{-# LANGUAGE BangPatterns, CPP, DeriveDataTypeable, ForeignFunctionInterface #-} -- | -- Module : Data.Text.ICU.Collate -- Copyright : (c) 2010 Bryan O'Sullivan -- -- License : BSD-style -- Maintainer : bos@serpentine.com -- Stability : experimental -- Portability : GHC -- -- String collation functions for Unicode, implemented as bindings to -- the International Components for Unicode (ICU) libraries. module Data.Text.ICU.Collate ( -- * Unicode collation API -- $api -- * Types MCollator , Attribute(..) , AlternateHandling(..) , CaseFirst(..) , Strength(..) -- * Functions , open , openRules , collate , collateIter -- ** Utility functions , getRules , getAttribute , setAttribute , sortKey , clone , freeze ) where #include import Control.DeepSeq (NFData(..)) import Data.ByteString (empty) import Data.ByteString.Internal (ByteString(..), create, mallocByteString, memcpy) import Data.Int (Int32) import Data.Text (Text) import qualified Data.Text as T import Data.Text.Foreign (useAsPtr) import Data.Text.ICU.Collate.Internal (Collator(..), MCollator, UCollator, withCollator, wrap) import Data.Text.ICU.Error (u_INVALID_FORMAT_ERROR) import Data.Text.ICU.Error.Internal (UErrorCode, UParseError, handleError, handleParseError) import Data.Text.ICU.Internal (LocaleName, UChar, CharIterator, UCharIterator, asOrdering, fromUCharPtr, withCharIterator, withLocaleName, useAsUCharPtr) import Data.Typeable (Typeable) import Data.Word (Word8) import Foreign.C.String (CString) import Foreign.C.Types (CInt(..)) import Foreign.ForeignPtr (withForeignPtr) import Foreign.Marshal.Alloc (alloca) import Foreign.Marshal.Utils (with) import Foreign.Ptr (Ptr, nullPtr) import Foreign.Storable (peek) -- $api -- -- | Control the handling of variable weight elements. data AlternateHandling = NonIgnorable -- ^ Treat all codepoints with non-ignorable primary -- weights in the same way. | Shifted -- ^ Cause codepoints with primary weights that are -- equal to or below the variable top value to be -- ignored on primary level and moved to the -- quaternary level. deriving (Eq, Bounded, Enum, Show, Typeable) instance NFData AlternateHandling where rnf !_ = () -- | Control the ordering of upper and lower case letters. data CaseFirst = UpperFirst -- ^ Force upper case letters to sort before -- lower case. | LowerFirst -- ^ Force lower case letters to sort before -- upper case. deriving (Eq, Bounded, Enum, Show, Typeable) instance NFData CaseFirst where rnf !_ = () -- | The strength attribute. The usual strength for most locales (except -- Japanese) is tertiary. Quaternary strength is useful when combined with -- shifted setting for alternate handling attribute and for JIS x 4061 -- collation, when it is used to distinguish between Katakana and Hiragana -- (this is achieved by setting 'HiraganaQuaternaryMode' mode to -- 'True'). Otherwise, quaternary level is affected only by the number of -- non ignorable codepoints in the string. Identical strength is rarely -- useful, as it amounts to codepoints of the 'NFD' form of the string. data Strength = Primary | Secondary | Tertiary | Quaternary | Identical deriving (Eq, Bounded, Enum, Show, Typeable) instance NFData Strength where rnf !_ = () data Attribute = French Bool -- ^ Direction of secondary weights, used in French. 'True', -- results in secondary weights being considered backwards, -- while 'False' treats secondary weights in the order in -- which they appear. | AlternateHandling AlternateHandling -- ^ For handling variable elements. 'NonIgnorable' is -- default. | CaseFirst (Maybe CaseFirst) -- ^ Control the ordering of upper and lower case letters. -- 'Nothing' (the default) orders upper and lower case -- letters in accordance to their tertiary weights. | CaseLevel Bool -- ^ Controls whether an extra case level (positioned -- before the third level) is generated or not. When -- 'False' (default), case level is not generated; when -- 'True', the case level is generated. Contents of the -- case level are affected by the value of the 'CaseFirst' -- attribute. A simple way to ignore accent differences in -- a string is to set the strength to 'Primary' and enable -- case level. | NormalizationMode Bool -- ^ Controls whether the normalization check and necessary -- normalizations are performed. When 'False' (default) no -- normalization check is performed. The correctness of the -- result is guaranteed only if the input data is in -- so-called 'FCD' form (see users manual for more info). -- When 'True', an incremental check is performed to see -- whether the input data is in 'FCD' form. If the data is -- not in 'FCD' form, incremental 'NFD' normalization is -- performed. | Strength Strength | HiraganaQuaternaryMode Bool -- ^ When turned on, this attribute positions Hiragana -- before all non-ignorables on quaternary level. This is a -- sneaky way to produce JIS sort order. | Numeric Bool -- ^ When enabled, this attribute generates a collation key -- for the numeric value of substrings of digits. This is -- a way to get '100' to sort /after/ '2'. deriving (Eq, Show, Typeable) instance NFData Attribute where rnf (French !_) = () rnf (AlternateHandling !_) = () rnf (CaseFirst c) = rnf c rnf (CaseLevel !_) = () rnf (NormalizationMode !_) = () rnf (Strength !_) = () rnf (HiraganaQuaternaryMode !_) = () rnf (Numeric !_) = () type UColAttribute = CInt type UColAttributeValue = CInt type UCollationStrength = UColAttributeValue toUAttribute :: Attribute -> (UColAttribute, UColAttributeValue) toUAttribute (French v) = ((#const UCOL_FRENCH_COLLATION), toOO v) toUAttribute (AlternateHandling v) = ((#const UCOL_ALTERNATE_HANDLING), toAH v) toUAttribute (CaseFirst v) = ((#const UCOL_CASE_FIRST), toCF v) toUAttribute (CaseLevel v) = ((#const UCOL_CASE_LEVEL), toOO v) toUAttribute (NormalizationMode v) = ((#const UCOL_NORMALIZATION_MODE), toOO v) toUAttribute (Strength v) = ((#const UCOL_STRENGTH), toS v) toUAttribute (HiraganaQuaternaryMode v) = ((#const UCOL_HIRAGANA_QUATERNARY_MODE), toOO v) toUAttribute (Numeric v) = ((#const UCOL_NUMERIC_COLLATION), toOO v) toOO :: Bool -> UColAttributeValue toOO False = #const UCOL_OFF toOO True = #const UCOL_ON toDefaultOO :: (Maybe Bool) -> UColAttributeValue toDefaultOO (Just False) = #const UCOL_OFF toDefaultOO (Just True) = #const UCOL_ON toDefaultOO Nothing = #const UCOL_DEFAULT toAH :: AlternateHandling -> UColAttributeValue toAH NonIgnorable = #const UCOL_NON_IGNORABLE toAH Shifted = #const UCOL_SHIFTED toCF :: Maybe CaseFirst -> UColAttributeValue toCF Nothing = #const UCOL_OFF toCF (Just UpperFirst) = #const UCOL_UPPER_FIRST toCF (Just LowerFirst) = #const UCOL_LOWER_FIRST toS :: Strength -> UColAttributeValue toS Primary = #const UCOL_PRIMARY toS Secondary = #const UCOL_SECONDARY toS Tertiary = #const UCOL_TERTIARY toS Quaternary = #const UCOL_QUATERNARY toS Identical = #const UCOL_IDENTICAL toDefaultS :: Maybe Strength -> UColAttributeValue toDefaultS (Just s) = toS s toDefaultS Nothing = #const UCOL_DEFAULT_STRENGTH fromOO :: UColAttributeValue -> Bool fromOO (#const UCOL_OFF) = False fromOO (#const UCOL_ON) = True fromOO bad = valueError "fromOO" bad fromAH :: UColAttributeValue -> AlternateHandling fromAH (#const UCOL_NON_IGNORABLE) = NonIgnorable fromAH (#const UCOL_SHIFTED) = Shifted fromAH bad = valueError "fromAH" bad fromCF :: UColAttributeValue -> Maybe CaseFirst fromCF (#const UCOL_OFF) = Nothing fromCF (#const UCOL_UPPER_FIRST) = Just UpperFirst fromCF (#const UCOL_LOWER_FIRST) = Just LowerFirst fromCF bad = valueError "fromCF" bad fromS :: UColAttributeValue -> Strength fromS (#const UCOL_PRIMARY) = Primary fromS (#const UCOL_SECONDARY) = Secondary fromS (#const UCOL_TERTIARY) = Tertiary fromS (#const UCOL_QUATERNARY) = Quaternary fromS (#const UCOL_IDENTICAL) = Identical fromS bad = valueError "fromS" bad fromUAttribute :: UColAttribute -> UColAttributeValue -> Attribute fromUAttribute key val = case key of (#const UCOL_FRENCH_COLLATION) -> French (fromOO val) (#const UCOL_ALTERNATE_HANDLING) -> AlternateHandling (fromAH val) (#const UCOL_CASE_FIRST) -> CaseFirst (fromCF val) (#const UCOL_CASE_LEVEL) -> CaseLevel (fromOO val) (#const UCOL_NORMALIZATION_MODE) -> NormalizationMode (fromOO val) (#const UCOL_STRENGTH) -> Strength (fromS val) (#const UCOL_HIRAGANA_QUATERNARY_MODE) -> HiraganaQuaternaryMode (fromOO val) (#const UCOL_NUMERIC_COLLATION) -> Numeric (fromOO val) _ -> valueError "fromUAttribute" key valueError :: Show a => String -> a -> z valueError func bad = error ("Data.Text.ICU.Collate." ++ func ++ ": invalid value " ++ show bad) type UCollationResult = CInt -- | Open a 'Collator' for comparing strings. open :: LocaleName -- ^ The locale containing the required collation rules. -> IO MCollator open loc = wrap $ withLocaleName loc (handleError . ucol_open) -- | Produce a 'Collator' instance according to the rules supplied. openRules :: Text -- ^ A string describing the collation rules. -> Maybe Bool -- ^ The normalization mode: One of 'Just False' (expect the text to not need normalization) -- 'Just True' (normalize), or 'Nothing' (set the mode according to the rules) -> Maybe Strength -- ^ The default collation strength; one of 'Just Primary', 'Just Secondary', 'Just Tertiary', 'Just Identical', 'Nothing' (default strength) - can be also set in the rules. -> IO MCollator openRules r n s = wrap $ useAsUCharPtr r $ \rPtr rLen -> do let len = fromIntegral rLen handleParseError (== u_INVALID_FORMAT_ERROR) $ ucol_openRules rPtr len (toDefaultOO n) (toDefaultS s) -- | Get the rules of an 'MCollator' attribute. getRules :: MCollator -> IO Text getRules c = withCollator c $ \cPtr -> alloca $ \lenPtr -> do textPtr <- ucol_getRules cPtr lenPtr (fromUCharPtr textPtr . fromIntegral) =<< peek lenPtr -- | Set the value of an 'MCollator' attribute. setAttribute :: MCollator -> Attribute -> IO () setAttribute c a = withCollator c $ \cptr -> handleError $ uncurry (ucol_setAttribute cptr) (toUAttribute a) -- | Get the value of an 'MCollator' attribute. -- -- It is safe to provide a dummy argument to an 'Attribute' constructor when -- using this function, so the following will work: -- -- > getAttribute mcol (NormalizationMode undefined) getAttribute :: MCollator -> Attribute -> IO Attribute getAttribute c a = do let name = fst (toUAttribute a) val <- withCollator c $ \cptr -> handleError $ ucol_getAttribute cptr name return $! fromUAttribute name val -- | Compare two strings. collate :: MCollator -> Text -> Text -> IO Ordering collate c a b = withCollator c $ \cptr -> useAsPtr a $ \aptr alen -> useAsPtr b $ \bptr blen -> fmap asOrdering . handleError $ #if MIN_VERSION_text(2,0,0) ucol_strcollUTF8 #else ucol_strcoll #endif cptr aptr (fromIntegral alen) bptr (fromIntegral blen) -- | Compare two 'CharIterator's. -- -- If either iterator was constructed from a 'ByteString', it does not need -- to be copied or converted internally, so this function can be quite -- cheap. collateIter :: MCollator -> CharIterator -> CharIterator -> IO Ordering collateIter c a b = fmap asOrdering . withCollator c $ \cptr -> withCharIterator a $ \ai -> withCharIterator b $ handleError . ucol_strcollIter cptr ai -- | Create a key for sorting the 'Text' using the given 'Collator'. -- The result of comparing two 'ByteString's that have been -- transformed with 'sortKey' will be the same as the result of -- 'collate' on the two untransformed 'Text's. sortKey :: MCollator -> Text -> IO ByteString sortKey c t | T.null t = return empty | otherwise = do withCollator c $ \cptr -> useAsUCharPtr t $ \tptr tlen -> do let len = fromIntegral tlen loop n = do fp <- mallocByteString (fromIntegral n) i <- withForeignPtr fp $ \p -> ucol_getSortKey cptr tptr len p n let j = fromIntegral i case undefined of _ | i == 0 -> error "Data.Text.ICU.Collate.sortKey: internal error" | i > n -> loop i | i <= n `div` 2 -> create j $ \p -> withForeignPtr fp $ \op -> memcpy p op (fromIntegral i) | otherwise -> return $! PS fp 0 j loop (min (len * 4) 8) -- | Make a safe copy of a mutable 'MCollator' for use in pure code. -- Subsequent changes to the 'MCollator' will not affect the state of -- the returned 'Collator'. freeze :: MCollator -> IO Collator freeze = fmap C . clone -- | Make a copy of a mutable 'MCollator'. -- Subsequent changes to the input 'MCollator' will not affect the state of -- the returned 'MCollator'. clone :: MCollator -> IO MCollator clone c = wrap $ withCollator c $ \cptr -> with (#const U_COL_SAFECLONE_BUFFERSIZE) (handleError . ucol_safeClone cptr nullPtr) foreign import ccall unsafe "hs_text_icu.h __hs_ucol_open" ucol_open :: CString -> Ptr UErrorCode -> IO (Ptr UCollator) foreign import ccall unsafe "hs_text_icu.h __hs_ucol_openRules" ucol_openRules :: Ptr UChar -> Int32 -> UColAttributeValue -> UCollationStrength -> Ptr UParseError -> Ptr UErrorCode -> IO (Ptr UCollator) foreign import ccall unsafe "hs_text_icu.h __hs_ucol_getAttribute" ucol_getAttribute :: Ptr UCollator -> UColAttribute -> Ptr UErrorCode -> IO UColAttributeValue foreign import ccall unsafe "hs_text_icu.h __hs_ucol_getRules" ucol_getRules :: Ptr UCollator -> Ptr Int32 -> IO (Ptr UChar) foreign import ccall unsafe "hs_text_icu.h __hs_ucol_setAttribute" ucol_setAttribute :: Ptr UCollator -> UColAttribute -> UColAttributeValue -> Ptr UErrorCode -> IO () #if MIN_VERSION_text(2,0,0) foreign import ccall unsafe "hs_text_icu.h __hs_ucol_strcollUTF8" ucol_strcollUTF8 :: Ptr UCollator -> Ptr Word8 -> Int32 -> Ptr Word8 -> Int32 -> Ptr UErrorCode -> IO UCollationResult #else foreign import ccall unsafe "hs_text_icu.h __hs_ucol_strcoll" ucol_strcoll :: Ptr UCollator -> Ptr UChar -> Int32 -> Ptr UChar -> Int32 -> Ptr UErrorCode -> IO UCollationResult #endif foreign import ccall unsafe "hs_text_icu.h __hs_ucol_getSortKey" ucol_getSortKey :: Ptr UCollator -> Ptr UChar -> Int32 -> Ptr Word8 -> Int32 -> IO Int32 foreign import ccall unsafe "hs_text_icu.h __hs_ucol_strcollIter" ucol_strcollIter :: Ptr UCollator -> Ptr UCharIterator -> Ptr UCharIterator -> Ptr UErrorCode -> IO UCollationResult foreign import ccall unsafe "hs_text_icu.h __hs_ucol_safeClone" ucol_safeClone :: Ptr UCollator -> Ptr a -> Ptr Int32 -> Ptr UErrorCode -> IO (Ptr UCollator)