%
-% (c) The GRASP/AQUA Project, Glasgow University, 1992-1996
+% (c) The GRASP/AQUA Project, Glasgow University, 1992-1998
%
\section[Util]{Highly random utility functions}
\begin{code}
-#if defined(COMPILING_GHC)
-# include "HsVersions.h"
-# define IF_NOT_GHC(a) {--}
-#else
-# define panic error
-# define TAG_ _CMP_TAG
-# define LT_ _LT
-# define EQ_ _EQ
-# define GT_ _GT
-# define GT__ _
-# define tagCmp_ _tagCmp
-# define FAST_STRING String
-# define ASSERT(x) {-nothing-}
-# define IF_NOT_GHC(a) a
-# define COMMA ,
-#endif
-
-#ifndef __GLASGOW_HASKELL__
-# undef TAG_
-# undef LT_
-# undef EQ_
-# undef GT_
-# undef tagCmp_
-#endif
+-- IF_NOT_GHC is meant to make this module useful outside the context of GHC
+#define IF_NOT_GHC(a)
module Util (
- -- Haskell-version support
-#ifndef __GLASGOW_HASKELL__
- tagCmp_,
- TAG_(..),
+#if NOT_USED
+ -- The Eager monad
+ Eager, thenEager, returnEager, mapEager, appEager, runEager,
#endif
+
-- general list processing
- IF_NOT_GHC(forall COMMA exists COMMA)
zipEqual, zipWithEqual, zipWith3Equal, zipWith4Equal,
- zipLazy,
- nOfThem, lengthExceeds, isSingleton,
- startsWith, endsWith,
-#if defined(COMPILING_GHC)
+ zipLazy, stretchZipWith,
+ mapAndUnzip, mapAndUnzip3,
+ nOfThem, lengthExceeds, isSingleton, only,
+ snocView,
isIn, isn'tIn,
-#endif
- -- association lists
- assoc,
+ -- for-loop
+ nTimes,
- -- duplicate handling
- hasNoDups, equivClasses, runs, removeDups,
+ -- maybe-ish
+ unJust,
-- sorting
IF_NOT_GHC(quicksort COMMA stableSortLt COMMA mergesort COMMA)
transitiveClosure,
-- accumulating
- mapAccumL, mapAccumR, mapAccumB,
+ mapAccumL, mapAccumR, mapAccumB,
+ foldl2, count,
-- comparisons
- Ord3(..), thenCmp, cmpList,
- IF_NOT_GHC(cmpString COMMA)
-#ifdef USE_FAST_STRINGS
- cmpPString,
-#else
- substr,
-#endif
+ thenCmp, cmpList, prefixMatch, suffixMatch,
+
+ -- strictness
+ foldl', seqList,
+
-- pairs
IF_NOT_GHC(cfst COMMA applyToPair COMMA applyToFst COMMA)
IF_NOT_GHC(applyToSnd COMMA foldPair COMMA)
unzipWith
- -- error handling
-#if defined(COMPILING_GHC)
- , panic, panic#, pprPanic, pprPanic#, pprError, pprTrace
-# ifdef DEBUG
- , assertPanic
-# endif
-#endif {- COMPILING_GHC -}
-
- -- and to make the interface self-sufficient...
-#if __HASKELL1__ < 3
-# if defined(COMPILING_GHC)
- , Maybe(..){-.. for pragmas...-}, PrettyRep, Pretty(..)
-# else
- , Maybe
-# endif
+ , global
+
+#if __GLASGOW_HASKELL__ <= 408
+ , catchJust
+ , ioErrors
+ , throwTo
#endif
) where
-#if defined(COMPILING_GHC)
+#include "../includes/config.h"
+#include "HsVersions.h"
-CHK_Ubiq() -- debugging consistency check
-
-import Pretty
-#endif
-#if __HASKELL1__ < 3
-import Maybes ( Maybe(..) )
+import List ( zipWith4 )
+import Maybe ( Maybe(..) )
+import Panic ( panic )
+import IOExts ( IORef, newIORef, unsafePerformIO )
+import FastTypes
+#if __GLASGOW_HASKELL__ <= 408
+import Exception ( catchIO, justIoErrors, raiseInThread )
#endif
+
+infixr 9 `thenCmp`
\end{code}
%************************************************************************
%* *
-\subsection[Utils-version-support]{Functions to help pre-1.2 versions of (non-Glasgow) Haskell}
+\subsection{The Eager monad}
%* *
%************************************************************************
-This is our own idea:
+The @Eager@ monad is just an encoding of continuation-passing style,
+used to allow you to express "do this and then that", mainly to avoid
+space leaks. It's done with a type synonym to save bureaucracy.
+
\begin{code}
-#ifndef __GLASGOW_HASKELL__
-data TAG_ = LT_ | EQ_ | GT_
+#if NOT_USED
+
+type Eager ans a = (a -> ans) -> ans
+
+runEager :: Eager a a -> a
+runEager m = m (\x -> x)
-tagCmp_ :: Ord a => a -> a -> TAG_
-tagCmp_ a b = if a == b then EQ_ else if a < b then LT_ else GT_
+appEager :: Eager ans a -> (a -> ans) -> ans
+appEager m cont = m cont
+
+thenEager :: Eager ans a -> (a -> Eager ans b) -> Eager ans b
+thenEager m k cont = m (\r -> k r cont)
+
+returnEager :: a -> Eager ans a
+returnEager v cont = cont v
+
+mapEager :: (a -> Eager ans b) -> [a] -> Eager ans [b]
+mapEager f [] = returnEager []
+mapEager f (x:xs) = f x `thenEager` \ y ->
+ mapEager f xs `thenEager` \ ys ->
+ returnEager (y:ys)
#endif
\end{code}
%************************************************************************
%* *
-\subsection[Utils-lists]{General list processing}
+\subsection{A for loop}
%* *
%************************************************************************
-Quantifiers are not standard in Haskell. The following fill in the gap.
-
\begin{code}
-forall :: (a -> Bool) -> [a] -> Bool
-forall pred [] = True
-forall pred (x:xs) = pred x && forall pred xs
+-- Compose a function with itself n times. (nth rather than twice)
+nTimes :: Int -> (a -> a) -> (a -> a)
+nTimes 0 _ = id
+nTimes 1 f = f
+nTimes n f = f . nTimes (n-1) f
+\end{code}
-exists :: (a -> Bool) -> [a] -> Bool
-exists pred [] = False
-exists pred (x:xs) = pred x || exists pred xs
+%************************************************************************
+%* *
+\subsection{Maybe-ery}
+%* *
+%************************************************************************
+
+\begin{code}
+unJust :: String -> Maybe a -> a
+unJust who (Just x) = x
+unJust who Nothing = panic ("unJust of Nothing, called by " ++ who)
\end{code}
+%************************************************************************
+%* *
+\subsection[Utils-lists]{General list processing}
+%* *
+%************************************************************************
+
A paranoid @zip@ (and some @zipWith@ friends) that checks the lists
are of equal length. Alastair Reid thinks this should only happen if
DEBUGging on; hey, why not?
\begin{code}
-zipEqual :: [a] -> [b] -> [(a,b)]
-zipWithEqual :: (a->b->c) -> [a]->[b]->[c]
-zipWith3Equal :: (a->b->c->d) -> [a]->[b]->[c]->[d]
-zipWith4Equal :: (a->b->c->d->e) -> [a]->[b]->[c]->[d]->[e]
+zipEqual :: String -> [a] -> [b] -> [(a,b)]
+zipWithEqual :: String -> (a->b->c) -> [a]->[b]->[c]
+zipWith3Equal :: String -> (a->b->c->d) -> [a]->[b]->[c]->[d]
+zipWith4Equal :: String -> (a->b->c->d->e) -> [a]->[b]->[c]->[d]->[e]
#ifndef DEBUG
-zipEqual = zip
-zipWithEqual = zipWith
-zipWith3Equal = zipWith3
-zipWith4Equal = zipWith4
+zipEqual _ = zip
+zipWithEqual _ = zipWith
+zipWith3Equal _ = zipWith3
+zipWith4Equal _ = zipWith4
#else
-zipEqual [] [] = []
-zipEqual (a:as) (b:bs) = (a,b) : zipEqual as bs
-zipEqual as bs = panic "zipEqual: unequal lists"
-
-zipWithEqual z (a:as) (b:bs) = z a b : zipWithEqual z as bs
-zipWithEqual _ [] [] = []
-zipWithEqual _ _ _ = panic "zipWithEqual: unequal lists"
-
-zipWith3Equal z (a:as) (b:bs) (c:cs)
- = z a b c : zipWith3Equal z as bs cs
-zipWith3Equal _ [] [] [] = []
-zipWith3Equal _ _ _ _ = panic "zipWith3Equal: unequal lists"
-
-zipWith4Equal z (a:as) (b:bs) (c:cs) (d:ds)
- = z a b c d : zipWith4Equal z as bs cs ds
-zipWith4Equal _ [] [] [] [] = []
-zipWith4Equal _ _ _ _ _ = panic "zipWith4Equal: unequal lists"
+zipEqual msg [] [] = []
+zipEqual msg (a:as) (b:bs) = (a,b) : zipEqual msg as bs
+zipEqual msg as bs = panic ("zipEqual: unequal lists:"++msg)
+
+zipWithEqual msg z (a:as) (b:bs)= z a b : zipWithEqual msg z as bs
+zipWithEqual msg _ [] [] = []
+zipWithEqual msg _ _ _ = panic ("zipWithEqual: unequal lists:"++msg)
+
+zipWith3Equal msg z (a:as) (b:bs) (c:cs)
+ = z a b c : zipWith3Equal msg z as bs cs
+zipWith3Equal msg _ [] [] [] = []
+zipWith3Equal msg _ _ _ _ = panic ("zipWith3Equal: unequal lists:"++msg)
+
+zipWith4Equal msg z (a:as) (b:bs) (c:cs) (d:ds)
+ = z a b c d : zipWith4Equal msg z as bs cs ds
+zipWith4Equal msg _ [] [] [] [] = []
+zipWith4Equal msg _ _ _ _ _ = panic ("zipWith4Equal: unequal lists:"++msg)
#endif
\end{code}
zipLazy (x:xs) ~(y:ys) = (x,y) : zipLazy xs ys
\end{code}
+
+\begin{code}
+stretchZipWith :: (a -> Bool) -> b -> (a->b->c) -> [a] -> [b] -> [c]
+-- (stretchZipWith p z f xs ys) stretches ys by inserting z in
+-- the places where p returns *True*
+
+stretchZipWith p z f [] ys = []
+stretchZipWith p z f (x:xs) ys
+ | p x = f x z : stretchZipWith p z f xs ys
+ | otherwise = case ys of
+ [] -> []
+ (y:ys) -> f x y : stretchZipWith p z f xs ys
+\end{code}
+
+
+\begin{code}
+mapAndUnzip :: (a -> (b, c)) -> [a] -> ([b], [c])
+
+mapAndUnzip f [] = ([],[])
+mapAndUnzip f (x:xs)
+ = let
+ (r1, r2) = f x
+ (rs1, rs2) = mapAndUnzip f xs
+ in
+ (r1:rs1, r2:rs2)
+
+mapAndUnzip3 :: (a -> (b, c, d)) -> [a] -> ([b], [c], [d])
+
+mapAndUnzip3 f [] = ([],[],[])
+mapAndUnzip3 f (x:xs)
+ = let
+ (r1, r2, r3) = f x
+ (rs1, rs2, rs3) = mapAndUnzip3 f xs
+ in
+ (r1:rs1, r2:rs2, r3:rs3)
+\end{code}
+
\begin{code}
nOfThem :: Int -> a -> [a]
-nOfThem n thing = take n (repeat thing)
+nOfThem n thing = replicate n thing
lengthExceeds :: [a] -> Int -> Bool
-
-[] `lengthExceeds` n = 0 > n
-(x:xs) `lengthExceeds` n = (1 > n) || (xs `lengthExceeds` (n - 1))
+-- (lengthExceeds xs n) is True if length xs > n
+(x:xs) `lengthExceeds` n = n < 1 || xs `lengthExceeds` (n - 1)
+[] `lengthExceeds` n = n < 0
isSingleton :: [a] -> Bool
-
isSingleton [x] = True
isSingleton _ = False
-startsWith, endsWith :: String -> String -> Maybe String
-
-startsWith [] str = Just str
-startsWith (c:cs) (s:ss)
- = if c /= s then Nothing else startsWith cs ss
+only :: [a] -> a
+#ifdef DEBUG
+only [a] = a
+#else
+only (a:_) = a
+#endif
+\end{code}
-endsWith cs ss
- = case (startsWith (reverse cs) (reverse ss)) of
- Nothing -> Nothing
- Just rs -> Just (reverse rs)
+\begin{code}
+snocView :: [a] -> ([a], a) -- Split off the last element
+snocView xs = go xs []
+ where
+ go [x] acc = (reverse acc, x)
+ go (x:xs) acc = go xs (x:acc)
\end{code}
Debugging/specialising versions of \tr{elem} and \tr{notElem}
+
\begin{code}
-#if defined(COMPILING_GHC)
isIn, isn'tIn :: (Eq a) => String -> a -> [a] -> Bool
# ifndef DEBUG
# else {- DEBUG -}
isIn msg x ys
- = elem ILIT(0) x ys
+ = elem (_ILIT 0) x ys
where
elem i _ [] = False
elem i x (y:ys)
- | i _GE_ ILIT(100) = panic ("Over-long elem in: " ++ msg)
- | otherwise = x == y || elem (i _ADD_ ILIT(1)) x ys
+ | i ># _ILIT 100 = panic ("Over-long elem in: " ++ msg)
+ | otherwise = x == y || elem (i +# _ILIT(1)) x ys
isn'tIn msg x ys
- = notElem ILIT(0) x ys
+ = notElem (_ILIT 0) x ys
where
notElem i x [] = True
notElem i x (y:ys)
- | i _GE_ ILIT(100) = panic ("Over-long notElem in: " ++ msg)
- | otherwise = x /= y && notElem (i _ADD_ ILIT(1)) x ys
+ | i ># _ILIT 100 = panic ("Over-long notElem in: " ++ msg)
+ | otherwise = x /= y && notElem (i +# _ILIT(1)) x ys
# endif {- DEBUG -}
-# ifdef USE_ATTACK_PRAGMAS
-{-# SPECIALIZE isIn :: String -> Literal -> [Literal] -> Bool #-}
-{-# SPECIALIZE isIn :: String -> Class -> [Class] -> Bool #-}
-{-# SPECIALIZE isIn :: String -> Id -> [Id] -> Bool #-}
-{-# SPECIALIZE isIn :: String -> Int -> [Int] -> Bool #-}
-{-# SPECIALIZE isIn :: String -> MagicId -> [MagicId] -> Bool #-}
-{-# SPECIALIZE isIn :: String -> Name -> [Name] -> Bool #-}
-{-# SPECIALIZE isIn :: String -> TyCon -> [TyCon] -> Bool #-}
-{-# SPECIALIZE isIn :: String -> TyVar -> [TyVar] -> Bool #-}
-{-# SPECIALIZE isIn :: String -> TyVarTemplate -> [TyVarTemplate] -> Bool #-}
-{-# SPECIALIZE isIn :: String -> Unique -> [Unique] -> Bool #-}
-{-# SPECIALIZE isIn :: String -> _PackedString -> [_PackedString] -> Bool #-}
-{-# SPECIALIZE isn'tIn :: String -> (Id, Id) -> [(Id, Id)] -> Bool #-}
-{-# SPECIALIZE isn'tIn :: String -> Int -> [Int] -> Bool #-}
-{-# SPECIALIZE isn'tIn :: String -> Id -> [Id] -> Bool #-}
-{-# SPECIALIZE isn'tIn :: String -> MagicId -> [MagicId] -> Bool #-}
-{-# SPECIALIZE isn'tIn :: String -> TyCon -> [TyCon] -> Bool #-}
-{-# SPECIALIZE isn'tIn :: String -> TyVar -> [TyVar] -> Bool #-}
-{-# SPECIALIZE isn'tIn :: String -> TyVarTemplate -> [TyVarTemplate] -> Bool #-}
-# endif
-
-#endif {- COMPILING_GHC -}
-\end{code}
-
-%************************************************************************
-%* *
-\subsection[Utils-assoc]{Association lists}
-%* *
-%************************************************************************
-
-See also @assocMaybe@ and @mkLookupFun@ in module @Maybes@.
-
-\begin{code}
-assoc :: (Eq a) => String -> [(a, b)] -> a -> b
-
-assoc crash_msg lst key
- = if (null res)
- then panic ("Failed in assoc: " ++ crash_msg)
- else head res
- where res = [ val | (key', val) <- lst, key == key']
-
-#if defined(COMPILING_GHC)
-# ifdef USE_ATTACK_PRAGMAS
-{-# SPECIALIZE assoc :: String -> [(Id, a)] -> Id -> a #-}
-{-# SPECIALIZE assoc :: String -> [(Class, a)] -> Class -> a #-}
-{-# SPECIALIZE assoc :: String -> [(Name, a)] -> Name -> a #-}
-{-# SPECIALIZE assoc :: String -> [(PrimRep, a)] -> PrimRep -> a #-}
-{-# SPECIALIZE assoc :: String -> [(String, a)] -> String -> a #-}
-{-# SPECIALIZE assoc :: String -> [(TyCon, a)] -> TyCon -> a #-}
-{-# SPECIALIZE assoc :: String -> [(TyVar, a)] -> TyVar -> a #-}
-{-# SPECIALIZE assoc :: String -> [(TyVarTemplate, a)] -> TyVarTemplate -> a #-}
-{-# SPECIALIZE assoc :: String -> [(Type, a)] -> Type -> a #-}
-{-# SPECIALIZE assoc :: String -> [(_PackedString, a)] -> _PackedString -> a #-}
-# endif
-#endif
-\end{code}
-
-%************************************************************************
-%* *
-\subsection[Utils-dups]{Duplicate-handling}
-%* *
-%************************************************************************
-
-\begin{code}
-hasNoDups :: (Eq a) => [a] -> Bool
-
-hasNoDups xs = f [] xs
- where
- f seen_so_far [] = True
- f seen_so_far (x:xs) = if x `is_elem` seen_so_far then
- False
- else
- f (x:seen_so_far) xs
-
-#if defined(COMPILING_GHC)
- is_elem = isIn "hasNoDups"
-#else
- is_elem = elem
-#endif
-#if defined(COMPILING_GHC)
-# ifdef USE_ATTACK_PRAGMAS
-{-# SPECIALIZE hasNoDups :: [TyVar] -> Bool #-}
-# endif
-#endif
-\end{code}
-
-\begin{code}
-equivClasses :: (a -> a -> TAG_) -- Comparison
- -> [a]
- -> [[a]]
-
-equivClasses cmp stuff@[] = []
-equivClasses cmp stuff@[item] = [stuff]
-equivClasses cmp items
- = runs eq (sortLt lt items)
- where
- eq a b = case cmp a b of { EQ_ -> True; _ -> False }
- lt a b = case cmp a b of { LT_ -> True; _ -> False }
-\end{code}
-
-The first cases in @equivClasses@ above are just to cut to the point
-more quickly...
-
-@runs@ groups a list into a list of lists, each sublist being a run of
-identical elements of the input list. It is passed a predicate @p@ which
-tells when two elements are equal.
-
-\begin{code}
-runs :: (a -> a -> Bool) -- Equality
- -> [a]
- -> [[a]]
-
-runs p [] = []
-runs p (x:xs) = case (span (p x) xs) of
- (first, rest) -> (x:first) : (runs p rest)
-\end{code}
-
-\begin{code}
-removeDups :: (a -> a -> TAG_) -- Comparison function
- -> [a]
- -> ([a], -- List with no duplicates
- [[a]]) -- List of duplicate groups. One representative from
- -- each group appears in the first result
-
-removeDups cmp [] = ([], [])
-removeDups cmp [x] = ([x],[])
-removeDups cmp xs
- = case (mapAccumR collect_dups [] (equivClasses cmp xs)) of { (dups, xs') ->
- (xs', dups) }
- where
- collect_dups dups_so_far [x] = (dups_so_far, x)
- collect_dups dups_so_far dups@(x:xs) = (dups:dups_so_far, x)
\end{code}
%************************************************************************
%************************************************************************
\begin{code}
+#if NOT_USED
+
-- tail-recursive, etc., "quicker sort" [as per Meira thesis]
quicksort :: (a -> a -> Bool) -- Less-than predicate
-> [a] -- Input list
split x lo hi [] = quicksort lt lo ++ (x : quicksort lt hi)
split x lo hi (y:ys) | y `lt` x = split x (y:lo) hi ys
| True = split x lo (y:hi) ys
+#endif
\end{code}
Quicksort variant from Lennart's Haskell-library contribution. This
%************************************************************************
\begin{code}
-mergesort :: (a -> a -> TAG_) -> [a] -> [a]
+#if NOT_USED
+mergesort :: (a -> a -> Ordering) -> [a] -> [a]
mergesort cmp xs = merge_lists (split_into_runs [] xs)
where
- a `le` b = case cmp a b of { LT_ -> True; EQ_ -> True; GT__ -> False }
- a `ge` b = case cmp a b of { LT_ -> False; EQ_ -> True; GT__ -> True }
+ a `le` b = case cmp a b of { LT -> True; EQ -> True; GT -> False }
+ a `ge` b = case cmp a b of { LT -> False; EQ -> True; GT -> True }
split_into_runs [] [] = []
split_into_runs run [] = [run]
merge xs [] = xs
merge xl@(x:xs) yl@(y:ys)
= case cmp x y of
- EQ_ -> x : y : (merge xs ys)
- LT_ -> x : (merge xs yl)
- GT__ -> y : (merge xl ys)
+ EQ -> x : y : (merge xs ys)
+ LT -> x : (merge xs yl)
+ GT -> y : (merge xl ys)
+#endif
\end{code}
%************************************************************************
-> [a] -- The transitive closure
transitiveClosure succ eq xs
- = do [] xs
+ = go [] xs
where
- do done [] = done
- do done (x:xs) | x `is_in` done = do done xs
- | otherwise = do (x:done) (succ x ++ xs)
+ go done [] = done
+ go done (x:xs) | x `is_in` done = go done xs
+ | otherwise = go (x:done) (succ x ++ xs)
x `is_in` [] = False
x `is_in` (y:ys) | eq x y = True
(a'',b',ys) = mapAccumB f a' b xs
\end{code}
-%************************************************************************
-%* *
-\subsection[Utils-comparison]{Comparisons}
-%* *
-%************************************************************************
-
-See also @tagCmp_@ near the versions-compatibility section.
-
-The Ord3 class will be subsumed into Ord in Haskell 1.3.
+A strict version of foldl.
\begin{code}
-class Ord3 a where
- cmp :: a -> a -> TAG_
-
-thenCmp :: TAG_ -> TAG_ -> TAG_
-{-# INLINE thenCmp #-}
-thenCmp EQ_ any = any
-thenCmp other any = other
-
-cmpList :: (a -> a -> TAG_) -> [a] -> [a] -> TAG_
- -- `cmpList' uses a user-specified comparer
-
-cmpList cmp [] [] = EQ_
-cmpList cmp [] _ = LT_
-cmpList cmp _ [] = GT_
-cmpList cmp (a:as) (b:bs)
- = case cmp a b of { EQ_ -> cmpList cmp as bs; xxx -> xxx }
+foldl' :: (a -> b -> a) -> a -> [b] -> a
+foldl' f z xs = lgo z xs
+ where
+ lgo z [] = z
+ lgo z (x:xs) = (lgo $! (f z x)) xs
\end{code}
+A combination of foldl with zip. It works with equal length lists.
+
\begin{code}
-instance Ord3 a => Ord3 [a] where
- cmp [] [] = EQ_
- cmp (x:xs) [] = GT_
- cmp [] (y:ys) = LT_
- cmp (x:xs) (y:ys) = (x `cmp` y) `thenCmp` (xs `cmp` ys)
-
-instance Ord3 a => Ord3 (Maybe a) where
- cmp Nothing Nothing = EQ_
- cmp Nothing (Just y) = LT_
- cmp (Just x) Nothing = GT_
- cmp (Just x) (Just y) = x `cmp` y
-
-instance Ord3 Int where
- cmp a b | a < b = LT_
- | a > b = GT_
- | otherwise = EQ_
+foldl2 :: (acc -> a -> b -> acc) -> acc -> [a] -> [b] -> acc
+foldl2 k z [] [] = z
+foldl2 k z (a:as) (b:bs) = foldl2 k (k z a b) as bs
\end{code}
+Count the number of times a predicate is true
+
\begin{code}
-cmpString :: String -> String -> TAG_
+count :: (a -> Bool) -> [a] -> Int
+count p [] = 0
+count p (x:xs) | p x = 1 + count p xs
+ | otherwise = count p xs
+\end{code}
-cmpString [] [] = EQ_
-cmpString (x:xs) (y:ys) = if x == y then cmpString xs ys
- else if x < y then LT_
- else GT_
-cmpString [] ys = LT_
-cmpString xs [] = GT_
-cmpString _ _ = panic# "cmpString"
-\end{code}
+%************************************************************************
+%* *
+\subsection[Utils-comparison]{Comparisons}
+%* *
+%************************************************************************
\begin{code}
-#ifdef USE_FAST_STRINGS
-cmpPString :: FAST_STRING -> FAST_STRING -> TAG_
+thenCmp :: Ordering -> Ordering -> Ordering
+{-# INLINE thenCmp #-}
+thenCmp EQ any = any
+thenCmp other any = other
-cmpPString x y
- = case (_tagCmp x y) of { _LT -> LT_ ; _EQ -> EQ_ ; _GT -> GT_ }
-#endif
+cmpList :: (a -> a -> Ordering) -> [a] -> [a] -> Ordering
+ -- `cmpList' uses a user-specified comparer
+
+cmpList cmp [] [] = EQ
+cmpList cmp [] _ = LT
+cmpList cmp _ [] = GT
+cmpList cmp (a:as) (b:bs)
+ = case cmp a b of { EQ -> cmpList cmp as bs; xxx -> xxx }
\end{code}
\begin{code}
-#ifndef USE_FAST_STRINGS
-substr :: FAST_STRING -> Int -> Int -> FAST_STRING
-
-substr str beg end
- = ASSERT (beg >= 0 && beg <= end)
- take (end - beg + 1) (drop beg str)
-#endif
+prefixMatch :: Eq a => [a] -> [a] -> Bool
+prefixMatch [] _str = True
+prefixMatch _pat [] = False
+prefixMatch (p:ps) (s:ss) | p == s = prefixMatch ps ss
+ | otherwise = False
+
+suffixMatch :: Eq a => [a] -> [a] -> Bool
+suffixMatch pat str = prefixMatch (reverse pat) (reverse str)
\end{code}
%************************************************************************
unzipWith f pairs = map ( \ (a, b) -> f a b ) pairs
\end{code}
-%************************************************************************
-%* *
-\subsection[Utils-errors]{Error handling}
-%* *
-%************************************************************************
+\begin{code}
+seqList :: [a] -> b -> b
+seqList [] b = b
+seqList (x:xs) b = x `seq` seqList xs b
+\end{code}
+
+Global variables:
+
+\begin{code}
+global :: a -> IORef a
+global a = unsafePerformIO (newIORef a)
+\end{code}
+
+Compatibility stuff:
\begin{code}
-#if defined(COMPILING_GHC)
-panic x = error ("panic! (the `impossible' happened):\n\t"
- ++ x ++ "\n\n"
- ++ "Please report it as a compiler bug "
- ++ "to glasgow-haskell-bugs@dcs.glasgow.ac.uk.\n\n" )
-
-pprPanic heading pretty_msg = panic (heading++(ppShow 80 pretty_msg))
-pprError heading pretty_msg = error (heading++(ppShow 80 pretty_msg))
-pprTrace heading pretty_msg = trace (heading++(ppShow 80 pretty_msg))
-
--- #-versions because panic can't return an unboxed int, and that's
--- what TAG_ is with GHC at the moment. Ugh. (Simon)
--- No, man -- Too Beautiful! (Will)
-
-panic# :: String -> TAG_
-panic# s = case (panic s) of () -> EQ_
-
-pprPanic# heading pretty_msg = panic# (heading++(ppShow 80 pretty_msg))
-
-# ifdef DEBUG
-assertPanic :: String -> Int -> a
-assertPanic file line = panic ("ASSERT failed! file "++file++", line "++show line)
-# endif
-#endif {- COMPILING_GHC -}
+#if __GLASGOW_HASKELL__ <= 408
+catchJust = catchIO
+ioErrors = justIoErrors
+throwTo = raiseInThread
+#endif
\end{code}