Symbol.hs revision 98890889ffb2e8f6f722b00e265a211f13b5a861
{- |
Module : $Header$
Description : Symbols of propositional logic
Copyright : (c) Jonathan von Schroeder, DFKI GmbH 2010
License : GPLv2 or higher, see LICENSE.txt
Maintainer : <jonathan.von_schroeder@dfki.de>
Stability : experimental
Portability : portable
Definition of symbols for propositional logic
-}
module QBF.Symbol
(
Symbol (..) -- Symbol type
, pretty -- pretty printing for Symbols
, symOf -- Extracts the symbols out of a signature
, getSymbolMap -- Determines the symbol map
, getSymbolName -- Determines the name of a symbol
, idToRaw -- Creates a raw symbol
, symbolToRaw -- Convert symbol to raw symbol
, matches -- does a symbol match a raw symbol?
, applySymMap -- application function for symbol maps
) where
import qualified Common.Id as Id
import Common.Doc
import Common.DocUtils
import qualified Data.Set as Set
import qualified Data.Map as Map
import qualified Propositional.Sign as Sign
import QBF.Morphism as Morphism
-- | Datatype for symbols
newtype Symbol = Symbol {symName :: Id.Id}
deriving (Show, Eq, Ord)
instance Id.GetRange Symbol where
getRange = Id.getRange . symName
instance Pretty Symbol where
pretty = printSymbol
printSymbol :: Symbol -> Doc
printSymbol = pretty . symName
-- | Extraction of symbols from a signature
-- | Determines the symbol map of a morhpism
getSymbolMap :: Morphism.Morphism -> Map.Map Symbol Symbol
getSymbolMap f =
foldr (\ x -> Map.insert (Symbol x) (Symbol $ applyMap (propMap f) x))
-- | Determines the name of a symbol
getSymbolName :: Symbol -> Id.Id
getSymbolName = symName
-- | make a raw_symbol
idToRaw :: Id.Id -> Symbol
idToRaw mid = Symbol {symName = mid}
-- | convert to raw symbol
symbolToRaw :: Symbol -> Symbol
symbolToRaw = id
-- | does a smybol match a raw symbol?
matches :: Symbol -> Symbol -> Bool
matches = (==)
-- | application function for Symbol Maps
applySymMap :: Map.Map Symbol Symbol -> Symbol -> Symbol
applySymMap smap idt = Map.findWithDefault idt idt smap