diff options
author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-27 16:51:28 +0000 |
---|---|---|
committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-27 16:51:28 +0000 |
commit | 940b4d1848e8c70ab7642901a68594e8016caffc (patch) | |
tree | eb72f344ee6c3d9b80a7ecc079ea79e9fba8676d /sal/rtl/ustring.cxx | |
parent | Initial commit. (diff) | |
download | libreoffice-upstream.tar.xz libreoffice-upstream.zip |
Adding upstream version 1:7.0.4.upstream/1%7.0.4upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to '')
-rw-r--r-- | sal/rtl/ustring.cxx | 1562 |
1 files changed, 1562 insertions, 0 deletions
diff --git a/sal/rtl/ustring.cxx b/sal/rtl/ustring.cxx new file mode 100644 index 000000000..01fea63e1 --- /dev/null +++ b/sal/rtl/ustring.cxx @@ -0,0 +1,1562 @@ +/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ +/* + * This file is part of the LibreOffice project. + * + * This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. + * + * This file incorporates work covered by the following license notice: + * + * Licensed to the Apache Software Foundation (ASF) under one or more + * contributor license agreements. See the NOTICE file distributed + * with this work for additional information regarding copyright + * ownership. The ASF licenses this file to you under the Apache + * License, Version 2.0 (the "License"); you may not use this file + * except in compliance with the License. You may obtain a copy of + * the License at http://www.apache.org/licenses/LICENSE-2.0 . + */ + +#include <sal/config.h> + +#include <cassert> +#include <cstdlib> +#include <limits> +#include <stdexcept> +#include <string> + +#include <osl/diagnose.h> +#include <osl/interlck.h> +#include <rtl/alloc.h> +#include <osl/mutex.h> +#include <rtl/tencinfo.h> + +#include <string.h> +#include <sal/alloca.h> +#include <sal/log.hxx> + +#include "hash.hxx" +#include "strimp.hxx" +#include <rtl/character.hxx> +#include <rtl/ustring.h> + +#include <rtl/math.h> + +/* ======================================================================= */ + +/* static data to be referenced by all empty strings + * the refCount is predefined to 1 and must never become 0 ! + */ +static rtl_uString const aImplEmpty_rtl_uString = +{ + sal_Int32(SAL_STRING_INTERN_FLAG|SAL_STRING_STATIC_FLAG|1), /*sal_Int32 refCount; */ + 0, /*sal_Int32 length; */ + { 0 } /*sal_Unicode buffer[1];*/ +}; + +/* ======================================================================= */ +/* These macros are for the "poor-man templates" included from + * the strtmpl.cxx just below, used to share code between here and + * string.cxx + */ + +#define IMPL_RTL_IS_USTRING 1 + +#define IMPL_RTL_STRCODE sal_Unicode +#define IMPL_RTL_USTRCODE( c ) (c) +#define IMPL_RTL_STRNAME( n ) rtl_ustr_ ## n + +#define IMPL_RTL_STRINGNAME( n ) rtl_uString_ ## n +#define IMPL_RTL_STRINGDATA rtl_uString +#define IMPL_RTL_EMPTYSTRING aImplEmpty_rtl_uString + +static void internRelease (rtl_uString *pThis); + +#if USE_SDT_PROBES +#define RTL_LOG_STRING_BITS 16 +#endif + +/* ======================================================================= */ + +/* Include String/UString template code */ + +#include "strtmpl.cxx" + +#undef IMPL_RTL_EMPTYSTRING +#undef IMPL_RTL_IS_USTRING +#undef IMPL_RTL_STRCODE +#undef IMPL_RTL_STRINGDATA +#undef IMPL_RTL_STRINGNAME +#undef IMPL_RTL_STRNAME +#undef IMPL_RTL_USTRCODE +#undef RTL_LOG_STRING_BITS + +sal_Int32 rtl_ustr_indexOfAscii_WithLength( + sal_Unicode const * str, sal_Int32 len, + char const * subStr, sal_Int32 subLen) SAL_THROW_EXTERN_C() +{ + assert(len >= 0); + assert(subLen >= 0); + if (subLen > 0 && subLen <= len) + { + sal_Unicode const* end = str + len; + sal_Unicode const* cursor = str; + + while(cursor < end) + { + cursor = std::char_traits<sal_Unicode>::find(cursor, end - cursor, *subStr); + if(!cursor || (end - cursor < subLen)) + { + /* no enough left to actually have a match */ + break; + } + /* now it is worth trying a full match */ + if (rtl_ustr_asciil_reverseEquals_WithLength(cursor, subStr, subLen)) + { + return cursor - str; + } + cursor += 1; + } + } + return -1; +} + +sal_Int32 rtl_ustr_lastIndexOfAscii_WithLength( + sal_Unicode const * str, sal_Int32 len, + char const * subStr, sal_Int32 subLen) SAL_THROW_EXTERN_C() +{ + assert(len >= 0); + assert(subLen >= 0); + if (subLen > 0 && subLen <= len) { + sal_Int32 i; + for (i = len - subLen; i >= 0; --i) { + if (rtl_ustr_asciil_reverseEquals_WithLength( + str + i, subStr, subLen)) + { + return i; + } + } + } + return -1; +} + +sal_Int32 SAL_CALL rtl_ustr_valueOfFloat(sal_Unicode * pStr, float f) + SAL_THROW_EXTERN_C() +{ + assert(pStr); + rtl_uString * pResult = nullptr; + sal_Int32 nLen; + rtl_math_doubleToUString( + &pResult, nullptr, 0, f, rtl_math_StringFormat_G, + RTL_USTR_MAX_VALUEOFFLOAT - RTL_CONSTASCII_LENGTH("-x.E-xxx"), '.', nullptr, + 0, true); + nLen = pResult->length; + OSL_ASSERT(nLen < RTL_USTR_MAX_VALUEOFFLOAT); + memcpy(pStr, pResult->buffer, (nLen + 1) * sizeof(sal_Unicode)); + rtl_uString_release(pResult); + return nLen; +} + +sal_Int32 SAL_CALL rtl_ustr_valueOfDouble(sal_Unicode * pStr, double d) + SAL_THROW_EXTERN_C() +{ + assert(pStr); + rtl_uString * pResult = nullptr; + sal_Int32 nLen; + rtl_math_doubleToUString( + &pResult, nullptr, 0, d, rtl_math_StringFormat_G, + RTL_USTR_MAX_VALUEOFDOUBLE - RTL_CONSTASCII_LENGTH("-x.E-xxx"), '.', nullptr, + 0, true); + nLen = pResult->length; + OSL_ASSERT(nLen < RTL_USTR_MAX_VALUEOFDOUBLE); + memcpy(pStr, pResult->buffer, (nLen + 1) * sizeof(sal_Unicode)); + rtl_uString_release(pResult); + return nLen; +} + +namespace { + +// Avoid -fsanitize=undefined warning e.g. "runtime error: value 1e+99 is +// outside the range of representable values of type 'float'": +float doubleToFloat(double x) { + return + x < -std::numeric_limits<float>::max() + ? -std::numeric_limits<float>::infinity() + : x > std::numeric_limits<float>::max() + ? std::numeric_limits<float>::infinity() + : static_cast<float>(x); +} + +} + +float SAL_CALL rtl_ustr_toFloat(sal_Unicode const * pStr) SAL_THROW_EXTERN_C() +{ + assert(pStr); + return doubleToFloat(rtl_math_uStringToDouble(pStr, + pStr + rtl_ustr_getLength(pStr), + '.', 0, nullptr, nullptr)); +} + +double SAL_CALL rtl_ustr_toDouble(sal_Unicode const * pStr) SAL_THROW_EXTERN_C() +{ + assert(pStr); + return rtl_math_uStringToDouble(pStr, pStr + rtl_ustr_getLength(pStr), '.', + 0, nullptr, nullptr); +} + +/* ======================================================================= */ + +sal_Int32 SAL_CALL rtl_ustr_ascii_compare( const sal_Unicode* pStr1, + const char* pStr2 ) + SAL_THROW_EXTERN_C() +{ + assert(pStr1); + assert(pStr2); + sal_Int32 nRet; + for (;;) + { + nRet = static_cast<sal_Int32>(*pStr1)- + static_cast<sal_Int32>(static_cast<unsigned char>(*pStr2)); + if (!(nRet == 0 && *pStr2 )) + break; + /* Check ASCII range */ + SAL_WARN_IF( (static_cast<unsigned char>(*pStr2)) > 127, "rtl.string", + "rtl_ustr_ascii_compare - Found char > 127" ); + pStr1++; + pStr2++; + } + + return nRet; +} + +/* ----------------------------------------------------------------------- */ + +sal_Int32 SAL_CALL rtl_ustr_ascii_compare_WithLength( const sal_Unicode* pStr1, + sal_Int32 nStr1Len, + const char* pStr2 ) + SAL_THROW_EXTERN_C() +{ + assert(pStr1); + assert(nStr1Len >= 0); + assert(pStr2); + sal_Int32 nRet = 0; + for (;;) + { + nRet = (nStr1Len ? static_cast<sal_Int32>(*pStr1) : 0) - + static_cast<sal_Int32>(static_cast<unsigned char>(*pStr2)); + if (!(nRet == 0 && nStr1Len && *pStr2 )) + break; + /* Check ASCII range */ + SAL_WARN_IF( (static_cast<unsigned char>(*pStr2)) > 127, "rtl.string", + "rtl_ustr_ascii_compare_WithLength - Found char > 127" ); + pStr1++; + pStr2++; + nStr1Len--; + } + + return nRet; +} + +/* ----------------------------------------------------------------------- */ + +sal_Int32 SAL_CALL rtl_ustr_ascii_shortenedCompare_WithLength( const sal_Unicode* pStr1, + sal_Int32 nStr1Len, + const char* pStr2, + sal_Int32 nShortenedLength ) + SAL_THROW_EXTERN_C() +{ + assert(nStr1Len >= 0); + assert(nShortenedLength >= 0); + const sal_Unicode* pStr1End = pStr1 + nStr1Len; + sal_Int32 nRet; + while ( (nShortenedLength > 0) && + (pStr1 < pStr1End) && *pStr2 ) + { + /* Check ASCII range */ + SAL_WARN_IF( (static_cast<unsigned char>(*pStr2)) > 127, "rtl.string", + "rtl_ustr_ascii_shortenedCompare_WithLength - Found char > 127" ); + + nRet = static_cast<sal_Int32>(*pStr1)- + static_cast<sal_Int32>(static_cast<unsigned char>(*pStr2)); + if ( nRet != 0 ) + return nRet; + + nShortenedLength--; + pStr1++; + pStr2++; + } + + if ( nShortenedLength <= 0 ) + return 0; + + if ( *pStr2 ) + { + OSL_ENSURE( pStr1 == pStr1End, "pStr1 == pStr1End failed" ); + // first is a substring of the second string => less (negative value) + nRet = -1; + } + else + { + // greater or equal + nRet = pStr1End - pStr1; + } + + return nRet; +} + +/* ----------------------------------------------------------------------- */ + +sal_Int32 SAL_CALL rtl_ustr_asciil_reverseCompare_WithLength( const sal_Unicode* pStr1, + sal_Int32 nStr1Len, + const char* pStr2, + sal_Int32 nStr2Len ) + SAL_THROW_EXTERN_C() +{ + assert(nStr1Len >= 0 && nStr2Len >= 0); + const sal_Unicode* pStr1Run = pStr1+nStr1Len; + const char* pStr2Run = pStr2+nStr2Len; + sal_Int32 nRet; + while ( (pStr1 < pStr1Run) && (pStr2 < pStr2Run) ) + { + /* Check ASCII range */ + SAL_WARN_IF( (static_cast<unsigned char>(*pStr2)) > 127, "rtl.string", + "rtl_ustr_asciil_reverseCompare_WithLength - Found char > 127" ); + pStr1Run--; + pStr2Run--; + nRet = static_cast<sal_Int32>(*pStr1Run)- static_cast<sal_Int32>(*pStr2Run); + if ( nRet ) + return nRet; + } + + return nStr1Len - nStr2Len; +} + +/* ----------------------------------------------------------------------- */ + +sal_Bool SAL_CALL rtl_ustr_asciil_reverseEquals_WithLength( const sal_Unicode* pStr1, + const char* pStr2, + sal_Int32 nStrLen ) + SAL_THROW_EXTERN_C() +{ + assert(nStrLen >= 0); + const sal_Unicode* pStr1Run = pStr1+nStrLen; + const char* pStr2Run = pStr2+nStrLen; + while ( pStr1 < pStr1Run ) + { + /* Check ASCII range */ + SAL_WARN_IF( (static_cast<unsigned char>(*pStr2)) > 127, "rtl.string", + "rtl_ustr_asciil_reverseEquals_WithLength - Found char > 127" ); + pStr1Run--; + pStr2Run--; + if( *pStr1Run != static_cast<sal_Unicode>(*pStr2Run) ) + return false; + } + + return true; +} + +/* ----------------------------------------------------------------------- */ + +sal_Int32 SAL_CALL rtl_ustr_ascii_compareIgnoreAsciiCase( const sal_Unicode* pStr1, + const char* pStr2 ) + SAL_THROW_EXTERN_C() +{ + assert(pStr1); + assert(pStr2); + sal_Int32 nRet; + sal_Int32 c1; + sal_Int32 c2; + do + { + /* Check ASCII range */ + SAL_WARN_IF( (static_cast<unsigned char>(*pStr2)) > 127, "rtl.string", + "rtl_ustr_ascii_compareIgnoreAsciiCase - Found char > 127" ); + /* If character between 'A' and 'Z', then convert it to lowercase */ + c1 = static_cast<sal_Int32>(*pStr1); + c2 = static_cast<sal_Int32>(static_cast<unsigned char>(*pStr2)); + if ( (c1 >= 65) && (c1 <= 90) ) + c1 += 32; + if ( (c2 >= 65) && (c2 <= 90) ) + c2 += 32; + nRet = c1-c2; + if ( nRet != 0 ) + return nRet; + + pStr1++; + pStr2++; + } + while ( c2 ); + + return 0; +} + +/* ----------------------------------------------------------------------- */ + +sal_Int32 SAL_CALL rtl_ustr_ascii_compareIgnoreAsciiCase_WithLength( const sal_Unicode* pStr1, + sal_Int32 nStr1Len, + const char* pStr2 ) + SAL_THROW_EXTERN_C() +{ + assert(nStr1Len >= 0); + assert(pStr2); + sal_Int32 nRet; + sal_Int32 c1; + sal_Int32 c2; + do + { + /* Check ASCII range */ + SAL_WARN_IF( (static_cast<unsigned char>(*pStr2)) > 127, "rtl.string", + "rtl_ustr_ascii_compareIgnoreAsciiCase_WithLength - Found char > 127" ); + if ( !nStr1Len ) + return *pStr2 == '\0' ? 0 : -1; + + /* If character between 'A' and 'Z', then convert it to lowercase */ + c1 = static_cast<sal_Int32>(*pStr1); + c2 = static_cast<sal_Int32>(static_cast<unsigned char>(*pStr2)); + if ( (c1 >= 65) && (c1 <= 90) ) + c1 += 32; + if ( (c2 >= 65) && (c2 <= 90) ) + c2 += 32; + nRet = c1-c2; + if ( nRet != 0 ) + return nRet; + + pStr1++; + pStr2++; + nStr1Len--; + } + while( c2 ); + + return 0; +} + +sal_Int32 rtl_ustr_ascii_compareIgnoreAsciiCase_WithLengths( + sal_Unicode const * first, sal_Int32 firstLen, + char const * second, sal_Int32 secondLen) SAL_THROW_EXTERN_C() +{ + assert(firstLen >= 0 && secondLen >= 0); + sal_Int32 i; + sal_Int32 len = std::min(firstLen, secondLen); + for (i = 0; i < len; ++i) { + /* Check ASCII range */ + SAL_WARN_IF( (static_cast<unsigned char>(*second)) > 127, "rtl.string", + "rtl_ustr_ascii_compareIgnoreAsciiCase_WithLengths - Found char > 127" ); + sal_Int32 c1 = *first++; + sal_Int32 c2 = static_cast<unsigned char>(*second++); + sal_Int32 d; + if (c1 >= 65 && c1 <= 90) { + c1 += 32; + } + if (c2 >= 65 && c2 <= 90) { + c2 += 32; + } + d = c1 - c2; + if (d != 0) { + return d; + } + } + return firstLen - secondLen; +} + +/* ----------------------------------------------------------------------- */ + +sal_Int32 SAL_CALL rtl_ustr_ascii_shortenedCompareIgnoreAsciiCase_WithLength( const sal_Unicode* pStr1, + sal_Int32 nStr1Len, + const char* pStr2, + sal_Int32 nShortenedLength ) + SAL_THROW_EXTERN_C() +{ + assert(nStr1Len >= 0); + assert(nShortenedLength >= 0); + const sal_Unicode* pStr1End = pStr1 + nStr1Len; + sal_Int32 nRet; + sal_Int32 c1; + sal_Int32 c2; + while ( (nShortenedLength > 0) && + (pStr1 < pStr1End) && *pStr2 ) + { + /* Check ASCII range */ + SAL_WARN_IF( (static_cast<unsigned char>(*pStr2)) > 127, "rtl.string", + "rtl_ustr_ascii_shortenedCompareIgnoreAsciiCase_WithLength - Found char > 127" ); + + /* If character between 'A' and 'Z', then convert it to lowercase */ + c1 = static_cast<sal_Int32>(*pStr1); + c2 = static_cast<sal_Int32>(static_cast<unsigned char>(*pStr2)); + if ( (c1 >= 65) && (c1 <= 90) ) + c1 += 32; + if ( (c2 >= 65) && (c2 <= 90) ) + c2 += 32; + nRet = c1-c2; + if ( nRet != 0 ) + return nRet; + + nShortenedLength--; + pStr1++; + pStr2++; + } + + if ( nShortenedLength <= 0 ) + return 0; + + if ( *pStr2 ) + { + OSL_ENSURE( pStr1 == pStr1End, "pStr1 == pStr1End failed" ); + // first is a substring of the second string => less (negative value) + nRet = -1; + } + else + { + // greater or equal + nRet = pStr1End - pStr1; + } + + return nRet; +} + +/* ----------------------------------------------------------------------- */ + +void SAL_CALL rtl_uString_newFromAscii( rtl_uString** ppThis, + const char* pCharStr ) + SAL_THROW_EXTERN_C() +{ + assert(ppThis); + sal_Int32 nLen; + + if ( pCharStr ) + { + const char* pTempStr = pCharStr; + while( *pTempStr ) + pTempStr++; + nLen = pTempStr-pCharStr; + } + else + nLen = 0; + + if ( !nLen ) + { + rtl_uString_new( ppThis ); + return; + } + + if ( *ppThis ) + rtl_uString_release( *ppThis ); + + *ppThis = rtl_uString_ImplAlloc( nLen ); + OSL_ASSERT(*ppThis != nullptr); + if ( *ppThis ) + { + sal_Unicode* pBuffer = (*ppThis)->buffer; + do + { + assert(static_cast<unsigned char>(*pCharStr) < 0x80); // ASCII range + *pBuffer = *pCharStr; + pBuffer++; + pCharStr++; + } + while ( *pCharStr ); + + RTL_LOG_STRING_NEW( *ppThis ); + } +} + +void SAL_CALL rtl_uString_newFromCodePoints( + rtl_uString ** newString, sal_uInt32 const * codePoints, + sal_Int32 codePointCount) SAL_THROW_EXTERN_C() +{ + sal_Int32 n; + sal_Int32 i; + sal_Unicode * p; + assert(newString != nullptr); + assert((codePoints != nullptr || codePointCount == 0) && codePointCount >= 0); + if (codePointCount == 0) { + rtl_uString_new(newString); + return; + } + if (*newString != nullptr) { + rtl_uString_release(*newString); + } + n = codePointCount; + for (i = 0; i < codePointCount; ++i) { + OSL_ASSERT(rtl::isUnicodeCodePoint(codePoints[i])); + if (codePoints[i] >= 0x10000) { + ++n; + } + } + /* Builds on the assumption that sal_Int32 uses 32 bit two's complement + representation with wrap around (the necessary number of UTF-16 code + units will be no larger than 2 * SAL_MAX_INT32, represented as + sal_Int32 -2): */ + if (n < 0) { + // coverity[dead_error_begin] - assumes wrap around + *newString = nullptr; + return; + } + *newString = rtl_uString_ImplAlloc(n); + if (*newString == nullptr) { + return; + } + p = (*newString)->buffer; + for (i = 0; i < codePointCount; ++i) { + p += rtl::splitSurrogates(codePoints[i], p); + } + RTL_LOG_STRING_NEW( *newString ); +} + +void rtl_uString_newConcatAsciiL( + rtl_uString ** newString, rtl_uString * left, char const * right, + sal_Int32 rightLength) +{ + assert(newString != nullptr); + assert(left != nullptr); + assert(right != nullptr); + assert(rightLength >= 0); + if (left->length > std::numeric_limits<sal_Int32>::max() - rightLength) { +#if !defined(__COVERITY__) + throw std::length_error("rtl_uString_newConcatAsciiL"); +#else + //coverity doesn't report std::bad_alloc as an unhandled exception when + //potentially thrown from destructors but does report std::length_error + throw std::bad_alloc(); +#endif + } + sal_Int32 n = left->length + rightLength; + rtl_uString_assign(newString, left); + rtl_uString_ensureCapacity(newString, n); + sal_Unicode * p = (*newString)->buffer + (*newString)->length; + for (sal_Int32 i = 0; i != rightLength; ++i) { + p[i] = static_cast<unsigned char>(right[i]); + } + (*newString)->buffer[n] = 0; + (*newString)->length = n; +} + +void rtl_uString_newConcatUtf16L( + rtl_uString ** newString, rtl_uString * left, sal_Unicode const * right, + sal_Int32 rightLength) +{ + assert(newString != nullptr); + assert(left != nullptr); + assert(right != nullptr); + assert(rightLength >= 0); + if (left->length > std::numeric_limits<sal_Int32>::max() - rightLength) { +#if !defined(__COVERITY__) + throw std::length_error("rtl_uString_newConcatUtf16L"); +#else + //coverity doesn't report std::bad_alloc as an unhandled exception when + //potentially thrown from destructors but does report std::length_error + throw std::bad_alloc(); +#endif + } + sal_Int32 n = left->length + rightLength; + rtl_uString_assign(newString, left); + rtl_uString_ensureCapacity(newString, n); + memcpy( + (*newString)->buffer + (*newString)->length, right, + rightLength * sizeof (sal_Unicode)); + (*newString)->buffer[n] = 0; + (*newString)->length = n; +} + +/* ======================================================================= */ + +static int rtl_ImplGetFastUTF8UnicodeLen( const char* pStr, sal_Int32 nLen, bool * ascii ) +{ + int n; + const char* pEndStr; + + *ascii = true; + n = 0; + pEndStr = pStr+nLen; + while ( pStr < pEndStr ) + { + unsigned char c = static_cast<unsigned char>(*pStr); + + if ( !(c & 0x80) ) + pStr++; + else + { + if ( (c & 0xE0) == 0xC0 ) + pStr += 2; + else if ( (c & 0xF0) == 0xE0 ) + pStr += 3; + else if ( (c & 0xF8) == 0xF0 ) + pStr += 4; + else if ( (c & 0xFC) == 0xF8 ) + pStr += 5; + else if ( (c & 0xFE) == 0xFC ) + pStr += 6; + else + pStr++; + *ascii = false; + } + + n++; + } + + return n; +} + +/* ----------------------------------------------------------------------- */ + +static void rtl_string2UString_status( rtl_uString** ppThis, + const char* pStr, + sal_Int32 nLen, + rtl_TextEncoding eTextEncoding, + sal_uInt32 nCvtFlags, + sal_uInt32 *pInfo ) +{ + OSL_ENSURE(nLen == 0 || rtl_isOctetTextEncoding(eTextEncoding), + "rtl_string2UString_status() - Wrong TextEncoding" ); + + if ( !nLen ) + { + rtl_uString_new( ppThis ); + if (pInfo != nullptr) { + *pInfo = 0; + } + } + else + { + if ( *ppThis ) + rtl_uString_release( *ppThis ); + + /* Optimization for US-ASCII */ + if ( eTextEncoding == RTL_TEXTENCODING_ASCII_US ) + { + sal_Unicode* pBuffer; + *ppThis = rtl_uString_ImplAlloc( nLen ); + if (*ppThis == nullptr) { + if (pInfo != nullptr) { + *pInfo = RTL_TEXTTOUNICODE_INFO_ERROR | + RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOOSMALL; + } + return; + } + pBuffer = (*ppThis)->buffer; + sal_Int32 nLenCopy(nLen); + const char *pStrCopy(pStr); + do + { + /* Check ASCII range */ + if (static_cast<unsigned char>(*pStrCopy) > 127) + { + rtl_uString_release(*ppThis); + goto retry; // cancel loop - try again with the converter + } + + *pBuffer = *pStrCopy; + pBuffer++; + pStrCopy++; + nLenCopy--; + } + while (nLenCopy); + if (pInfo != nullptr) { + *pInfo = 0; + } + RTL_LOG_STRING_NEW( *ppThis ); + return; + } +retry: + { + rtl_uString* pTemp; + rtl_uString* pTemp2 = nullptr; + rtl_TextToUnicodeConverter hConverter; + sal_uInt32 nInfo; + sal_Size nSrcBytes; + sal_Size nDestChars; + sal_Size nNewLen; + + /* Optimization for UTF-8 - we try to calculate the exact length */ + /* For all other encoding we try the maximum - and reallocate + the buffer if needed */ + if ( eTextEncoding == RTL_TEXTENCODING_UTF8 ) + { + bool ascii; + nNewLen = rtl_ImplGetFastUTF8UnicodeLen( pStr, nLen, &ascii ); + /* Includes the string only ASCII, then we could copy + the buffer faster */ + if ( ascii ) + { + sal_Unicode* pBuffer; + *ppThis = rtl_uString_ImplAlloc( nLen ); + if (*ppThis == nullptr) + { + if (pInfo != nullptr) { + *pInfo = RTL_TEXTTOUNICODE_INFO_ERROR | + RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOOSMALL; + } + return; + } + pBuffer = (*ppThis)->buffer; + do + { + assert((static_cast<unsigned char>(*pStr)) <= 127); + *pBuffer = *pStr; + pBuffer++; + pStr++; + nLen--; + } + while ( nLen ); + if (pInfo != nullptr) { + *pInfo = 0; + } + RTL_LOG_STRING_NEW( *ppThis ); + return; + } + } + else + nNewLen = nLen; + + nCvtFlags |= RTL_TEXTTOUNICODE_FLAGS_FLUSH; + hConverter = rtl_createTextToUnicodeConverter( eTextEncoding ); + + pTemp = rtl_uString_ImplAlloc( nNewLen ); + if (pTemp == nullptr) { + if (pInfo != nullptr) { + *pInfo = RTL_TEXTTOUNICODE_INFO_ERROR | + RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOOSMALL; + } + return; + } + nDestChars = rtl_convertTextToUnicode( hConverter, nullptr, + pStr, nLen, + pTemp->buffer, nNewLen, + nCvtFlags, + &nInfo, &nSrcBytes ); + + /* Buffer not big enough, try again with enough space */ + /* Shouldn't be the case, but if we get textencoding which + could results in more unicode characters we have this + code here. Could be the case for apple encodings */ + while ( nInfo & RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOOSMALL ) + { + rtl_freeString( pTemp ); + nNewLen += 8; + pTemp = rtl_uString_ImplAlloc( nNewLen ); + if (pTemp == nullptr) { + if (pInfo != nullptr) { + *pInfo = RTL_TEXTTOUNICODE_INFO_ERROR | + RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOOSMALL; + } + return; + } + nDestChars = rtl_convertTextToUnicode( hConverter, nullptr, + pStr, nLen, + pTemp->buffer, nNewLen, + nCvtFlags, + &nInfo, &nSrcBytes ); + } + + if (pInfo) + *pInfo = nInfo; + + /* Set the buffer to the correct size or if there is too + much overhead, reallocate to the correct size */ + if ( nNewLen > nDestChars+8 ) + { + pTemp2 = rtl_uString_ImplAlloc( nDestChars ); + } + if (pTemp2 != nullptr) + { + rtl_str_ImplCopy(pTemp2->buffer, pTemp->buffer, nDestChars); + rtl_freeString(pTemp); + pTemp = pTemp2; + } + else + { + pTemp->length = nDestChars; + pTemp->buffer[nDestChars] = 0; + } + + rtl_destroyTextToUnicodeConverter( hConverter ); + *ppThis = pTemp; + + /* Results the conversion in an empty buffer - + create an empty string */ + if ( pTemp && !nDestChars ) + rtl_uString_new( ppThis ); + } + } + RTL_LOG_STRING_NEW( *ppThis ); +} + +void SAL_CALL rtl_string2UString( rtl_uString** ppThis, + const char* pStr, + sal_Int32 nLen, + rtl_TextEncoding eTextEncoding, + sal_uInt32 nCvtFlags ) SAL_THROW_EXTERN_C() +{ + assert(ppThis); + assert(nLen >= 0); + rtl_string2UString_status( ppThis, pStr, nLen, eTextEncoding, + nCvtFlags, nullptr ); +} + +/* ----------------------------------------------------------------------- */ + +namespace { + +enum StrLifecycle { + CANNOT_RETURN, + CAN_RETURN = 1 +}; + +} + +static oslMutex +getInternMutex() +{ + static oslMutex pPoolGuard = osl_createMutex(); + + return pPoolGuard; +} + +/* returns true if we found a dup in the pool */ +static void rtl_ustring_intern_internal( rtl_uString ** newStr, + rtl_uString * str, + StrLifecycle can_return ) +{ + oslMutex pPoolMutex; + + pPoolMutex = getInternMutex(); + + osl_acquireMutex( pPoolMutex ); + + *newStr = rtl_str_hash_intern (str, can_return); + + osl_releaseMutex( pPoolMutex ); + + RTL_LOG_STRING_INTERN_NEW(*newStr, str); + + if( can_return && *newStr != str ) + { /* we dupped, then found a match */ + rtl_freeString( str ); + } +} + +void SAL_CALL rtl_uString_intern( rtl_uString ** newStr, + rtl_uString * str) SAL_THROW_EXTERN_C() +{ + assert(newStr); + assert(str); + if (SAL_STRING_IS_INTERN(str)) + { + IMPL_RTL_ACQUIRE( str ); + *newStr = str; + } + else + { + rtl_uString *pOrg = *newStr; + *newStr = nullptr; + rtl_ustring_intern_internal( newStr, str, CANNOT_RETURN ); + if (pOrg) + rtl_uString_release (pOrg); + } +} + +static int rtl_canGuessUOutputLength( int len, rtl_TextEncoding eTextEncoding ) +{ + // FIXME: Maybe we should use a bit flag in the higher bits of the + // eTextEncoding value itself to determine the encoding type. But if we + // do, be sure to mask the value in certain places that expect the values + // to be numbered serially from 0 and up. One such place is + // Impl_getTextEncodingData(). + + switch ( eTextEncoding ) + { + // 1 to 1 (with no zero elements) + case RTL_TEXTENCODING_IBM_437: + case RTL_TEXTENCODING_IBM_850: + case RTL_TEXTENCODING_IBM_860: + case RTL_TEXTENCODING_IBM_861: + case RTL_TEXTENCODING_IBM_863: + case RTL_TEXTENCODING_IBM_865: + return len; + break; + } + return 0; +} + +void SAL_CALL rtl_uString_internConvert( rtl_uString ** newStr, + const char * str, + sal_Int32 len, + rtl_TextEncoding eTextEncoding, + sal_uInt32 convertFlags, + sal_uInt32 * pInfo ) + SAL_THROW_EXTERN_C() +{ + assert(newStr); + assert(len >= 0); + rtl_uString *scratch; + + if (*newStr) + { + rtl_uString_release (*newStr); + *newStr = nullptr; + } + + if ( len < 256 ) + { // try various optimisations + sal_Int32 ulen; + if ( eTextEncoding == RTL_TEXTENCODING_ASCII_US ) + { + int i; + rtl_uString *pScratch; + pScratch = static_cast< rtl_uString * >( + alloca(sizeof (rtl_uString) + len * sizeof (sal_Unicode))); + for (i = 0; i < len; i++) + { + /* Check ASCII range */ + SAL_WARN_IF( (static_cast<unsigned char>(str[i])) > 127, "rtl.string", + "rtl_ustring_internConvert() - Found char > 127 and RTL_TEXTENCODING_ASCII_US is specified" ); + pScratch->buffer[i] = str[i]; + } + pScratch->length = len; + rtl_ustring_intern_internal( newStr, pScratch, CANNOT_RETURN ); + return; + } + if ( (ulen = rtl_canGuessUOutputLength(len, eTextEncoding)) != 0 ) + { + rtl_uString *pScratch; + rtl_TextToUnicodeConverter hConverter; + sal_Size nSrcBytes; + sal_uInt32 nInfo; + + pScratch = static_cast< rtl_uString * >( + alloca( + sizeof (rtl_uString) + ulen * sizeof (sal_Unicode))); + + hConverter = rtl_createTextToUnicodeConverter( eTextEncoding ); + rtl_convertTextToUnicode( + hConverter, nullptr, str, len, pScratch->buffer, ulen, convertFlags, &nInfo, &nSrcBytes ); + rtl_destroyTextToUnicodeConverter( hConverter ); + + if (pInfo) + *pInfo = nInfo; + + pScratch->length = ulen; + rtl_ustring_intern_internal( newStr, pScratch, CANNOT_RETURN ); + return; + } + + /* FIXME: we want a nice UTF-8 / alloca shortcut here */ + } + + scratch = nullptr; + rtl_string2UString_status( &scratch, str, len, eTextEncoding, convertFlags, + pInfo ); + if (!scratch) { + return; + } + rtl_ustring_intern_internal( newStr, scratch, CAN_RETURN ); +} + +static void +internRelease (rtl_uString *pThis) +{ + oslMutex pPoolMutex; + + rtl_uString *pFree = nullptr; + if ( SAL_STRING_REFCOUNT( + osl_atomic_decrement( &(pThis->refCount) ) ) == 0) + { + RTL_LOG_STRING_INTERN_DELETE(pThis); + pPoolMutex = getInternMutex(); + osl_acquireMutex( pPoolMutex ); + + rtl_str_hash_remove (pThis); + + /* May have been separately acquired */ + if ( SAL_STRING_REFCOUNT( + osl_atomic_increment( &(pThis->refCount) ) ) == 1 ) + { + /* we got the last ref */ + pFree = pThis; + } + else /* very unusual */ + { + internRelease (pThis); + } + + osl_releaseMutex( pPoolMutex ); + } + if (pFree) + rtl_freeString (pFree); +} + +sal_uInt32 SAL_CALL rtl_uString_iterateCodePoints( + rtl_uString const * string, sal_Int32 * indexUtf16, + sal_Int32 incrementCodePoints) +{ + sal_Int32 n; + sal_Unicode cu; + sal_uInt32 cp; + assert(string != nullptr && indexUtf16 != nullptr); + n = *indexUtf16; + assert(n >= 0 && n <= string->length); + while (incrementCodePoints < 0) { + assert(n > 0); + cu = string->buffer[--n]; + if (rtl::isLowSurrogate(cu) && n != 0 && + rtl::isHighSurrogate(string->buffer[n - 1])) + { + --n; + } + ++incrementCodePoints; + } + assert(n >= 0 && n < string->length); + cu = string->buffer[n]; + if (rtl::isHighSurrogate(cu) && string->length - n >= 2 && + rtl::isLowSurrogate(string->buffer[n + 1])) + { + cp = rtl::combineSurrogates(cu, string->buffer[n + 1]); + } else { + cp = cu; + } + while (incrementCodePoints > 0) { + assert(n < string->length); + cu = string->buffer[n++]; + if (rtl::isHighSurrogate(cu) && n != string->length && + rtl::isLowSurrogate(string->buffer[n])) + { + ++n; + } + --incrementCodePoints; + } + assert(n >= 0 && n <= string->length); + *indexUtf16 = n; + return cp; +} + +sal_Bool rtl_convertStringToUString( + rtl_uString ** target, char const * source, sal_Int32 length, + rtl_TextEncoding encoding, sal_uInt32 flags) SAL_THROW_EXTERN_C() +{ + assert(target); + assert(length >= 0); + sal_uInt32 info; + rtl_string2UString_status(target, source, length, encoding, flags, &info); + return (info & RTL_TEXTTOUNICODE_INFO_ERROR) == 0; +} + +void rtl_uString_newReplaceFirst( + rtl_uString ** newStr, rtl_uString * str, rtl_uString const * from, + rtl_uString const * to, sal_Int32 * index) SAL_THROW_EXTERN_C() +{ + assert(str != nullptr); + assert(index != nullptr); + assert(*index >= 0 && *index <= str->length); + assert(from != nullptr); + assert(to != nullptr); + sal_Int32 i = rtl_ustr_indexOfStr_WithLength( + str->buffer + *index, str->length - *index, from->buffer, from->length); + if (i == -1) { + rtl_uString_assign(newStr, str); + } else { + assert(i <= str->length - *index); + i += *index; + assert(from->length <= str->length); + if (str->length - from->length > SAL_MAX_INT32 - to->length) { + std::abort(); + } + sal_Int32 n = str->length - from->length + to->length; + rtl_uString_acquire(str); // in case *newStr == str + rtl_uString_new_WithLength(newStr, n); + if (n != 0) { + (*newStr)->length = n; + assert(i >= 0 && i < str->length); + memcpy( + (*newStr)->buffer, str->buffer, i * sizeof (sal_Unicode)); + memcpy( + (*newStr)->buffer + i, to->buffer, + to->length * sizeof (sal_Unicode)); + memcpy( + (*newStr)->buffer + i + to->length, + str->buffer + i + from->length, + (str->length - i - from->length) * sizeof (sal_Unicode)); + } + rtl_uString_release(str); + } + *index = i; +} + +void rtl_uString_newReplaceFirstAsciiL( + rtl_uString ** newStr, rtl_uString * str, char const * from, + sal_Int32 fromLength, rtl_uString const * to, sal_Int32 * index) + SAL_THROW_EXTERN_C() +{ + assert(str != nullptr); + assert(index != nullptr); + assert(*index >= 0 && *index <= str->length); + assert(fromLength >= 0); + assert(to != nullptr); + sal_Int32 i = rtl_ustr_indexOfAscii_WithLength( + str->buffer + *index, str->length - *index, from, fromLength); + if (i == -1) { + rtl_uString_assign(newStr, str); + } else { + assert(i <= str->length - *index); + i += *index; + assert(fromLength <= str->length); + if (str->length - fromLength > SAL_MAX_INT32 - to->length) { + std::abort(); + } + sal_Int32 n = str->length - fromLength + to->length; + rtl_uString_acquire(str); // in case *newStr == str + rtl_uString_new_WithLength(newStr, n); + if (n != 0) { + (*newStr)->length = n; + assert(i >= 0 && i < str->length); + memcpy( + (*newStr)->buffer, str->buffer, i * sizeof (sal_Unicode)); + memcpy( + (*newStr)->buffer + i, to->buffer, + to->length * sizeof (sal_Unicode)); + memcpy( + (*newStr)->buffer + i + to->length, + str->buffer + i + fromLength, + (str->length - i - fromLength) * sizeof (sal_Unicode)); + } + rtl_uString_release(str); + } + *index = i; +} + +void rtl_uString_newReplaceFirstToAsciiL( + rtl_uString ** newStr, rtl_uString * str, rtl_uString const * from, + char const * to, sal_Int32 toLength, sal_Int32 * index) + SAL_THROW_EXTERN_C() +{ + assert(str != nullptr); + assert(index != nullptr); + assert(*index >= 0 && *index <= str->length); + assert(from != nullptr); + assert(toLength >= 0); + sal_Int32 i = rtl_ustr_indexOfStr_WithLength( + str->buffer + *index, str->length - *index, from->buffer, from->length); + if (i == -1) { + rtl_uString_assign(newStr, str); + } else { + assert(i <= str->length - *index); + i += *index; + assert(from->length <= str->length); + if (str->length - from->length > SAL_MAX_INT32 - toLength) { + std::abort(); + } + sal_Int32 n = str->length - from->length + toLength; + rtl_uString_acquire(str); // in case *newStr == str + rtl_uString_new_WithLength(newStr, n); + if (n != 0) { + (*newStr)->length = n; + assert(i >= 0 && i < str->length); + memcpy( + (*newStr)->buffer, str->buffer, i * sizeof (sal_Unicode)); + for (sal_Int32 j = 0; j != toLength; ++j) { + assert(static_cast< unsigned char >(to[j]) <= 0x7F); + (*newStr)->buffer[i + j] = to[j]; + } + memcpy( + (*newStr)->buffer + i + toLength, + str->buffer + i + from->length, + (str->length - i - from->length) * sizeof (sal_Unicode)); + } + rtl_uString_release(str); + } + *index = i; +} + +void rtl_uString_newReplaceFirstAsciiLAsciiL( + rtl_uString ** newStr, rtl_uString * str, char const * from, + sal_Int32 fromLength, char const * to, sal_Int32 toLength, + sal_Int32 * index) SAL_THROW_EXTERN_C() +{ + assert(str != nullptr); + assert(index != nullptr); + assert(*index >= 0 && *index <= str->length); + assert(fromLength >= 0); + assert(to != nullptr); + assert(toLength >= 0); + sal_Int32 i = rtl_ustr_indexOfAscii_WithLength( + str->buffer + *index, str->length - *index, from, fromLength); + if (i == -1) { + rtl_uString_assign(newStr, str); + } else { + assert(i <= str->length - *index); + i += *index; + assert(fromLength <= str->length); + if (str->length - fromLength > SAL_MAX_INT32 - toLength) { + std::abort(); + } + sal_Int32 n = str->length - fromLength + toLength; + rtl_uString_acquire(str); // in case *newStr == str + rtl_uString_new_WithLength(newStr, n); + if (n != 0) { + (*newStr)->length = n; + assert(i >= 0 && i < str->length); + memcpy( + (*newStr)->buffer, str->buffer, i * sizeof (sal_Unicode)); + for (sal_Int32 j = 0; j != toLength; ++j) { + assert(static_cast< unsigned char >(to[j]) <= 0x7F); + (*newStr)->buffer[i + j] = to[j]; + } + memcpy( + (*newStr)->buffer + i + toLength, + str->buffer + i + fromLength, + (str->length - i - fromLength) * sizeof (sal_Unicode)); + } + rtl_uString_release(str); + } + *index = i; +} + +void rtl_uString_newReplaceFirstAsciiLUtf16L( + rtl_uString ** newStr, rtl_uString * str, char const * from, + sal_Int32 fromLength, sal_Unicode const * to, sal_Int32 toLength, + sal_Int32 * index) SAL_THROW_EXTERN_C() +{ + assert(str != nullptr); + assert(index != nullptr); + assert(*index >= 0 && *index <= str->length); + assert(fromLength >= 0); + assert(to != nullptr); + assert(toLength >= 0); + sal_Int32 i = rtl_ustr_indexOfAscii_WithLength( + str->buffer + *index, str->length - *index, from, fromLength); + if (i == -1) { + rtl_uString_assign(newStr, str); + } else { + assert(i <= str->length - *index); + i += *index; + assert(fromLength <= str->length); + if (str->length - fromLength > SAL_MAX_INT32 - toLength) { + rtl_uString_release(*newStr); + *newStr = nullptr; + } else { + sal_Int32 n = str->length - fromLength + toLength; + rtl_uString_acquire(str); // in case *newStr == str + rtl_uString_new_WithLength(newStr, n); + if (n != 0 && /*TODO:*/ *newStr != nullptr) { + (*newStr)->length = n; + assert(i >= 0 && i < str->length); + memcpy( + (*newStr)->buffer, str->buffer, i * sizeof (sal_Unicode)); + memcpy( + (*newStr)->buffer + i, to, toLength * sizeof (sal_Unicode)); + memcpy( + (*newStr)->buffer + i + toLength, + str->buffer + i + fromLength, + (str->length - i - fromLength) * sizeof (sal_Unicode)); + } + rtl_uString_release(str); + } + } + *index = i; +} + +void rtl_uString_newReplaceFirstUtf16LAsciiL( + rtl_uString ** newStr, rtl_uString * str, sal_Unicode const * from, + sal_Int32 fromLength, char const * to, sal_Int32 toLength, + sal_Int32 * index) SAL_THROW_EXTERN_C() +{ + assert(str != nullptr); + assert(index != nullptr); + assert(*index >= 0 && *index <= str->length); + assert(fromLength >= 0); + assert(to != nullptr); + assert(toLength >= 0); + sal_Int32 i = rtl_ustr_indexOfStr_WithLength( + str->buffer + *index, str->length - *index, from, fromLength); + if (i == -1) { + rtl_uString_assign(newStr, str); + } else { + assert(i <= str->length - *index); + i += *index; + assert(fromLength <= str->length); + if (str->length - fromLength > SAL_MAX_INT32 - toLength) { + rtl_uString_release(*newStr); + *newStr = nullptr; + } else { + sal_Int32 n = str->length - fromLength + toLength; + rtl_uString_acquire(str); // in case *newStr == str + rtl_uString_new_WithLength(newStr, n); + if (n != 0 && /*TODO:*/ *newStr != nullptr) { + (*newStr)->length = n; + assert(i >= 0 && i < str->length); + memcpy( + (*newStr)->buffer, str->buffer, i * sizeof (sal_Unicode)); + for (sal_Int32 j = 0; j != toLength; ++j) { + assert(static_cast< unsigned char >(to[j]) <= 0x7F); + (*newStr)->buffer[i + j] = to[j]; + } + memcpy( + (*newStr)->buffer + i + toLength, + str->buffer + i + fromLength, + (str->length - i - fromLength) * sizeof (sal_Unicode)); + } + rtl_uString_release(str); + } + } + *index = i; +} + +void rtl_uString_newReplaceFirstUtf16LUtf16L( + rtl_uString ** newStr, rtl_uString * str, sal_Unicode const * from, + sal_Int32 fromLength, sal_Unicode const * to, sal_Int32 toLength, + sal_Int32 * index) SAL_THROW_EXTERN_C() +{ + assert(str != nullptr); + assert(index != nullptr); + assert(*index >= 0 && *index <= str->length); + assert(fromLength >= 0); + assert(to != nullptr); + assert(toLength >= 0); + sal_Int32 i = rtl_ustr_indexOfStr_WithLength( + str->buffer + *index, str->length - *index, from, fromLength); + if (i == -1) { + rtl_uString_assign(newStr, str); + } else { + assert(i <= str->length - *index); + i += *index; + assert(fromLength <= str->length); + if (str->length - fromLength > SAL_MAX_INT32 - toLength) { + rtl_uString_release(*newStr); + *newStr = nullptr; + } else { + sal_Int32 n = str->length - fromLength + toLength; + rtl_uString_acquire(str); // in case *newStr == str + rtl_uString_new_WithLength(newStr, n); + if (n != 0 && /*TODO:*/ *newStr != nullptr) { + (*newStr)->length = n; + assert(i >= 0 && i < str->length); + memcpy( + (*newStr)->buffer, str->buffer, i * sizeof (sal_Unicode)); + memcpy( + (*newStr)->buffer + i, to, toLength * sizeof (sal_Unicode)); + memcpy( + (*newStr)->buffer + i + toLength, + str->buffer + i + fromLength, + (str->length - i - fromLength) * sizeof (sal_Unicode)); + } + rtl_uString_release(str); + } + } + *index = i; +} + +void rtl_uString_newReplaceAll( + rtl_uString ** newStr, rtl_uString * str, rtl_uString const * from, + rtl_uString const * to) SAL_THROW_EXTERN_C() +{ + rtl_uString_newReplaceAllFromIndex( newStr, str, from, to, 0 ); +} + +void rtl_uString_newReplaceAllFromIndex( + rtl_uString ** newStr, rtl_uString * str, rtl_uString const * from, + rtl_uString const * to, sal_Int32 fromIndex) SAL_THROW_EXTERN_C() +{ + assert(to != nullptr); + assert(fromIndex >= 0 && fromIndex <= str->length); + rtl_uString_assign(newStr, str); + for (sal_Int32 i = fromIndex;; i += to->length) { + rtl_uString_newReplaceFirst(newStr, *newStr, from, to, &i); + if (i == -1) { + break; + } + } +} + +void rtl_uString_newReplaceAllAsciiL( + rtl_uString ** newStr, rtl_uString * str, char const * from, + sal_Int32 fromLength, rtl_uString const * to) SAL_THROW_EXTERN_C() +{ + assert(to != nullptr); + rtl_uString_assign(newStr, str); + for (sal_Int32 i = 0;; i += to->length) { + rtl_uString_newReplaceFirstAsciiL( + newStr, *newStr, from, fromLength, to, &i); + if (i == -1) { + break; + } + } +} + +void rtl_uString_newReplaceAllToAsciiL( + rtl_uString ** newStr, rtl_uString * str, rtl_uString const * from, + char const * to, sal_Int32 toLength) SAL_THROW_EXTERN_C() +{ + assert(from != nullptr); + rtl_uString_assign(newStr, str); + for (sal_Int32 i = 0;; i += toLength) { + rtl_uString_newReplaceFirstToAsciiL( + newStr, *newStr, from, to, toLength, &i); + if (i == -1) { + break; + } + } +} + +void rtl_uString_newReplaceAllAsciiLAsciiL( + rtl_uString ** newStr, rtl_uString * str, char const * from, + sal_Int32 fromLength, char const * to, sal_Int32 toLength) + SAL_THROW_EXTERN_C() +{ + assert(toLength >= 0); + rtl_uString_assign(newStr, str); + for (sal_Int32 i = 0;; i += toLength) { + rtl_uString_newReplaceFirstAsciiLAsciiL( + newStr, *newStr, from, fromLength, to, toLength, &i); + if (i == -1) { + break; + } + } +} + +void rtl_uString_newReplaceAllAsciiLUtf16L( + rtl_uString ** newStr, rtl_uString * str, char const * from, + sal_Int32 fromLength, sal_Unicode const * to, sal_Int32 toLength) + SAL_THROW_EXTERN_C() +{ + assert(toLength >= 0); + rtl_uString_assign(newStr, str); + for (sal_Int32 i = 0;; i += toLength) { + rtl_uString_newReplaceFirstAsciiLUtf16L( + newStr, *newStr, from, fromLength, to, toLength, &i); + if (i == -1 || *newStr == nullptr) { + break; + } + } +} + +void rtl_uString_newReplaceAllUtf16LAsciiL( + rtl_uString ** newStr, rtl_uString * str, sal_Unicode const * from, + sal_Int32 fromLength, char const * to, sal_Int32 toLength) + SAL_THROW_EXTERN_C() +{ + assert(toLength >= 0); + rtl_uString_assign(newStr, str); + for (sal_Int32 i = 0;; i += toLength) { + rtl_uString_newReplaceFirstUtf16LAsciiL( + newStr, *newStr, from, fromLength, to, toLength, &i); + if (i == -1 || *newStr == nullptr) { + break; + } + } +} + +void rtl_uString_newReplaceAllUtf16LUtf16L( + rtl_uString ** newStr, rtl_uString * str, sal_Unicode const * from, + sal_Int32 fromLength, sal_Unicode const * to, sal_Int32 toLength) + SAL_THROW_EXTERN_C() +{ + assert(toLength >= 0); + rtl_uString_assign(newStr, str); + for (sal_Int32 i = 0;; i += toLength) { + rtl_uString_newReplaceFirstUtf16LUtf16L( + newStr, *newStr, from, fromLength, to, toLength, &i); + if (i == -1 || *newStr == nullptr) { + break; + } + } +} + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |