParameter (CommonGroup a) a instance FirstParameter (DataGroup a) a instance FirstParameter (StructureItem a) a instance FirstParameter (UnionMap a) a instance FirstParameter (Namelist a) a instance FirstParameter (FormatItem a) a instance FirstParameter (Expression a) a instance FirstParameter (Index a) a instance FirstParameter (DoSpecification a) a instance FirstParameter (FlushSpec a) a instance FirstParameter (Declarator a) a instance FirstParameter (DimensionDeclarator a) a instance FirstParameter (ControlPair a) a instance FirstParameter (AllocOpt a) a instance SecondParameter (AList t a) SrcSpan instance SecondParameter (ProgramUnit a) SrcSpan instance SecondParameter (Prefix a) SrcSpan instance SecondParameter (Suffix a) SrcSpan instance SecondParameter (Block a) SrcSpan instance SecondParameter (Statement a) SrcSpan instance SecondParameter (Argument a) SrcSpan instance SecondParameter (Use a) SrcSpan instance SecondParameter (TypeSpec a) SrcSpan instance SecondParameter (ProcDecl a) SrcSpan instance SecondParameter (ProcInterface a) SrcSpan instance SecondParameter (Selector a) SrcSpan instance SecondParameter (Attribute a) SrcSpan instance SecondParameter (ImpList a) SrcSpan instance SecondParameter (ImpElement a) SrcSpan instance SecondParameter (CommonGroup a) SrcSpan instance SecondParameter (DataGroup a) SrcSpan instance SecondParameter (StructureItem a) SrcSpan instance SecondParameter (UnionMap a) SrcSpan instance SecondParameter (Namelist a) SrcSpan instance SecondParameter (FormatItem a) SrcSpan instance SecondParameter (Expression a) SrcSpan instance SecondParameter (Index a) SrcSpan instance SecondParameter (DoSpecification a) SrcSpan instance SecondParameter (FlushSpec a) SrcSpan instance SecondParameter (Declarator a) SrcSpan instance SecondParameter (DimensionDeclarator a) SrcSpan instance SecondParameter (ControlPair a) SrcSpan instance SecondParameter (AllocOpt a) SrcSpan instance Annotated (AList t) instance Annotated ProgramUnit instance Annotated Block instance Annotated Statement instance Annotated Argument instance Annotated Use instance Annotated TypeSpec instance Annotated ProcDecl instance Annotated ProcInterface instance Annotated Selector instance Annotated Attribute instance Annotated ImpList instance Annotated ImpElement instance Annotated CommonGroup instance Annotated DataGroup instance Annotated StructureItem instance Annotated UnionMap instance Annotated Namelist instance Annotated FormatItem instance Annotated Expression instance Annotated Index instance Annotated DoSpecification instance Annotated FlushSpec instance Annotated Declarator instance Annotated DimensionDeclarator instance Annotated ControlPair instance Annotated AllocOpt instance Spanned (AList t a) instance Spanned (ProgramUnit a) instance Spanned (Prefix a) instance Spanned (Suffix a) instance Spanned (Statement a) instance Spanned (Argument a) instance Spanned (Use a) instance Spanned (Attribute a) instance Spanned (TypeSpec a) instance Spanned (ProcDecl a) instance Spanned (ProcInterface a) instance Spanned (Selector a) instance Spanned (ImpList a) instance Spanned (ImpElement a) instance Spanned (Block a) instance Spanned (CommonGroup a) instance Spanned (DataGroup a) instance Spanned (StructureItem a) instance Spanned (UnionMap a) instance Spanned (Namelist a) instance Spanned (FormatItem a) instance Spanned (Expression a) instance Spanned (Index a) instance Spanned (DoSpecification a) instance Spanned (FlushSpec a) instance Spanned (Declarator a) instance Spanned (DimensionDeclarator a) instance Spanned (ControlPair a) instance Spanned (AllocOpt a) instance Spanned (ProgramFile a) where getSpan (ProgramFile _ pus) = case pus of [] -> SrcSpan initPosition initPosition pus' -> getSpan pus' setSpan _ _ = error "Cannot set span to a program unit" instance (Spanned a) => Spanned [a] where getSpan [] = error "Trying to find how long an empty list spans for." getSpan [x] = getSpan x getSpan (x:xs) = getTransSpan x (last xs) setSpan _ _ = error "Cannot set span to an array" instance (Spanned a, Spanned b) => Spanned (a, Maybe b) where getSpan (x, Just y) = getTransSpan x y getSpan (x,_) = getSpan x setSpan _ = undefined instance (Spanned a, Spanned b) => Spanned (Maybe a, b) where getSpan (Just x,y) = getTransSpan x y getSpan (_,y) = getSpan y setSpan _ = undefined instance (Spanned a, Spanned b) => Spanned (Either a b) where getSpan (Left x) = getSpan x getSpan (Right x) = getSpan x setSpan _ = undefined instance {-# OVERLAPPABLE #-} (Spanned a, Spanned b) => Spanned (a, b) where getSpan (x,y) = getTransSpan x y setSpan _ = undefined instance {-# OVERLAPPING #-}(Spanned a, Spanned b, Spanned c) => Spanned (Maybe a, Maybe b, Maybe c) where getSpan (Just x,_,Just z) = getTransSpan x z getSpan (Just x,Just y,Nothing) = getTransSpan x y getSpan (Nothing,Just y,Just z) = getTransSpan y z getSpan (Just x,Nothing,Nothing) = getSpan x getSpan (Nothing,Just y,Nothing) = getSpan y getSpan (Nothing,Nothing,Just z) = getSpan z getSpan (Nothing,Nothing,Nothing) = undefined setSpan _ = undefined instance {-# OVERLAPPING #-}(Spanned a, Spanned b, Spanned c) => Spanned (a, Maybe b, Maybe c) where getSpan (x,_,Just z) = getTransSpan x z getSpan (x,Just y,Nothing) = getTransSpan x y getSpan (x,Nothing,Nothing) = getSpan x setSpan _ = undefined instance {-# OVERLAPPING #-} (Spanned a, Spanned b, Spanned c) => Spanned (Maybe a, b, c) where getSpan (Just x,_,z) = getTransSpan x z getSpan (_,y,z) = getSpan (y,z) setSpan _ = undefined instance {-# OVERLAPPABLE #-} (Spanned a, Spanned b, Spanned c) => Spanned (a, b, c) where getSpan (x,_,z) = getTransSpan x z setSpan _ = undefined class (Spanned a, Spanned b) => SpannedPair a b where getTransSpan :: a -> b -> SrcSpan instance {-# OVERLAPPABLE #-} (Spanned a, Spanned b) => SpannedPair a b where getTransSpan x y = SrcSpan l1 l2' where SrcSpan l1 _ = getSpan x SrcSpan _ l2' = getSpan y instance {-# OVERLAPS #-} (Spanned a, Spanned b) => SpannedPair a [b] where getTransSpan x [] = getSpan x getTransSpan x y = SrcSpan l1 l2' where SrcSpan l1 _ = getSpan x SrcSpan _ l2' = getSpan y instance {-# OVERLAPS #-} (Spanned a, Spanned b) => SpannedPair a [[b]] where getTransSpan x [] = getSpan x getTransSpan x y | all null y = getSpan x getTransSpan x y | any null y = getTransSpan x (filter (not . null) y) getTransSpan x y = SrcSpan l1 l2' where SrcSpan l1 _ = getSpan x SrcSpan _ l2' = getSpan y class Labeled f where getLabel :: f a -> Maybe (Expression a) getLastLabel :: f a -> Maybe (Expression a) setLabel :: f a -> Expression a -> f a instance Labeled Block where getLabel (BlStatement _ _ l _) = l getLabel (BlIf _ _ l _ _ _ _) = l getLabel (BlCase _ _ l _ _ _ _ _) = l getLabel (BlDo _ _ l _ _ _ _ _) = l getLabel (BlDoWhile _ _ l _ _ _ _ _) = l getLabel _ = Nothing getLastLabel b@BlStatement{} = getLabel b getLastLabel (BlIf _ _ _ _ _ _ l) = l getLastLabel (BlCase _ _ _ _ _ _ _ l) = l getLastLabel (BlDo _ _ _ _ _ _ _ l) = l getLastLabel (BlDoWhile _ _ _ _ _ _ _ l) = l getLastLabel _ = Nothing setLabel (BlStatement a s _ st) l = BlStatement a s (Just l) st setLabel (BlIf a s _ mn conds bs el) l = BlIf a s (Just l) mn conds bs el setLabel (BlDo a s _ mn tl spec bs el) l = BlDo a s (Just l) mn tl spec bs el setLabel (BlDoWhile a s _ n tl spec bs el) l = BlDoWhile a s (Just l) n tl spec bs el setLabel b _ = b class Conditioned f where getCondition :: f a -> Maybe (Expression a) instance Conditioned Block where getCondition (BlStatement _ _ _ s) = getCondition s getCondition _ = Nothing instance Conditioned Statement where getCondition (StIfThen _ _ _ c) = Just c getCondition (StElsif _ _ _ c) = Just c getCondition _ = Nothing data ProgramUnitName = Named String | NamelessBlockData | NamelessComment | NamelessMain deriving (Ord, Eq, Show, Data, Typeable, Generic) instance Binary ProgramUnitName instance NFData ProgramUnitName class Named a where getName :: a -> ProgramUnitName setName :: ProgramUnitName -> a -> a instance Named (ProgramUnit a) where getName (PUMain _ _ Nothing _ _) = NamelessMain getName (PUMain _ _ (Just n) _ _) = Named n getName (PUModule _ _ n _ _) = Named n getName (PUSubroutine _ _ _ n _ _ _) = Named n getName (PUFunction _ _ _ _ n _ _ _ _) = Named n getName (PUBlockData _ _ Nothing _) = NamelessBlockData getName (PUBlockData _ _ (Just n) _) = Named n getName PUComment{} = NamelessComment setName (Named n) (PUMain a s _ b pus) = PUMain a s (Just n) b pus setName _ (PUMain a s _ b pus) = PUMain a s Nothing b pus setName (Named n) (PUModule a s _ b pus) = PUModule a s n b pus setName (Named n) (PUSubroutine a s r _ p b subs) = PUSubroutine a s r n p b subs setName (Named n) (PUFunction a s r rec _ p res b subs) = PUFunction a s r rec n p res b subs setName (Named n) (PUBlockData a s _ b) = PUBlockData a s (Just n) b setName _ (PUBlockData a s _ b) = PUBlockData a s Nothing b -- Identity function if first arg is nameless or second arg is comment. setName _ a = a instance Out FortranVersion instance Out MetaInfo instance Out a => Out (ProgramFile a) instance Out a => Out (ProgramUnit a) instance Out a => Out (Prefix a) instance Out a => Out (Suffix a) instance (Out a, Out (t a)) => Out (AList t a) instance Out a => Out (Statement a) instance Out a => Out (ProcDecl a) instance Out a => Out (ProcInterface a) instance Out Only instance Out ModuleNature instance Out a => Out (Argument a) instance Out a => Out (Use a) instance Out a => Out (Attribute a) instance Out Intent instance Out a => Out (ImpList a) instance Out a => Out (ImpElement a) instance Out a => Out (Comment a) instance Out a => Out (Block a) instance Out a => Out (CommonGroup a) instance Out a => Out (DataGroup a) instance Out a => Out (StructureItem a) instance Out a => Out (UnionMap a) instance Out a => Out (Namelist a) instance Out a => Out (FormatItem a) instance Out a => Out (Expression a) instance Out a => Out (Index a) instance Out a => Out (DoSpecification a) instance Out a => Out (FlushSpec a) instance Out a => Out (Value a) instance Out a => Out (TypeSpec a) instance Out a => Out (Selector a) instance Out CharacterLen instance Out BaseType instance Out a => Out (Declarator a) instance Out a => Out (DimensionDeclarator a) instance Out a => Out (ControlPair a) instance Out a => Out (AllocOpt a) instance Out UnaryOp instance Out BinaryOp instance Out a => Out (ForallHeader a) -- Classifiers on statement and blocks ASTs nonExecutableStatement :: FortranVersion -> Statement a -> Bool nonExecutableStatement _ s = case s of StIntent {} -> True StOptional {} -> True StPublic {} -> True StPrivate {} -> True StProtected {} -> True StSave {} -> True StDimension {} -> True StAllocatable {} -> True StAsynchronous {} -> True StPointer {} -> True StTarget {} -> True StValue {} -> True StVolatile {} -> True StData {} -> True StParameter {} -> True StImplicit {} -> True StNamelist {} -> True StEquivalence {} -> True StCommon {} -> True StExternal {} -> True StIntrinsic {} -> True StUse {} -> True StEntry {} -> True StSequence {} -> True StType {} -> True StEndType {} -> True StFormat {} -> True StFormatBogus {} -> True StInclude {} -> True StDeclaration {} -> True StStructure {} -> True _ -> False executableStatement :: FortranVersion -> Statement a -> Bool -- Some statements are both executable and non-executable in Fortran 90 upwards executableStatement v StFormat{} | v >= Fortran90 = True executableStatement v StEntry{} | v >= Fortran90 = True executableStatement v StData{} | v >= Fortran90 = True executableStatement v s = not $ nonExecutableStatement v s executableStatementBlock :: FortranVersion -> Block a -> Bool executableStatementBlock v (BlStatement _ _ _ s) = executableStatement v s executableStatementBlock _ _ = False nonExecutableStatementBlock :: FortranVersion -> Block a -> Bool nonExecutableStatementBlock v (BlStatement _ _ _ s) = nonExecutableStatement v s nonExecutableStatementBlock _ BlInterface{} = True nonExecutableStatementBlock _ _ = False instance (NFData a, NFData (t a)) => NFData (AList t a) instance NFData a => NFData (ProgramFile a) instance NFData a => NFData (ProgramUnit a) instance NFData a => NFData (Block a) instance NFData a => NFData (Expression a) instance NFData a => NFData (TypeSpec a) instance NFData a => NFData (Index a) instance NFData a => NFData (Value a) instance NFData a => NFData (Comment a) instance NFData a => NFData (Statement a) instance NFData a => NFData (ProcDecl a) instance NFData a => NFData (ProcInterface a) instance NFData a => NFData (DoSpecification a) instance NFData a => NFData (Selector a) instance NFData a => NFData (ForallHeader a) instance NFData a => NFData (Argument a) instance NFData a => NFData (Use a) instance NFData a => NFData (Attribute a) instance NFData a => NFData (CommonGroup a) instance NFData a => NFData (ControlPair a) instance NFData a => NFData (AllocOpt a) instance NFData a => NFData (DataGroup a) instance NFData a => NFData (DimensionDeclarator a) instance NFData a => NFData (Declarator a) instance NFData a => NFData (FormatItem a) instance NFData a => NFData (FlushSpec a) instance NFData a => NFData (ImpElement a) instance NFData a => NFData (ImpList a) instance NFData a => NFData (Namelist a) instance NFData a => NFData (Prefix a) instance NFData a => NFData (Suffix a) instance NFData a => NFData (StructureItem a) instance NFData a => NFData (UnionMap a) instance NFData MetaInfo instance NFData FortranVersion instance NFData CharacterLen instance NFData BaseType instance NFData UnaryOp instance NFData BinaryOp instance NFData Only instance NFData ModuleNature instance NFData Intent