import CoreSyn -- All of it
import OccurAnal ( occurAnalyseExpr )
-import CoreFVs ( exprFreeVars, exprsFreeVars, rulesRhsFreeVars )
+import CoreFVs ( exprFreeVars, exprsFreeVars, bindFreeVars, rulesRhsFreeVars )
import CoreUnfold ( isCheapUnfolding, unfoldingTemplate )
import CoreUtils ( tcEqExprX )
import PprCore ( pprRules )
emptyInScopeSet, mkInScopeSet, extendInScopeSetList,
emptyVarEnv, lookupVarEnv, extendVarEnv,
nukeRnEnvL, mkRnEnv2, rnOccR, rnOccL, inRnEnvR,
- rnBndrR, rnBndr2, rnBndrL, rnBndrs2 )
+ rnBndrR, rnBndr2, rnBndrL, rnBndrs2,
+ rnInScope, extendRnInScopeList )
import VarSet
import Name ( Name, NamedThing(..), nameOccName )
import NameEnv
import Outputable
import FastString
import Maybes ( isJust, orElse )
+import OrdList
import Bag
-import Util ( singleton )
+import Util ( singleton, mapAccumL )
import List ( isPrefixOf )
\end{code}
| otherwise
= case matchN in_scope tpl_vars tpl_args args of
Nothing -> Nothing
- Just (tpl_vals, leftovers) -> Just (rule_fn
- `mkApps` tpl_vals
- `mkApps` leftovers)
+ Just (binds, tpl_vals, leftovers) -> Just (mkLets binds $
+ rule_fn
+ `mkApps` tpl_vals
+ `mkApps` leftovers)
where
rule_fn = occurAnalyseExpr (mkLams tpl_vars rhs)
-- We could do this when putting things into the rulebase, I guess
-> [Var] -- Template tyvars
-> [CoreExpr] -- Template
-> [CoreExpr] -- Target; can have more elts than template
- -> Maybe ([CoreExpr], -- What is substituted for each template var
+ -> Maybe ([CoreBind], -- Bindings to wrap around the entire result
+ [CoreExpr], -- What is substituted for each template var
[CoreExpr]) -- Leftover target exprs
matchN in_scope tmpl_vars tmpl_es target_es
- = do { (subst, leftover_es) <- go init_menv emptySubstEnv tmpl_es target_es
- ; return (map (lookup_tmpl subst) tmpl_vars, leftover_es) }
+ = do { ((tv_subst, id_subst, binds), leftover_es)
+ <- go init_menv emptySubstEnv tmpl_es target_es
+ ; return (fromOL binds,
+ map (lookup_tmpl tv_subst id_subst) tmpl_vars,
+ leftover_es) }
where
init_menv = ME { me_tmpls = mkVarSet tmpl_vars, me_env = init_rn_env }
init_rn_env = mkRnEnv2 (extendInScopeSetList in_scope tmpl_vars)
go menv subst (t:ts) (e:es) = do { subst1 <- match menv subst t e
; go menv subst1 ts es }
- lookup_tmpl :: (TvSubstEnv, IdSubstEnv) -> Var -> CoreExpr
- lookup_tmpl (tv_subst, id_subst) tmpl_var
+ lookup_tmpl :: TvSubstEnv -> IdSubstEnv -> Var -> CoreExpr
+ lookup_tmpl tv_subst id_subst tmpl_var
| isTyVar tmpl_var = case lookupVarEnv tv_subst tmpl_var of
Just ty -> Type ty
Nothing -> unbound tmpl_var
\begin{code}
-- These two definitions are not the same as in Subst,
-- but they simple and direct, and purely local to this module
--- The third, for TvSubstEnv, is the same as in VarEnv, but repeated here
--- for uniformity with IdSubstEnv
-type SubstEnv = (TvSubstEnv, IdSubstEnv)
+--
+-- * The domain of the TvSubstEnv and IdSubstEnv are the template
+-- variables passed into the match.
+--
+-- * The (OrdList CoreBind) in a SubstEnv are the bindings floated out
+-- from nested matches; see the Let case of match, below
+--
+type SubstEnv = (TvSubstEnv, IdSubstEnv, OrdList CoreBind)
type IdSubstEnv = IdEnv CoreExpr
emptySubstEnv :: SubstEnv
-emptySubstEnv = (emptyVarEnv, emptyVarEnv)
+emptySubstEnv = (emptyVarEnv, emptyVarEnv, nilOL)
-- At one stage I tried to match even if there are more
-- succeed in matching what looks like the template variable 'a' against 3.
-- The Var case follows closely what happens in Unify.match
-match menv subst@(tv_subst, id_subst) (Var v1) e2
- | v1 `elemVarSet` me_tmpls menv
- = case lookupVarEnv id_subst v1' of
- Nothing | any (inRnEnvR rn_env) (varSetElems (exprFreeVars e2))
- -> Nothing -- Occurs check failure
- -- e.g. match forall a. (\x-> a x) against (\y. y y)
-
- | otherwise
- -> Just (tv_subst, extendVarEnv id_subst v1 e2)
-
- Just e2' | tcEqExprX (nukeRnEnvL rn_env) e2' e2
- -> Just subst
-
- other -> Nothing
-
- | -- v1 is not a template variable; check for an exact match with e2
- Var v2 <- e2, v1' == rnOccR rn_env v2
+match menv subst (Var v1) e2
+ | Just subst <- match_var menv subst v1 e2
= Just subst
- where
- rn_env = me_env menv
- v1' = rnOccL rn_env v1
-
-- Here is another important rule: if the term being matched is a
-- variable, we expand it so long as its unfolding is a WHNF
-- (Its occurrence information is not necessarily up to date,
; subst2 <- match_ty menv subst1 from1 from2
; match menv subst2 e1 e2 }
+-- Matching a let-expression. Consider
+-- RULE forall x. f (g x) = <rhs>
+-- and target expression
+-- f (let { w=R } in g E))
+-- Then we'd like the rule to match, to generate
+-- let { w=R } in (\x. <rhs>) E
+-- In effect, we want to float the let-binding outward, to enable
+-- the match to happen. This is the WHOLE REASON for accumulating
+-- bindings in the SubstEnv
+--
+-- We can only do this if
+-- (a) Widening the scope of w does not capture any variables
+-- We use a conservative test: w is not already in scope
+-- (b) The free variables of R are not bound by the part of the
+-- target expression outside the let binding; e.g.
+-- f (\v. let w = v+1 in g E)
+-- Here we obviously cannot float the let-binding for w.
+
+match menv subst@(tv_subst, id_subst, binds) e1 (Let bind e2)
+ | all freshly_bound bndrs,
+ not (any locally_bound bind_fvs)
+ = match (menv { me_env = rn_env' })
+ (tv_subst, id_subst, binds `snocOL` bind)
+ e1 e2
+ where
+ rn_env = me_env menv
+ bndrs = bindersOf bind
+ bind_fvs = varSetElems (bindFreeVars bind)
+ freshly_bound x = not (x `rnInScope` rn_env)
+ locally_bound x = inRnEnvR rn_env x
+ rn_env' = extendRnInScopeList rn_env bndrs
+
-- This is an interesting rule: we simply ignore lets in the
-- term being matched against! The unfolding inside it is (by assumption)
-- already inside any occurrences of the bound variables, so we'll expand
--- them when we encounter them.
-match menv subst e1 (Let (NonRec x2 r2) e2)
- = match menv' subst e1 e2
+-- them when we encounter them. This gives a chance of matching
+-- forall x,y. f (g (x,y))
+-- against
+-- f (let v = (a,b) in g v)
+
+match menv subst e1 (Let bind e2)
+ = match (menv { me_env = rn_env' }) subst e1 e2
where
- menv' = menv { me_env = fst (rnBndrR (me_env menv) x2) }
- -- It's important to do this renaming. For example:
+ (rn_env', _bndrs') = mapAccumL rnBndrR (me_env menv) (bindersOf bind)
+ -- It's important to do this renaming, so that the bndrs
+ -- are brought into the local scope. For example:
-- Matching
-- forall f,x,xs. f (x:xs)
-- against
-- f (let y = e in (y:[]))
- -- We must not get success with x->y! Instead, we
- -- need an occurs check.
+ -- We must not get success with x->y! So we record that y is
+ -- locally bound (with rnBndrR), and proceed. The Var case
+ -- will fail when trying to bind x->y
+ --
-- Everything else fails
match menv subst e1 e2 = Nothing
------------------------------------------
+match_var :: MatchEnv
+ -> SubstEnv
+ -> Var -- Template
+ -> CoreExpr -- Target
+ -> Maybe SubstEnv
+match_var menv subst@(tv_subst, id_subst, binds) v1 e2
+ | v1' `elemVarSet` me_tmpls menv
+ = case lookupVarEnv id_subst v1' of
+ Nothing | any (inRnEnvR rn_env) (varSetElems (exprFreeVars e2))
+ -> Nothing -- Occurs check failure
+ -- e.g. match forall a. (\x-> a x) against (\y. y y)
+
+ | otherwise
+ -> Just (tv_subst, extendVarEnv id_subst v1 e2, binds)
+
+ Just e2' | tcEqExprX (nukeRnEnvL rn_env) e2' e2
+ -> Just subst
+
+ | otherwise
+ -> Nothing
+
+ | otherwise -- v1 is not a template variable; check for an exact match with e2
+ = case e2 of
+ Var v2 | v1' == rnOccR rn_env v2 -> Just subst
+ other -> Nothing
+
+ where
+ rn_env = me_env menv
+ v1' = rnOccL rn_env v1
+ -- If the template is
+ -- forall x. f x (\x -> x) = ...
+ -- Then the x inside the lambda isn't the
+ -- template x, so we must rename first!
+
+
+------------------------------------------
match_alts :: MatchEnv
-> SubstEnv
-> [CoreAlt] -- Template
\begin{code}
------------------------------------------
-match_ty menv (tv_subst, id_subst) ty1 ty2
+match_ty menv (tv_subst, id_subst, binds) ty1 ty2
= do { tv_subst' <- Unify.ruleMatchTyX menv tv_subst ty1 ty2
- ; return (tv_subst', id_subst) }
+ ; return (tv_subst', id_subst, binds) }
\end{code}