\section{Fast strings}
Compact representations of character strings with
-unique identifiers.
+unique identifiers (hash-cons'ish).
\begin{code}
-#include "HsVersions.h"
-
module FastString
(
FastString(..), -- not abstract, for now.
--names?
mkFastString, -- :: String -> FastString
- mkFastCharString, -- :: _Addr -> FastString
- mkFastCharString2, -- :: _Addr -> Int -> FastString
- mkFastSubString, -- :: _Addr -> Int -> Int -> FastString
+ mkFastSubString, -- :: Addr -> Int -> Int -> FastString
mkFastSubStringFO, -- :: ForeignObj -> Int -> Int -> FastString
+ -- These ones hold on to the Addr after they return, and aren't hashed;
+ -- they are used for literals
+ mkFastCharString, -- :: Addr -> FastString
+ mkFastCharString#, -- :: Addr# -> FastString
+ mkFastCharString2, -- :: Addr -> Int -> FastString
+
mkFastString#, -- :: Addr# -> Int# -> FastString
mkFastSubStringBA#, -- :: ByteArray# -> Int# -> Int# -> FastString
mkFastSubString#, -- :: Addr# -> Int# -> Int# -> FastString
mkFastSubStringFO#, -- :: ForeignObj# -> Int# -> Int# -> FastString
+ uniqueOfFS, -- :: FastString -> Int#
lengthFS, -- :: FastString -> Int
nullFastString, -- :: FastString -> Bool
concatFS, -- :: [FastString] -> FastString
consFS, -- :: Char -> FastString -> FastString
- hPutFS, -- :: Handle -> FastString -> IO ()
- tagCmpFS -- :: FastString -> FastString -> _CMP_TAG
+ hPutFS -- :: Handle -> FastString -> IO ()
) where
-#if __GLASGOW_HASKELL__ <= 201
-import PreludeGlaST
-import PreludeGlaMisc
-import HandleHack
-import Ubiq
-#else
-import GlaExts
-import Foreign
-import IOBase
-import IOHandle
-import ST
-import STBase
-import {-# SOURCE #-} Unique ( mkUniqueGrimily, Unique, Uniquable(..) )
-#if __GLASGOW_HASKELL__ == 202
-import PrelBase ( Char (..) )
-#endif
-#endif
+-- This #define suppresses the "import FastString" that
+-- HsVersions otherwise produces
+#define COMPILING_FAST_STRING
+#include "HsVersions.h"
+import PackBase
import PrimPacked
+import GlaExts
+import Addr ( Addr(..) )
+import STBase ( StateAndPtr#(..) )
+import ArrBase ( MutableArray(..) )
+import Foreign ( ForeignObj(..) )
+import IOExts ( IOArray(..), newIOArray,
+ IORef, newIORef, readIORef, writeIORef
+ )
+import IO
+import IOHandle ( filePtr, readHandle, writeHandle )
+import IOBase ( Handle__(..), IOError(..), IOErrorType(..),
+ IOResult(..), IO(..),
+ constructError
+ )
#define hASH_TBL_SIZE 993
-
\end{code}
@FastString@s are packed representations of strings
Int# -- length (cached)
instance Eq FastString where
- a == b = case tagCmpFS a b of { _LT -> False; _EQ -> True; _GT -> False }
- a /= b = case tagCmpFS a b of { _LT -> True; _EQ -> False; _GT -> True }
-
-{-
- (FastString u1# _ _) == (FastString u2# _ _) = u1# ==# u2#
--}
-
-instance Uniquable FastString where
- uniqueOf (FastString u# _ _) = mkUniqueGrimily u#
- uniqueOf (CharStr a# l#) =
- {-
- [A somewhat moby hack]: to avoid entering all sorts
- of junk into the hash table, all C char strings
- are by default left out. The benefit of being in
- the table is that string comparisons are lightning fast,
- just an Int# comparison.
-
- But, if you want to get the Unique of a CharStr, we
- enter it into the table and return that unique. This
- works, but causes the CharStr to be looked up in the hash
- table each time it is accessed..
- -}
- mkUniqueGrimily (case mkFastString# a# l# of { FastString u# _ _ -> u#}) -- Ugh!
+ a == b = case cmpFS a b of { LT -> False; EQ -> True; GT -> False }
+ a /= b = case cmpFS a b of { LT -> True; EQ -> False; GT -> True }
-instance Uniquable Int where
- uniqueOf (I# i#) = mkUniqueGrimily i#
+instance Ord FastString where
+ a <= b = case cmpFS a b of { LT -> True; EQ -> True; GT -> False }
+ a < b = case cmpFS a b of { LT -> True; EQ -> False; GT -> False }
+ a >= b = case cmpFS a b of { LT -> False; EQ -> True; GT -> True }
+ a > b = case cmpFS a b of { LT -> False; EQ -> False; GT -> True }
+ max x y | x >= y = x
+ | otherwise = y
+ min x y | x <= y = x
+ | otherwise = y
+ compare a b = cmpFS a b
instance Text FastString where
showsPrec p ps@(FastString u# _ _) r = showsPrec p (unpackFS ps) r
getByteArray# :: FastString -> ByteArray#
getByteArray# (FastString _ _ ba#) = ba#
-getByteArray :: FastString -> _ByteArray Int
-getByteArray (FastString _ l# ba#) = _ByteArray (0,I# l#) ba#
+getByteArray :: FastString -> ByteArray Int
+getByteArray (FastString _ l# ba#) = ByteArray (0,I# l#) ba#
lengthFS :: FastString -> Int
lengthFS (FastString _ l# _) = I# l#
nullFastString (CharStr _ l#) = l# ==# 0#
unpackFS :: FastString -> String
-unpackFS (FastString _ l# ba#) = byteArrayToString (_ByteArray (0,I# l#) ba#)
+unpackFS (FastString _ l# ba#) = unpackCStringBA# ba# l#
unpackFS (CharStr addr len#) =
unpack 0#
where
consFS :: Char -> FastString -> FastString
consFS c fs = mkFastString (c:unpackFS fs)
+uniqueOfFS :: FastString -> Int#
+uniqueOfFS (FastString u# _ _) = u#
+uniqueOfFS (CharStr a# l#) = case mkFastString# a# l# of { FastString u# _ _ -> u#} -- Ugh!
+ {-
+ [A somewhat moby hack]: to avoid entering all sorts
+ of junk into the hash table, all C char strings
+ are by default left out. The benefit of being in
+ the table is that string comparisons are lightning fast,
+ just an Int# comparison.
+
+ But, if you want to get the Unique of a CharStr, we
+ enter it into the table and return that unique. This
+ works, but causes the CharStr to be looked up in the hash
+ table each time it is accessed..
+ -}
\end{code}
Internally, the compiler will maintain a fast string symbol
data FastStringTable =
FastStringTable
Int#
- (MutableArray# _RealWorld [FastString])
+ (MutableArray# RealWorld [FastString])
-type FastStringTableVar = MutableVar _RealWorld FastStringTable
+type FastStringTableVar = IORef FastStringTable
string_table :: FastStringTableVar
string_table =
- unsafePerformPrimIO (
- newArray (0::Int,hASH_TBL_SIZE) [] `thenPrimIO` \ (_MutableArray _ arr#) ->
- newVar (FastStringTable 0# arr#))
+ unsafePerformIO (
+ stToIO (newArray (0::Int,hASH_TBL_SIZE) []) >>= \ (MutableArray _ arr#) ->
+ newIORef (FastStringTable 0# arr#))
-lookupTbl :: FastStringTable -> Int# -> PrimIO [FastString]
+lookupTbl :: FastStringTable -> Int# -> IO [FastString]
lookupTbl (FastStringTable _ arr#) i# =
- MkST ( \ (S# s#) ->
+ IO ( \ s# ->
case readArray# arr# i# s# of { StateAndPtr# s2# r ->
- (r, S# s2#) })
+ IOok s2# r })
-updTbl :: FastStringTableVar -> FastStringTable -> Int# -> [FastString] -> PrimIO ()
-updTbl (_MutableArray _ var#) (FastStringTable uid# arr#) i# ls =
- MkST ( \ (S# s#) ->
- case writeArray# arr# i# ls s# of { s2# ->
- case writeArray# var# 0# (FastStringTable (uid# +# 1#) arr#) s2# of { s3# ->
- ((), S# s3#) }})
+updTbl :: FastStringTableVar -> FastStringTable -> Int# -> [FastString] -> IO ()
+updTbl fs_table_var (FastStringTable uid# arr#) i# ls =
+ IO (\ s# -> case writeArray# arr# i# ls s# of { s2# -> IOok s2# () }) >>
+ writeIORef fs_table_var (FastStringTable (uid# +# 1#) arr#)
mkFastString# :: Addr# -> Int# -> FastString
mkFastString# a# len# =
- unsafePerformPrimIO (
- readVar string_table `thenPrimIO` \ ft@(FastStringTable uid# tbl#) ->
+ unsafePerformIO (
+ readIORef string_table >>= \ ft@(FastStringTable uid# tbl#) ->
let
h = hashStr a# len#
in
-- _trace ("hashed: "++show (I# h)) $
- lookupTbl ft h `thenPrimIO` \ lookup_result ->
+ lookupTbl ft h >>= \ lookup_result ->
case lookup_result of
[] ->
-- no match, add it to table by copying out the
-- the string into a ByteArray
-- _trace "empty bucket" $
case copyPrefixStr (A# a#) (I# len#) of
- (_ByteArray _ barr#) ->
+ (ByteArray _ barr#) ->
let f_str = FastString uid# len# barr# in
- updTbl string_table ft h [f_str] `seqPrimIO`
- ({- _trace ("new: " ++ show f_str) $ -} returnPrimIO f_str)
+ updTbl string_table ft h [f_str] >>
+ ({- _trace ("new: " ++ show f_str) $ -} return f_str)
ls ->
-- non-empty `bucket', scan the list looking
-- entry with same length and compare byte by byte.
case bucket_match ls len# a# of
Nothing ->
case copyPrefixStr (A# a#) (I# len#) of
- (_ByteArray _ barr#) ->
+ (ByteArray _ barr#) ->
let f_str = FastString uid# len# barr# in
- updTbl string_table ft h (f_str:ls) `seqPrimIO`
- ( {- _trace ("new: " ++ show f_str) $ -} returnPrimIO f_str)
- Just v -> {- _trace ("re-use: "++show v) $ -} returnPrimIO v)
+ updTbl string_table ft h (f_str:ls) >>
+ ( {- _trace ("new: " ++ show f_str) $ -} return f_str)
+ Just v -> {- _trace ("re-use: "++show v) $ -} return v)
where
bucket_match [] _ _ = Nothing
bucket_match (v@(FastString _ l# ba#):ls) len# a# =
mkFastSubStringFO# :: ForeignObj# -> Int# -> Int# -> FastString
mkFastSubStringFO# fo# start# len# =
- unsafePerformPrimIO (
- readVar string_table `thenPrimIO` \ ft@(FastStringTable uid# tbl#) ->
+ unsafePerformIO (
+ readIORef string_table >>= \ ft@(FastStringTable uid# tbl#) ->
let
h = hashSubStrFO fo# start# len#
in
- lookupTbl ft h `thenPrimIO` \ lookup_result ->
+ lookupTbl ft h >>= \ lookup_result ->
case lookup_result of
[] ->
-- no match, add it to table by copying out the
-- the string into a ByteArray
case copySubStrFO (_ForeignObj fo#) (I# start#) (I# len#) of
- (_ByteArray _ barr#) ->
+ (ByteArray _ barr#) ->
let f_str = FastString uid# len# barr# in
- updTbl string_table ft h [f_str] `seqPrimIO`
- returnPrimIO f_str
+ updTbl string_table ft h [f_str] >>
+ return f_str
ls ->
-- non-empty `bucket', scan the list looking
-- entry with same length and compare byte by byte.
case bucket_match ls start# len# fo# of
Nothing ->
case copySubStrFO (_ForeignObj fo#) (I# start#) (I# len#) of
- (_ByteArray _ barr#) ->
+ (ByteArray _ barr#) ->
let f_str = FastString uid# len# barr# in
- updTbl string_table ft h (f_str:ls) `seqPrimIO`
- ( {- _trace ("new: " ++ show f_str) $ -} returnPrimIO f_str)
- Just v -> {- _trace ("re-use: "++show v) $ -} returnPrimIO v)
+ updTbl string_table ft h (f_str:ls) >>
+ ( {- _trace ("new: " ++ show f_str) $ -} return f_str)
+ Just v -> {- _trace ("re-use: "++show v) $ -} return v)
where
bucket_match [] _ _ _ = Nothing
bucket_match (v@(FastString _ l# barr#):ls) start# len# fo# =
mkFastSubStringBA# :: ByteArray# -> Int# -> Int# -> FastString
mkFastSubStringBA# barr# start# len# =
- unsafePerformPrimIO (
- readVar string_table `thenPrimIO` \ ft@(FastStringTable uid# tbl#) ->
+ unsafePerformIO (
+ readIORef string_table >>= \ ft@(FastStringTable uid# tbl#) ->
let
h = hashSubStrBA barr# start# len#
in
-- _trace ("hashed(b): "++show (I# h)) $
- lookupTbl ft h `thenPrimIO` \ lookup_result ->
+ lookupTbl ft h >>= \ lookup_result ->
case lookup_result of
[] ->
-- no match, add it to table by copying out the
-- the string into a ByteArray
-- _trace "empty bucket(b)" $
- case copySubStrBA (_ByteArray btm barr#) (I# start#) (I# len#) of
- (_ByteArray _ ba#) ->
+ case copySubStrBA (ByteArray btm barr#) (I# start#) (I# len#) of
+ (ByteArray _ ba#) ->
let f_str = FastString uid# len# ba# in
- updTbl string_table ft h [f_str] `seqPrimIO`
+ updTbl string_table ft h [f_str] >>
-- _trace ("new(b): " ++ show f_str) $
- returnPrimIO f_str
+ return f_str
ls ->
-- non-empty `bucket', scan the list looking
-- entry with same length and compare byte by byte.
-- _trace ("non-empty bucket(b)"++show ls) $
case bucket_match ls start# len# barr# of
Nothing ->
- case copySubStrBA (_ByteArray (error "") barr#) (I# start#) (I# len#) of
- (_ByteArray _ ba#) ->
+ case copySubStrBA (ByteArray (error "") barr#) (I# start#) (I# len#) of
+ (ByteArray _ ba#) ->
let f_str = FastString uid# len# ba# in
- updTbl string_table ft h (f_str:ls) `seqPrimIO`
+ updTbl string_table ft h (f_str:ls) >>
-- _trace ("new(b): " ++ show f_str) $
- returnPrimIO f_str
+ return f_str
Just v ->
-- _trace ("re-use(b): "++show v) $
- returnPrimIO v
+ return v
)
where
btm = error ""
else
bucket_match ls start# len# ba#
-mkFastCharString :: _Addr -> FastString
+mkFastCharString :: Addr -> FastString
mkFastCharString a@(A# a#) =
case strLength a of{ (I# len#) -> CharStr a# len# }
-mkFastCharString2 :: _Addr -> Int -> FastString
+mkFastCharString# :: Addr# -> FastString
+mkFastCharString# a# =
+ case strLength (A# a#) of { (I# len#) -> CharStr a# len# }
+
+mkFastCharString2 :: Addr -> Int -> FastString
mkFastCharString2 a@(A# a#) (I# len#) = CharStr a# len#
mkFastString :: String -> FastString
mkFastString str =
- case stringToByteArray str of
- (_ByteArray (_,I# len#) frozen#) ->
+ case packString str of
+ (ByteArray (_,I# len#) frozen#) ->
mkFastSubStringBA# frozen# 0# len#
{- 0-indexed array, len# == index to one beyond end of string,
i.e., (0,1) => empty string. -}
-mkFastSubString :: _Addr -> Int -> Int -> FastString
+mkFastSubString :: Addr -> Int -> Int -> FastString
mkFastSubString (A# a#) (I# start#) (I# len#) =
mkFastString# (addrOffset# a# start#) len#
mkFastSubStringFO :: _ForeignObj -> Int -> Int -> FastString
mkFastSubStringFO (_ForeignObj fo#) (I# start#) (I# len#) =
mkFastSubStringFO# fo# start# len#
-
\end{code}
\begin{code}
1# -> ((ord# c0 *# 631#) +# len#) `remInt#` hASH_TBL_SIZE#
2# -> ((ord# c0 *# 631#) +# (ord# c1 *# 217#) +# len#) `remInt#` hASH_TBL_SIZE#
_ -> ((ord# c0 *# 631#) +# (ord# c1 *# 217#) +# (ord# c2 *# 43#) +# len#) `remInt#` hASH_TBL_SIZE#
-{- Currently UNUSED:
- if len# ==# 0# then
- 0#
- else
- ((ord# c0 *# 631#) +# (ord# c1 *# 217#) +# (ord# c2 *# 43#) +# len#)
- `remInt#` hASH_TBL_SIZE#
--}
where
c0 = indexCharOffAddr# a# 0#
- c1 = indexCharOffAddr# a# 1# --(len# `quotInt#` 2# -# 1#)
- c2 = indexCharOffAddr# a# 2# --(len# -# 1#)
+ c1 = indexCharOffAddr# a# (len# `quotInt#` 2# -# 1#)
+ c2 = indexCharOffAddr# a# (len# -# 1#)
+{-
+ c1 = indexCharOffAddr# a# 1#
+ c2 = indexCharOffAddr# a# 2#
+-}
hashSubStrFO :: ForeignObj# -> Int# -> Int# -> Int#
- -- use the Addr to produce a hash value between 0 & m (inclusive)
+ -- use the FO to produce a hash value between 0 & m (inclusive)
hashSubStrFO fo# start# len# =
case len# of
0# -> 0#
1# -> ((ord# c0 *# 631#) +# len#) `remInt#` hASH_TBL_SIZE#
2# -> ((ord# c0 *# 631#) +# (ord# c1 *# 217#) +# len#) `remInt#` hASH_TBL_SIZE#
_ -> ((ord# c0 *# 631#) +# (ord# c1 *# 217#) +# (ord# c2 *# 43#) +# len#) `remInt#` hASH_TBL_SIZE#
-{-
- if len# ==# 0# then
- 0#
- else
- ((ord# c0 *# 631#) +# (ord# c1 *# 217#) +# (ord# c2 *# 43#) +# len#)
- `remInt#` hASH_TBL_SIZE#
--}
where
c0 = indexCharOffFO# fo# 0#
- c1 = indexCharOffFO# fo# 1# --(len# `quotInt#` 2# -# 1#)
- c2 = indexCharOffFO# fo# 2# --(len# -# 1#)
+ c1 = indexCharOffFO# fo# (len# `quotInt#` 2# -# 1#)
+ c2 = indexCharOffFO# fo# (len# -# 1#)
+
+-- c1 = indexCharOffFO# fo# 1#
+-- c2 = indexCharOffFO# fo# 2#
hashSubStrBA :: ByteArray# -> Int# -> Int# -> Int#
- -- use the Addr to produce a hash value between 0 & m (inclusive)
+ -- use the byte array to produce a hash value between 0 & m (inclusive)
hashSubStrBA ba# start# len# =
case len# of
0# -> 0#
1# -> ((ord# c0 *# 631#) +# len#) `remInt#` hASH_TBL_SIZE#
2# -> ((ord# c0 *# 631#) +# (ord# c1 *# 217#) +# len#) `remInt#` hASH_TBL_SIZE#
_ -> ((ord# c0 *# 631#) +# (ord# c1 *# 217#) +# (ord# c2 *# 43#) +# len#) `remInt#` hASH_TBL_SIZE#
-{-
- if len# ==# 0# then
- 0#
- else
- ((ord# c0 *# 631#) +# (ord# c1 *# 217#) +# (ord# c2 *# 43#) +# len#)
- `remInt#` hASH_TBL_SIZE#
--}
where
c0 = indexCharArray# ba# 0#
- c1 = indexCharArray# ba# 1# --(len# `quotInt#` 2# -# 1#)
- c2 = indexCharArray# ba# 2# --(len# -# 1#)
+ c1 = indexCharArray# ba# (len# `quotInt#` 2# -# 1#)
+ c2 = indexCharArray# ba# (len# -# 1#)
+
+-- c1 = indexCharArray# ba# 1#
+-- c2 = indexCharArray# ba# 2#
\end{code}
\begin{code}
-tagCmpFS :: FastString -> FastString -> _CMP_TAG
-tagCmpFS (FastString u1# _ b1#) (FastString u2# _ b2#) = -- assume non-null chars
+cmpFS :: FastString -> FastString -> Ordering
+cmpFS (FastString u1# _ b1#) (FastString u2# _ b2#) = -- assume non-null chars
if u1# ==# u2# then
- _EQ
+ EQ
else
- unsafePerformPrimIO (
- _ccall_ strcmp (_ByteArray bottom b1#) (_ByteArray bottom b2#) `thenPrimIO` \ (I# res) ->
- returnPrimIO (
- if res <# 0# then _LT
- else if res ==# 0# then _EQ
- else _GT
+ unsafePerformIO (
+ _ccall_ strcmp (ByteArray bottom b1#) (ByteArray bottom b2#) >>= \ (I# res) ->
+ return (
+ if res <# 0# then LT
+ else if res ==# 0# then EQ
+ else GT
))
where
bottom :: (Int,Int)
bottom = error "tagCmp"
-tagCmpFS (CharStr bs1 len1) (CharStr bs2 len2)
- = unsafePerformPrimIO (
- _ccall_ strcmp ba1 ba2 `thenPrimIO` \ (I# res) ->
- returnPrimIO (
- if res <# 0# then _LT
- else if res ==# 0# then _EQ
- else _GT
+cmpFS (CharStr bs1 len1) (CharStr bs2 len2)
+ = unsafePerformIO (
+ _ccall_ strcmp ba1 ba2 >>= \ (I# res) ->
+ return (
+ if res <# 0# then LT
+ else if res ==# 0# then EQ
+ else GT
))
where
ba1 = A# bs1
ba2 = A# bs2
-tagCmpFS (FastString _ len1 bs1) (CharStr bs2 len2)
- = unsafePerformPrimIO (
- _ccall_ strcmp ba1 ba2 `thenPrimIO` \ (I# res) ->
- returnPrimIO (
- if res <# 0# then _LT
- else if res ==# 0# then _EQ
- else _GT
+cmpFS (FastString _ len1 bs1) (CharStr bs2 len2)
+ = unsafePerformIO (
+ _ccall_ strcmp ba1 ba2 >>= \ (I# res) ->
+ return (
+ if res <# 0# then LT
+ else if res ==# 0# then EQ
+ else GT
))
where
- ba1 = _ByteArray ((error "")::(Int,Int)) bs1
+ ba1 = ByteArray ((error "")::(Int,Int)) bs1
ba2 = A# bs2
-tagCmpFS a@(CharStr _ _) b@(FastString _ _ _)
+cmpFS a@(CharStr _ _) b@(FastString _ _ _)
= -- try them the other way 'round
- case (tagCmpFS b a) of { _LT -> _GT; _EQ -> _EQ; _GT -> _LT }
-
-instance Ord FastString where
- a <= b = case tagCmpFS a b of { _LT -> True; _EQ -> True; _GT -> False }
- a < b = case tagCmpFS a b of { _LT -> True; _EQ -> False; _GT -> False }
- a >= b = case tagCmpFS a b of { _LT -> False; _EQ -> True; _GT -> True }
- a > b = case tagCmpFS a b of { _LT -> False; _EQ -> False; _GT -> True }
- max x y | x >= y = x
- | otherwise = y
- min x y | x <= y = x
- | otherwise = y
- _tagCmp a b = tagCmpFS a b
+ case (cmpFS b a) of { LT -> GT; EQ -> EQ; GT -> LT }
\end{code}
@fwrite@).
\begin{code}
-#if __GLASGOW_HASKELL__ >= 201
-#define _ErrorHandle IOBase.ErrorHandle
-#define _ReadHandle IOBase.ReadHandle
-#define _ClosedHandle IOBase.ClosedHandle
-#define _SemiClosedHandle IOBase.SemiClosedHandle
-#define _constructError IOBase.constructError
-#define _filePtr IOHandle.filePtr
-#define failWith fail
-#endif
-
hPutFS :: Handle -> FastString -> IO ()
hPutFS handle (FastString _ l# ba#) =
if l# ==# 0# then
else
_readHandle handle >>= \ htype ->
case htype of
- _ErrorHandle ioError ->
+ ErrorHandle ioError ->
_writeHandle handle htype >>
- failWith ioError
- _ClosedHandle ->
+ fail ioError
+ ClosedHandle ->
_writeHandle handle htype >>
- failWith MkIOError(handle,IllegalOperation,"handle is closed")
- _SemiClosedHandle _ _ ->
+ fail MkIOError(handle,IllegalOperation,"handle is closed")
+ SemiClosedHandle _ _ ->
_writeHandle handle htype >>
- failWith MkIOError(handle,IllegalOperation,"handle is closed")
- _ReadHandle _ _ _ ->
+ fail MkIOError(handle,IllegalOperation,"handle is closed")
+ ReadHandle _ _ _ ->
_writeHandle handle htype >>
- failWith MkIOError(handle,IllegalOperation,"handle is not open for writing")
+ fail MkIOError(handle,IllegalOperation,"handle is not open for writing")
other ->
- let fp = _filePtr htype in
+ let fp = filePtr htype in
-- here we go..
- _ccall_ writeFile (_ByteArray ((error "")::(Int,Int)) ba#) fp (I# l#) `CCALL_THEN` \rc ->
+ _ccall_ writeFile (ByteArray ((error "")::(Int,Int)) ba#) fp (I# l#) >>= \rc ->
if rc==0 then
return ()
else
- _constructError "hPutFS" `CCALL_THEN` \ err ->
- failWith err
+ constructError "hPutFS" >>= \ err ->
+ fail err
hPutFS handle (CharStr a# l#) =
if l# ==# 0# then
return ()
else
_readHandle handle >>= \ htype ->
case htype of
- _ErrorHandle ioError ->
+ ErrorHandle ioError ->
_writeHandle handle htype >>
- failWith ioError
- _ClosedHandle ->
+ fail ioError
+ ClosedHandle ->
_writeHandle handle htype >>
- failWith MkIOError(handle,IllegalOperation,"handle is closed")
- _SemiClosedHandle _ _ ->
+ fail MkIOError(handle,IllegalOperation,"handle is closed")
+ SemiClosedHandle _ _ ->
_writeHandle handle htype >>
- failWith MkIOError(handle,IllegalOperation,"handle is closed")
- _ReadHandle _ _ _ ->
+ fail MkIOError(handle,IllegalOperation,"handle is closed")
+ ReadHandle _ _ _ ->
_writeHandle handle htype >>
- failWith MkIOError(handle,IllegalOperation,"handle is not open for writing")
+ fail MkIOError(handle,IllegalOperation,"handle is not open for writing")
other ->
- let fp = _filePtr htype in
+ let fp = filePtr htype in
-- here we go..
- _ccall_ writeFile (A# a#) fp (I# l#) `CCALL_THEN` \rc ->
+ _ccall_ writeFile (A# a#) fp (I# l#) >>= \rc ->
if rc==0 then
return ()
else
- _constructError "hPutFS" `CCALL_THEN` \ err ->
- failWith err
+ constructError "hPutFS" >>= \ err ->
+ fail err
--ToDo: avoid silly code duplic.
\end{code}