#include "HsVersions.h"
-import CmdLineOpts ( opt_D_verbose_core2core, opt_D_dump_spec, opt_D_dump_rules )
-import Id ( Id, idName, idType, mkTemplateLocals, mkUserLocal,
- idSpecialisation, setIdNoDiscard, isExportedId,
- modifyIdInfo, idUnfolding
+import CmdLineOpts ( DynFlags, DynFlag(..) )
+import Id ( Id, idName, idType, mkUserLocal,
+ idSpecialisation, modifyIdInfo
)
import IdInfo ( zapSpecPragInfo )
import VarSet
import VarEnv
-import Type ( Type, mkTyVarTy, splitSigmaTy, splitFunTysN,
- tyVarsOfType, tyVarsOfTypes, tyVarsOfTheta, applyTys,
- mkForAllTys, boxedTypeKind
+import Type ( Type, mkTyVarTy, splitSigmaTy,
+ tyVarsOfTypes, tyVarsOfTheta,
+ mkForAllTys
)
-import PprType ( {- instance Outputable Type -} )
-import Subst ( Subst, mkSubst, substTy, mkSubst, substBndrs, extendSubstList,
+import Subst ( Subst, mkSubst, substTy, mkSubst, substBndrs, extendSubstList, mkInScopeSet,
substId, substAndCloneId, substAndCloneIds, lookupIdSubst, substInScope
)
-import Var ( TyVar, mkSysTyVar, setVarUnique )
import VarSet
import VarEnv
import CoreSyn
import CoreUtils ( applyTypeToArgs )
import CoreUnfold ( certainlyWillInline )
import CoreFVs ( exprFreeVars, exprsFreeVars )
-import CoreLint ( beginPass, endPass )
+import CoreLint ( showPass, endPass )
import PprCore ( pprCoreRules )
import Rules ( addIdSpecialisations, lookupRule )
import UniqSupply ( UniqSupply,
- UniqSM, initUs_, thenUs, thenUs_, returnUs, getUniqueUs,
- getUs, setUs, uniqFromSupply, splitUniqSupply, mapUs
+ UniqSM, initUs_, thenUs, thenUs, returnUs, getUniqueUs,
+ withUs, mapUs
)
import Name ( nameOccName, mkSpecOcc, getSrcLoc )
import FiniteMap
-import Maybes ( MaybeErr(..), catMaybes, maybeToBool )
-import ErrUtils ( dumpIfSet )
+import Maybes ( catMaybes, maybeToBool )
+import ErrUtils ( dumpIfSet_dyn )
import Bag
import List ( partition )
-import Util ( zipEqual, zipWithEqual, mapAccumL )
+import Util ( zipEqual, zipWithEqual )
import Outputable
%************************************************************************
\begin{code}
-specProgram :: UniqSupply -> [CoreBind] -> IO [CoreBind]
-specProgram us binds
+specProgram :: DynFlags -> UniqSupply -> [CoreBind] -> IO [CoreBind]
+specProgram dflags us binds
= do
- beginPass "Specialise"
+ showPass dflags "Specialise"
let binds' = initSM us (go binds `thenSM` \ (binds', uds') ->
returnSM (dumpAllDictBinds uds' binds'))
- endPass "Specialise" (opt_D_dump_spec || opt_D_verbose_core2core) binds'
+ endPass dflags "Specialise" Opt_D_dump_spec binds'
- dumpIfSet opt_D_dump_rules "Top-level specialisations"
+ dumpIfSet_dyn dflags Opt_D_dump_rules "Top-level specialisations"
(vcat (map dump_specs (concat (map bindersOf binds'))))
return binds'
-- accidentally re-use a unique that's already in use
-- Easiest thing is to do it all at once, as if all the top-level
-- decls were mutually recursive
- top_subst = mkSubst (mkVarSet (bindersOfBinds binds)) emptySubstEnv
+ top_subst = mkSubst (mkInScopeSet (mkVarSet (bindersOfBinds binds))) emptySubstEnv
go [] = returnSM ([], emptyUDs)
go (bind:binds) = go binds `thenSM` \ (binds', uds) ->
-- Make a specialised version for each call in calls_for_me
mapSM spec_call calls_for_me `thenSM` \ stuff ->
let
- (spec_defns, spec_uds, spec_env_stuff) = unzip3 stuff
+ (spec_defns, spec_uds, spec_rules) = unzip3 stuff
- fn' = addIdSpecialisations zapped_fn spec_env_stuff
+ fn' = addIdSpecialisations zapped_fn spec_rules
in
returnSM ((fn',rhs'),
spec_defns,
-- It's role as a holder for a call instance is o'er
-- But it might be alive for some other reason by now.
- fn_type = idType fn
- (tyvars, theta, tau) = splitSigmaTy fn_type
- n_tyvars = length tyvars
- n_dicts = length theta
+ fn_type = idType fn
+ (tyvars, theta, _) = splitSigmaTy fn_type
+ n_tyvars = length tyvars
+ n_dicts = length theta
(rhs_tyvars, rhs_ids, rhs_body) = collectTyAndValBinders rhs
rhs_dicts = take n_dicts rhs_ids
----------------------------------------------------------
-- Specialise to one particular call pattern
- spec_call :: ([Maybe Type], ([DictExpr], VarSet)) -- Call instance
- -> SpecM ((Id,CoreExpr), -- Specialised definition
- UsageDetails, -- Usage details from specialised body
- ([CoreBndr], [CoreExpr], CoreExpr)) -- Info for the Id's SpecEnv
+ spec_call :: ([Maybe Type], ([DictExpr], VarSet)) -- Call instance
+ -> SpecM ((Id,CoreExpr), -- Specialised definition
+ UsageDetails, -- Usage details from specialised body
+ CoreRule) -- Info for the Id's SpecEnv
spec_call (call_ts, (call_ds, call_fvs))
= ASSERT( length call_ts == n_tyvars && length call_ds == n_dicts )
-- Calls are only recorded for properly-saturated applications
let
-- The rule to put in the function's specialisation is:
-- forall b,d, d1',d2'. f t1 b t3 d d1' d2' = f1 b d
- spec_env_rule = (poly_tyvars ++ rhs_dicts',
- inst_args,
- mkTyApps (Var spec_f) (map mkTyVarTy poly_tyvars))
+ spec_env_rule = Rule (_PK_ ("SPEC " ++ showSDoc (ppr fn)))
+ (poly_tyvars ++ rhs_dicts')
+ inst_args
+ (mkTyApps (Var spec_f) (map mkTyVarTy poly_tyvars))
-- Add the { d1' = dx1; d2' = dx2 } usage stuff
final_uds = foldr addDictBind rhs_uds (my_zipEqual "spec_call" rhs_dicts' call_ds)
calls = singleCall f spec_tys dicts
}
where
- (tyvars, theta, tau) = splitSigmaTy (idType f)
- constrained_tyvars = tyVarsOfTheta theta
- n_tyvars = length tyvars
- n_dicts = length theta
+ (tyvars, theta, _) = splitSigmaTy (idType f)
+ constrained_tyvars = tyVarsOfTheta theta
+ n_tyvars = length tyvars
+ n_dicts = length theta
spec_tys = [mk_spec_ty tv ty | (tv, Type ty) <- tyvars `zip` args]
dicts = [dict_expr | (_, dict_expr) <- theta `zip` (drop n_tyvars args)]
type SpecM a = UniqSM a
thenSM = thenUs
-thenSM_ = thenUs_
returnSM = returnUs
getUniqSM = getUniqueUs
-getUniqSupplySM = getUs
-setUniqSupplySM = setUs
mapSM = mapUs
initSM = initUs_
-- Clone the binders of the bind; return new bind with the cloned binders
-- Return the substitution to use for RHSs, and the one to use for the body
cloneBindSM subst (NonRec bndr rhs)
- = getUs `thenUs` \ us ->
+ = withUs $ \ us ->
let
(subst', us', bndr') = substAndCloneId subst us bndr
in
- setUs us' `thenUs_`
- returnUs (subst, subst', NonRec bndr' rhs)
+ ((subst, subst', NonRec bndr' rhs), us')
cloneBindSM subst (Rec pairs)
- = getUs `thenUs` \ us ->
+ = withUs $ \ us ->
let
(subst', us', bndrs') = substAndCloneIds subst us (map fst pairs)
in
- setUs us' `thenUs_`
- returnUs (subst', subst', Rec (bndrs' `zip` map snd pairs))
+ ((subst', subst', Rec (bndrs' `zip` map snd pairs)), us')
cloneBinders subst bndrs
- = getUs `thenUs` \ us ->
+ = withUs $ \ us ->
let
(subst', us', bndrs') = substAndCloneIds subst us bndrs
in
- setUs us' `thenUs_`
- returnUs (subst', bndrs')
-
+ ((subst', bndrs'), us')
newIdSM old_id new_ty
= getUniqSM `thenSM` \ uniq ->
-- Give the new Id a similar occurrence name to the old one
name = idName old_id
new_id = mkUserLocal (mkSpecOcc (nameOccName name)) uniq new_ty (getSrcLoc name)
-
- -- If the old Id was exported, make the new one non-discardable,
- -- else we will discard it since it doesn't seem to be called.
- new_id' | isExportedId old_id = setIdNoDiscard new_id
- | otherwise = new_id
in
- returnSM new_id'
-
-newTyVarSM
- = getUniqSM `thenSM` \ uniq ->
- returnSM (mkSysTyVar uniq boxedTypeKind)
+ returnSM new_id
\end{code}