SimplifierMode(..), DynFlags, DynFlag(..), dopt,
getCoreToDo )
import CoreSyn
-import TcIface ( loadImportedRules )
import HscTypes ( HscEnv(..), ModGuts(..), ExternalPackageState(..),
Dependencies( dep_mods ),
hscEPS, hptRules )
import CSE ( cseProgram )
-import Rules ( RuleBase, ruleBaseIds, emptyRuleBase,
- extendRuleBaseList, pprRuleBase, ruleCheckProgram )
-import PprCore ( pprCoreBindings, pprCoreExpr, pprIdRules )
-import OccurAnal ( occurAnalysePgm, occurAnalyseGlobalExpr )
+import Rules ( RuleBase, emptyRuleBase, mkRuleBase, unionRuleBase,
+ extendRuleBaseList, pprRuleBase, ruleCheckProgram,
+ addSpecInfo, addIdSpecialisations )
+import PprCore ( pprCoreBindings, pprCoreExpr, pprRules )
+import OccurAnal ( occurAnalysePgm, occurAnalyseExpr )
import IdInfo ( setNewStrictnessInfo, newStrictnessInfo,
setWorkerInfo, workerInfo,
- setSpecInfo, specInfo )
+ setSpecInfo, specInfo, specInfoRules )
import CoreUtils ( coreBindsSize )
import Simplify ( simplTopBinds, simplExpr )
import SimplEnv ( SimplEnv, simplBinders, mkSimplEnv, setInScopeSet )
import SimplMonad
import ErrUtils ( dumpIfSet, dumpIfSet_dyn, showPass )
import CoreLint ( endPass )
-import VarEnv ( mkInScopeSet )
import FloatIn ( floatInwards )
import FloatOut ( floatOutwards )
-import Id ( Id, modifyIdInfo, idInfo, idIsFrom, isExportedId, isLocalId,
- idSpecialisation, setIdSpecialisation )
-import Rules ( addRules )
+import Id ( Id, modifyIdInfo, idInfo, isExportedId, isLocalId,
+ idSpecialisation, idName )
import VarSet
import VarEnv
+import NameEnv ( lookupNameEnv )
import LiberateCase ( liberateCase )
import SAT ( doStaticArgs )
import Specialise ( specProgram)
(imp_rule_base, guts') <- prepareRules hsc_env guts ru_us
-- DO THE BUSINESS
- (stats, guts'') <- doCorePasses hsc_env cp_us
+ (stats, guts'') <- doCorePasses hsc_env imp_rule_base cp_us
(zeroSimplCount dflags)
- imp_rule_base guts' core_todos
+ guts' core_todos
dumpIfSet_dyn dflags Opt_D_dump_simpl_stats
"Grand total simplifier statistics"
emptyRuleBase
doCorePasses :: HscEnv
+ -> RuleBase -- the imported main rule base
-> UniqSupply -- uniques
-> SimplCount -- simplifier stats
- -> RuleBase -- the main rule base
-> ModGuts -- local binds in (with rules attached)
-> [CoreToDo] -- which passes to do
-> IO (SimplCount, ModGuts)
-doCorePasses hsc_env us stats rb guts []
+doCorePasses hsc_env rb us stats guts []
= return (stats, guts)
-doCorePasses hsc_env us stats rb guts (to_do : to_dos)
+doCorePasses hsc_env rb us stats guts (to_do : to_dos)
= do
let (us1, us2) = splitUniqSupply us
- (stats1, rb1, guts1) <- doCorePass to_do hsc_env us1 rb guts
- doCorePasses hsc_env us2 (stats `plusSimplCount` stats1) rb1 guts1 to_dos
+ (stats1, guts1) <- doCorePass to_do hsc_env us1 rb guts
+ doCorePasses hsc_env rb us2 (stats `plusSimplCount` stats1) guts1 to_dos
doCorePass (CoreDoSimplify mode sws) = _scc_ "Simplify" simplifyPgm mode sws
doCorePass CoreCSE = _scc_ "CommonSubExpr" trBinds cseProgram
-- Most passes return no stats and don't change rules
trBinds :: (DynFlags -> [CoreBind] -> IO [CoreBind])
-> HscEnv -> UniqSupply -> RuleBase -> ModGuts
- -> IO (SimplCount, RuleBase, ModGuts)
+ -> IO (SimplCount, ModGuts)
trBinds do_pass hsc_env us rb guts
= do { binds' <- do_pass dflags (mg_binds guts)
- ; return (zeroSimplCount dflags, rb, guts { mg_binds = binds' }) }
+ ; return (zeroSimplCount dflags, guts { mg_binds = binds' }) }
where
dflags = hsc_dflags hsc_env
trBindsU :: (DynFlags -> UniqSupply -> [CoreBind] -> IO [CoreBind])
-> HscEnv -> UniqSupply -> RuleBase -> ModGuts
- -> IO (SimplCount, RuleBase, ModGuts)
+ -> IO (SimplCount, ModGuts)
trBindsU do_pass hsc_env us rb guts
= do { binds' <- do_pass dflags us (mg_binds guts)
- ; return (zeroSimplCount dflags, rb, guts { mg_binds = binds' }) }
+ ; return (zeroSimplCount dflags, guts { mg_binds = binds' }) }
where
dflags = hsc_dflags hsc_env
-- Observer passes just peek; don't modify the bindings at all
observe :: (DynFlags -> [CoreBind] -> IO a)
-> HscEnv -> UniqSupply -> RuleBase -> ModGuts
- -> IO (SimplCount, RuleBase, ModGuts)
+ -> IO (SimplCount, ModGuts)
observe do_pass hsc_env us rb guts
= do { binds <- do_pass dflags (mg_binds guts)
- ; return (zeroSimplCount dflags, rb, guts) }
+ ; return (zeroSimplCount dflags, guts) }
where
dflags = hsc_dflags hsc_env
\end{code}
-> UniqSupply
-> IO (RuleBase, -- Rule base for imported things, incl
-- (a) rules defined in this module (orphans)
- -- (b) rules from other packages
- -- (c) rules from other modules in home package
+ -- (b) rules from other modules in home package
+ -- but not things from other packages
+
ModGuts) -- Modified fields are
-- (a) Bindings have rules attached,
-- (b) Rules are now just orphan rules
prepareRules hsc_env@(HscEnv { hsc_dflags = dflags, hsc_HPT = hpt })
guts@(ModGuts { mg_binds = binds, mg_deps = deps, mg_rules = local_rules })
us
- = do { eps <- hscEPS hsc_env
-
- ; let -- Simplify the local rules; boringly, we need to make an in-scope set
+ = do { let -- Simplify the local rules; boringly, we need to make an in-scope set
-- from the local binders, to avoid warnings from Simplify.simplVar
local_ids = mkInScopeSet (mkVarSet (bindersOfBinds binds))
env = setInScopeSet gentleSimplEnv local_ids
(better_rules,_) = initSmpl dflags us (mapSmpl (simplRule env) local_rules)
home_pkg_rules = hptRules hsc_env (dep_mods deps)
- (orphan_rules, rules_for_locals) = partition isOrphanRule better_rules
- -- Get the rules for locally-defined Ids out of the RuleBase
- -- If we miss any rules for Ids defined here, then we end up
- -- giving the local decl a new Unique (because the in-scope-set is (hackily) the
- -- same as the non-local-rule-id set, so the Id looks as if it's in scope
- -- and hence should be cloned), and now the binding for the class method
- -- doesn't have the same Unique as the one in the Class and the tc-env
- -- Example: class Foo a where
- -- op :: a -> a
- -- {-# RULES "op" op x = x #-}
-
- -- NB: we assume that the imported rules dont include
- -- rules for Ids in this module; if there is, the above bad things may happen
-
- pkg_rule_base = eps_rule_base eps
- hpt_rule_base = extendRuleBaseList pkg_rule_base home_pkg_rules
- imp_rule_base = extendRuleBaseList hpt_rule_base orphan_rules
-
- -- Update the binders in the local bindings with the lcoal rules
- -- Update the binders of top-level bindings by
- -- attaching the rules for each locally-defined Id to that Id.
+ -- Find the rules for locally-defined Ids; then we can attach them
+ -- to the binders in the top-level bindings
--
-- Reason
-- - It makes the rules easier to look up
-- which is extended on each iteration by the new wave of
-- local binders; any rules which aren't on the binding will
-- thereby get dropped
+ (rules_for_locals, rules_for_imps) = partition isLocalRule better_rules
local_rule_base = extendRuleBaseList emptyRuleBase rules_for_locals
binds_w_rules = updateBinders local_rule_base binds
+ hpt_rule_base = mkRuleBase home_pkg_rules
+ imp_rule_base = extendRuleBaseList hpt_rule_base rules_for_imps
+
; dumpIfSet_dyn dflags Opt_D_dump_rules "Transformation rules"
- (vcat [text "Local rules", pprIdRules better_rules,
+ (vcat [text "Local rules", pprRules better_rules,
text "",
text "Imported rules", pprRuleBase imp_rule_base])
-#ifdef DEBUG
- ; let bad_rules = filter (idIsFrom (mg_module guts))
- (varSetElems (ruleBaseIds imp_rule_base))
- ; WARN( not (null bad_rules), ppr bad_rules ) return ()
-#endif
- ; return (imp_rule_base, guts { mg_binds = binds_w_rules, mg_rules = orphan_rules })
+ ; return (imp_rule_base, guts { mg_binds = binds_w_rules,
+ mg_rules = rules_for_imps })
}
updateBinders :: RuleBase -> [CoreBind] -> [CoreBind]
-updateBinders rule_base binds
+updateBinders local_rules binds
= map update_bndrs binds
where
- rule_ids = ruleBaseIds rule_base
-
update_bndrs (NonRec b r) = NonRec (update_bndr b) r
update_bndrs (Rec prs) = Rec [(update_bndr b, r) | (b,r) <- prs]
- update_bndr bndr = case lookupVarSet rule_ids bndr of
- Nothing -> bndr
- Just id -> bndr `setIdSpecialisation` idSpecialisation id
+ update_bndr bndr = case lookupNameEnv local_rules (idName bndr) of
+ Nothing -> bndr
+ Just rules -> bndr `addIdSpecialisations` rules
+ -- The binder might have some existing rules,
+ -- arising from specialisation pragmas
\end{code}
This doesn't match unless you do eta reduction on the build argument.
\begin{code}
-simplRule env rule@(IdCoreRule id _ (BuiltinRule _ _))
+simplRule env rule@(BuiltinRule {})
= returnSmpl rule
-simplRule env (IdCoreRule id is_orph (Rule act name bndrs args rhs))
+simplRule env rule@(Rule { ru_bndrs = bndrs, ru_args = args, ru_rhs = rhs })
= simplBinders env bndrs `thenSmpl` \ (env, bndrs') ->
mapSmpl (simplExprGently env) args `thenSmpl` \ args' ->
simplExprGently env rhs `thenSmpl` \ rhs' ->
- returnSmpl (IdCoreRule id is_orph (Rule act name bndrs' args' rhs'))
+ returnSmpl (rule { ru_bndrs = bndrs', ru_args = args', ru_rhs = rhs' })
-- It's important that simplExprGently does eta reduction.
-- For example, in a rule like:
-- enforce that; it just simplifies the expression twice
simplExprGently env expr
- = simplExpr env (occurAnalyseGlobalExpr expr) `thenSmpl` \ expr1 ->
- simplExpr env (occurAnalyseGlobalExpr expr1)
+ = simplExpr env (occurAnalyseExpr expr) `thenSmpl` \ expr1 ->
+ simplExpr env (occurAnalyseExpr expr1)
\end{code}
-> UniqSupply
-> RuleBase
-> ModGuts
- -> IO (SimplCount, RuleBase, ModGuts) -- New bindings
+ -> IO (SimplCount, ModGuts) -- New bindings
-simplifyPgm mode switches hsc_env us rule_base guts
+simplifyPgm mode switches hsc_env us imp_rule_base guts
= do {
showPass dflags "Simplify";
- (termination_msg, it_count, counts_out, rule_base', binds')
- <- do_iteration us rule_base 1 (zeroSimplCount dflags) (mg_binds guts) ;
+ (termination_msg, it_count, counts_out, binds')
+ <- do_iteration us 1 (zeroSimplCount dflags) (mg_binds guts) ;
dumpIfSet (dopt Opt_D_verbose_core2core dflags
&& dopt Opt_D_dump_simpl_stats dflags)
endPass dflags "Simplify" Opt_D_verbose_core2core binds';
- return (counts_out, rule_base', guts { mg_binds = binds' })
+ return (counts_out, guts { mg_binds = binds' })
}
where
- dflags = hsc_dflags hsc_env
- phase_info = case mode of
- SimplGently -> "gentle"
- SimplPhase n -> show n
-
- sw_chkr = isAmongSimpl switches
- max_iterations = intSwitchSet sw_chkr MaxSimplifierIterations `orElse` 2
+ dflags = hsc_dflags hsc_env
+ phase_info = case mode of
+ SimplGently -> "gentle"
+ SimplPhase n -> show n
+
+ sw_chkr = isAmongSimpl switches
+ max_iterations = intSwitchSet sw_chkr MaxSimplifierIterations `orElse` 2
- do_iteration us rule_base iteration_no counts binds
+ do_iteration us iteration_no counts binds
-- iteration_no is the number of the iteration we are
-- about to begin, with '1' for the first
| iteration_no > max_iterations -- Stop if we've run out of iterations
#endif
-- Subtract 1 from iteration_no to get the
-- number of iterations we actually completed
- return ("Simplifier baled out", iteration_no - 1, counts, rule_base, binds)
+ return ("Simplifier baled out", iteration_no - 1, counts, binds)
}
-- Try and force thunks off the binds; significantly reduces
(pprCoreBindings tagged_binds);
-- Get any new rules, and extend the rule base
- -- (on the side this extends the package rule base in the
- -- ExternalPackageTable, ready for the next complation
- -- in --make mode)
-- We need to do this regularly, because simplification can
-- poke on IdInfo thunks, which in turn brings in new rules
-- behind the scenes. Otherwise there's a danger we'll simply
-- miss the rules for Ids hidden inside imported inlinings
- new_rules <- loadImportedRules hsc_env guts ;
- let { rule_base' = extendRuleBaseList rule_base new_rules
+ eps <- hscEPS hsc_env ;
+ let { rule_base' = unionRuleBase imp_rule_base (eps_rule_base eps)
; simpl_env = mkSimplEnv mode sw_chkr rule_base' } ;
- -- The new rule base Ids are used to initialise
- -- the in-scope set. That way, the simplifier will change any
- -- occurrences of the imported id to the one in the imported_rule_ids
- -- set, which are decorated with their rules.
-- Simplify the program
-- We do this with a *case* not a *let* because lazy pattern
-- Stop if nothing happened; don't dump output
if isZeroSimplCount counts' then
return ("Simplifier reached fixed point", iteration_no,
- all_counts, rule_base', binds')
+ all_counts, binds')
else do {
-- Short out indirections
-- We do this *after* at least one run of the simplifier
endPass dflags herald Opt_D_dump_simpl_iterations binds'' ;
-- Loop
- do_iteration us2 rule_base' (iteration_no + 1) all_counts binds''
+ do_iteration us2 (iteration_no + 1) all_counts binds''
} } } }
where
(us1, us2) = splitUniqSupply us
ind_env = makeIndEnv binds
exp_ids = varSetElems ind_env -- These exported Ids are the subjects
exp_id_set = mkVarSet exp_ids -- of the indirection-elimination
- no_need_to_flatten = all (null . rulesRules . idSpecialisation) exp_ids
+ no_need_to_flatten = all (null . specInfoRules . idSpecialisation) exp_ids
binds' = concatMap zap binds
zap (NonRec bndr rhs) = [NonRec b r | (b,r) <- zapPair (bndr,rhs)]
True
{- No longer needed
- if isEmptyCoreRules (specInfo (idInfo exported_id)) -- Only if no rules
+ if isEmptySpecInfo (specInfo (idInfo exported_id)) -- Only if no rules
then True -- See note on "Messing up rules"
else
#ifdef DEBUG
local_info = idInfo local_id
transfer exp_info = exp_info `setNewStrictnessInfo` newStrictnessInfo local_info
`setWorkerInfo` workerInfo local_info
- `setSpecInfo` addRules exported_id (specInfo exp_info)
- (rulesRules (specInfo local_info))
+ `setSpecInfo` addSpecInfo (specInfo exp_info)
+ (specInfo local_info)
\end{code}