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authoraarne <aarne@cs.chalmers.se>2008-05-21 09:26:44 +0000
committeraarne <aarne@cs.chalmers.se>2008-05-21 09:26:44 +0000
commit055c0d0d5a5bb0dc75904fe53df7f2e4f5732a8f (patch)
tree0e63fb68c69c8f6ad0f78893c63420f0a3600e1c /src-3.0/GF/Canon/Subexpressions.hs
parent915a1de71783ab8446b1af9e72c7ba7dfbc12d3f (diff)
GF/src is now for 2.9, and the new sources are in src-3.0 - keep it this way until the release of GF 3
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+----------------------------------------------------------------------
+-- |
+-- Module : Subexpressions
+-- Maintainer : AR
+-- Stability : (stable)
+-- Portability : (portable)
+--
+-- > CVS $Date: 2005/09/20 09:32:56 $
+-- > CVS $Author: aarne $
+-- > CVS $Revision: 1.4 $
+--
+-- Common subexpression elimination.
+-- all tables. AR 18\/9\/2005.
+-----------------------------------------------------------------------------
+
+module GF.Canon.Subexpressions (
+ elimSubtermsMod, prSubtermStat, unSubelimCanon, unSubelimModule
+ ) where
+
+import GF.Canon.AbsGFC
+import GF.Infra.Ident
+import GF.Canon.GFC
+import GF.Canon.Look
+import GF.Grammar.PrGrammar
+import GF.Canon.CMacros as C
+import GF.Data.Operations
+import qualified GF.Infra.Modules as M
+
+import Control.Monad
+import Data.Map (Map)
+import qualified Data.Map as Map
+import Data.List
+
+{-
+This module implements a simple common subexpression elimination
+ for gfc grammars, to factor out shared subterms in lin rules.
+It works in three phases:
+
+ (1) collectSubterms collects recursively all subterms of forms table and (P x..y)
+ from lin definitions (experience shows that only these forms
+ tend to get shared) and counts how many times they occur
+ (2) addSubexpConsts takes those subterms t that occur more than once
+ and creates definitions of form "oper A''n = t" where n is a
+ fresh number; notice that we assume no ids of this form are in
+ scope otherwise
+ (3) elimSubtermsMod goes through lins and the created opers by replacing largest
+ possible subterms by the newly created identifiers
+
+The optimization is invoked in gf by the flag i -subs.
+
+If an application does not support GFC opers, the effect of this
+optimization can be undone by the function unSubelimCanon.
+
+The function unSubelimCanon can be used to diagnostisize how much
+cse is possible in the grammar. It is used by the flag pg -printer=subs.
+
+-}
+
+-- exported functions
+
+elimSubtermsMod :: (Ident,CanonModInfo) -> Err (Ident, CanonModInfo)
+elimSubtermsMod (mo,m) = case m of
+ M.ModMod (M.Module mt st fs me ops js) -> do
+ (tree,_) <- appSTM (getSubtermsMod mo (tree2list js)) (Map.empty,0)
+ js2 <- liftM buildTree $ addSubexpConsts mo tree $ tree2list js
+ return (mo,M.ModMod (M.Module mt st fs me ops js2))
+ _ -> return (mo,m)
+
+prSubtermStat :: CanonGrammar -> String
+prSubtermStat gr = unlines [prt mo ++++ expsIn mo js | (mo,js) <- mos] where
+ mos = [(i, tree2list (M.jments m)) | (i, M.ModMod m) <- M.modules gr, M.isModCnc m]
+ expsIn mo js = err id id $ do
+ (tree,_) <- appSTM (getSubtermsMod mo js) (Map.empty,0)
+ let list0 = Map.toList tree
+ let list1 = sortBy (\ (_,(m,_)) (_,(n,_)) -> compare n m) list0
+ return $ unlines [show n ++ "\t" ++ prt trm | (trm,(n,_)) <- list1]
+
+unSubelimCanon :: CanonGrammar -> CanonGrammar
+unSubelimCanon gr@(M.MGrammar modules) =
+ M.MGrammar $ map unSubelimModule modules
+
+unSubelimModule :: CanonModule -> CanonModule
+unSubelimModule mo@(i,m) = case m of
+ M.ModMod (M.Module mt@(M.MTConcrete _) st fs me ops js) | hasSub ljs ->
+ (i, M.ModMod (M.Module mt st fs me ops
+ (rebuild (map unparInfo ljs))))
+ where ljs = tree2list js
+ _ -> (i,m)
+ where
+ -- perform this iff the module has opers
+ hasSub ljs = not $ null [c | (c,ResOper _ _) <- ljs]
+ unparInfo (c,info) = case info of
+ CncFun k xs t m -> [(c, CncFun k xs (unparTerm t) m)]
+ ResOper _ _ -> []
+ _ -> [(c,info)]
+ unparTerm t = case t of
+ I c -> errVal t $ liftM unparTerm $ lookupGlobal gr c
+ _ -> C.composSafeOp unparTerm t
+ gr = M.MGrammar [mo]
+ rebuild = buildTree . concat
+
+-- implementation
+
+type TermList = Map Term (Int,Int) -- number of occs, id
+type TermM a = STM (TermList,Int) a
+
+addSubexpConsts :: Ident -> Map Term (Int,Int) -> [(Ident,Info)] -> Err [(Ident,Info)]
+addSubexpConsts mo tree lins = do
+ let opers = [oper id trm | (trm,(_,id)) <- list]
+ mapM mkOne $ opers ++ lins
+ where
+
+ mkOne (f,def) = case def of
+ CncFun ci xs trm pn -> do
+ trm' <- recomp f trm
+ return (f,CncFun ci xs trm' pn)
+ ResOper ty trm -> do
+ trm' <- recomp f trm
+ return (f,ResOper ty trm')
+ _ -> return (f,def)
+ recomp f t = case Map.lookup t tree of
+ Just (_,id) | ident id /= f -> return $ I $ cident mo id
+ _ -> composOp (recomp f) t
+
+ list = Map.toList tree
+
+ oper id trm = (ident id, ResOper TStr trm) --- type TStr does not matter
+
+getSubtermsMod :: Ident -> [(Ident,Info)] -> TermM (Map Term (Int,Int))
+getSubtermsMod mo js = do
+ mapM (getInfo (collectSubterms mo)) js
+ (tree0,_) <- readSTM
+ return $ Map.filter (\ (nu,_) -> nu > 1) tree0
+ where
+ getInfo get fi@(f,i) = case i of
+ CncFun ci xs trm pn -> do
+ get trm
+ return $ fi
+ ResOper ty trm -> do
+ get trm
+ return $ fi
+ _ -> return fi
+
+collectSubterms :: Ident -> Term -> TermM Term
+collectSubterms mo t = case t of
+ Par _ (_:_) -> add t
+ T ty cs -> do
+ let (ps,ts) = unzip [(p,t) | Cas p t <- cs]
+ mapM (collectSubterms mo) ts
+ add t
+ V ty ts -> do
+ mapM (collectSubterms mo) ts
+ add t
+ K (KP _ _) -> add t
+ _ -> composOp (collectSubterms mo) t
+ where
+ add t = do
+ (ts,i) <- readSTM
+ let
+ ((count,id),next) = case Map.lookup t ts of
+ Just (nu,id) -> ((nu+1,id), i)
+ _ -> ((1, i ), i+1)
+ writeSTM (Map.insert t (count,id) ts, next)
+ return t --- only because of composOp
+
+ident :: Int -> Ident
+ident i = identC ("A''" ++ show i) ---
+
+cident :: Ident -> Int -> CIdent
+cident mo = CIQ mo . ident