| Quellcodebibliothek Statistik Leitseite products/Sources/formale Sprachen/C/LibreOffice/sal/textenc/ (Office von Apache Version 25.8.3.2©) Datei vom 5.10.2025 mit Größe 16 kB |
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Quelle convertgb18030.cxx Sprache: C |
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/* -*- 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 <rtl/character.hxx> #include <rtl/textcvt.h> #include <sal/types.h> #include "context.hxx" #include "converter.hxx" #include "convertgb18030.hxx" namespace { enum ImplGb18030ToUnicodeState { IMPL_GB_18030_TO_UNICODE_STATE_0, IMPL_GB_18030_TO_UNICODE_STATE_1, IMPL_GB_18030_TO_UNICODE_STATE_2, IMPL_GB_18030_TO_UNICODE_STATE_3 }; struct ImplGb18030ToUnicodeContext { ImplGb18030ToUnicodeState m_eState; sal_uInt32 m_nCode; }; } void * ImplCreateGb18030ToUnicodeContext() { ImplGb18030ToUnicodeContext * pContext = new ImplGb18030ToUnicodeContext; pContext->m_eState = IMPL_GB_18030_TO_UNICODE_STATE_0; return pContext; } void ImplResetGb18030ToUnicodeContext(void * pContext) { if (pContext) static_cast< ImplGb18030ToUnicodeContext * >(pContext)->m_eState = IMPL_GB_18030_TO_UNICODE_STATE_0; } void ImplDestroyGb18030ToUnicodeContext(void * pContext) { delete static_cast< ImplGb18030ToUnicodeContext * >(pContext); } sal_Size ImplConvertGb18030ToUnicode(void const * pData, void * pContext, char const * pSrcBuf, sal_Size nSrcBytes, sal_Unicode * pDestBuf, sal_Size nDestChars, sal_uInt32 nFlags, sal_uInt32 * pInfo, sal_Size * pSrcCvtBytes) { sal_Unicode const * pGb18030Data = static_cast< ImplGb18030ConverterData const * >(pData)->m_pGb18030ToUnicodeData; ImplGb180302000ToUnicodeRange const * pGb18030Ranges = static_cast< ImplGb18030ConverterData const * >(pData)-> m_pGb18030ToUnicodeRanges; ImplGb18030ToUnicodeState eState = IMPL_GB_18030_TO_UNICODE_STATE_0; sal_uInt32 nCode = 0; sal_uInt32 nInfo = 0; sal_Size nConverted = 0; sal_Unicode * pDestBufPtr = pDestBuf; sal_Unicode * pDestBufEnd = pDestBuf + nDestChars; sal_Size startOfCurrentChar = 0; if (pContext) { eState = static_cast< ImplGb18030ToUnicodeContext * >(pContext)->m_eState; nCode = static_cast< ImplGb18030ToUnicodeContext * >(pContext)->m_nCode; } for (; nConverted < nSrcBytes; ++nConverted) { bool bUndefined = true; sal_uInt32 nChar = *reinterpret_cast<unsigned char const *>(pSrcBuf++); switch (eState) { case IMPL_GB_18030_TO_UNICODE_STATE_0: if (nChar < 0x80) if (pDestBufPtr != pDestBufEnd) { *pDestBufPtr++ = static_cast<sal_Unicode>(nChar); startOfCurrentChar = nConverted + 1; } else goto no_output; else if (nChar == 0x80) goto bad_input; else if (nChar <= 0xFE) { nCode = nChar - 0x81; eState = IMPL_GB_18030_TO_UNICODE_STATE_1; } else { bUndefined = false; goto bad_input; } break; case IMPL_GB_18030_TO_UNICODE_STATE_1: if (nChar >= 0x30 && nChar <= 0x39) { nCode = nCode * 10 + (nChar - 0x30); eState = IMPL_GB_18030_TO_UNICODE_STATE_2; } else if ((nChar >= 0x40 && nChar <= 0x7E) || (nChar >= 0x80 && nChar <= 0xFE)) { nCode = nCode * 190 + (nChar <= 0x7E ? nChar - 0x40 : nChar - 0x80 + 63); if (pDestBufPtr != pDestBufEnd) { *pDestBufPtr++ = pGb18030Data[nCode]; startOfCurrentChar = nConverted + 1; } else goto no_output; eState = IMPL_GB_18030_TO_UNICODE_STATE_0; } else { bUndefined = false; goto bad_input; } break; case IMPL_GB_18030_TO_UNICODE_STATE_2: if (nChar >= 0x81 && nChar <= 0xFE) { nCode = nCode * 126 + (nChar - 0x81); eState = IMPL_GB_18030_TO_UNICODE_STATE_3; } else { bUndefined = false; goto bad_input; } break; case IMPL_GB_18030_TO_UNICODE_STATE_3: if (nChar >= 0x30 && nChar <= 0x39) { nCode = nCode * 10 + (nChar - 0x30); // 90 30 81 30 to E3 32 9A 35 maps to U+10000 to U+10FFFF: if (nCode >= 189000 && nCode <= 1237575) if (pDestBufEnd - pDestBufPtr >= 2) { nCode -= 189000 - 0x10000; pDestBufPtr += rtl::splitSurrogates(nCode, pDestBufPtr); startOfCurrentChar = nConverted + 1; } else goto no_output; else { ImplGb180302000ToUnicodeRange const * pRange = pGb18030Ranges; sal_uInt32 nFirstNonRange = 0; for (;;) { if (pRange->m_nNonRangeDataIndex == -1) goto bad_input; else if (nCode < pRange->m_nFirstLinear) { if (pDestBufPtr != pDestBufEnd) { *pDestBufPtr++ = pGb18030Data[ pRange->m_nNonRangeDataIndex + (nCode - nFirstNonRange)]; startOfCurrentChar = nConverted + 1; } else goto no_output; break; } else if (nCode < pRange->m_nPastLinear) { if (pDestBufPtr != pDestBufEnd) { *pDestBufPtr++ = static_cast<sal_Unicode>(pRange->m_nFirstUnicode + (nCode - pRange-> m_nFirstLinear)); startOfCurrentChar = nConverted + 1; } else goto no_output; break; } nFirstNonRange = (pRange++)->m_nPastLinear; } } eState = IMPL_GB_18030_TO_UNICODE_STATE_0; } else { bUndefined = false; goto bad_input; } break; } continue; bad_input: switch (sal::detail::textenc::handleBadInputTextToUnicodeConversion( bUndefined, true, 0, nFlags, &pDestBufPtr, pDestBufEnd, &nInfo)) { case sal::detail::textenc::BAD_INPUT_STOP: eState = IMPL_GB_18030_TO_UNICODE_STATE_0; if ((nFlags & RTL_TEXTTOUNICODE_FLAGS_FLUSH) == 0) { ++nConverted; } else { nConverted = startOfCurrentChar; } break; case sal::detail::textenc::BAD_INPUT_CONTINUE: eState = IMPL_GB_18030_TO_UNICODE_STATE_0; startOfCurrentChar = nConverted + 1; continue; case sal::detail::textenc::BAD_INPUT_NO_OUTPUT: goto no_output; } break; no_output: --pSrcBuf; nInfo |= RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOOSMALL; break; } if (eState != IMPL_GB_18030_TO_UNICODE_STATE_0 && (nInfo & (RTL_TEXTTOUNICODE_INFO_ERROR | RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOOSMALL)) == 0) { if ((nFlags & RTL_TEXTTOUNICODE_FLAGS_FLUSH) == 0) nInfo |= RTL_TEXTTOUNICODE_INFO_SRCBUFFERTOOSMALL; else switch (sal::detail::textenc::handleBadInputTextToUnicodeConversion( false, true, 0, nFlags, &pDestBufPtr, pDestBufEnd, &nInfo)) { case sal::detail::textenc::BAD_INPUT_STOP: if ((nFlags & RTL_TEXTTOUNICODE_FLAGS_FLUSH) != 0) { nConverted = startOfCurrentChar; } [[fallthrough]]; case sal::detail::textenc::BAD_INPUT_CONTINUE: eState = IMPL_GB_18030_TO_UNICODE_STATE_0; break; case sal::detail::textenc::BAD_INPUT_NO_OUTPUT: nInfo |= RTL_TEXTTOUNICODE_INFO_DESTBUFFERTOOSMALL; break; } } if (pContext) { static_cast< ImplGb18030ToUnicodeContext * >(pContext)->m_eState = eState; static_cast< ImplGb18030ToUnicodeContext * >(pContext)->m_nCode = nCode; } if (pInfo) *pInfo = nInfo; if (pSrcCvtBytes) *pSrcCvtBytes = nConverted; return pDestBufPtr - pDestBuf; } sal_Size ImplConvertUnicodeToGb18030(void const * pData, void * pContext, sal_Unicode const * pSrcBuf, sal_Size nSrcChars, char * pDestBuf, sal_Size nDestBytes, sal_uInt32 nFlags, sal_uInt32 * pInfo, sal_Size * pSrcCvtChars) { sal_uInt32 const * pGb18030Data = static_cast< ImplGb18030ConverterData const * >(pData)-> m_pUnicodeToGb18030Data; ImplUnicodeToGb180302000Range const * pGb18030Ranges = static_cast< ImplGb18030ConverterData const * >(pData)-> m_pUnicodeToGb18030Ranges; sal_Unicode nHighSurrogate = 0; sal_uInt32 nInfo = 0; sal_Size nConverted = 0; char * pDestBufPtr = pDestBuf; char * pDestBufEnd = pDestBuf + nDestBytes; if (pContext) nHighSurrogate = static_cast<ImplUnicodeToTextContext *>(pContext)->m_nHighSurrogate; for (; nConverted < nSrcChars; ++nConverted) { bool bUndefined = true; sal_uInt32 nChar = *pSrcBuf++; if (nHighSurrogate == 0) { if (rtl::isHighSurrogate(nChar)) { nHighSurrogate = static_cast<sal_Unicode>(nChar); continue; } else if (rtl::isLowSurrogate(nChar)) { bUndefined = false; goto bad_input; } } else if (rtl::isLowSurrogate(nChar)) nChar = rtl::combineSurrogates(nHighSurrogate, nChar); else { bUndefined = false; goto bad_input; } assert(rtl::isUnicodeScalarValue(nChar)); if (nChar < 0x80) if (pDestBufPtr != pDestBufEnd) *pDestBufPtr++ = static_cast< char >(nChar); else goto no_output; else if (nChar < 0x10000) { ImplUnicodeToGb180302000Range const * pRange = pGb18030Ranges; sal_Unicode nFirstNonRange = 0x80; for (;;) { if (nChar < pRange->m_nFirstUnicode) { sal_uInt32 nCode = pGb18030Data[pRange->m_nNonRangeDataIndex + (nChar - nFirstNonRange)]; if (pDestBufEnd - pDestBufPtr >= (nCode <= 0xFFFF ? 2 : 4)) { if (nCode > 0xFFFF) { *pDestBufPtr++ = static_cast< char >(nCode >> 24); *pDestBufPtr++ = static_cast< char >(nCode >> 16 & 0xFF); } *pDestBufPtr++ = static_cast< char >(nCode >> 8 & 0xFF); *pDestBufPtr++ = static_cast< char >(nCode & 0xFF); } else goto no_output; break; } if (nChar <= pRange->m_nLastUnicode) { if (pDestBufEnd - pDestBufPtr >= 4) { sal_uInt32 nCode = pRange->m_nFirstLinear + (nChar - pRange->m_nFirstUnicode); *pDestBufPtr++ = static_cast< char >(nCode / 12600 + 0x81); *pDestBufPtr++ = static_cast< char >(nCode / 1260 % 10 + 0x30); *pDestBufPtr++ = static_cast< char >(nCode / 10 % 126 + 0x81); *pDestBufPtr++ = static_cast< char >(nCode % 10 + 0x30); } else goto no_output; break; } nFirstNonRange = static_cast<sal_Unicode>((pRange++)->m_nLastUnicode + 1); } } else if (pDestBufEnd - pDestBufPtr >= 4) { sal_uInt32 nCode = nChar - 0x10000; *pDestBufPtr++ = static_cast< char >(nCode / 12600 + 0x90); *pDestBufPtr++ = static_cast< char >(nCode / 1260 % 10 + 0x30); *pDestBufPtr++ = static_cast< char >(nCode / 10 % 126 + 0x81); *pDestBufPtr++ = static_cast< char >(nCode % 10 + 0x30); } else goto no_output; nHighSurrogate = 0; continue; bad_input: switch (sal::detail::textenc::handleBadInputUnicodeToTextConversion( bUndefined, nChar, nFlags, &pDestBufPtr, pDestBufEnd, &nInfo, nullptr, 0, nullptr)) { case sal::detail::textenc::BAD_INPUT_STOP: nHighSurrogate = 0; break; case sal::detail::textenc::BAD_INPUT_CONTINUE: nHighSurrogate = 0; continue; case sal::detail::textenc::BAD_INPUT_NO_OUTPUT: goto no_output; } break; no_output: --pSrcBuf; nInfo |= RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL; break; } if (nHighSurrogate != 0 && (nInfo & (RTL_UNICODETOTEXT_INFO_ERROR | RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL)) == 0) { if ((nFlags & RTL_UNICODETOTEXT_FLAGS_FLUSH) != 0) nInfo |= RTL_UNICODETOTEXT_INFO_SRCBUFFERTOSMALL; else switch (sal::detail::textenc::handleBadInputUnicodeToTextConversion( false, 0, nFlags, &pDestBufPtr, pDestBufEnd, &nInfo, nullptr, 0, nullptr)) { case sal::detail::textenc::BAD_INPUT_STOP: case sal::detail::textenc::BAD_INPUT_CONTINUE: nHighSurrogate = 0; break; case sal::detail::textenc::BAD_INPUT_NO_OUTPUT: nInfo |= RTL_UNICODETOTEXT_INFO_DESTBUFFERTOSMALL; break; } } if (pContext) static_cast<ImplUnicodeToTextContext *>(pContext)->m_nHighSurrogate = nHighSurrogate; if (pInfo) *pInfo = nInfo; if (pSrcCvtChars) *pSrcCvtChars = nConverted; return pDestBufPtr - pDestBuf; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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2026-04-04