{- |

Module : $Header$

Description : derived functions for signatures with symbol sets

Copyright : (c) Till Mossakowski, and Uni Bremen 2002-2006

License : GPLv2 or higher, see LICENSE.txt

Maintainer : till@informatik.uni-bremen.de

Stability : provisional

Portability : non-portable (imports Logic.Logic)

Functions from the class Logic that operate over signatures are

extended to work over signatures with symbol sets.

-}

module Logic.ExtSign where

import qualified Data.Set as Set

import qualified Data.Map as Map

import Control.Monad

import Common.Result

import Common.DocUtils

import Common.ExtSign

import Logic.Logic

ext_sym_of :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> ExtSign sign symbol -> Set.Set symbol

ext_sym_of l = symset_of l . plainSign

-- | simply put all symbols into the symbol set

makeExtSign :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> sign -> ExtSign sign symbol

makeExtSign l s = ExtSign s $ symset_of l s

ext_ide :: (Ord symbol, Category sign morphism)

=> ExtSign sign symbol -> morphism

ext_ide = ide . plainSign

ext_empty_signature :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> ExtSign sign symbol

ext_empty_signature = mkExtSign . empty_signature

checkExtSign :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> String -> ExtSign sign symbol -> Result ()

checkExtSign l msg e@(ExtSign s sy) = let sys = symset_of l s in

unless (Set.isSubsetOf sy sys) $

error $ "inconsistent symbol set in extended signature: " ++ msg ++ "\n"

++ showDoc e "\rwith unknown symbols\n"

++ showDoc (Set.difference sy sys) ""

ext_signature_union :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> ExtSign sign symbol -> ExtSign sign symbol

-> Result (ExtSign sign symbol)

ext_signature_union l e1@(ExtSign s1 _) e2@(ExtSign s2 _) = do

checkExtSign l "u1" e1

checkExtSign l "u2" e2

s <- signature_union l s1 s2

return $ makeExtSign l s

ext_is_subsig :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> ExtSign sign symbol -> ExtSign sign symbol -> Bool

ext_is_subsig l (ExtSign sig1 _) (ExtSign sig2 _) =

is_subsig l sig1 sig2

ext_final_union :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> ExtSign sign symbol -> ExtSign sign symbol

-> Result (ExtSign sign symbol)

ext_final_union l e1@(ExtSign s1 _) e2@(ExtSign s2 _) = do

checkExtSign l "f1" e1

checkExtSign l "f2" e2

s <- final_union l s1 s2

return $ makeExtSign l s

ext_inclusion :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> ExtSign sign symbol -> ExtSign sign symbol -> Result morphism

ext_inclusion l (ExtSign s1 _) (ExtSign s2 _) =

inclusion l s1 s2

ext_generated_sign :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> Set.Set symbol -> ExtSign sign symbol -> Result morphism

ext_generated_sign l s (ExtSign sig _) =

generated_sign l s sig

ext_cogenerated_sign :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> Set.Set symbol -> ExtSign sign symbol -> Result morphism

ext_cogenerated_sign l s (ExtSign sig _) =

cogenerated_sign l s sig

ext_induced_from_morphism :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> EndoMap raw_symbol -> ExtSign sign symbol

-> Result morphism

ext_induced_from_morphism l rmap (ExtSign sigma _) = do

-- first check: do all source raw symbols match with source signature?

checkRawMap l rmap sigma

mor <- induced_from_morphism l rmap sigma

legal_mor mor

return mor

checkRawMap :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> EndoMap raw_symbol -> sign -> Result ()

checkRawMap l rmap = checkRawSyms l (Map.keys rmap) . symset_of l

checkRawSyms :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> [raw_symbol] -> Set.Set symbol -> Result ()

checkRawSyms l rsyms syms = do

let unknownSyms = filter

( \ rsy -> Set.null $ Set.filter (flip (matches l) rsy) syms)

rsyms

unless (null unknownSyms)

$ Result [mkDiag Error "unknown symbols" unknownSyms] $ Just ()

ext_induced_from_to_morphism :: Logic lid sublogics

basic_spec sentence symb_items symb_map_items

sign morphism symbol raw_symbol proof_tree

=> lid -> EndoMap raw_symbol -> ExtSign sign symbol

-> ExtSign sign symbol -> Result morphism

ext_induced_from_to_morphism l r s@(ExtSign p sy) t = do

checkExtSign l "from" s

checkExtSign l "to" t

checkRawMap l r p

checkRawSyms l (Map.elems r) $ nonImportedSymbols t

mor <- induced_from_to_morphism l r s t

let sysI = Set.toList $ Set.difference (symset_of l p) sy

morM = symmap_of l mor

msysI = map (\ sym -> Map.findWithDefault sym sym morM) sysI

unless (sysI == msysI)

$ fail $ "imported symbols are mapped differently.\n"

++ showDoc (filter (uncurry (/=)) $ zip sysI msysI) ""

legal_mor mor

return mor