import DynFlags
import TysPrim
import FastString
+import Maybes
import Util
+import Data.Word
+import Data.Bits
import GHC.Exts -- For `xori`
\end{code}
exprOkForSpeculation :: CoreExpr -> Bool
exprOkForSpeculation (Lit _) = True
exprOkForSpeculation (Type _) = True
+ -- Tick boxes are *not* suitable for speculation
exprOkForSpeculation (Var v) = isUnLiftedType (idType v)
+ && not (isTickBoxOp v)
exprOkForSpeculation (Note _ e) = exprOkForSpeculation e
exprOkForSpeculation (Cast e co) = exprOkForSpeculation e
exprOkForSpeculation other_expr
Just (dc, map Type to_tc_arg_tys ++ ex_args ++ new_co_args ++ new_val_args)
}}
+{-
+-- We do not want to tell the world that we have a
+-- Cons, to *stop* Case of Known Cons, which removes
+-- the TickBox.
+exprIsConApp_maybe (Note (TickBox {}) expr)
+ = Nothing
+exprIsConApp_maybe (Note (BinaryTickBox {}) expr)
+ = Nothing
+-}
+
exprIsConApp_maybe (Note _ expr)
= exprIsConApp_maybe expr
-- We ignore InlineMe notes in case we have
noteSize (SCC cc) = cc `seq` 1
noteSize InlineMe = 1
noteSize (CoreNote s) = s `seq` 1 -- hdaume: core annotations
-
+
varSize :: Var -> Int
varSize b | isTyVar b = 1
| otherwise = seqType (idType b) `seq`
-- expressions may hash to the different Ints
--
-- The emphasis is on a crude, fast hash, rather than on high precision
-
-hashExpr e | hash < 0 = 77 -- Just in case we hit -maxInt
- | otherwise = hash
- where
- hash = abs (hash_expr e) -- Negative numbers kill UniqFM
-
-hash_expr (Note _ e) = hash_expr e
-hash_expr (Cast e co) = hash_expr e
-hash_expr (Let (NonRec b r) e) = hashId b
-hash_expr (Let (Rec ((b,r):_)) e) = hashId b
-hash_expr (Case _ b _ _) = hashId b
-hash_expr (App f e) = hash_expr f * fast_hash_expr e
-hash_expr (Var v) = hashId v
-hash_expr (Lit lit) = hashLiteral lit
-hash_expr (Lam b _) = hashId b
-hash_expr (Type t) = trace "hash_expr: type" 1 -- Shouldn't happen
-
-fast_hash_expr (Var v) = hashId v
-fast_hash_expr (Lit lit) = hashLiteral lit
-fast_hash_expr (App f (Type _)) = fast_hash_expr f
-fast_hash_expr (App f a) = fast_hash_expr a
-fast_hash_expr (Lam b _) = hashId b
-fast_hash_expr other = 1
-
-hashId :: Id -> Int
-hashId id = hashName (idName id)
+--
+-- We must be careful that \x.x and \y.y map to the same hash code,
+-- (at least if we want the above invariant to be true)
+
+hashExpr e = fromIntegral (hash_expr (1,emptyVarEnv) e .&. 0x7fffffff)
+ -- UniqFM doesn't like negative Ints
+
+type HashEnv = (Int, VarEnv Int) -- Hash code for bound variables
+
+hash_expr :: HashEnv -> CoreExpr -> Word32
+-- Word32, because we're expecting overflows here, and overflowing
+-- signed types just isn't cool. In C it's even undefined.
+hash_expr env (Note _ e) = hash_expr env e
+hash_expr env (Cast e co) = hash_expr env e
+hash_expr env (Var v) = hashVar env v
+hash_expr env (Lit lit) = fromIntegral (hashLiteral lit)
+hash_expr env (App f e) = hash_expr env f * fast_hash_expr env e
+hash_expr env (Let (NonRec b r) e) = hash_expr (extend_env env b) e * fast_hash_expr env r
+hash_expr env (Let (Rec ((b,r):_)) e) = hash_expr (extend_env env b) e
+hash_expr env (Case e _ _ _) = hash_expr env e
+hash_expr env (Lam b e) = hash_expr (extend_env env b) e
+hash_expr env (Type t) = WARN(True, text "hash_expr: type") 1
+-- Shouldn't happen. Better to use WARN than trace, because trace
+-- prevents the CPR optimisation kicking in for hash_expr.
+
+fast_hash_expr env (Var v) = hashVar env v
+fast_hash_expr env (Type t) = fast_hash_type env t
+fast_hash_expr env (Lit lit) = fromIntegral (hashLiteral lit)
+fast_hash_expr env (Cast e co) = fast_hash_expr env e
+fast_hash_expr env (Note n e) = fast_hash_expr env e
+fast_hash_expr env (App f a) = fast_hash_expr env a -- A bit idiosyncratic ('a' not 'f')!
+fast_hash_expr env other = 1
+
+fast_hash_type :: HashEnv -> Type -> Word32
+fast_hash_type env ty
+ | Just tv <- getTyVar_maybe ty = hashVar env tv
+ | Just (tc,_) <- splitTyConApp_maybe ty
+ = fromIntegral (hashName (tyConName tc))
+ | otherwise = 1
+
+extend_env :: HashEnv -> Var -> (Int, VarEnv Int)
+extend_env (n,env) b = (n+1, extendVarEnv env b n)
+
+hashVar :: HashEnv -> Var -> Word32
+hashVar (_,env) v
+ = fromIntegral (lookupVarEnv env v `orElse` hashName (idName v))
\end{code}
%************************************************************************