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bugfix: if a concrete module has operations then they also should be optimized
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krasimir
@@ -15,7 +15,7 @@
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-- following advice of Josef Svenningsson
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-----------------------------------------------------------------------------
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module GF.Compile.BackOpt (shareModule, OptSpec) where
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module GF.Compile.BackOpt (shareModule) where
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import GF.Grammar.Grammar
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import GF.Infra.Ident
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@@ -29,10 +29,12 @@ import qualified Data.ByteString.Char8 as BS
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import Data.Set (Set)
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import qualified Data.Set as Set
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type OptSpec = Set Optimization
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shareModule :: Options -> SourceModule -> SourceModule
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shareModule opts (i,mo) = (i,M.replaceJudgements mo (mapTree (shareInfo optim) (M.jments mo)))
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where
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optim = flag optOptimizations opts
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shareModule :: OptSpec -> SourceModule -> SourceModule
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shareModule opt (i,mo) = (i,M.replaceJudgements mo (mapTree (shareInfo opt) (M.jments mo)))
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type OptSpec = Set Optimization
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shareInfo :: OptSpec -> (Ident, Info) -> Info
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shareInfo opt (c, CncCat ty (Just t) m) = CncCat ty (Just (shareOptim opt c t)) m
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@@ -42,49 +42,21 @@ import Debug.Trace
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-- | partial evaluation of concrete syntax. AR 6\/2001 -- 16\/5\/2003 -- 5\/2\/2005.
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optimizeModule :: Options -> [SourceModule] -> SourceModule -> Err SourceModule
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optimizeModule opts ms mo@(name,mi)
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optimizeModule opts ms m@(name,mi)
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| mstatus mi == MSComplete = do
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mo1 <- case mtype mi of
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_ | isModRes mi -> do
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ids <- topoSortJments mo
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if OptExpand `Set.member` optim
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then do mi <- foldM evalOp mi ids
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return (name,mi)
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else return mo
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MTConcrete a -> do
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js' <- mapMTree (evalCncInfo oopts gr name a) (jments mi)
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return (name,replaceJudgements mi js')
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_ -> return mo
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return (shareModule optim mo1)
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| otherwise = return mo
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ids <- topoSortJments m
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mi <- foldM updateEvalInfo mi ids
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return (shareModule oopts (name,mi))
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| otherwise = return m
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where
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oopts = opts `addOptions` flagsModule mo
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optim = flag optOptimizations oopts
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gr = MGrammar $ mo : ms
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oopts = opts `addOptions` flagsModule m
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evalOp mi (i,info) = do
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info' <- evalResInfo oopts gr (i,info)
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updateEvalInfo mi (i,info) = do
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info' <- evalInfo oopts ms m i info
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return (updateModule mi i info')
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-- | only operations need be compiled in a resource, and this is local to each
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-- definition since the module is traversed in topological order
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evalResInfo :: Options -> SourceGrammar -> (Ident,Info) -> Err Info
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evalResInfo oopts gr (c,info) = case info of
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ResOper pty pde -> eIn (text "operation") $ do
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pde' <- case pde of
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Just de -> liftM Just $ computeConcrete gr de
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Nothing -> return Nothing
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return $ ResOper pty pde'
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_ -> return info
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where
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eIn cat = errIn (render (text "Error optimizing" <+> cat <+> ppIdent c <+> colon))
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evalCncInfo :: Options -> SourceGrammar -> Ident -> Ident -> (Ident,Info) -> Err Info
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evalCncInfo opts gr cnc abs (c,info) = do
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evalInfo :: Options -> [SourceModule] -> SourceModule -> Ident -> Info -> Err Info
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evalInfo opts ms m c info = do
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(if verbAtLeast opts Verbose then trace (" " ++ showIdent c) else id) return ()
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@@ -93,7 +65,7 @@ evalCncInfo opts gr cnc abs (c,info) = do
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CncCat ptyp pde ppr -> do
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pde' <- case (ptyp,pde) of
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(Just typ, Just de) ->
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liftM Just $ pEval ([(Explicit, varStr, typeStr)], typ) de
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liftM Just $ partEval opts gr ([(Explicit, varStr, typeStr)], typ) de
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(Just typ, Nothing) ->
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liftM Just $ mkLinDefault gr typ >>= partEval noOptions gr ([(Explicit, varStr, typeStr)],typ)
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_ -> return pde -- indirection
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@@ -105,14 +77,22 @@ evalCncInfo opts gr cnc abs (c,info) = do
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CncFun (mt@(Just (_,cont,val))) pde ppr -> --trace (prt c) $
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eIn (text "linearization in type" <+> ppTerm Unqualified 0 (mkProd cont val []) $$ text "of function") $ do
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pde' <- case pde of
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Just de -> liftM Just $ pEval (cont,val) de
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Just de -> liftM Just $ partEval opts gr (cont,val) de
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Nothing -> return pde
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ppr' <- liftM Just $ evalPrintname gr c ppr pde'
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return $ CncFun mt pde' ppr' -- only cat in type actually needed
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ResOper pty pde
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| OptExpand `Set.member` optim -> do
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pde' <- case pde of
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Just de -> liftM Just $ computeConcrete gr de
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Nothing -> return Nothing
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return $ ResOper pty pde'
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_ -> return info
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where
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pEval = partEval opts gr
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gr = MGrammar (m : ms)
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optim = flag optOptimizations opts
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eIn cat = errIn (render (text "Error optimizing" <+> cat <+> ppIdent c <+> colon))
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-- | the main function for compiling linearizations
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