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/*************************************************************************
*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* Copyright 2000, 2010 Oracle and/or its affiliates.
*
* OpenOffice.org - a multi-platform office productivity suite
*
* This file is part of OpenOffice.org.
*
* OpenOffice.org is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License version 3
* only, as published by the Free Software Foundation.
*
* OpenOffice.org is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License version 3 for more details
* (a copy is included in the LICENSE file that accompanied this code).
*
* You should have received a copy of the GNU Lesser General Public License
* version 3 along with OpenOffice.org. If not, see
* <http://www.openoffice.org/license.html>
* for a copy of the LGPLv3 License.
*
************************************************************************/
// MARKER(update_precomp.py): autogen include statement, do not remove
#include "precompiled_i18npool.hxx"
#include <rtl/ustrbuf.hxx>
#include <i18nutil/casefolding.hxx>
#include <i18nutil/unicode.hxx>
#include <comphelper/processfactory.hxx>
#include <osl/diagnose.h>
#include <string.h>
#include "characterclassificationImpl.hxx"
#include "breakiteratorImpl.hxx"
#define TRANSLITERATION_ALL
#include "transliteration_body.hxx"
using namespace ::com::sun::star::uno;
using namespace ::com::sun::star::lang;
using namespace ::rtl;
#define A2OU(x) OUString::createFromAscii(x)
namespace com { namespace sun { namespace star { namespace i18n {
Transliteration_body::Transliteration_body()
{
nMappingType = 0;
transliterationName = "Transliteration_body";
implementationName = "com.sun.star.i18n.Transliteration.Transliteration_body";
}
sal_Int16 SAL_CALL Transliteration_body::getType() throw(RuntimeException)
{
return TransliterationType::ONE_TO_ONE;
}
sal_Bool SAL_CALL Transliteration_body::equals(
const OUString& /*str1*/, sal_Int32 /*pos1*/, sal_Int32 /*nCount1*/, sal_Int32& /*nMatch1*/,
const OUString& /*str2*/, sal_Int32 /*pos2*/, sal_Int32 /*nCount2*/, sal_Int32& /*nMatch2*/)
throw(RuntimeException)
{
throw RuntimeException();
}
Sequence< OUString > SAL_CALL
Transliteration_body::transliterateRange( const OUString& str1, const OUString& str2 )
throw( RuntimeException)
{
Sequence< OUString > ostr(2);
ostr[0] = str1;
ostr[1] = str2;
return ostr;
}
static sal_uInt8 lcl_getMappingTypeForToggleCase( sal_uInt8 nMappingType, sal_Unicode cChar )
{
sal_uInt8 nRes = nMappingType;
// take care of TOGGLE_CASE transliteration:
// nMappingType should not be a combination of flags, thuse we decide now
// which one to use.
if (nMappingType == (MappingTypeLowerToUpper | MappingTypeUpperToLower))
{
const sal_Int16 nType = unicode::getUnicodeType( cChar );
if (nType & 0x02 /* lower case*/)
nRes = MappingTypeLowerToUpper;
else
{
// should also work properly for non-upper characters like white spacs, numbers, ...
nRes = MappingTypeUpperToLower;
}
}
return nRes;
}
OUString SAL_CALL
Transliteration_body::transliterate(
const OUString& inStr, sal_Int32 startPos, sal_Int32 nCount,
Sequence< sal_Int32 >& offset)
throw(RuntimeException)
{
#if 0
/* Performance optimization:
* The two realloc() consume 48% (32% grow, 16% shrink) runtime of this method!
* getValue() needs about 15%, so there is equal balance if we trade the second
* (shrinking) realloc() for a getValue(). But if the caller initializes the
* sequence to nCount elements there isn't any change in size necessary in most
* cases (one-to-one mapping) and we gain 33%.
*
* Of that constellation the getValue() method takes 20% upon each call, so 40%
* for both. By remembering the first calls' results we could gain some extra
* percentage again, but unfortunately getValue() may return a reference to a
* static buffer, so we can't store the pointer directly but would have to
* copy-construct an array, which doesn't give us any advantage.
*
* Much more is accomplished by working directly on the sequence buffer
* returned by getArray() instead of using operator[] for each and every
* access.
*
* And while we're at it: now that we know the size in advance we don't need to
* copy the buffer anymore, just create the real string buffer and let the
* return value take ownership.
*
* All together these changes result in the new implementation needing only 62%
* of the time of the old implementation (in other words: that one was 1.61
* times slower ...)
*/
// Allocate the max possible buffer. Try to use stack instead of heap which
// would have to be reallocated most times anyway.
const sal_Int32 nLocalBuf = 512 * NMAPPINGMAX;
sal_Unicode aLocalBuf[nLocalBuf], *out = aLocalBuf, *aHeapBuf = NULL;
const sal_Unicode *in = inStr.getStr() + startPos;
if (nCount > 512)
out = aHeapBuf = (sal_Unicode*) malloc((nCount * NMAPPINGMAX) * sizeof(sal_Unicode));
if (useOffset)
offset.realloc(nCount * NMAPPINGMAX);
sal_Int32 j = 0;
for (sal_Int32 i = 0; i < nCount; i++) {
Mapping &map = casefolding::getValue(in, i, nCount, aLocale, nMappingType);
for (sal_Int32 k = 0; k < map.nmap; k++) {
if (useOffset)
offset[j] = i + startPos;
out[j++] = map.map[k];
}
}
if (useOffset)
offset.realloc(j);
OUString r(out, j);
if (aHeapBuf)
free(aHeapBuf);
return r;
#else
const sal_Unicode *in = inStr.getStr() + startPos;
// Two different blocks to eliminate the if(useOffset) condition inside the
// inner k loop. Yes, on massive use even such small things do count.
if ( useOffset )
{
sal_Int32 nOffCount = 0, i;
for (i = 0; i < nCount; i++)
{
// take care of TOGGLE_CASE transliteration:
sal_uInt8 nTmpMappingType = nMappingType;
if (nMappingType == (MappingTypeLowerToUpper | MappingTypeUpperToLower))
nTmpMappingType = lcl_getMappingTypeForToggleCase( nMappingType, in[i] );
const Mapping &map = casefolding::getValue( in, i, nCount, aLocale, nTmpMappingType );
nOffCount += map.nmap;
}
rtl_uString* pStr = x_rtl_uString_new_WithLength( nOffCount, 1 ); // our x_rtl_ustring.h
sal_Unicode* out = pStr->buffer;
if ( nOffCount != offset.getLength() )
offset.realloc( nOffCount );
sal_Int32 j = 0;
sal_Int32 * pArr = offset.getArray();
for (i = 0; i < nCount; i++)
{
// take care of TOGGLE_CASE transliteration:
sal_uInt8 nTmpMappingType = nMappingType;
if (nMappingType == (MappingTypeLowerToUpper | MappingTypeUpperToLower))
nTmpMappingType = lcl_getMappingTypeForToggleCase( nMappingType, in[i] );
const Mapping &map = casefolding::getValue( in, i, nCount, aLocale, nTmpMappingType );
for (sal_Int32 k = 0; k < map.nmap; k++)
{
pArr[j] = i + startPos;
out[j++] = map.map[k];
}
}
out[j] = 0;
return OUString( pStr, SAL_NO_ACQUIRE );
}
else
{
// In the simple case of no offset sequence used we can eliminate the
// first getValue() loop. We could also assume that most calls result
// in identical string lengths, thus using a preallocated
// OUStringBuffer could be an easy way to assemble the return string
// without too much hassle. However, for single characters the
// OUStringBuffer::append() method is quite expensive compared to a
// simple array operation, so it pays here to copy the final result
// instead.
// Allocate the max possible buffer. Try to use stack instead of heap,
// which would have to be reallocated most times anyways.
const sal_Int32 nLocalBuf = 2048;
sal_Unicode aLocalBuf[ nLocalBuf * NMAPPINGMAX ], *out = aLocalBuf, *pHeapBuf = NULL;
if ( nCount > nLocalBuf )
out = pHeapBuf = new sal_Unicode[ nCount * NMAPPINGMAX ];
sal_Int32 j = 0;
for ( sal_Int32 i = 0; i < nCount; i++)
{
// take care of TOGGLE_CASE transliteration:
sal_uInt8 nTmpMappingType = nMappingType;
if (nMappingType == (MappingTypeLowerToUpper | MappingTypeUpperToLower))
nTmpMappingType = lcl_getMappingTypeForToggleCase( nMappingType, in[i] );
const Mapping &map = casefolding::getValue( in, i, nCount, aLocale, nTmpMappingType );
for (sal_Int32 k = 0; k < map.nmap; k++)
{
out[j++] = map.map[k];
}
}
OUString aRet( out, j );
if ( pHeapBuf )
delete [] pHeapBuf;
return aRet;
}
#endif
}
OUString SAL_CALL
Transliteration_body::transliterateChar2String( sal_Unicode inChar ) throw(RuntimeException)
{
const Mapping &map = casefolding::getValue(&inChar, 0, 1, aLocale, nMappingType);
rtl_uString* pStr = x_rtl_uString_new_WithLength( map.nmap, 1 ); // our x_rtl_ustring.h
sal_Unicode* out = pStr->buffer;
sal_Int32 i;
for (i = 0; i < map.nmap; i++)
out[i] = map.map[i];
out[i] = 0;
return OUString( pStr, SAL_NO_ACQUIRE );
}
sal_Unicode SAL_CALL
Transliteration_body::transliterateChar2Char( sal_Unicode inChar ) throw(MultipleCharsOutputException, RuntimeException)
{
const Mapping &map = casefolding::getValue(&inChar, 0, 1, aLocale, nMappingType);
if (map.nmap > 1)
throw MultipleCharsOutputException();
return map.map[0];
}
OUString SAL_CALL
Transliteration_body::folding( const OUString& inStr, sal_Int32 startPos, sal_Int32 nCount,
Sequence< sal_Int32 >& offset) throw(RuntimeException)
{
return this->transliterate(inStr, startPos, nCount, offset);
}
Transliteration_casemapping::Transliteration_casemapping()
{
nMappingType = 0;
transliterationName = "casemapping(generic)";
implementationName = "com.sun.star.i18n.Transliteration.Transliteration_casemapping";
}
void SAL_CALL
Transliteration_casemapping::setMappingType( const sal_uInt8 rMappingType, const Locale& rLocale )
{
nMappingType = rMappingType;
aLocale = rLocale;
}
Transliteration_u2l::Transliteration_u2l()
{
nMappingType = MappingTypeUpperToLower;
transliterationName = "upper_to_lower(generic)";
implementationName = "com.sun.star.i18n.Transliteration.Transliteration_u2l";
}
Transliteration_l2u::Transliteration_l2u()
{
nMappingType = MappingTypeLowerToUpper;
transliterationName = "lower_to_upper(generic)";
implementationName = "com.sun.star.i18n.Transliteration.Transliteration_l2u";
}
Transliteration_togglecase::Transliteration_togglecase()
{
// usually nMappingType must NOT be a combiantion of different flages here,
// but we take care of that problem in Transliteration_body::transliterate above
// before that value is used. There we will decide which of both is to be used on
// a per character basis.
nMappingType = MappingTypeLowerToUpper | MappingTypeUpperToLower;
transliterationName = "toggle(generic)";
implementationName = "com.sun.star.i18n.Transliteration.Transliteration_togglecase";
}
Transliteration_titlecase::Transliteration_titlecase()
{
nMappingType = MappingTypeToTitle;
transliterationName = "title(generic)";
implementationName = "com.sun.star.i18n.Transliteration.Transliteration_titlecase";
}
#if 0
struct LigatureData
{
sal_uInt32 cChar;
sal_Char * pUtf8Text;
};
// available Unicode ligatures:
// http://www.unicode.org/charts
// http://www.unicode.org/charts/PDF/UFB00.pdf
static LigatureData aLigatures[] =
{
{ 0x0FB00, "ff" },
{ 0x0FB01, "fi" },
{ 0x0FB02, "fl" },
{ 0x0FB03, "ffi" },
{ 0x0FB04, "ffl" },
{ 0x0FB05, "ft" },
{ 0x0FB06, "st" },
{ 0x0FB13, "\xD5\xB4\xD5\xB6" }, // Armenian small men now
{ 0x0FB14, "\xD5\xB4\xD5\xA5" }, // Armenian small men ech
{ 0x0FB15, "\xD5\xB4\xD5\xAB" }, // Armenian small men ini
{ 0x0FB16, "\xD5\xBE\xD5\xB6" }, // Armenian small vew now
{ 0x0FB17, "\xD5\xB4\xD5\xAD" }, // Armenian small men xeh
{ 0x00000, "" }
};
static inline bool lcl_IsLigature( sal_uInt32 cChar )
{
return (0x0FB00 <= cChar && cChar <= 0x0FB06) || (0x0FB13 <= cChar && cChar <= 0x0FB17);
}
static rtl::OUString lcl_ResolveLigature( sal_uInt32 cChar )
{
rtl::OUString aRes;
if (lcl_IsLigature( cChar ))
{
LigatureData *pFound = NULL;
LigatureData *pData = aLigatures;
while (!pFound && pData->cChar != 0)
{
if (pData->cChar == cChar)
pFound = pData;
++pData;
}
if (pFound)
aRes = rtl::OUString( pFound->pUtf8Text, strlen( pFound->pUtf8Text ), RTL_TEXTENCODING_UTF8 );
}
else
aRes = rtl::OUString( &cChar, 1 );
return aRes;
}
#endif // if 0
static rtl::OUString transliterate_titlecase_Impl(
const OUString& inStr, sal_Int32 startPos, sal_Int32 nCount,
const Locale &rLocale,
Sequence< sal_Int32 >& offset )
throw(RuntimeException)
{
const OUString aText( inStr.copy( startPos, nCount ) );
OUString aRes;
if (aText.getLength() > 0)
{
Reference< XMultiServiceFactory > xMSF = ::comphelper::getProcessServiceFactory();
CharacterClassificationImpl aCharClassImpl( xMSF );
// because aCharClassImpl.toTitle does not handle ligatures or but will raise
// an exception we need to handle the first chara manually...
// we don't want to change surrogates by accident, thuse we use proper code point iteration
sal_Int32 nPos = 0;
sal_uInt32 cFirstChar = aText.iterateCodePoints( &nPos );
OUString aResolvedLigature( &cFirstChar, 1 ); //lcl_ResolveLigature( cFirstChar ) );
// toUpper can be used to properly resolve ligatures and characters like
aResolvedLigature = aCharClassImpl.toUpper( aResolvedLigature, 0, aResolvedLigature.getLength(), rLocale );
// since toTitle will leave all-uppercase text unchanged we first need to
// use toLower to bring possible 2nd and following charas in lowercase
aResolvedLigature = aCharClassImpl.toLower( aResolvedLigature, 0, aResolvedLigature.getLength(), rLocale );
sal_Int32 nResolvedLen = aResolvedLigature.getLength();
// now we can properly use toTitle to get the expected result for the resolved string.
// The rest of the text should just become lowercase.
aRes = aCharClassImpl.toTitle( aResolvedLigature, 0, nResolvedLen, rLocale );
aRes += aCharClassImpl.toLower( aText, 1, aText.getLength() - 1, rLocale );
offset.realloc( aRes.getLength() );
sal_Int32 *pOffset = offset.getArray();
sal_Int32 nLen = offset.getLength();
for (sal_Int32 i = 0; i < nLen; ++i)
{
sal_Int32 nIdx = 0;
if (i >= nResolvedLen)
nIdx = i - nResolvedLen + 1;
pOffset[i] = nIdx;
}
}
#if OSL_DEBUG_LEVEL > 1
const sal_Int32 *pCOffset = offset.getConstArray();
(void) pCOffset;
#endif
return aRes;
}
// this function expects to be called on a word-by-word basis,
// namely that startPos points to the first char of the word
rtl::OUString SAL_CALL Transliteration_titlecase::transliterate(
const OUString& inStr, sal_Int32 startPos, sal_Int32 nCount,
Sequence< sal_Int32 >& offset )
throw(RuntimeException)
{
return transliterate_titlecase_Impl( inStr, startPos, nCount, aLocale, offset );
}
Transliteration_sentencecase::Transliteration_sentencecase()
{
nMappingType = MappingTypeToTitle; // though only to be applied to the first word...
transliterationName = "sentence(generic)";
implementationName = "com.sun.star.i18n.Transliteration.Transliteration_sentencecase";
}
// this function expects to be called on a sentence-by-sentence basis,
// namely that startPos points to the first word (NOT first char!) in the sentence
rtl::OUString SAL_CALL Transliteration_sentencecase::transliterate(
const OUString& inStr, sal_Int32 startPos, sal_Int32 nCount,
Sequence< sal_Int32 >& offset )
throw(RuntimeException)
{
return transliterate_titlecase_Impl( inStr, startPos, nCount, aLocale, offset );
}
} } } }
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