Logic_TopHybrid.hs revision cc4e2ad56b840ac41dcf7fb1fb8e1adf375e8de7
{-# LANGUAGE MultiParamTypeClasses, TypeSynonymInstances, FlexibleInstances, UndecidableInstances, ExistentialQuantification, DeriveDataTypeable, StandaloneDeriving #-}
{- |
Module : $Header$
License : GPLv2 or higher, see LICENSE.txt
Maintainer : nevrenato@gmail.com
Stability : experimental
Portability : portable
Description :
Instance of class Logic for hybridized logics
with an arbitrary logic under.
-}
module TopHybrid.Logic_TopHybrid where
import qualified Data.Map as M
import Logic.Logic
import TopHybrid.AS_TopHybrid
import TopHybrid.TopHybridSign
import TopHybrid.Parse_AS
import TopHybrid.Print_AS
import TopHybrid.StatAna
import TopHybrid.Utilities
import CASL.Morphism
import CASL.AS_Basic_CASL
import CASL.SymbolParser
import CASL.Sign
-- Import of logics
import CASL.Logic_CASL
import Propositional.Logic_Propositional
import CoCASL.Logic_CoCASL
-- End of import of logics
data Hybridize = Hybridize deriving Show
instance Language Hybridize where
description _ = "Hybridization of an arbitrary logic"
instance Category Sgn_Wrap Mor where
ide = undefined
inverse = undefined
composeMorphisms = undefined
dom = undefined
cod = undefined
isInclusion = undefined
legal_mor = undefined
instance Syntax Hybridize Spc_Wrap Symbol SYMB_ITEMS SYMB_MAP_ITEMS where
parse_basic_spec Hybridize = Just $ \_ -> thBasic getLogic
parse_symb_items Hybridize = Just $ error "parse_symb_items !"
parse_symb_map_items Hybridize = Just $ error "parse_symb_map_items !"
toItem Hybridize = error "toItem !"
instance Sentences Hybridize Frm_Wrap Sgn_Wrap Mor Symbol where
map_sen Hybridize = error "map_sen !"
negation Hybridize = error "negation !"
sym_of Hybridize = error "sym_of !"
mostSymsOf Hybridize = error "mostSymsOf !"
symmap_of Hybridize = error "symmap_of !"
sym_name Hybridize = error "sym_name !"
symKind Hybridize = error "symKind !"
symsOfSen Hybridize = error "symsOfSen !"
simplify_sen Hybridize = simSen
print_named Hybridize = printNamedFormula
instance StaticAnalysis Hybridize Spc_Wrap Frm_Wrap SYMB_ITEMS SYMB_MAP_ITEMS
Sgn_Wrap Mor Symbol RawSymbol where
basic_analysis Hybridize = Just thAna
empty_signature Hybridize = emptyHybridSign
sen_analysis Hybridize = Just anaForm'
stat_symb_map_items Hybridize = error "stat_symb_map_items !"
stat_symb_items Hybridize = error "stat_symb_items !"
signature_colimit Hybridize = error "signature_colimit !"
quotient_term_algebra Hybridize = error "quotient_term_algebra !"
ensures_amalgamability Hybridize = error "ensures_amalgamability !"
qualify Hybridize = error "qualify !"
symbol_to_raw Hybridize = error "symbol_to_raw !"
matches Hybridize = error "matches !"
is_transportable Hybridize = error "is_transportable !"
is_injective Hybridize = error "is_injective !"
add_symb_to_sign Hybridize = error "add_symb_to_sign !"
signature_union Hybridize = error "signature_union !"
signatureDiff Hybridize = sgnDiff
intersection Hybridize = error "intersection !"
morphism_union Hybridize = error "morphism_union !"
final_union Hybridize = error "final_union !"
is_subsig Hybridize = isSubTHybSgn
subsig_inclusion Hybridize = error "sub_sig_inclusion !"
cogenerated_sign Hybridize = error "cogenerated_sign !"
generated_sign Hybridize = error "generated_sign !"
induced_from_morphism Hybridize = error "induced_from_morphism !"
induced_from_to_morphism Hybridize = error "induced_from_to_morphism !"
theory_to_taxonomy Hybridize = error "theory_to_taxonomy !"
instance Logic Hybridize () Spc_Wrap Frm_Wrap SYMB_ITEMS SYMB_MAP_ITEMS
Sgn_Wrap Mor Symbol RawSymbol () where
stability Hybridize = Experimental
parse_basic_sen Hybridize = Just $ formParser'
proj_sublogic_epsilon Hybridize = error "proj_sublogic_epsilon !"
all_sublogics Hybridize = error "all_sublogics !"
conservativityCheck Hybridize = error "conservativityCheck !"
empty_proof_tree Hybridize = error "empty_proof_tree !"
addOMadtToTheory Hybridize = error "addOMadtToTheory !"
addOmdocToTheory Hybridize = error "addOmdocToTheory !"
syntaxTable Hybridize = error "syntaxTable !"
provers Hybridize = []
----- The logics supported section ----
-- Logics supported
underlogicList :: [(String, AnyLogic)]
underlogicList = [
(show CASL, Logic CASL),
(show Propositional, Logic Propositional),
(show CoCASL, Logic CoCASL),
(show Hybridize, Logic Hybridize)
]
-- Construction of the underlogics map using a list
underlogics :: M.Map String AnyLogic
underlogics = buildMapFromList underlogicList
-- Tries to get a logic, if it fails, then
-- gives an error saying that the logic in question doesn't exist
getLogic :: String -> AnyLogic
getLogic s = maybeE 3 $ M.lookup s underlogics