{- |

Module : $Header$

Description : Instance of class Logic for CASL DL

Copyright : (c) Klaus L�ttich, Uni Bremen 2005

License : similar to LGPL, see HetCATS/LICENSE.txt or LIZENZ.txt

Maintainer : luecke@informatik.uni-bremen.de

Stability : provisional

Portability : portable

Instance of class Logic for CASL DL

-}

module CASL_DL.Logic_CASL_DL (CASL_DL(..), DLMor, DLFORMULA) where

import Common.Result

import qualified Data.Set as Set

import qualified Common.Lib.Rel as Rel

import CASL_DL.AS_CASL_DL

import CASL_DL.Sign

import CASL_DL.PredefinedSign

import CASL_DL.ATC_CASL_DL ()

import CASL_DL.Parse_AS ()

import CASL_DL.StatAna

import CASL.Sign

import CASL.Morphism

import CASL.SymbolMapAnalysis

import CASL.AS_Basic_CASL

import CASL.Parse_AS_Basic

import CASL.MapSentence

import CASL.SymbolParser

import CASL.Taxonomy

import CASL.SimplifySen

import CASL.Logic_CASL ()

import CASL_DL.Sublogics

import Logic.Logic

data CASL_DL = CASL_DL deriving Show

instance Language CASL_DL where

description _ =

"CASL_DL is at the same time an extension and a restriction of CASL.\n\

\It additionally provides cardinality restrictions in a description logic\n\

\sense; and it limits the expressivity of CASL to the description logic\n\

\SHOIN(D). Hence it provides the following sublogics: \n\

\ * Card -- CASL plus cardinality restrictions on binary relations\n\

\ * DL -- SHOIN(D)\n\

\ * SHIQ\n\

\ * SHOIQ\n"

type DLMor = Morphism DL_FORMULA CASL_DLSign ()

type DLFORMULA = FORMULA DL_FORMULA

instance Syntax CASL_DL DL_BASIC_SPEC

SYMB_ITEMS SYMB_MAP_ITEMS

where

parse_basic_spec CASL_DL = Just $ basicSpec casl_DL_reserved_words

parse_symb_items CASL_DL = Just $ symbItems casl_DL_reserved_words

parse_symb_map_items CASL_DL =

Just $ symbMapItems casl_DL_reserved_words

-- CASL_DL logic

map_DL_FORMULA :: MapSen DL_FORMULA CASL_DLSign ()

map_DL_FORMULA mor (Cardinality ct pn varT natT qualT r) =

Cardinality ct pn' varT' natT' qualT r

where pn' = mapPrSymb mor pn

varT' = mapTrm varT

natT' = mapTrm natT

mapTrm = mapTerm map_DL_FORMULA mor

instance Sentences CASL_DL DLFORMULA DLSign DLMor Symbol where

map_sen CASL_DL m = return . mapSen map_DL_FORMULA m

parse_sentence CASL_DL = Nothing

sym_of CASL_DL = symOf

symmap_of CASL_DL = morphismToSymbMap

sym_name CASL_DL = symName

simplify_sen CASL_DL = simplifySen minDLForm simplifyCD

simplifyCD :: DLSign -> DL_FORMULA -> DL_FORMULA

simplifyCD sign (Cardinality ct ps t1 t2 t3 r) = simpCard

where simpCard = maybe (card ps)

(const $ card $ Pred_name pn)

(resultToMaybe $

minDLForm sign $ card $ Pred_name pn)

simp = rmTypesT minDLForm simplifyCD sign

card psy = Cardinality ct psy (simp t1) (simp t2) t3 r

pn = case ps of

Pred_name n -> n

Qual_pred_name n _pType _ -> n

instance StaticAnalysis CASL_DL DL_BASIC_SPEC DLFORMULA

SYMB_ITEMS SYMB_MAP_ITEMS

DLSign

DLMor

Symbol RawSymbol where

basic_analysis CASL_DL = Just $ basicCASL_DLAnalysis

stat_symb_map_items CASL_DL sml =

statSymbMapItems sml >>= checkSymbolMapDL

stat_symb_items CASL_DL = statSymbItems

ensures_amalgamability CASL_DL _ =

fail "CASL_DL: ensures_amalgamability nyi" -- ???

sign_to_basic_spec CASL_DL _sigma _sens = Basic_spec [] -- ???

symbol_to_raw CASL_DL = symbolToRaw

id_to_raw CASL_DL = idToRaw

matches CASL_DL = CASL.Morphism.matches

empty_signature CASL_DL = emptySign emptyCASL_DLSign

signature_union CASL_DL s = return . addSig addCASL_DLSign s

morphism_union CASL_DL = morphismUnion (const id) addCASL_DLSign

final_union CASL_DL = finalUnion addCASL_DLSign

inclusion CASL_DL = sigInclusion () isSubCASL_DLSign diffCASL_DLSign

cogenerated_sign CASL_DL = cogeneratedSign () isSubCASL_DLSign

generated_sign CASL_DL = generatedSign () isSubCASL_DLSign

induced_from_morphism CASL_DL =

inducedFromMorphism () isSubCASL_DLSign

induced_from_to_morphism CASL_DL =

inducedFromToMorphism () isSubCASL_DLSign diffCASL_DLSign

theory_to_taxonomy CASL_DL tgk mo sig sen =

convTaxo tgk mo (extendSortRelWithTopSort sig) sen

-- | extend the sort relation with sort Thing for the taxonomy display

extendSortRelWithTopSort :: Sign f e -> Sign f e

extendSortRelWithTopSort sig = sig {sortRel = addThing $ sortRel sig}

where addThing r = Rel.union r (Rel.fromSet

$ Set.map (\ x -> (x,topSort))

$ sortSet sig)

instance Logic CASL_DL CASL_DL_SL

DL_BASIC_SPEC DLFORMULA SYMB_ITEMS SYMB_MAP_ITEMS

DLSign

DLMor

Symbol RawSymbol Q_ProofTree where

stability _ = Unstable

empty_proof_tree CASL_DL = error "instance Logic CASL_DL"

top_sublogic CASL_DL = SROIQ

all_sublogics CASL_DL = [SROIQ]

instance MinSublogic CASL_DL_SL DLFORMULA where

minSublogic _ = SROIQ

instance ProjectSublogic CASL_DL_SL DLMor where

projectSublogic _ i = i

instance MinSublogic CASL_DL_SL DLMor where

minSublogic _ = SROIQ

instance ProjectSublogic CASL_DL_SL DLSign where

projectSublogic _ i = i

instance MinSublogic CASL_DL_SL DLSign where

minSublogic _ = SROIQ

instance ProjectSublogicM CASL_DL_SL SYMB_MAP_ITEMS where

projectSublogicM _ i = Just $ i

instance ProjectSublogicM CASL_DL_SL SYMB_ITEMS where

projectSublogicM _ i = Just $ i

instance MinSublogic CASL_DL_SL SYMB_MAP_ITEMS where

minSublogic _ = SROIQ

instance MinSublogic CASL_DL_SL SYMB_ITEMS where

minSublogic _ = SROIQ

instance ProjectSublogic CASL_DL_SL DL_BASIC_SPEC where

projectSublogic _ i = i

instance MinSublogic CASL_DL_SL DL_BASIC_SPEC where

minSublogic _ = SROIQ