Logic_Haskell.hs revision d735450f81527e363268683fe66d1d7bc1d1a2f8
{-# OPTIONS -fno-warn-missing-methods #-}
{-|
Module : $Header$
Copyright : (c) Christian Maeder, Sonja Groening, Uni Bremen 2002-2004
Licence : similar to LGPL, see HetCATS/LICENCE.txt or LIZENZ.txt
Maintainer : hets@tzi.de
Stability : provisional
Portability : non-portable(Logic)
Here is the place where the class Logic is instantiated for Haskell.
Also the instances for Syntax an Category.
todo:
- writing real functions
-}
module Haskell.Logic_Haskell (Haskell(..), empty_signature) where
import Logic.ParsecInterface (toParseFun)
import Logic.Logic {-(Language,
Category,
Syntax,
Sentences,
StaticAnalysis,
Logic,
parse_basic_spec,
parse_symb_items,
parse_symb_map_items,
basic_analysis,
empty_signature,
signature_union,
data_logic,
sublogic_names,
inclusion)-}
import Data.Dynamic
import Haskell.ATC_Haskell -- generated ATerm conversions
import System.IO.Unsafe (unsafePerformIO)
import Haskell.Hatchet.MultiModule (readModuleInfo)
import Haskell.Hatchet.MultiModuleBasics (ModuleInfo (..),
joinModuleInfo,
getTyconsMembers,
getInfixDecls,
emptyModuleInfo)
import Haskell.Hatchet.TIHetsModule (tiModule)
import Haskell.Hatchet.AnnotatedHsSyn (AHsDecl (..),
AModule (..))
import Haskell.Hatchet.Env (listToEnv,
emptyEnv)
import Haskell.Hatchet.HaskellPrelude (preludeDefs,
tyconsMembersHaskellPrelude,
preludeDataCons,
preludeClasses,
preludeTyconAndClassKinds,
preludeInfixDecls,
preludeSynonyms)
import Haskell.Hatchet.SynConvert (toAHsModule)
import Haskell.Hatchet.Type (assumpToPair)
import Haskell.Hatchet.Utils (getAModuleName)
import Haskell.Hatchet.HsParsePostProcess (fixFunBindsInModule)
import Haskell.Hatchet.HsSyn (HsModule (..),
Module (..))
import Haskell.HatParser (HsDecls,
hatParser)
import Haskell.HaskellUtils (extractSentences)
import Common.Result (Result (..))
import Common.Lib.Pretty
import Common.PrettyPrint
import Haskell.ExtHaskellCvrt (cvrtHsModule)
moduleInfoTc, hsDeclsTc, aHsDeclTc :: TyCon
moduleInfoTc = mkTyCon "Haskell.Hatchet.MultiModuleBasics.ModuleInfo"
hsDeclsTc = mkTyCon "Haskell.HatParser.HsDecls"
aHsDeclTc = mkTyCon "Haskell.Hatchet.AnnotatedHsSyn.AHsDecl"
instance Typeable ModuleInfo where
typeOf _ = mkAppTy moduleInfoTc []
instance Typeable HsDecls where
typeOf _ = mkAppTy hsDeclsTc []
instance Typeable AHsDecl where
typeOf _ = mkAppTy aHsDeclTc []
instance PrettyPrint ModuleInfo where
printText0 _ modInfo = text "Module name"
<+> text (show (moduleName modInfo))
<> comma
$+$ text "Variable Assumptions"
<+> text (show (varAssumps modInfo))
<> comma
$+$ text "Data Constructor Assumptions"
<+> text (show (dconsAssumps modInfo))
<> comma
$+$ text "Class Hierarchy"
<+> text (show (classHierarchy modInfo))
<> comma
$+$ text "Kinds"
<+> text (show (kinds modInfo))
<> comma
$+$ text "Synonyms"
<+> text (show (synonyms modInfo))
<> comma
$+$ text "Infix Declarations"
<+> text (show (infixDecls modInfo))
<> comma
$+$ text "Type Constructor Members"
<+> text (show (tyconsMembers modInfo))
<> comma
instance PrintLaTeX ModuleInfo where
printLatex0 = printText0
instance PrintLaTeX HsDecls where
printLatex0 = printText0
-- a dummy datatype for the LogicGraph and for identifying the right
-- instances
data Haskell = Haskell deriving (Show)
instance Language Haskell -- default definition is okay
type Sign = ModuleInfo
type Morphism = ()
instance Category Haskell Sign Morphism where
dom Haskell _ = empty_signature Haskell
-- abstract syntax, parsing (and printing)
type SYMB_ITEMS = ()
type SYMB_MAP_ITEMS = ()
instance Syntax Haskell HsDecls
SYMB_ITEMS SYMB_MAP_ITEMS
where
parse_basic_spec Haskell = Just(toParseFun hatParser ())
parse_symb_items Haskell = Nothing
parse_symb_map_items Haskell = Nothing
type Haskell_Sublogics = ()
type Sentence = AHsDecl
type Symbol = ()
type RawSymbol = ()
instance Sentences Haskell Sentence () Sign Morphism Symbol
preludeSign :: ModuleInfo
preludeSign = ModuleInfo {
moduleName = AModule "Prelude",
varAssumps = (listToEnv $ map assumpToPair preludeDefs),
tyconsMembers = tyconsMembersHaskellPrelude,
dconsAssumps = (listToEnv $ map assumpToPair preludeDataCons),
classHierarchy = listToEnv preludeClasses,
kinds = (listToEnv preludeTyconAndClassKinds),
infixDecls = preludeInfixDecls,
synonyms = preludeSynonyms
}
{- basic_analysis :: lid ->
Maybe((basic_spec, -- abstract syntax tree
sign, -- signature of imported
modules
GlobalAnnos) -> -- global annotations
Result (basic_spec, -- renamed module
sign,sign, -- (total, delta)
-- delta = deklarations in the modul
-- total = imported + delta
[Named sentence] -- programdefinitions))
basic_analysis calculates from the abstract syntax tree the types of
all functions and tests wether all used identifiers are declared
-}
instance StaticAnalysis Haskell HsDecls
Sentence ()
SYMB_ITEMS SYMB_MAP_ITEMS
Sign
Morphism
Symbol RawSymbol
where
empty_signature Haskell
= ModuleInfo { varAssumps = emptyEnv,
moduleName = AModule "EmptyModule",-- error "Unspecified module name",
dconsAssumps = emptyEnv,
classHierarchy = emptyEnv,
tyconsMembers = [],
kinds = emptyEnv,
infixDecls = [],
synonyms = [] }
-- empty_signature Haskell = emptyModuleInfo
signature_union Haskell sig1 sig2 = return (joinModuleInfo sig1 sig2)
inclusion Haskell _ _ = return ()
-- sublogic_names Haskell _ = ["Haskell"]
basic_analysis Haskell = Just(basicAnalysis)
where basicAnalysis (basicSpec, sig, _) =
let basicMod = cvrtHsModule (HsModule (Module "Anonymous")
Nothing [] basicSpec)
-- re-group matches into their associated funbinds
-- (patch up the output from the parser)
moduleSyntaxFixedFunBinds = fixFunBindsInModule basicMod
-- map the abstract syntax into the annotated abstract syntax
annotatedSyntax = toAHsModule moduleSyntaxFixedFunBinds
(moduleEnv,
dataConEnv,
newClassHierarchy,
newKindInfoTable,
moduleIds,
moduleRenamed,
moduleSynonyms) = tiModule [] annotatedSyntax sig
modInfo = ModuleInfo {
varAssumps = moduleEnv,
moduleName = getAModuleName annotatedSyntax,
dconsAssumps = dataConEnv,
classHierarchy = newClassHierarchy,
kinds = newKindInfoTable,
tyconsMembers = getTyconsMembers moduleRenamed,
infixDecls = getInfixDecls moduleRenamed,
synonyms = moduleSynonyms }
in
Result {diags = [],
maybeResult = Just(basicSpec, modInfo,
(joinModuleInfo sig modInfo),
(extractSentences annotatedSyntax)) }
instance Logic Haskell Haskell_Sublogics
HsDecls Sentence SYMB_ITEMS SYMB_MAP_ITEMS
Sign
Morphism
Symbol RawSymbol ()
where data_logic Haskell = Nothing