// Copyright 2014 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com #include "JBig2_Context.h" void OutputBitmap(CJBig2_Image* pImage) { if(!pImage) { return; } } CJBig2_Context *CJBig2_Context::CreateContext(CJBig2_Module *pModule, FX_BYTE *pGlobalData, FX_DWORD dwGlobalLength, FX_BYTE *pData, FX_DWORD dwLength, FX_INT32 nStreamType, IFX_Pause* pPause) { return new(pModule) CJBig2_Context(pGlobalData, dwGlobalLength, pData, dwLength, nStreamType, pPause); } void CJBig2_Context::DestroyContext(CJBig2_Context *pContext) { if(pContext) { delete pContext; } } CJBig2_Context::CJBig2_Context(FX_BYTE *pGlobalData, FX_DWORD dwGlobalLength, FX_BYTE *pData, FX_DWORD dwLength, FX_INT32 nStreamType, IFX_Pause* pPause) { if(pGlobalData && (dwGlobalLength > 0)) { JBIG2_ALLOC(m_pGlobalContext, CJBig2_Context(NULL, 0, pGlobalData, dwGlobalLength, JBIG2_EMBED_STREAM, pPause)); } else { m_pGlobalContext = NULL; } JBIG2_ALLOC(m_pStream, CJBig2_BitStream(pData, dwLength)); m_nStreamType = nStreamType; m_nState = JBIG2_OUT_OF_PAGE; JBIG2_ALLOC(m_pSegmentList, CJBig2_List); JBIG2_ALLOC(m_pPageInfoList, CJBig2_List(1)); m_pPage = NULL; m_bBufSpecified = FALSE; m_pPause = pPause; m_nSegmentDecoded = 0; m_PauseStep = 10; m_pArithDecoder = NULL; m_pGRD = NULL; m_gbContext = NULL; m_pSegment = NULL; m_dwOffset = 0; m_ProcessiveStatus = FXCODEC_STATUS_FRAME_READY; } CJBig2_Context::~CJBig2_Context() { if(m_pArithDecoder) { delete m_pArithDecoder; } m_pArithDecoder = NULL; if(m_pGRD) { delete m_pGRD; } m_pGRD = NULL; if(m_gbContext) { m_pModule->JBig2_Free(m_gbContext); } m_gbContext = NULL; if(m_pGlobalContext) { delete m_pGlobalContext; } m_pGlobalContext = NULL; if(m_pPageInfoList) { delete m_pPageInfoList; } m_pPageInfoList = NULL; if(m_bBufSpecified && m_pPage) { delete m_pPage; } m_pPage = NULL; if(m_pStream) { delete m_pStream; } m_pStream = NULL; if(m_pSegmentList) { delete m_pSegmentList; } m_pSegmentList = NULL; } FX_INT32 CJBig2_Context::decodeFile(IFX_Pause* pPause) { FX_BYTE cFlags; FX_DWORD dwTemp; const FX_BYTE fileID[] = {0x97, 0x4A, 0x42, 0x32, 0x0D, 0x0A, 0x1A, 0x0A}; FX_INT32 nRet; if(m_pStream->getByteLeft() < 8) { m_pModule->JBig2_Error("file header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } if(JBIG2_memcmp(m_pStream->getPointer(), fileID, 8) != 0) { m_pModule->JBig2_Error("not jbig2 file"); nRet = JBIG2_ERROR_FILE_FORMAT; goto failed; } m_pStream->offset(8); if(m_pStream->read1Byte(&cFlags) != 0) { m_pModule->JBig2_Error("file header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } if(!(cFlags & 0x02)) { if(m_pStream->readInteger(&dwTemp) != 0) { m_pModule->JBig2_Error("file header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } if(dwTemp > 0) { delete m_pPageInfoList; JBIG2_ALLOC(m_pPageInfoList, CJBig2_List(dwTemp)); } } if(cFlags & 0x01) { m_nStreamType = JBIG2_SQUENTIAL_STREAM; return decode_SquentialOrgnazation(pPause); } else { m_nStreamType = JBIG2_RANDOM_STREAM; return decode_RandomOrgnazation_FirstPage(pPause); } failed: return nRet; } FX_INT32 CJBig2_Context::decode_SquentialOrgnazation(IFX_Pause* pPause) { FX_INT32 nRet; if(m_pStream->getByteLeft() > 0) { while(m_pStream->getByteLeft() >= JBIG2_MIN_SEGMENT_SIZE) { if(m_pSegment == NULL) { JBIG2_ALLOC(m_pSegment, CJBig2_Segment()); nRet = parseSegmentHeader(m_pSegment); if(nRet != JBIG2_SUCCESS) { delete m_pSegment; m_pSegment = NULL; return nRet; } m_dwOffset = m_pStream->getOffset(); } nRet = parseSegmentData(m_pSegment, pPause); if(m_ProcessiveStatus == FXCODEC_STATUS_DECODE_TOBECONTINUE) { m_ProcessiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE; m_PauseStep = 2; return JBIG2_SUCCESS; } if((nRet == JBIG2_END_OF_PAGE) || (nRet == JBIG2_END_OF_FILE)) { delete m_pSegment; m_pSegment = NULL; break; } else if(nRet != JBIG2_SUCCESS) { delete m_pSegment; m_pSegment = NULL; return nRet; } m_pSegmentList->addItem(m_pSegment); if(m_pSegment->m_dwData_length != 0xffffffff) { m_dwOffset = m_dwOffset + m_pSegment->m_dwData_length; m_pStream->setOffset(m_dwOffset); } else { m_pStream->offset(4); } OutputBitmap(m_pPage); m_pSegment = NULL; if(m_pStream->getByteLeft() > 0 && m_pPage && pPause && pPause->NeedToPauseNow()) { m_ProcessiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE; m_PauseStep = 2; return JBIG2_SUCCESS; } } } else { return JBIG2_END_OF_FILE; } return JBIG2_SUCCESS; } FX_INT32 CJBig2_Context::decode_EmbedOrgnazation(IFX_Pause* pPause) { return decode_SquentialOrgnazation(pPause); } FX_INT32 CJBig2_Context::decode_RandomOrgnazation_FirstPage(IFX_Pause* pPause) { CJBig2_Segment *pSegment; FX_INT32 nRet; while(m_pStream->getByteLeft() > JBIG2_MIN_SEGMENT_SIZE) { JBIG2_ALLOC(pSegment, CJBig2_Segment()); nRet = parseSegmentHeader(pSegment); if(nRet != JBIG2_SUCCESS) { delete pSegment; return nRet; } else if(pSegment->m_cFlags.s.type == 51) { delete pSegment; break; } m_pSegmentList->addItem(pSegment); if(pPause && m_pPause && pPause->NeedToPauseNow()) { m_PauseStep = 3; m_ProcessiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE; return JBIG2_SUCCESS; } } m_nSegmentDecoded = 0; return decode_RandomOrgnazation(pPause); } FX_INT32 CJBig2_Context::decode_RandomOrgnazation(IFX_Pause* pPause) { FX_INT32 nRet; for(; m_nSegmentDecoded < m_pSegmentList->getLength(); m_nSegmentDecoded++) { nRet = parseSegmentData(m_pSegmentList->getAt(m_nSegmentDecoded), pPause); if((nRet == JBIG2_END_OF_PAGE) || (nRet == JBIG2_END_OF_FILE)) { break; } else if(nRet != JBIG2_SUCCESS) { return nRet; } if(m_pPage && pPause && pPause->NeedToPauseNow()) { m_PauseStep = 4; m_ProcessiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE; return JBIG2_SUCCESS; } } return JBIG2_SUCCESS; } FX_INT32 CJBig2_Context::getFirstPage(FX_BYTE *pBuf, FX_INT32 width, FX_INT32 height, FX_INT32 stride, IFX_Pause* pPause) { FX_INT32 nRet = 0; if(m_pGlobalContext) { nRet = m_pGlobalContext->decode_EmbedOrgnazation(pPause); if(nRet != JBIG2_SUCCESS) { m_ProcessiveStatus = FXCODEC_STATUS_ERROR; return nRet; } } m_bFirstPage = TRUE; m_PauseStep = 0; if(m_pPage) { delete m_pPage; } JBIG2_ALLOC(m_pPage, CJBig2_Image(width, height, stride, pBuf)); m_bBufSpecified = TRUE; if(m_pPage && pPause && pPause->NeedToPauseNow()) { m_PauseStep = 1; m_ProcessiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE; return nRet; } int ret = Continue(pPause); return ret; } FX_INT32 CJBig2_Context::Continue(IFX_Pause* pPause) { m_ProcessiveStatus = FXCODEC_STATUS_DECODE_READY; FX_INT32 nRet; if(m_PauseStep <= 1) { switch(m_nStreamType) { case JBIG2_FILE_STREAM: nRet = decodeFile(pPause); break; case JBIG2_SQUENTIAL_STREAM: nRet = decode_SquentialOrgnazation(pPause); break; case JBIG2_RANDOM_STREAM: if(m_bFirstPage) { nRet = decode_RandomOrgnazation_FirstPage(pPause); } else { nRet = decode_RandomOrgnazation(pPause); } break; case JBIG2_EMBED_STREAM: nRet = decode_EmbedOrgnazation(pPause); break; default: m_ProcessiveStatus = FXCODEC_STATUS_ERROR; return JBIG2_ERROR_STREAM_TYPE; } } else if(m_PauseStep == 2) { nRet = decode_SquentialOrgnazation(pPause); } else if(m_PauseStep == 3) { nRet = decode_RandomOrgnazation_FirstPage(pPause); } else if(m_PauseStep == 4) { nRet = decode_RandomOrgnazation(pPause); } else if(m_PauseStep == 5) { m_ProcessiveStatus = FXCODEC_STATUS_DECODE_FINISH; return JBIG2_SUCCESS; } if(m_ProcessiveStatus == FXCODEC_STATUS_DECODE_TOBECONTINUE) { return nRet; } m_PauseStep = 5; if(!m_bBufSpecified && nRet == JBIG2_SUCCESS) { m_ProcessiveStatus = FXCODEC_STATUS_DECODE_FINISH; return JBIG2_SUCCESS; } if(nRet == JBIG2_SUCCESS) { m_ProcessiveStatus = FXCODEC_STATUS_DECODE_FINISH; } else { m_ProcessiveStatus = FXCODEC_STATUS_ERROR; } return nRet; } FX_INT32 CJBig2_Context::getNextPage(FX_BYTE *pBuf, FX_INT32 width, FX_INT32 height, FX_INT32 stride, IFX_Pause* pPause) { FX_INT32 nRet = JBIG2_ERROR_STREAM_TYPE; m_bFirstPage = FALSE; m_PauseStep = 0; if(m_pPage) { delete m_pPage; } JBIG2_ALLOC(m_pPage, CJBig2_Image(width, height, stride, pBuf)); m_bBufSpecified = TRUE; if(m_pPage && pPause && pPause->NeedToPauseNow()) { m_PauseStep = 1; m_ProcessiveStatus = FXCODEC_STATUS_DECODE_TOBECONTINUE; return nRet; } return Continue(pPause); switch(m_nStreamType) { case JBIG2_FILE_STREAM: nRet = decodeFile(pPause); break; case JBIG2_SQUENTIAL_STREAM: nRet = decode_SquentialOrgnazation(pPause); break; case JBIG2_RANDOM_STREAM: nRet = decode_RandomOrgnazation(pPause); break; case JBIG2_EMBED_STREAM: nRet = decode_EmbedOrgnazation(pPause); break; default: return JBIG2_ERROR_STREAM_TYPE; } return nRet; } FX_INT32 CJBig2_Context::getFirstPage(CJBig2_Image **image, IFX_Pause* pPause) { FX_INT32 nRet; m_bFirstPage = TRUE; m_PauseStep = 0; if(m_pGlobalContext) { nRet = m_pGlobalContext->decode_EmbedOrgnazation(pPause); if(nRet != JBIG2_SUCCESS) { return nRet; } } m_bBufSpecified = FALSE; return Continue(pPause); } FX_INT32 CJBig2_Context::getNextPage(CJBig2_Image **image, IFX_Pause* pPause) { FX_INT32 nRet; m_bBufSpecified = FALSE; m_bFirstPage = FALSE; m_PauseStep = 0; switch(m_nStreamType) { case JBIG2_FILE_STREAM: nRet = decodeFile(pPause); break; case JBIG2_SQUENTIAL_STREAM: nRet = decode_SquentialOrgnazation(pPause); break; case JBIG2_RANDOM_STREAM: nRet = decode_RandomOrgnazation(pPause); break; case JBIG2_EMBED_STREAM: nRet = decode_EmbedOrgnazation(pPause); break; default: return JBIG2_ERROR_STREAM_TYPE; } if(nRet == JBIG2_SUCCESS) { *image = m_pPage; m_pPage = NULL; return JBIG2_SUCCESS; } return nRet; } CJBig2_Segment *CJBig2_Context::findSegmentByNumber(FX_DWORD dwNumber) { CJBig2_Segment *pSeg; FX_INT32 i; if(m_pGlobalContext) { pSeg = m_pGlobalContext->findSegmentByNumber(dwNumber); if(pSeg) { return pSeg; } } for(i = 0; i < m_pSegmentList->getLength(); i++) { pSeg = m_pSegmentList->getAt(i); if(pSeg->m_dwNumber == dwNumber) { return pSeg; } } return NULL; } CJBig2_Segment *CJBig2_Context::findReferredSegmentByTypeAndIndex(CJBig2_Segment *pSegment, FX_BYTE cType, FX_INT32 nIndex) { CJBig2_Segment *pSeg; FX_INT32 i, count; count = 0; for(i = 0; i < pSegment->m_nReferred_to_segment_count; i++) { pSeg = findSegmentByNumber(pSegment->m_pReferred_to_segment_numbers[i]); if(pSeg && pSeg->m_cFlags.s.type == cType) { if(count == nIndex) { return pSeg; } else { count ++; } } } return NULL; } FX_INT32 CJBig2_Context::parseSegmentHeader(CJBig2_Segment *pSegment) { FX_BYTE cSSize, cPSize; FX_BYTE cTemp; FX_WORD wTemp; FX_DWORD dwTemp; if((m_pStream->readInteger(&pSegment->m_dwNumber) != 0) || (m_pStream->read1Byte(&pSegment->m_cFlags.c) != 0)) { goto failed; } cTemp = m_pStream->getCurByte(); if((cTemp >> 5) == 7) { if(m_pStream->readInteger((FX_DWORD*)&pSegment->m_nReferred_to_segment_count) != 0) { goto failed; } pSegment->m_nReferred_to_segment_count &= 0x1fffffff; if (pSegment->m_nReferred_to_segment_count > JBIG2_MAX_REFERRED_SEGMENT_COUNT) { m_pModule->JBig2_Error("Too many referred segments."); return JBIG2_ERROR_LIMIT; } dwTemp = 5 + 4 + (pSegment->m_nReferred_to_segment_count + 1) / 8; } else { if(m_pStream->read1Byte(&cTemp) != 0) { goto failed; } pSegment->m_nReferred_to_segment_count = cTemp >> 5; dwTemp = 5 + 1; } cSSize = pSegment->m_dwNumber > 65536 ? 4 : pSegment->m_dwNumber > 256 ? 2 : 1; cPSize = pSegment->m_cFlags.s.page_association_size ? 4 : 1; if(pSegment->m_nReferred_to_segment_count) { pSegment->m_pReferred_to_segment_numbers = (FX_DWORD*)m_pModule->JBig2_Malloc2( sizeof(FX_DWORD), pSegment->m_nReferred_to_segment_count); for(FX_INT32 i = 0; i < pSegment->m_nReferred_to_segment_count; i++) { switch(cSSize) { case 1: if(m_pStream->read1Byte(&cTemp) != 0) { goto failed; } pSegment->m_pReferred_to_segment_numbers[i] = cTemp; break; case 2: if(m_pStream->readShortInteger(&wTemp) != 0) { goto failed; } pSegment->m_pReferred_to_segment_numbers[i] = wTemp; break; case 4: if(m_pStream->readInteger(&dwTemp) != 0) { goto failed; } pSegment->m_pReferred_to_segment_numbers[i] = dwTemp; break; } if (pSegment->m_pReferred_to_segment_numbers[i] >= pSegment->m_dwNumber) { m_pModule->JBig2_Error("The referred segment number is greater than this segment number."); goto failed; } } } if(cPSize == 1) { if(m_pStream->read1Byte(&cTemp) != 0) { goto failed; } pSegment->m_dwPage_association = cTemp; } else { if(m_pStream->readInteger(&pSegment->m_dwPage_association) != 0) { goto failed; } } if(m_pStream->readInteger(&pSegment->m_dwData_length) != 0) { goto failed; } pSegment->m_pData = m_pStream->getPointer(); pSegment->m_State = JBIG2_SEGMENT_DATA_UNPARSED; return JBIG2_SUCCESS; failed: m_pModule->JBig2_Error("header too short."); return JBIG2_ERROR_TOO_SHORT; } FX_INT32 CJBig2_Context::parseSegmentData(CJBig2_Segment *pSegment, IFX_Pause* pPause) { FX_INT32 ret = ProcessiveParseSegmentData(pSegment, pPause); while(m_ProcessiveStatus == FXCODEC_STATUS_DECODE_TOBECONTINUE && m_pStream->getByteLeft() > 0) { ret = ProcessiveParseSegmentData(pSegment, pPause); } return ret; } FX_INT32 CJBig2_Context::ProcessiveParseSegmentData(CJBig2_Segment *pSegment, IFX_Pause* pPause) { switch(pSegment->m_cFlags.s.type) { case 0: return parseSymbolDict(pSegment, pPause); case 4: case 6: case 7: if(m_nState == JBIG2_OUT_OF_PAGE) { goto failed2; } else { return parseTextRegion(pSegment); } case 16: return parsePatternDict(pSegment, pPause); case 20: case 22: case 23: if(m_nState == JBIG2_OUT_OF_PAGE) { goto failed2; } else { return parseHalftoneRegion(pSegment, pPause); } case 36: case 38: case 39: if(m_nState == JBIG2_OUT_OF_PAGE) { goto failed2; } else { return parseGenericRegion(pSegment, pPause); } case 40: case 42: case 43: if(m_nState == JBIG2_OUT_OF_PAGE) { goto failed2; } else { return parseGenericRefinementRegion(pSegment); } case 48: { FX_WORD wTemp; JBig2PageInfo *pPageInfo; JBIG2_ALLOC(pPageInfo, JBig2PageInfo); if((m_pStream->readInteger(&pPageInfo->m_dwWidth) != 0) || (m_pStream->readInteger(&pPageInfo->m_dwHeight) != 0) || (m_pStream->readInteger(&pPageInfo->m_dwResolutionX) != 0) || (m_pStream->readInteger(&pPageInfo->m_dwResolutionY) != 0) || (m_pStream->read1Byte(&pPageInfo->m_cFlags) != 0) || (m_pStream->readShortInteger(&wTemp) != 0)) { delete pPageInfo; goto failed1; } pPageInfo->m_bIsStriped = ((wTemp >> 15) & 1) ? 1 : 0; pPageInfo->m_wMaxStripeSize = wTemp & 0x7fff; if((pPageInfo->m_dwHeight == 0xffffffff) && (pPageInfo->m_bIsStriped != 1)) { m_pModule->JBig2_Warn("page height = 0xffffffff buf stripe field is 0"); pPageInfo->m_bIsStriped = 1; } if(!m_bBufSpecified) { if(m_pPage) { delete m_pPage; } if(pPageInfo->m_dwHeight == 0xffffffff) { JBIG2_ALLOC(m_pPage, CJBig2_Image(pPageInfo->m_dwWidth, pPageInfo->m_wMaxStripeSize)); } else { JBIG2_ALLOC(m_pPage, CJBig2_Image(pPageInfo->m_dwWidth, pPageInfo->m_dwHeight)); } } m_pPage->fill((pPageInfo->m_cFlags & 4) ? 1 : 0); m_pPageInfoList->addItem(pPageInfo); m_nState = JBIG2_IN_PAGE; } break; case 49: m_nState = JBIG2_OUT_OF_PAGE; return JBIG2_END_OF_PAGE; break; case 50: m_pStream->offset(pSegment->m_dwData_length); break; case 51: return JBIG2_END_OF_FILE; case 52: m_pStream->offset(pSegment->m_dwData_length); break; case 53: return parseTable(pSegment); case 62: m_pStream->offset(pSegment->m_dwData_length); break; default: break; } return JBIG2_SUCCESS; failed1: m_pModule->JBig2_Error("segment data too short."); return JBIG2_ERROR_TOO_SHORT; failed2: m_pModule->JBig2_Error("segment syntax error."); return JBIG2_ERROR_FETAL; } FX_INT32 CJBig2_Context::parseSymbolDict(CJBig2_Segment *pSegment, IFX_Pause* pPause) { FX_DWORD dwTemp; FX_WORD wFlags; FX_BYTE cSDHUFFDH, cSDHUFFDW, cSDHUFFBMSIZE, cSDHUFFAGGINST; CJBig2_HuffmanTable *Table_B1 = NULL, *Table_B2 = NULL, *Table_B3 = NULL, *Table_B4 = NULL, *Table_B5 = NULL; FX_INT32 i, nIndex, nRet; CJBig2_Segment *pSeg = NULL, *pLRSeg = NULL; FX_BOOL bUsed; CJBig2_Image ** SDINSYMS = NULL; CJBig2_SDDProc *pSymbolDictDecoder; JBig2ArithCtx *gbContext = NULL, *grContext = NULL; CJBig2_ArithDecoder *pArithDecoder; JBIG2_ALLOC(pSymbolDictDecoder, CJBig2_SDDProc()); if(m_pStream->readShortInteger(&wFlags) != 0) { m_pModule->JBig2_Error("symbol dictionary segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } pSymbolDictDecoder->SDHUFF = wFlags & 0x0001; pSymbolDictDecoder->SDREFAGG = (wFlags >> 1) & 0x0001; pSymbolDictDecoder->SDTEMPLATE = (wFlags >> 10) & 0x0003; pSymbolDictDecoder->SDRTEMPLATE = (wFlags >> 12) & 0x0003; cSDHUFFDH = (wFlags >> 2) & 0x0003; cSDHUFFDW = (wFlags >> 4) & 0x0003; cSDHUFFBMSIZE = (wFlags >> 6) & 0x0001; cSDHUFFAGGINST = (wFlags >> 7) & 0x0001; if(pSymbolDictDecoder->SDHUFF == 0) { if(pSymbolDictDecoder->SDTEMPLATE == 0) { dwTemp = 8; } else { dwTemp = 2; } for(i = 0; i < (FX_INT32)dwTemp; i++) { if(m_pStream->read1Byte((FX_BYTE*)&pSymbolDictDecoder->SDAT[i]) != 0) { m_pModule->JBig2_Error("symbol dictionary segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } } } if((pSymbolDictDecoder->SDREFAGG == 1) && (pSymbolDictDecoder->SDRTEMPLATE == 0)) { for(i = 0; i < 4; i++) { if(m_pStream->read1Byte((FX_BYTE*)&pSymbolDictDecoder->SDRAT[i]) != 0) { m_pModule->JBig2_Error("symbol dictionary segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } } } if((m_pStream->readInteger(&pSymbolDictDecoder->SDNUMEXSYMS) != 0) || (m_pStream->readInteger(&pSymbolDictDecoder->SDNUMNEWSYMS) != 0)) { m_pModule->JBig2_Error("symbol dictionary segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } if (pSymbolDictDecoder->SDNUMEXSYMS > JBIG2_MAX_EXPORT_SYSMBOLS || pSymbolDictDecoder->SDNUMNEWSYMS > JBIG2_MAX_NEW_SYSMBOLS) { m_pModule->JBig2_Error("symbol dictionary segment : too many export/new symbols."); nRet = JBIG2_ERROR_LIMIT; goto failed; } for(i = 0; i < pSegment->m_nReferred_to_segment_count; i++) { if(!findSegmentByNumber(pSegment->m_pReferred_to_segment_numbers[i])) { m_pModule->JBig2_Error("symbol dictionary segment : can't find refered to segments"); nRet = JBIG2_ERROR_FETAL; goto failed; } } pSymbolDictDecoder->SDNUMINSYMS = 0; for(i = 0; i < pSegment->m_nReferred_to_segment_count; i++) { pSeg = findSegmentByNumber(pSegment->m_pReferred_to_segment_numbers[i]); if(pSeg->m_cFlags.s.type == 0) { pSymbolDictDecoder->SDNUMINSYMS += pSeg->m_Result.sd->SDNUMEXSYMS; pLRSeg = pSeg; } } if(pSymbolDictDecoder->SDNUMINSYMS == 0) { SDINSYMS = NULL; } else { SDINSYMS = (CJBig2_Image**)m_pModule->JBig2_Malloc2( sizeof(CJBig2_Image*), pSymbolDictDecoder->SDNUMINSYMS); dwTemp = 0; for(i = 0; i < pSegment->m_nReferred_to_segment_count; i++) { pSeg = findSegmentByNumber(pSegment->m_pReferred_to_segment_numbers[i]); if(pSeg->m_cFlags.s.type == 0) { JBIG2_memcpy(SDINSYMS + dwTemp, pSeg->m_Result.sd->SDEXSYMS, pSeg->m_Result.sd->SDNUMEXSYMS * sizeof(CJBig2_Image*)); dwTemp += pSeg->m_Result.sd->SDNUMEXSYMS; } } } pSymbolDictDecoder->SDINSYMS = SDINSYMS; if(pSymbolDictDecoder->SDHUFF == 1) { if((cSDHUFFDH == 2) || (cSDHUFFDW == 2)) { m_pModule->JBig2_Error("symbol dictionary segment : SDHUFFDH=2 or SDHUFFDW=2 is not permitted."); nRet = JBIG2_ERROR_FETAL; goto failed; } nIndex = 0; if(cSDHUFFDH == 0) { JBIG2_ALLOC(Table_B4, CJBig2_HuffmanTable(HuffmanTable_B4, sizeof(HuffmanTable_B4) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B4)); pSymbolDictDecoder->SDHUFFDH = Table_B4; } else if(cSDHUFFDH == 1) { JBIG2_ALLOC(Table_B5, CJBig2_HuffmanTable(HuffmanTable_B5, sizeof(HuffmanTable_B5) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B5)); pSymbolDictDecoder->SDHUFFDH = Table_B5; } else { pSeg = findReferredSegmentByTypeAndIndex(pSegment, 53, nIndex++); if(!pSeg) { m_pModule->JBig2_Error("symbol dictionary segment : SDHUFFDH can't find user supplied table."); nRet = JBIG2_ERROR_FETAL; goto failed; } pSymbolDictDecoder->SDHUFFDH = pSeg->m_Result.ht; } if(cSDHUFFDW == 0) { JBIG2_ALLOC(Table_B2, CJBig2_HuffmanTable(HuffmanTable_B2, sizeof(HuffmanTable_B2) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B2)); pSymbolDictDecoder->SDHUFFDW = Table_B2; } else if(cSDHUFFDW == 1) { JBIG2_ALLOC(Table_B3, CJBig2_HuffmanTable(HuffmanTable_B3, sizeof(HuffmanTable_B3) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B3)); pSymbolDictDecoder->SDHUFFDW = Table_B3; } else { pSeg = findReferredSegmentByTypeAndIndex(pSegment, 53, nIndex++); if(!pSeg) { m_pModule->JBig2_Error("symbol dictionary segment : SDHUFFDW can't find user supplied table."); nRet = JBIG2_ERROR_FETAL; goto failed; } pSymbolDictDecoder->SDHUFFDW = pSeg->m_Result.ht; } if(cSDHUFFBMSIZE == 0) { JBIG2_ALLOC(Table_B1, CJBig2_HuffmanTable(HuffmanTable_B1, sizeof(HuffmanTable_B1) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B1)); pSymbolDictDecoder->SDHUFFBMSIZE = Table_B1; } else { pSeg = findReferredSegmentByTypeAndIndex(pSegment, 53, nIndex++); if(!pSeg) { m_pModule->JBig2_Error("symbol dictionary segment : SDHUFFBMSIZE can't find user supplied table."); nRet = JBIG2_ERROR_FETAL; goto failed; } pSymbolDictDecoder->SDHUFFBMSIZE = pSeg->m_Result.ht; } if(pSymbolDictDecoder->SDREFAGG == 1) { if(cSDHUFFAGGINST == 0) { if(!Table_B1) { JBIG2_ALLOC(Table_B1, CJBig2_HuffmanTable(HuffmanTable_B1, sizeof(HuffmanTable_B1) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B1)); } pSymbolDictDecoder->SDHUFFAGGINST = Table_B1; } else { pSeg = findReferredSegmentByTypeAndIndex(pSegment, 53, nIndex++); if(!pSeg) { m_pModule->JBig2_Error("symbol dictionary segment : SDHUFFAGGINST can't find user supplied table."); nRet = JBIG2_ERROR_FETAL; goto failed; } pSymbolDictDecoder->SDHUFFAGGINST = pSeg->m_Result.ht; } } } if((wFlags & 0x0100) && pLRSeg && pLRSeg->m_Result.sd->m_bContextRetained) { if (pSymbolDictDecoder->SDHUFF == 0) { dwTemp = pSymbolDictDecoder->SDTEMPLATE == 0 ? 65536 : pSymbolDictDecoder->SDTEMPLATE == 1 ? 8192 : 1024; gbContext = (JBig2ArithCtx*)m_pModule->JBig2_Malloc2(sizeof(JBig2ArithCtx), dwTemp); JBIG2_memcpy(gbContext, pLRSeg->m_Result.sd->m_gbContext, sizeof(JBig2ArithCtx)*dwTemp); } if (pSymbolDictDecoder->SDREFAGG == 1) { dwTemp = pSymbolDictDecoder->SDRTEMPLATE ? 1 << 10 : 1 << 13; grContext = (JBig2ArithCtx*)m_pModule->JBig2_Malloc2(sizeof(JBig2ArithCtx), dwTemp); JBIG2_memcpy(grContext, pLRSeg->m_Result.sd->m_grContext, sizeof(JBig2ArithCtx)*dwTemp); } } else { if (pSymbolDictDecoder->SDHUFF == 0) { dwTemp = pSymbolDictDecoder->SDTEMPLATE == 0 ? 65536 : pSymbolDictDecoder->SDTEMPLATE == 1 ? 8192 : 1024; gbContext = (JBig2ArithCtx*)m_pModule->JBig2_Malloc2(sizeof(JBig2ArithCtx), dwTemp); JBIG2_memset(gbContext, 0, sizeof(JBig2ArithCtx)*dwTemp); } if (pSymbolDictDecoder->SDREFAGG == 1) { dwTemp = pSymbolDictDecoder->SDRTEMPLATE ? 1 << 10 : 1 << 13; grContext = (JBig2ArithCtx*)m_pModule->JBig2_Malloc2(sizeof(JBig2ArithCtx), dwTemp); JBIG2_memset(grContext, 0, sizeof(JBig2ArithCtx)*dwTemp); } } pSegment->m_nResultType = JBIG2_SYMBOL_DICT_POINTER; if(pSymbolDictDecoder->SDHUFF == 0) { JBIG2_ALLOC(pArithDecoder, CJBig2_ArithDecoder(m_pStream)); pSegment->m_Result.sd = pSymbolDictDecoder->decode_Arith(pArithDecoder, gbContext, grContext); delete pArithDecoder; if(pSegment->m_Result.sd == NULL) { nRet = JBIG2_ERROR_FETAL; goto failed; } m_pStream->alignByte(); m_pStream->offset(2); } else { pSegment->m_Result.sd = pSymbolDictDecoder->decode_Huffman(m_pStream, gbContext, grContext, pPause); if(pSegment->m_Result.sd == NULL) { nRet = JBIG2_ERROR_FETAL; goto failed; } m_pStream->alignByte(); } if(wFlags & 0x0200) { pSegment->m_Result.sd->m_bContextRetained = TRUE; if(pSymbolDictDecoder->SDHUFF == 0) { pSegment->m_Result.sd->m_gbContext = gbContext; } if(pSymbolDictDecoder->SDREFAGG == 1) { pSegment->m_Result.sd->m_grContext = grContext; } bUsed = TRUE; } else { bUsed = FALSE; } delete pSymbolDictDecoder; if(SDINSYMS) { m_pModule->JBig2_Free(SDINSYMS); } if(Table_B1) { delete Table_B1; } if(Table_B2) { delete Table_B2; } if(Table_B3) { delete Table_B3; } if(Table_B4) { delete Table_B4; } if(Table_B5) { delete Table_B5; } if(bUsed == FALSE) { if(gbContext) { m_pModule->JBig2_Free(gbContext); } if(grContext) { m_pModule->JBig2_Free(grContext); } } return JBIG2_SUCCESS; failed: delete pSymbolDictDecoder; if(SDINSYMS) { m_pModule->JBig2_Free(SDINSYMS); } if(Table_B1) { delete Table_B1; } if(Table_B2) { delete Table_B2; } if(Table_B3) { delete Table_B3; } if(Table_B4) { delete Table_B4; } if(Table_B5) { delete Table_B5; } if(gbContext) { m_pModule->JBig2_Free(gbContext); } if(grContext) { m_pModule->JBig2_Free(grContext); } return nRet; } FX_BOOL CJBig2_Context::parseTextRegion(CJBig2_Segment *pSegment) { FX_DWORD dwTemp; FX_WORD wFlags; FX_INT32 i, nIndex, nRet; JBig2RegionInfo ri; CJBig2_Segment *pSeg; CJBig2_Image **SBSYMS = NULL; JBig2HuffmanCode *SBSYMCODES = NULL; FX_BYTE cSBHUFFFS, cSBHUFFDS, cSBHUFFDT, cSBHUFFRDW, cSBHUFFRDH, cSBHUFFRDX, cSBHUFFRDY, cSBHUFFRSIZE; CJBig2_HuffmanTable *Table_B1 = NULL, *Table_B6 = NULL, *Table_B7 = NULL, *Table_B8 = NULL, *Table_B9 = NULL, *Table_B10 = NULL, *Table_B11 = NULL, *Table_B12 = NULL, *Table_B13 = NULL, *Table_B14 = NULL, *Table_B15 = NULL; JBig2ArithCtx *grContext = NULL; CJBig2_ArithDecoder *pArithDecoder; CJBig2_TRDProc *pTRD; JBIG2_ALLOC(pTRD, CJBig2_TRDProc()); if((parseRegionInfo(&ri) != JBIG2_SUCCESS) || (m_pStream->readShortInteger(&wFlags) != 0)) { m_pModule->JBig2_Error("text region segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } pTRD->SBW = ri.width; pTRD->SBH = ri.height; pTRD->SBHUFF = wFlags & 0x0001; pTRD->SBREFINE = (wFlags >> 1) & 0x0001; dwTemp = (wFlags >> 2) & 0x0003; pTRD->SBSTRIPS = 1 << dwTemp; pTRD->REFCORNER = (JBig2Corner)((wFlags >> 4) & 0x0003); pTRD->TRANSPOSED = (wFlags >> 6) & 0x0001; pTRD->SBCOMBOP = (JBig2ComposeOp)((wFlags >> 7) & 0x0003); pTRD->SBDEFPIXEL = (wFlags >> 9) & 0x0001; pTRD->SBDSOFFSET = (wFlags >> 10) & 0x001f; if(pTRD->SBDSOFFSET >= 0x0010) { pTRD->SBDSOFFSET = pTRD->SBDSOFFSET - 0x0020; } pTRD->SBRTEMPLATE = (wFlags >> 15) & 0x0001; if(pTRD->SBHUFF == 1) { if(m_pStream->readShortInteger(&wFlags) != 0) { m_pModule->JBig2_Error("text region segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } cSBHUFFFS = wFlags & 0x0003; cSBHUFFDS = (wFlags >> 2) & 0x0003; cSBHUFFDT = (wFlags >> 4) & 0x0003; cSBHUFFRDW = (wFlags >> 6) & 0x0003; cSBHUFFRDH = (wFlags >> 8) & 0x0003; cSBHUFFRDX = (wFlags >> 10) & 0x0003; cSBHUFFRDY = (wFlags >> 12) & 0x0003; cSBHUFFRSIZE = (wFlags >> 14) & 0x0001; } if((pTRD->SBREFINE == 1) && (pTRD->SBRTEMPLATE == 0)) { for(i = 0; i < 4; i++) { if(m_pStream->read1Byte((FX_BYTE*)&pTRD->SBRAT[i]) != 0) { m_pModule->JBig2_Error("text region segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } } } if(m_pStream->readInteger(&pTRD->SBNUMINSTANCES) != 0) { m_pModule->JBig2_Error("text region segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } for(i = 0; i < pSegment->m_nReferred_to_segment_count; i++) { if(!findSegmentByNumber(pSegment->m_pReferred_to_segment_numbers[i])) { m_pModule->JBig2_Error("text region segment : can't find refered to segments"); nRet = JBIG2_ERROR_FETAL; goto failed; } } pTRD->SBNUMSYMS = 0; for(i = 0; i < pSegment->m_nReferred_to_segment_count; i++) { pSeg = findSegmentByNumber(pSegment->m_pReferred_to_segment_numbers[i]); if(pSeg->m_cFlags.s.type == 0) { pTRD->SBNUMSYMS += pSeg->m_Result.sd->SDNUMEXSYMS; } } if (pTRD->SBNUMSYMS > 0) { SBSYMS = (CJBig2_Image**)m_pModule->JBig2_Malloc2( sizeof(CJBig2_Image*), pTRD->SBNUMSYMS); dwTemp = 0; for(i = 0; i < pSegment->m_nReferred_to_segment_count; i++) { pSeg = findSegmentByNumber(pSegment->m_pReferred_to_segment_numbers[i]); if(pSeg->m_cFlags.s.type == 0) { JBIG2_memcpy(SBSYMS + dwTemp, pSeg->m_Result.sd->SDEXSYMS, pSeg->m_Result.sd->SDNUMEXSYMS * sizeof(CJBig2_Image*)); dwTemp += pSeg->m_Result.sd->SDNUMEXSYMS; } } pTRD->SBSYMS = SBSYMS; } else { pTRD->SBSYMS = NULL; } if(pTRD->SBHUFF == 1) { SBSYMCODES = decodeSymbolIDHuffmanTable(m_pStream, pTRD->SBNUMSYMS); if(SBSYMCODES == NULL) { m_pModule->JBig2_Error("text region segment: symbol ID huffman table decode failure!"); nRet = JBIG2_ERROR_FETAL; goto failed; } m_pStream->alignByte(); pTRD->SBSYMCODES = SBSYMCODES; } else { dwTemp = 0; while((FX_DWORD)(1 << dwTemp) < pTRD->SBNUMSYMS) { dwTemp ++; } pTRD->SBSYMCODELEN = (FX_BYTE)dwTemp; } if(pTRD->SBHUFF == 1) { if((cSBHUFFFS == 2) || (cSBHUFFRDW == 2) || (cSBHUFFRDH == 2) || (cSBHUFFRDX == 2) || (cSBHUFFRDY == 2)) { m_pModule->JBig2_Error("text region segment : SBHUFFFS=2 or SBHUFFRDW=2 or " "SBHUFFRDH=2 or SBHUFFRDX=2 or SBHUFFRDY=2 is not permitted"); nRet = JBIG2_ERROR_FETAL; goto failed; } nIndex = 0; if(cSBHUFFFS == 0) { JBIG2_ALLOC(Table_B6, CJBig2_HuffmanTable(HuffmanTable_B6, sizeof(HuffmanTable_B6) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B6)); pTRD->SBHUFFFS = Table_B6; } else if(cSBHUFFFS == 1) { JBIG2_ALLOC(Table_B7, CJBig2_HuffmanTable(HuffmanTable_B7, sizeof(HuffmanTable_B7) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B7)); pTRD->SBHUFFFS = Table_B7; } else { pSeg = findReferredSegmentByTypeAndIndex(pSegment, 53, nIndex++); if(!pSeg) { m_pModule->JBig2_Error("text region segment : SBHUFFFS can't find user supplied table"); nRet = JBIG2_ERROR_FETAL; goto failed; } pTRD->SBHUFFFS = pSeg->m_Result.ht; } if(cSBHUFFDS == 0) { JBIG2_ALLOC(Table_B8, CJBig2_HuffmanTable(HuffmanTable_B8, sizeof(HuffmanTable_B8) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B8)); pTRD->SBHUFFDS = Table_B8; } else if(cSBHUFFDS == 1) { JBIG2_ALLOC(Table_B9, CJBig2_HuffmanTable(HuffmanTable_B9, sizeof(HuffmanTable_B9) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B9)); pTRD->SBHUFFDS = Table_B9; } else if(cSBHUFFDS == 2) { JBIG2_ALLOC(Table_B10, CJBig2_HuffmanTable(HuffmanTable_B10, sizeof(HuffmanTable_B10) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B10)); pTRD->SBHUFFDS = Table_B10; } else { pSeg = findReferredSegmentByTypeAndIndex(pSegment, 53, nIndex++); if(!pSeg) { m_pModule->JBig2_Error("text region segment : SBHUFFDS can't find user supplied table"); nRet = JBIG2_ERROR_FETAL; goto failed; } pTRD->SBHUFFDS = pSeg->m_Result.ht; } if(cSBHUFFDT == 0) { JBIG2_ALLOC(Table_B11, CJBig2_HuffmanTable(HuffmanTable_B11, sizeof(HuffmanTable_B11) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B11)); pTRD->SBHUFFDT = Table_B11; } else if(cSBHUFFDT == 1) { JBIG2_ALLOC(Table_B12, CJBig2_HuffmanTable(HuffmanTable_B12, sizeof(HuffmanTable_B12) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B12)); pTRD->SBHUFFDT = Table_B12; } else if(cSBHUFFDT == 2) { JBIG2_ALLOC(Table_B13, CJBig2_HuffmanTable(HuffmanTable_B13, sizeof(HuffmanTable_B13) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B13)); pTRD->SBHUFFDT = Table_B13; } else { pSeg = findReferredSegmentByTypeAndIndex(pSegment, 53, nIndex++); if(!pSeg) { m_pModule->JBig2_Error("text region segment : SBHUFFDT can't find user supplied table"); nRet = JBIG2_ERROR_FETAL; goto failed; } pTRD->SBHUFFDT = pSeg->m_Result.ht; } if(cSBHUFFRDW == 0) { JBIG2_ALLOC(Table_B14, CJBig2_HuffmanTable(HuffmanTable_B14, sizeof(HuffmanTable_B14) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B14)); pTRD->SBHUFFRDW = Table_B14; } else if(cSBHUFFRDW == 1) { JBIG2_ALLOC(Table_B15, CJBig2_HuffmanTable(HuffmanTable_B15, sizeof(HuffmanTable_B15) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B15)); pTRD->SBHUFFRDW = Table_B15; } else { pSeg = findReferredSegmentByTypeAndIndex(pSegment, 53, nIndex++); if(!pSeg) { m_pModule->JBig2_Error("text region segment : SBHUFFRDW can't find user supplied table"); nRet = JBIG2_ERROR_FETAL; goto failed; } pTRD->SBHUFFRDW = pSeg->m_Result.ht; } if(cSBHUFFRDH == 0) { if(!Table_B14) { JBIG2_ALLOC(Table_B14, CJBig2_HuffmanTable(HuffmanTable_B14, sizeof(HuffmanTable_B14) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B14)); } pTRD->SBHUFFRDH = Table_B14; } else if(cSBHUFFRDH == 1) { if(!Table_B15) { JBIG2_ALLOC(Table_B15, CJBig2_HuffmanTable(HuffmanTable_B15, sizeof(HuffmanTable_B15) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B15)); } pTRD->SBHUFFRDH = Table_B15; } else { pSeg = findReferredSegmentByTypeAndIndex(pSegment, 53, nIndex++); if(!pSeg) { m_pModule->JBig2_Error("text region segment : SBHUFFRDH can't find user supplied table"); nRet = JBIG2_ERROR_FETAL; goto failed; } pTRD->SBHUFFRDH = pSeg->m_Result.ht; } if(cSBHUFFRDX == 0) { if(!Table_B14) { JBIG2_ALLOC(Table_B14, CJBig2_HuffmanTable(HuffmanTable_B14, sizeof(HuffmanTable_B14) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B14)); } pTRD->SBHUFFRDX = Table_B14; } else if(cSBHUFFRDX == 1) { if(!Table_B15) { JBIG2_ALLOC(Table_B15, CJBig2_HuffmanTable(HuffmanTable_B15, sizeof(HuffmanTable_B15) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B15)); } pTRD->SBHUFFRDX = Table_B15; } else { pSeg = findReferredSegmentByTypeAndIndex(pSegment, 53, nIndex++); if(!pSeg) { m_pModule->JBig2_Error("text region segment : SBHUFFRDX can't find user supplied table"); nRet = JBIG2_ERROR_FETAL; goto failed; } pTRD->SBHUFFRDX = pSeg->m_Result.ht; } if(cSBHUFFRDY == 0) { if(!Table_B14) { JBIG2_ALLOC(Table_B14, CJBig2_HuffmanTable(HuffmanTable_B14, sizeof(HuffmanTable_B14) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B14)); } pTRD->SBHUFFRDY = Table_B14; } else if(cSBHUFFRDY == 1) { if(!Table_B15) { JBIG2_ALLOC(Table_B15, CJBig2_HuffmanTable(HuffmanTable_B15, sizeof(HuffmanTable_B15) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B15)); } pTRD->SBHUFFRDY = Table_B15; } else { pSeg = findReferredSegmentByTypeAndIndex(pSegment, 53, nIndex++); if(!pSeg) { m_pModule->JBig2_Error("text region segment : SBHUFFRDY can't find user supplied table"); nRet = JBIG2_ERROR_FETAL; goto failed; } pTRD->SBHUFFRDY = pSeg->m_Result.ht; } if(cSBHUFFRSIZE == 0) { JBIG2_ALLOC(Table_B1, CJBig2_HuffmanTable(HuffmanTable_B1, sizeof(HuffmanTable_B1) / sizeof(JBig2TableLine), HuffmanTable_HTOOB_B1)); pTRD->SBHUFFRSIZE = Table_B1; } else { pSeg = findReferredSegmentByTypeAndIndex(pSegment, 53, nIndex++); if(!pSeg) { m_pModule->JBig2_Error("text region segment : SBHUFFRSIZE can't find user supplied table"); nRet = JBIG2_ERROR_FETAL; goto failed; } pTRD->SBHUFFRSIZE = pSeg->m_Result.ht; } } if(pTRD->SBREFINE == 1) { dwTemp = pTRD->SBRTEMPLATE ? 1 << 10 : 1 << 13; grContext = (JBig2ArithCtx*)m_pModule->JBig2_Malloc2(sizeof(JBig2ArithCtx), dwTemp); JBIG2_memset(grContext, 0, sizeof(JBig2ArithCtx)*dwTemp); } if(pTRD->SBHUFF == 0) { JBIG2_ALLOC(pArithDecoder, CJBig2_ArithDecoder(m_pStream)); pSegment->m_nResultType = JBIG2_IMAGE_POINTER; pSegment->m_Result.im = pTRD->decode_Arith(pArithDecoder, grContext); delete pArithDecoder; if(pSegment->m_Result.im == NULL) { nRet = JBIG2_ERROR_FETAL; goto failed; } m_pStream->alignByte(); m_pStream->offset(2); } else { pSegment->m_nResultType = JBIG2_IMAGE_POINTER; pSegment->m_Result.im = pTRD->decode_Huffman(m_pStream, grContext); if(pSegment->m_Result.im == NULL) { nRet = JBIG2_ERROR_FETAL; goto failed; } m_pStream->alignByte(); } if(pSegment->m_cFlags.s.type != 4) { if(!m_bBufSpecified) { JBig2PageInfo *pPageInfo = m_pPageInfoList->getLast(); if ((pPageInfo->m_bIsStriped == 1) && (ri.y + ri.height > m_pPage->m_nHeight)) { m_pPage->expand(ri.y + ri.height, (pPageInfo->m_cFlags & 4) ? 1 : 0); } } m_pPage->composeFrom(ri.x, ri.y, pSegment->m_Result.im, (JBig2ComposeOp)(ri.flags & 0x03)); delete pSegment->m_Result.im; pSegment->m_Result.im = NULL; } delete pTRD; if(SBSYMS) { m_pModule->JBig2_Free(SBSYMS); } if(SBSYMCODES) { m_pModule->JBig2_Free(SBSYMCODES); } if(grContext) { m_pModule->JBig2_Free(grContext); } if(Table_B1) { delete Table_B1; } if(Table_B6) { delete Table_B6; } if(Table_B7) { delete Table_B7; } if(Table_B8) { delete Table_B8; } if(Table_B9) { delete Table_B9; } if(Table_B10) { delete Table_B10; } if(Table_B11) { delete Table_B11; } if(Table_B12) { delete Table_B12; } if(Table_B13) { delete Table_B13; } if(Table_B14) { delete Table_B14; } if(Table_B15) { delete Table_B15; } return JBIG2_SUCCESS; failed: delete pTRD; if(SBSYMS) { m_pModule->JBig2_Free(SBSYMS); } if(SBSYMCODES) { m_pModule->JBig2_Free(SBSYMCODES); } if(grContext) { m_pModule->JBig2_Free(grContext); } if(Table_B1) { delete Table_B1; } if(Table_B6) { delete Table_B6; } if(Table_B7) { delete Table_B7; } if(Table_B8) { delete Table_B8; } if(Table_B9) { delete Table_B9; } if(Table_B10) { delete Table_B10; } if(Table_B11) { delete Table_B11; } if(Table_B12) { delete Table_B12; } if(Table_B13) { delete Table_B13; } if(Table_B14) { delete Table_B14; } if(Table_B15) { delete Table_B15; } return nRet; } FX_BOOL CJBig2_Context::parsePatternDict(CJBig2_Segment *pSegment, IFX_Pause* pPause) { FX_DWORD dwTemp; FX_BYTE cFlags; JBig2ArithCtx *gbContext; CJBig2_ArithDecoder *pArithDecoder; CJBig2_PDDProc *pPDD; FX_INT32 nRet; JBIG2_ALLOC(pPDD, CJBig2_PDDProc()); if((m_pStream->read1Byte(&cFlags) != 0) || (m_pStream->read1Byte(&pPDD->HDPW) != 0) || (m_pStream->read1Byte(&pPDD->HDPH) != 0) || (m_pStream->readInteger(&pPDD->GRAYMAX) != 0)) { m_pModule->JBig2_Error("pattern dictionary segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } if (pPDD->GRAYMAX > JBIG2_MAX_PATTERN_INDEX) { m_pModule->JBig2_Error("pattern dictionary segment : too max gray max."); nRet = JBIG2_ERROR_LIMIT; goto failed; } pPDD->HDMMR = cFlags & 0x01; pPDD->HDTEMPLATE = (cFlags >> 1) & 0x03; pSegment->m_nResultType = JBIG2_PATTERN_DICT_POINTER; if(pPDD->HDMMR == 0) { dwTemp = pPDD->HDTEMPLATE == 0 ? 65536 : pPDD->HDTEMPLATE == 1 ? 8192 : 1024; gbContext = (JBig2ArithCtx*)m_pModule->JBig2_Malloc2(sizeof(JBig2ArithCtx), dwTemp); JBIG2_memset(gbContext, 0, sizeof(JBig2ArithCtx)*dwTemp); JBIG2_ALLOC(pArithDecoder, CJBig2_ArithDecoder(m_pStream)); pSegment->m_Result.pd = pPDD->decode_Arith(pArithDecoder, gbContext, pPause); delete pArithDecoder; if(pSegment->m_Result.pd == NULL) { m_pModule->JBig2_Free(gbContext); nRet = JBIG2_ERROR_FETAL; goto failed; } m_pModule->JBig2_Free(gbContext); m_pStream->alignByte(); m_pStream->offset(2); } else { pSegment->m_Result.pd = pPDD->decode_MMR(m_pStream, pPause); if(pSegment->m_Result.pd == NULL) { nRet = JBIG2_ERROR_FETAL; goto failed; } m_pStream->alignByte(); } delete pPDD; return JBIG2_SUCCESS; failed: delete pPDD; return nRet; } FX_BOOL CJBig2_Context::parseHalftoneRegion(CJBig2_Segment *pSegment, IFX_Pause* pPause) { FX_DWORD dwTemp; FX_BYTE cFlags; JBig2RegionInfo ri; CJBig2_Segment *pSeg; CJBig2_PatternDict *pPatternDict; JBig2ArithCtx *gbContext; CJBig2_ArithDecoder *pArithDecoder; CJBig2_HTRDProc *pHRD; FX_INT32 nRet; JBIG2_ALLOC(pHRD, CJBig2_HTRDProc()); if((parseRegionInfo(&ri) != JBIG2_SUCCESS) || (m_pStream->read1Byte(&cFlags) != 0) || (m_pStream->readInteger(&pHRD->HGW) != 0) || (m_pStream->readInteger(&pHRD->HGH) != 0) || (m_pStream->readInteger((FX_DWORD*)&pHRD->HGX) != 0) || (m_pStream->readInteger((FX_DWORD*)&pHRD->HGY) != 0) || (m_pStream->readShortInteger(&pHRD->HRX) != 0) || (m_pStream->readShortInteger(&pHRD->HRY) != 0)) { m_pModule->JBig2_Error("halftone region segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } pHRD->HBW = ri.width; pHRD->HBH = ri.height; pHRD->HMMR = cFlags & 0x01; pHRD->HTEMPLATE = (cFlags >> 1) & 0x03; pHRD->HENABLESKIP = (cFlags >> 3) & 0x01; pHRD->HCOMBOP = (JBig2ComposeOp)((cFlags >> 4) & 0x07); pHRD->HDEFPIXEL = (cFlags >> 7) & 0x01; if(pSegment->m_nReferred_to_segment_count != 1) { m_pModule->JBig2_Error("halftone region segment : refered to segment count not equals 1"); nRet = JBIG2_ERROR_FETAL; goto failed; } pSeg = findSegmentByNumber(pSegment->m_pReferred_to_segment_numbers[0]); if( (pSeg == NULL) || (pSeg->m_cFlags.s.type != 16)) { m_pModule->JBig2_Error("halftone region segment : refered to segment is not pattern dict"); nRet = JBIG2_ERROR_FETAL; goto failed; } pPatternDict = pSeg->m_Result.pd; if((pPatternDict == NULL) || (pPatternDict->NUMPATS == 0)) { m_pModule->JBig2_Error("halftone region segment : has no patterns input"); nRet = JBIG2_ERROR_FETAL; goto failed; } pHRD->HNUMPATS = pPatternDict->NUMPATS; pHRD->HPATS = pPatternDict->HDPATS; pHRD->HPW = pPatternDict->HDPATS[0]->m_nWidth; pHRD->HPH = pPatternDict->HDPATS[0]->m_nHeight; pSegment->m_nResultType = JBIG2_IMAGE_POINTER; if(pHRD->HMMR == 0) { dwTemp = pHRD->HTEMPLATE == 0 ? 65536 : pHRD->HTEMPLATE == 1 ? 8192 : 1024; gbContext = (JBig2ArithCtx*)m_pModule->JBig2_Malloc2(sizeof(JBig2ArithCtx), dwTemp); JBIG2_memset(gbContext, 0, sizeof(JBig2ArithCtx)*dwTemp); JBIG2_ALLOC(pArithDecoder, CJBig2_ArithDecoder(m_pStream)); pSegment->m_Result.im = pHRD->decode_Arith(pArithDecoder, gbContext, pPause); delete pArithDecoder; if(pSegment->m_Result.im == NULL) { m_pModule->JBig2_Free(gbContext); nRet = JBIG2_ERROR_FETAL; goto failed; } m_pModule->JBig2_Free(gbContext); m_pStream->alignByte(); m_pStream->offset(2); } else { pSegment->m_Result.im = pHRD->decode_MMR(m_pStream, pPause); if(pSegment->m_Result.im == NULL) { nRet = JBIG2_ERROR_FETAL; goto failed; } m_pStream->alignByte(); } if(pSegment->m_cFlags.s.type != 20) { if(!m_bBufSpecified) { JBig2PageInfo *pPageInfo = m_pPageInfoList->getLast(); if ((pPageInfo->m_bIsStriped == 1) && (ri.y + ri.height > m_pPage->m_nHeight)) { m_pPage->expand(ri.y + ri.height, (pPageInfo->m_cFlags & 4) ? 1 : 0); } } m_pPage->composeFrom(ri.x, ri.y, pSegment->m_Result.im, (JBig2ComposeOp)(ri.flags & 0x03)); delete pSegment->m_Result.im; pSegment->m_Result.im = NULL; } delete pHRD; return JBIG2_SUCCESS; failed: delete pHRD; return nRet; } FX_BOOL CJBig2_Context::parseGenericRegion(CJBig2_Segment *pSegment, IFX_Pause* pPause) { FX_DWORD dwTemp; FX_BYTE cFlags; FX_INT32 i, nRet; if(m_pGRD == NULL) { JBIG2_ALLOC(m_pGRD, CJBig2_GRDProc()); if((parseRegionInfo(&m_ri) != JBIG2_SUCCESS) || (m_pStream->read1Byte(&cFlags) != 0)) { m_pModule->JBig2_Error("generic region segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } if (m_ri.height < 0 || m_ri.width < 0) { m_pModule->JBig2_Error("generic region segment : wrong data."); nRet = JBIG2_FAILED; goto failed; } m_pGRD->GBW = m_ri.width; m_pGRD->GBH = m_ri.height; m_pGRD->MMR = cFlags & 0x01; m_pGRD->GBTEMPLATE = (cFlags >> 1) & 0x03; m_pGRD->TPGDON = (cFlags >> 3) & 0x01; if(m_pGRD->MMR == 0) { if(m_pGRD->GBTEMPLATE == 0) { for(i = 0; i < 8; i++) { if(m_pStream->read1Byte((FX_BYTE*)&m_pGRD->GBAT[i]) != 0) { m_pModule->JBig2_Error("generic region segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } } } else { for(i = 0; i < 2; i++) { if(m_pStream->read1Byte((FX_BYTE*)&m_pGRD->GBAT[i]) != 0) { m_pModule->JBig2_Error("generic region segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } } } } m_pGRD->USESKIP = 0; } pSegment->m_nResultType = JBIG2_IMAGE_POINTER; if(m_pGRD->MMR == 0) { dwTemp = m_pGRD->GBTEMPLATE == 0 ? 65536 : m_pGRD->GBTEMPLATE == 1 ? 8192 : 1024; if(m_gbContext == NULL) { m_gbContext = (JBig2ArithCtx*)m_pModule->JBig2_Malloc(sizeof(JBig2ArithCtx) * dwTemp); JBIG2_memset(m_gbContext, 0, sizeof(JBig2ArithCtx)*dwTemp); } if(m_pArithDecoder == NULL) { JBIG2_ALLOC(m_pArithDecoder, CJBig2_ArithDecoder(m_pStream)); m_ProcessiveStatus = m_pGRD->Start_decode_Arith(&pSegment->m_Result.im, m_pArithDecoder, m_gbContext, pPause); } else { m_ProcessiveStatus = m_pGRD->Continue_decode(pPause); } OutputBitmap(pSegment->m_Result.im); if(m_ProcessiveStatus == FXCODEC_STATUS_DECODE_TOBECONTINUE) { if(pSegment->m_cFlags.s.type != 36) { if(!m_bBufSpecified) { JBig2PageInfo *pPageInfo = m_pPageInfoList->getLast(); if ((pPageInfo->m_bIsStriped == 1) && (m_ri.y + m_ri.height > m_pPage->m_nHeight)) { m_pPage->expand(m_ri.y + m_ri.height, (pPageInfo->m_cFlags & 4) ? 1 : 0); } } FX_RECT Rect = m_pGRD->GetReplaceRect(); m_pPage->composeFrom(m_ri.x + Rect.left, m_ri.y + Rect.top, pSegment->m_Result.im, (JBig2ComposeOp)(m_ri.flags & 0x03), &Rect); } return JBIG2_SUCCESS; } else { delete m_pArithDecoder; m_pArithDecoder = NULL; if(pSegment->m_Result.im == NULL) { m_pModule->JBig2_Free(m_gbContext); nRet = JBIG2_ERROR_FETAL; m_gbContext = NULL; m_ProcessiveStatus = FXCODEC_STATUS_ERROR; goto failed; } m_pModule->JBig2_Free(m_gbContext); m_gbContext = NULL; m_pStream->alignByte(); m_pStream->offset(2); } } else { FXCODEC_STATUS status = m_pGRD->Start_decode_MMR(&pSegment->m_Result.im, m_pStream, pPause); while(status == FXCODEC_STATUS_DECODE_TOBECONTINUE) { m_pGRD->Continue_decode(pPause); } if(pSegment->m_Result.im == NULL) { nRet = JBIG2_ERROR_FETAL; goto failed; } m_pStream->alignByte(); } if(pSegment->m_cFlags.s.type != 36) { if(!m_bBufSpecified) { JBig2PageInfo *pPageInfo = m_pPageInfoList->getLast(); if ((pPageInfo->m_bIsStriped == 1) && (m_ri.y + m_ri.height > m_pPage->m_nHeight)) { m_pPage->expand(m_ri.y + m_ri.height, (pPageInfo->m_cFlags & 4) ? 1 : 0); } } FX_RECT Rect = m_pGRD->GetReplaceRect(); m_pPage->composeFrom(m_ri.x + Rect.left, m_ri.y + Rect.top, pSegment->m_Result.im, (JBig2ComposeOp)(m_ri.flags & 0x03), &Rect); delete pSegment->m_Result.im; pSegment->m_Result.im = NULL; } delete m_pGRD; m_pGRD = NULL; return JBIG2_SUCCESS; failed: delete m_pGRD; m_pGRD = NULL; return nRet; } FX_BOOL CJBig2_Context::parseGenericRefinementRegion(CJBig2_Segment *pSegment) { FX_DWORD dwTemp; JBig2RegionInfo ri; CJBig2_Segment *pSeg; FX_INT32 i, nRet; FX_BYTE cFlags; JBig2ArithCtx *grContext; CJBig2_GRRDProc *pGRRD; CJBig2_ArithDecoder *pArithDecoder; JBIG2_ALLOC(pGRRD, CJBig2_GRRDProc()); if((parseRegionInfo(&ri) != JBIG2_SUCCESS) || (m_pStream->read1Byte(&cFlags) != 0)) { m_pModule->JBig2_Error("generic refinement region segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } pGRRD->GRW = ri.width; pGRRD->GRH = ri.height; pGRRD->GRTEMPLATE = cFlags & 0x01; pGRRD->TPGRON = (cFlags >> 1) & 0x01; if(pGRRD->GRTEMPLATE == 0) { for(i = 0; i < 4; i++) { if(m_pStream->read1Byte((FX_BYTE*)&pGRRD->GRAT[i]) != 0) { m_pModule->JBig2_Error("generic refinement region segment : data header too short."); nRet = JBIG2_ERROR_TOO_SHORT; goto failed; } } } pSeg = NULL; if(pSegment->m_nReferred_to_segment_count > 0) { for(i = 0; i < pSegment->m_nReferred_to_segment_count; i++) { pSeg = this->findSegmentByNumber(pSegment->m_pReferred_to_segment_numbers[0]); if(pSeg == NULL) { m_pModule->JBig2_Error("generic refinement region segment : can't find refered to segments"); nRet = JBIG2_ERROR_FETAL; goto failed; } if((pSeg->m_cFlags.s.type == 4) || (pSeg->m_cFlags.s.type == 20) || (pSeg->m_cFlags.s.type == 36) || (pSeg->m_cFlags.s.type == 40)) { break; } } if(i >= pSegment->m_nReferred_to_segment_count) { m_pModule->JBig2_Error("generic refinement region segment : can't find refered to intermediate region"); nRet = JBIG2_ERROR_FETAL; goto failed; } pGRRD->GRREFERENCE = pSeg->m_Result.im; } else { pGRRD->GRREFERENCE = m_pPage; } pGRRD->GRREFERENCEDX = 0; pGRRD->GRREFERENCEDY = 0; dwTemp = pGRRD->GRTEMPLATE ? 1 << 10 : 1 << 13; grContext = (JBig2ArithCtx*)m_pModule->JBig2_Malloc2(sizeof(JBig2ArithCtx), dwTemp); JBIG2_memset(grContext, 0, sizeof(JBig2ArithCtx)*dwTemp); JBIG2_ALLOC(pArithDecoder, CJBig2_ArithDecoder(m_pStream)); pSegment->m_nResultType = JBIG2_IMAGE_POINTER; pSegment->m_Result.im = pGRRD->decode(pArithDecoder, grContext); delete pArithDecoder; if(pSegment->m_Result.im == NULL) { m_pModule->JBig2_Free(grContext); nRet = JBIG2_ERROR_FETAL; goto failed; } m_pModule->JBig2_Free(grContext); m_pStream->alignByte(); m_pStream->offset(2); if(pSegment->m_cFlags.s.type != 40) { if(!m_bBufSpecified) { JBig2PageInfo *pPageInfo = m_pPageInfoList->getLast(); if ((pPageInfo->m_bIsStriped == 1) && (ri.y + ri.height > m_pPage->m_nHeight)) { m_pPage->expand(ri.y + ri.height, (pPageInfo->m_cFlags & 4) ? 1 : 0); } } m_pPage->composeFrom(ri.x, ri.y, pSegment->m_Result.im, (JBig2ComposeOp)(ri.flags & 0x03)); delete pSegment->m_Result.im; pSegment->m_Result.im = NULL; } delete pGRRD; return JBIG2_SUCCESS; failed: delete pGRRD; return nRet; } FX_BOOL CJBig2_Context::parseTable(CJBig2_Segment *pSegment) { pSegment->m_nResultType = JBIG2_HUFFMAN_TABLE_POINTER; JBIG2_ALLOC(pSegment->m_Result.ht, CJBig2_HuffmanTable(m_pStream)); if(!pSegment->m_Result.ht->isOK()) { delete pSegment->m_Result.ht; pSegment->m_Result.ht = NULL; return JBIG2_ERROR_FETAL; } m_pStream->alignByte(); return JBIG2_SUCCESS; } FX_INT32 CJBig2_Context::parseRegionInfo(JBig2RegionInfo *pRI) { if((m_pStream->readInteger((FX_DWORD*)&pRI->width) != 0) || (m_pStream->readInteger((FX_DWORD*)&pRI->height) != 0) || (m_pStream->readInteger((FX_DWORD*)&pRI->x) != 0) || (m_pStream->readInteger((FX_DWORD*)&pRI->y) != 0) || (m_pStream->read1Byte(&pRI->flags) != 0)) { return JBIG2_ERROR_TOO_SHORT; } return JBIG2_SUCCESS; } JBig2HuffmanCode *CJBig2_Context::decodeSymbolIDHuffmanTable(CJBig2_BitStream *pStream, FX_DWORD SBNUMSYMS) { JBig2HuffmanCode *SBSYMCODES; FX_INT32 runcodes[35], runcodes_len[35], runcode; FX_INT32 i, j, nTemp, nVal, nBits; FX_INT32 run; SBSYMCODES = (JBig2HuffmanCode*)m_pModule->JBig2_Malloc2(sizeof(JBig2HuffmanCode), SBNUMSYMS); for (i = 0; i < 35; i ++) { if(pStream->readNBits(4, &runcodes_len[i]) != 0) { goto failed; } } huffman_assign_code(runcodes, runcodes_len, 35); i = 0; while(i < (int)SBNUMSYMS) { nVal = 0; nBits = 0; for(;;) { if(pStream->read1Bit(&nTemp) != 0) { goto failed; } nVal = (nVal << 1) | nTemp; nBits ++; for(j = 0; j < 35; j++) { if((nBits == runcodes_len[j]) && (nVal == runcodes[j])) { break; } } if(j < 35) { break; } } runcode = j; if(runcode < 32) { SBSYMCODES[i].codelen = runcode; run = 0; } else if(runcode == 32) { if(pStream->readNBits(2, &nTemp) != 0) { goto failed; } run = nTemp + 3; } else if(runcode == 33) { if(pStream->readNBits(3, &nTemp) != 0) { goto failed; } run = nTemp + 3; } else if(runcode == 34) { if(pStream->readNBits(7, &nTemp) != 0) { goto failed; } run = nTemp + 11; } if(run > 0) { if (i + run > (int)SBNUMSYMS) { goto failed; } for(j = 0; j < run; j++) { if(runcode == 32 && i > 0) { SBSYMCODES[i + j].codelen = SBSYMCODES[i - 1].codelen; } else { SBSYMCODES[i + j].codelen = 0; } } i += run; } else { i ++; } } huffman_assign_code(SBSYMCODES, SBNUMSYMS); return SBSYMCODES; failed: m_pModule->JBig2_Free(SBSYMCODES); return NULL; } void CJBig2_Context::huffman_assign_code(int* CODES, int* PREFLEN, int NTEMP) { int CURLEN, LENMAX, CURCODE, CURTEMP, i; int *LENCOUNT; int *FIRSTCODE; LENMAX = 0; for(i = 0; i < NTEMP; i++) { if(PREFLEN[i] > LENMAX) { LENMAX = PREFLEN[i]; } } LENCOUNT = (int*)m_pModule->JBig2_Malloc2(sizeof(int), (LENMAX + 1)); JBIG2_memset(LENCOUNT, 0, sizeof(int) * (LENMAX + 1)); FIRSTCODE = (int*)m_pModule->JBig2_Malloc2(sizeof(int), (LENMAX + 1)); for(i = 0; i < NTEMP; i++) { LENCOUNT[PREFLEN[i]] ++; } CURLEN = 1; FIRSTCODE[0] = 0; LENCOUNT[0] = 0; while(CURLEN <= LENMAX) { FIRSTCODE[CURLEN] = (FIRSTCODE[CURLEN - 1] + LENCOUNT[CURLEN - 1]) << 1; CURCODE = FIRSTCODE[CURLEN]; CURTEMP = 0; while(CURTEMP < NTEMP) { if(PREFLEN[CURTEMP] == CURLEN) { CODES[CURTEMP] = CURCODE; CURCODE = CURCODE + 1; } CURTEMP = CURTEMP + 1; } CURLEN = CURLEN + 1; } m_pModule->JBig2_Free(LENCOUNT); m_pModule->JBig2_Free(FIRSTCODE); } void CJBig2_Context::huffman_assign_code(JBig2HuffmanCode *SBSYMCODES, int NTEMP) { int CURLEN, LENMAX, CURCODE, CURTEMP, i; int *LENCOUNT; int *FIRSTCODE; LENMAX = 0; for(i = 0; i < NTEMP; i++) { if(SBSYMCODES[i].codelen > LENMAX) { LENMAX = SBSYMCODES[i].codelen; } } LENCOUNT = (int*)m_pModule->JBig2_Malloc2(sizeof(int), (LENMAX + 1)); JBIG2_memset(LENCOUNT, 0, sizeof(int) * (LENMAX + 1)); FIRSTCODE = (int*)m_pModule->JBig2_Malloc2(sizeof(int), (LENMAX + 1)); for(i = 0; i < NTEMP; i++) { LENCOUNT[SBSYMCODES[i].codelen] ++; } CURLEN = 1; FIRSTCODE[0] = 0; LENCOUNT[0] = 0; while(CURLEN <= LENMAX) { FIRSTCODE[CURLEN] = (FIRSTCODE[CURLEN - 1] + LENCOUNT[CURLEN - 1]) << 1; CURCODE = FIRSTCODE[CURLEN]; CURTEMP = 0; while(CURTEMP < NTEMP) { if(SBSYMCODES[CURTEMP].codelen == CURLEN) { SBSYMCODES[CURTEMP].code = CURCODE; CURCODE = CURCODE + 1; } CURTEMP = CURTEMP + 1; } CURLEN = CURLEN + 1; } m_pModule->JBig2_Free(LENCOUNT); m_pModule->JBig2_Free(FIRSTCODE); }