-%
-% (c) The AQUA Project, Glasgow University, 1994-1996
+
+% (c) The AQUA Project, Glasgow University, 1994-1998
%
\section[FiniteMap]{An implementation of finite maps}
\end{display}
The code is SPECIALIZEd to various highly-desirable types (e.g., Id)
-near the end (only \tr{#ifdef COMPILING_GHC}).
+near the end.
\begin{code}
-#ifdef COMPILING_GHC
-#include "HsVersions.h"
-#define IF_NOT_GHC(a) {--}
-#else
-#define ASSERT(e) {--}
-#define IF_NOT_GHC(a) a
-#define COMMA ,
-#endif
-
-#if defined(COMPILING_GHC) && defined(DEBUG_FINITEMAPS)/* NB NB NB */
-#define OUTPUTABLE_key , Outputable key
-#else
-#define OUTPUTABLE_key {--}
-#endif
module FiniteMap (
FiniteMap, -- abstract type
emptyFM, unitFM, listToFM,
- addToFM, addListToFM,
- IF_NOT_GHC(addToFM_C COMMA)
+ addToFM,
+ addToFM_C,
+ addListToFM,
addListToFM_C,
- IF_NOT_GHC(delFromFM COMMA)
+ delFromFM,
delListFromFM,
- plusFM, plusFM_C,
- IF_NOT_GHC(intersectFM COMMA intersectFM_C COMMA)
- minusFM, -- exported for GHCI only
+ plusFM,
+ plusFM_C,
+ minusFM,
+ foldFM,
- IF_NOT_GHC(mapFM COMMA foldFM COMMA filterFM COMMA)
+ intersectFM,
+ intersectFM_C,
+ mapFM, filterFM,
- IF_NOT_GHC(sizeFM COMMA)
- isEmptyFM, elemFM, lookupFM, lookupWithDefaultFM,
+ sizeFM, isEmptyFM, elemFM, lookupFM, lookupWithDefaultFM,
- fmToList, keysFM, eltsFM{-used in GHCI-}
+ fmToList, keysFM, eltsFM
-#ifdef COMPILING_GHC
, bagToFM
- , FiniteSet(..), emptySet, mkSet, isEmptySet
- , elementOf, setToList, union, minusSet{-exported for GHCI-}
-#endif
- -- To make it self-sufficient
-#if __HASKELL1__ < 3
- , Maybe
-#endif
) where
+#include "HsVersions.h"
+#define IF_NOT_GHC(a) {--}
+
+#if defined(DEBUG_FINITEMAPS)/* NB NB NB */
+#define OUTPUTABLE_key , Outputable key
+#else
+#define OUTPUTABLE_key {--}
+#endif
+
+import GlaExts
import Maybes
+import Bag ( Bag, foldrBag )
+import Util
+import Outputable
-#ifdef COMPILING_GHC
-import Ubiq{-uitous-}
-# ifdef DEBUG
-import Pretty
-# endif
-import Bag ( foldBag )
#if ! OMIT_NATIVE_CODEGEN
-#define IF_NCG(a) a
+# define IF_NCG(a) a
#else
-#define IF_NCG(a) {--}
-#endif
+# define IF_NCG(a) {--}
#endif
+
-- SIGH: but we use unboxed "sizes"...
#if __GLASGOW_HASKELL__
#define IF_GHC(a,b) a
unitFM :: key -> elt -> FiniteMap key elt
listToFM :: (Ord key OUTPUTABLE_key) => [(key,elt)] -> FiniteMap key elt
-- In the case of duplicates, the last is taken
-#ifdef COMPILING_GHC
bagToFM :: (Ord key OUTPUTABLE_key) => Bag (key,elt) -> FiniteMap key elt
-- In the case of duplicates, who knows which is taken
-#endif
-- ADDING AND DELETING
-- Throws away any previous binding
addListToFM :: (Ord key OUTPUTABLE_key) => FiniteMap key elt -> [(key,elt)] -> FiniteMap key elt
-- Combines with previous binding
+ -- The combining fn goes (old -> new -> new)
addToFM_C :: (Ord key OUTPUTABLE_key) => (elt -> elt -> elt)
-> FiniteMap key elt -> key -> elt
-> FiniteMap key elt
-- (minusFM a1 a2) deletes from a1 any bindings which are bound in a2
intersectFM :: (Ord key OUTPUTABLE_key) => FiniteMap key elt -> FiniteMap key elt -> FiniteMap key elt
-intersectFM_C :: (Ord key OUTPUTABLE_key) => (elt -> elt -> elt)
- -> FiniteMap key elt -> FiniteMap key elt -> FiniteMap key elt
+intersectFM_C :: (Ord key OUTPUTABLE_key) => (elt1 -> elt2 -> elt3)
+ -> FiniteMap key elt1 -> FiniteMap key elt2 -> FiniteMap key elt3
-- MAPPING, FOLDING, FILTERING
foldFM :: (key -> elt -> a -> a) -> a -> FiniteMap key elt -> a
filterFM :: (Ord key OUTPUTABLE_key) => (key -> elt -> Bool)
-> FiniteMap key elt -> FiniteMap key elt
+
-- INTERROGATING
sizeFM :: FiniteMap key elt -> Int
isEmptyFM :: FiniteMap key elt -> Bool
listToFM = addListToFM emptyFM
-#ifdef COMPILING_GHC
-bagToFM = foldBag plusFM (\ (k,v) -> unitFM k v) emptyFM
-#endif
+bagToFM = foldrBag (\(k,v) fm -> addToFM fm k v) emptyFM
\end{code}
%************************************************************************
addToFM_C combiner EmptyFM key elt = unitFM key elt
addToFM_C combiner (Branch key elt size fm_l fm_r) new_key new_elt
-#ifdef __GLASGOW_HASKELL__
- = case _tagCmp new_key key of
- _LT -> mkBalBranch key elt (addToFM_C combiner fm_l new_key new_elt) fm_r
- _GT -> mkBalBranch key elt fm_l (addToFM_C combiner fm_r new_key new_elt)
- _EQ -> Branch new_key (combiner elt new_elt) size fm_l fm_r
-#else
- | new_key < key = mkBalBranch key elt (addToFM_C combiner fm_l new_key new_elt) fm_r
- | new_key > key = mkBalBranch key elt fm_l (addToFM_C combiner fm_r new_key new_elt)
- | otherwise = Branch new_key (combiner elt new_elt) size fm_l fm_r
-#endif
+ = case compare new_key key of
+ LT -> mkBalBranch key elt (addToFM_C combiner fm_l new_key new_elt) fm_r
+ GT -> mkBalBranch key elt fm_l (addToFM_C combiner fm_r new_key new_elt)
+ EQ -> Branch new_key (combiner elt new_elt) size fm_l fm_r
addListToFM fm key_elt_pairs = addListToFM_C (\ old new -> new) fm key_elt_pairs
addListToFM_C combiner fm key_elt_pairs
- = foldl add fm key_elt_pairs -- foldl adds from the left
+ = foldl' add fm key_elt_pairs -- foldl adds from the left
where
add fmap (key,elt) = addToFM_C combiner fmap key elt
\end{code}
\begin{code}
delFromFM EmptyFM del_key = emptyFM
delFromFM (Branch key elt size fm_l fm_r) del_key
-#ifdef __GLASGOW_HASKELL__
- = case _tagCmp del_key key of
- _GT -> mkBalBranch key elt fm_l (delFromFM fm_r del_key)
- _LT -> mkBalBranch key elt (delFromFM fm_l del_key) fm_r
- _EQ -> glueBal fm_l fm_r
-#else
- | del_key > key
- = mkBalBranch key elt fm_l (delFromFM fm_r del_key)
-
- | del_key < key
- = mkBalBranch key elt (delFromFM fm_l del_key) fm_r
-
- | key == del_key
- = glueBal fm_l fm_r
-#endif
+ = case compare del_key key of
+ GT -> mkBalBranch key elt fm_l (delFromFM fm_r del_key)
+ LT -> mkBalBranch key elt (delFromFM fm_l del_key) fm_r
+ EQ -> glueBal fm_l fm_r
-delListFromFM fm keys = foldl delFromFM fm keys
+delListFromFM fm keys = foldl' delFromFM fm keys
\end{code}
%************************************************************************
-- It's worth doing plusFM specially, because we don't need
-- to do the lookup in fm1.
+-- FM2 over-rides FM1.
plusFM EmptyFM fm2 = fm2
plusFM fm1 EmptyFM = fm1
lookupFM EmptyFM key = Nothing
lookupFM (Branch key elt _ fm_l fm_r) key_to_find
-#ifdef __GLASGOW_HASKELL__
- = case _tagCmp key_to_find key of
- _LT -> lookupFM fm_l key_to_find
- _GT -> lookupFM fm_r key_to_find
- _EQ -> Just elt
-#else
- | key_to_find < key = lookupFM fm_l key_to_find
- | key_to_find > key = lookupFM fm_r key_to_find
- | otherwise = Just elt
-#endif
+ = case compare key_to_find key of
+ LT -> lookupFM fm_l key_to_find
+ GT -> lookupFM fm_r key_to_find
+ EQ -> Just elt
key `elemFM` fm
= case (lookupFM fm key) of { Nothing -> False; Just elt -> True }
mkBranch which key elt fm_l fm_r
= --ASSERT( left_ok && right_ok && balance_ok )
-#if defined(COMPILING_GHC) && defined(DEBUG_FINITEMAPS)
+#if defined(DEBUG_FINITEMAPS)
if not ( left_ok && right_ok && balance_ok ) then
- pprPanic ("mkBranch:"++show which) (ppAboves [ppr PprDebug [left_ok, right_ok, balance_ok],
- ppr PprDebug key,
- ppr PprDebug fm_l,
- ppr PprDebug fm_r])
+ pprPanic ("mkBranch:"++show which) (vcat [ppr [left_ok, right_ok, balance_ok],
+ ppr key,
+ ppr fm_l,
+ ppr fm_r])
else
#endif
let
-- if sizeFM result <= 8 then
result
-- else
--- pprTrace ("mkBranch:"++(show which)) (ppr PprDebug result) (
+-- pprTrace ("mkBranch:"++(show which)) (ppr result) (
-- result
-- )
where
| otherwise -- We now need the same two cases as in glueBal above.
= glueBal fm_l fm_r
where
- (mid_key_l,mid_elt_l) = findMax fm_l
- (mid_key_r,mid_elt_r) = findMin fm_r
size_l = sizeFM fm_l
size_r = sizeFM fm_r
\end{code}
splitLT EmptyFM split_key = emptyFM
splitLT (Branch key elt _ fm_l fm_r) split_key
-#ifdef __GLASGOW_HASKELL__
- = case _tagCmp split_key key of
- _LT -> splitLT fm_l split_key
- _GT -> mkVBalBranch key elt fm_l (splitLT fm_r split_key)
- _EQ -> fm_l
-#else
- | split_key < key = splitLT fm_l split_key
- | split_key > key = mkVBalBranch key elt fm_l (splitLT fm_r split_key)
- | otherwise = fm_l
-#endif
+ = case compare split_key key of
+ LT -> splitLT fm_l split_key
+ GT -> mkVBalBranch key elt fm_l (splitLT fm_r split_key)
+ EQ -> fm_l
splitGT EmptyFM split_key = emptyFM
splitGT (Branch key elt _ fm_l fm_r) split_key
-#ifdef __GLASGOW_HASKELL__
- = case _tagCmp split_key key of
- _GT -> splitGT fm_r split_key
- _LT -> mkVBalBranch key elt (splitGT fm_l split_key) fm_r
- _EQ -> fm_r
-#else
- | split_key > key = splitGT fm_r split_key
- | split_key < key = mkVBalBranch key elt (splitGT fm_l split_key) fm_r
- | otherwise = fm_r
-#endif
+ = case compare split_key key of
+ GT -> splitGT fm_r split_key
+ LT -> mkVBalBranch key elt (splitGT fm_l split_key) fm_r
+ EQ -> fm_r
findMin :: FiniteMap key elt -> (key,elt)
findMin (Branch key elt _ EmptyFM _) = (key,elt)
%************************************************************************
\begin{code}
-#if defined(COMPILING_GHC) && defined(DEBUG_FINITEMAPS)
+#if defined(DEBUG_FINITEMAPS)
instance (Outputable key) => Outputable (FiniteMap key elt) where
- ppr sty fm = pprX sty fm
+ ppr fm = pprX fm
-pprX sty EmptyFM = ppChar '!'
-pprX sty (Branch key elt sz fm_l fm_r)
- = ppBesides [ppLparen, pprX sty fm_l, ppSP,
- ppr sty key, ppSP, ppInt (IF_GHC(I# sz, sz)), ppSP,
- pprX sty fm_r, ppRparen]
+pprX EmptyFM = char '!'
+pprX (Branch key elt sz fm_l fm_r)
+ = parens (hcat [pprX fm_l, space,
+ ppr key, space, int (IF_GHC(I# sz, sz)), space,
+ pprX fm_r])
+#else
+-- and when not debugging the package itself...
+instance (Outputable key, Outputable elt) => Outputable (FiniteMap key elt) where
+ ppr fm = ppr (fmToList fm)
#endif
-#ifndef COMPILING_GHC
+#if 0
instance (Eq key, Eq elt) => Eq (FiniteMap key elt) where
fm_1 == fm_2 = (sizeFM fm_1 == sizeFM fm_2) && -- quick test
(fmToList fm_1 == fmToList fm_2)
%************************************************************************
%* *
-\subsection{FiniteSets---a thin veneer}
-%* *
-%************************************************************************
-
-\begin{code}
-#ifdef COMPILING_GHC
-
-type FiniteSet key = FiniteMap key ()
-emptySet :: FiniteSet key
-mkSet :: (Ord key OUTPUTABLE_key) => [key] -> FiniteSet key
-isEmptySet :: FiniteSet key -> Bool
-elementOf :: (Ord key OUTPUTABLE_key) => key -> FiniteSet key -> Bool
-minusSet :: (Ord key OUTPUTABLE_key) => FiniteSet key -> FiniteSet key -> FiniteSet key
-setToList :: FiniteSet key -> [key]
-union :: (Ord key OUTPUTABLE_key) => FiniteSet key -> FiniteSet key -> FiniteSet key
-
-emptySet = emptyFM
-mkSet xs = listToFM [ (x, ()) | x <- xs]
-isEmptySet = isEmptyFM
-elementOf = elemFM
-minusSet = minusFM
-setToList = keysFM
-union = plusFM
-
-#endif
-\end{code}
-
-%************************************************************************
-%* *
\subsection{Efficiency pragmas for GHC}
%* *
%************************************************************************
\begin{code}
#if 0
-#if defined(COMPILING_GHC) && __GLASGOW_HASKELL__
-{-# SPECIALIZE listToFM
- :: [(Int,elt)] -> FiniteMap Int elt,
- [(CLabel,elt)] -> FiniteMap CLabel elt,
- [(FAST_STRING,elt)] -> FiniteMap FAST_STRING elt,
- [((FAST_STRING,FAST_STRING),elt)] -> FiniteMap (FAST_STRING, FAST_STRING) elt
- IF_NCG(COMMA [(Reg COMMA elt)] -> FiniteMap Reg elt)
- #-}
-{-# SPECIALIZE addToFM
- :: FiniteMap Int elt -> Int -> elt -> FiniteMap Int elt,
- FiniteMap FAST_STRING elt -> FAST_STRING -> elt -> FiniteMap FAST_STRING elt,
- FiniteMap CLabel elt -> CLabel -> elt -> FiniteMap CLabel elt
- IF_NCG(COMMA FiniteMap Reg elt -> Reg -> elt -> FiniteMap Reg elt)
- #-}
+#if __GLASGOW_HASKELL__
+
{-# SPECIALIZE addListToFM
- :: FiniteMap Int elt -> [(Int,elt)] -> FiniteMap Int elt,
- FiniteMap CLabel elt -> [(CLabel,elt)] -> FiniteMap CLabel elt
+ :: FiniteMap (FAST_STRING, FAST_STRING) elt -> [((FAST_STRING, FAST_STRING),elt)] -> FiniteMap (FAST_STRING, FAST_STRING) elt
+ , FiniteMap RdrName elt -> [(RdrName,elt)] -> FiniteMap RdrName elt
IF_NCG(COMMA FiniteMap Reg elt -> [(Reg COMMA elt)] -> FiniteMap Reg elt)
#-}
-{-NOT EXPORTED!! # SPECIALIZE addToFM_C
- :: (elt -> elt -> elt) -> FiniteMap Int elt -> Int -> elt -> FiniteMap Int elt,
- (elt -> elt -> elt) -> FiniteMap CLabel elt -> CLabel -> elt -> FiniteMap CLabel elt
- IF_NCG(COMMA (elt -> elt -> elt) -> FiniteMap Reg elt -> Reg -> elt -> FiniteMap Reg elt)
- #-}
{-# SPECIALIZE addListToFM_C
- :: (elt -> elt -> elt) -> FiniteMap Int elt -> [(Int,elt)] -> FiniteMap Int elt,
- (elt -> elt -> elt) -> FiniteMap TyCon elt -> [(TyCon,elt)] -> FiniteMap TyCon elt,
- (elt -> elt -> elt) -> FiniteMap CLabel elt -> [(CLabel,elt)] -> FiniteMap CLabel elt
+ :: (elt -> elt -> elt) -> FiniteMap TyCon elt -> [(TyCon,elt)] -> FiniteMap TyCon elt
+ , (elt -> elt -> elt) -> FiniteMap FAST_STRING elt -> [(FAST_STRING,elt)] -> FiniteMap FAST_STRING elt
IF_NCG(COMMA (elt -> elt -> elt) -> FiniteMap Reg elt -> [(Reg COMMA elt)] -> FiniteMap Reg elt)
#-}
-{-NOT EXPORTED!!! # SPECIALIZE delFromFM
- :: FiniteMap Int elt -> Int -> FiniteMap Int elt,
- FiniteMap CLabel elt -> CLabel -> FiniteMap CLabel elt
- IF_NCG(COMMA FiniteMap Reg elt -> Reg -> FiniteMap Reg elt)
- #-}
-{-# SPECIALIZE delListFromFM
- :: FiniteMap Int elt -> [Int] -> FiniteMap Int elt,
- FiniteMap CLabel elt -> [CLabel] -> FiniteMap CLabel elt
- IF_NCG(COMMA FiniteMap Reg elt -> [Reg] -> FiniteMap Reg elt)
+{-# SPECIALIZE addToFM
+ :: FiniteMap CLabel elt -> CLabel -> elt -> FiniteMap CLabel elt
+ , FiniteMap FAST_STRING elt -> FAST_STRING -> elt -> FiniteMap FAST_STRING elt
+ , FiniteMap (FAST_STRING, FAST_STRING) elt -> (FAST_STRING, FAST_STRING) -> elt -> FiniteMap (FAST_STRING, FAST_STRING) elt
+ , FiniteMap RdrName elt -> RdrName -> elt -> FiniteMap RdrName elt
+ IF_NCG(COMMA FiniteMap Reg elt -> Reg -> elt -> FiniteMap Reg elt)
#-}
-{-# SPECIALIZE elemFM
- :: FAST_STRING -> FiniteMap FAST_STRING elt -> Bool
+{-# SPECIALIZE addToFM_C
+ :: (elt -> elt -> elt) -> FiniteMap (RdrName, RdrName) elt -> (RdrName, RdrName) -> elt -> FiniteMap (RdrName, RdrName) elt
+ , (elt -> elt -> elt) -> FiniteMap FAST_STRING elt -> FAST_STRING -> elt -> FiniteMap FAST_STRING elt
+ IF_NCG(COMMA (elt -> elt -> elt) -> FiniteMap Reg elt -> Reg -> elt -> FiniteMap Reg elt)
#-}
-{-not EXPORTED!!! # SPECIALIZE filterFM
- :: (Int -> elt -> Bool) -> FiniteMap Int elt -> FiniteMap Int elt,
- (CLabel -> elt -> Bool) -> FiniteMap CLabel elt -> FiniteMap CLabel elt
- IF_NCG(COMMA (Reg -> elt -> Bool) -> FiniteMap Reg elt -> FiniteMap Reg elt)
+{-# SPECIALIZE bagToFM
+ :: Bag (FAST_STRING,elt) -> FiniteMap FAST_STRING elt
#-}
-{-NOT EXPORTED!!! # SPECIALIZE intersectFM
- :: FiniteMap Int elt -> FiniteMap Int elt -> FiniteMap Int elt,
- FiniteMap CLabel elt -> FiniteMap CLabel elt -> FiniteMap CLabel elt
- IF_NCG(COMMA FiniteMap Reg elt -> FiniteMap Reg elt -> FiniteMap Reg elt)
+{-# SPECIALIZE delListFromFM
+ :: FiniteMap RdrName elt -> [RdrName] -> FiniteMap RdrName elt
+ , FiniteMap FAST_STRING elt -> [FAST_STRING] -> FiniteMap FAST_STRING elt
+ IF_NCG(COMMA FiniteMap Reg elt -> [Reg] -> FiniteMap Reg elt)
#-}
-{-not EXPORTED !!!# SPECIALIZE intersectFM_C
- :: (elt -> elt -> elt) -> FiniteMap Int elt -> FiniteMap Int elt -> FiniteMap Int elt,
- (elt -> elt -> elt) -> FiniteMap CLabel elt -> FiniteMap CLabel elt -> FiniteMap CLabel elt
- IF_NCG(COMMA (elt -> elt -> elt) -> FiniteMap Reg elt -> FiniteMap Reg elt -> FiniteMap Reg elt)
+{-# SPECIALIZE listToFM
+ :: [([Char],elt)] -> FiniteMap [Char] elt
+ , [(FAST_STRING,elt)] -> FiniteMap FAST_STRING elt
+ , [((FAST_STRING,FAST_STRING),elt)] -> FiniteMap (FAST_STRING, FAST_STRING) elt
+ IF_NCG(COMMA [(Reg COMMA elt)] -> FiniteMap Reg elt)
#-}
{-# SPECIALIZE lookupFM
- :: FiniteMap Int elt -> Int -> Maybe elt,
- FiniteMap CLabel elt -> CLabel -> Maybe elt,
- FiniteMap FAST_STRING elt -> FAST_STRING -> Maybe elt,
- FiniteMap (FAST_STRING,FAST_STRING) elt -> (FAST_STRING,FAST_STRING) -> Maybe elt
+ :: FiniteMap CLabel elt -> CLabel -> Maybe elt
+ , FiniteMap [Char] elt -> [Char] -> Maybe elt
+ , FiniteMap FAST_STRING elt -> FAST_STRING -> Maybe elt
+ , FiniteMap (FAST_STRING,FAST_STRING) elt -> (FAST_STRING,FAST_STRING) -> Maybe elt
+ , FiniteMap RdrName elt -> RdrName -> Maybe elt
+ , FiniteMap (RdrName,RdrName) elt -> (RdrName,RdrName) -> Maybe elt
IF_NCG(COMMA FiniteMap Reg elt -> Reg -> Maybe elt)
#-}
{-# SPECIALIZE lookupWithDefaultFM
- :: FiniteMap Int elt -> elt -> Int -> elt,
- FiniteMap CLabel elt -> elt -> CLabel -> elt
+ :: FiniteMap FAST_STRING elt -> elt -> FAST_STRING -> elt
IF_NCG(COMMA FiniteMap Reg elt -> elt -> Reg -> elt)
#-}
-{-# SPECIALIZE minusFM
- :: FiniteMap Int elt -> FiniteMap Int elt -> FiniteMap Int elt,
- FiniteMap TyCon elt -> FiniteMap TyCon elt -> FiniteMap TyCon elt,
- FiniteMap FAST_STRING elt -> FiniteMap FAST_STRING elt -> FiniteMap FAST_STRING elt,
- FiniteMap CLabel elt -> FiniteMap CLabel elt -> FiniteMap CLabel elt
- IF_NCG(COMMA FiniteMap Reg elt -> FiniteMap Reg elt -> FiniteMap Reg elt)
- #-}
{-# SPECIALIZE plusFM
- :: FiniteMap Int elt -> FiniteMap Int elt -> FiniteMap Int elt,
- FiniteMap TyCon elt -> FiniteMap TyCon elt -> FiniteMap TyCon elt,
- FiniteMap CLabel elt -> FiniteMap CLabel elt -> FiniteMap CLabel elt
+ :: FiniteMap RdrName elt -> FiniteMap RdrName elt -> FiniteMap RdrName elt
+ , FiniteMap FAST_STRING elt -> FiniteMap FAST_STRING elt -> FiniteMap FAST_STRING elt
IF_NCG(COMMA FiniteMap Reg elt -> FiniteMap Reg elt -> FiniteMap Reg elt)
#-}
{-# SPECIALIZE plusFM_C
- :: (elt -> elt -> elt) -> FiniteMap Int elt -> FiniteMap Int elt -> FiniteMap Int elt,
- (elt -> elt -> elt) -> FiniteMap CLabel elt -> FiniteMap CLabel elt -> FiniteMap CLabel elt
+ :: (elt -> elt -> elt) -> FiniteMap FAST_STRING elt -> FiniteMap FAST_STRING elt -> FiniteMap FAST_STRING elt
IF_NCG(COMMA (elt -> elt -> elt) -> FiniteMap Reg elt -> FiniteMap Reg elt -> FiniteMap Reg elt)
#-}
-#endif {- compiling for GHC -}
+#endif {- compiling with ghc and have specialiser -}
+
#endif {- 0 -}
\end{code}