// 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 #ifndef _JBIG2_BIT_STREAM_H_ #define _JBIG2_BIT_STREAM_H_ #include "JBig2_Define.h" class CJBig2_BitStream { public: CJBig2_BitStream(uint8_t* pBuffer, FX_DWORD dwLength); CJBig2_BitStream(CJBig2_BitStream& bs); ~CJBig2_BitStream(); int32_t readNBits(FX_DWORD nBits, FX_DWORD* dwResult); int32_t readNBits(FX_DWORD nBits, int32_t* nResult); int32_t read1Bit(FX_DWORD* dwResult); int32_t read1Bit(FX_BOOL* bResult); int32_t read1Byte(uint8_t* cResult); int32_t readInteger(FX_DWORD* dwResult); int32_t readShortInteger(FX_WORD* wResult); void alignByte(); void align4Byte(); uint8_t getAt(FX_DWORD dwOffset); uint8_t getCurByte(); uint8_t getNextByte(); int32_t incByteIdx(); uint8_t getCurByte_arith(); uint8_t getNextByte_arith(); FX_DWORD getOffset(); void setOffset(FX_DWORD dwOffset); FX_DWORD getBitPos(); void setBitPos(FX_DWORD dwBitPos); uint8_t* getBuf(); FX_DWORD getLength() { return m_dwLength; } uint8_t* getPointer(); void offset(FX_DWORD dwOffset); FX_DWORD getByteLeft(); private: uint8_t* m_pBuf; FX_DWORD m_dwLength; FX_DWORD m_dwByteIdx; FX_DWORD m_dwBitIdx; }; inline CJBig2_BitStream::CJBig2_BitStream(uint8_t* pBuffer, FX_DWORD dwLength) { m_pBuf = pBuffer; m_dwLength = dwLength; m_dwByteIdx = 0; m_dwBitIdx = 0; if (m_dwLength > 256 * 1024 * 1024) { m_dwLength = 0; m_pBuf = NULL; } } inline CJBig2_BitStream::CJBig2_BitStream(CJBig2_BitStream& bs) { m_pBuf = bs.m_pBuf; m_dwLength = bs.m_dwLength; m_dwByteIdx = bs.m_dwByteIdx; m_dwBitIdx = bs.m_dwBitIdx; } inline CJBig2_BitStream::~CJBig2_BitStream() {} inline int32_t CJBig2_BitStream::readNBits(FX_DWORD dwBits, FX_DWORD* dwResult) { FX_DWORD dwTemp = (m_dwByteIdx << 3) + m_dwBitIdx; if (dwTemp <= (m_dwLength << 3)) { *dwResult = 0; if (dwTemp + dwBits <= (m_dwLength << 3)) { dwTemp = dwBits; } else { dwTemp = (m_dwLength << 3) - dwTemp; } while (dwTemp > 0) { *dwResult = (*dwResult << 1) | ((m_pBuf[m_dwByteIdx] >> (7 - m_dwBitIdx)) & 0x01); if (m_dwBitIdx == 7) { m_dwByteIdx++; m_dwBitIdx = 0; } else { m_dwBitIdx++; } dwTemp--; } return 0; } else { return -1; } } inline int32_t CJBig2_BitStream::readNBits(FX_DWORD dwBits, int32_t* nResult) { FX_DWORD dwTemp = (m_dwByteIdx << 3) + m_dwBitIdx; if (dwTemp <= (m_dwLength << 3)) { *nResult = 0; if (dwTemp + dwBits <= (m_dwLength << 3)) { dwTemp = dwBits; } else { dwTemp = (m_dwLength << 3) - dwTemp; } while (dwTemp > 0) { *nResult = (*nResult << 1) | ((m_pBuf[m_dwByteIdx] >> (7 - m_dwBitIdx)) & 0x01); if (m_dwBitIdx == 7) { m_dwByteIdx++; m_dwBitIdx = 0; } else { m_dwBitIdx++; } dwTemp--; } return 0; } else { return -1; } } inline int32_t CJBig2_BitStream::read1Bit(FX_DWORD* dwResult) { if (m_dwByteIdx < m_dwLength) { *dwResult = (m_pBuf[m_dwByteIdx] >> (7 - m_dwBitIdx)) & 0x01; if (m_dwBitIdx == 7) { m_dwByteIdx++; m_dwBitIdx = 0; } else { m_dwBitIdx++; } return 0; } else { return -1; } } inline int32_t CJBig2_BitStream::read1Bit(FX_BOOL* bResult) { if (m_dwByteIdx < m_dwLength) { *bResult = (m_pBuf[m_dwByteIdx] >> (7 - m_dwBitIdx)) & 0x01; if (m_dwBitIdx == 7) { m_dwByteIdx++; m_dwBitIdx = 0; } else { m_dwBitIdx++; } return 0; } else { return -1; } } inline int32_t CJBig2_BitStream::read1Byte(uint8_t* cResult) { if (m_dwByteIdx < m_dwLength) { *cResult = m_pBuf[m_dwByteIdx]; m_dwByteIdx++; return 0; } else { return -1; } } inline int32_t CJBig2_BitStream::readInteger(FX_DWORD* dwResult) { if (m_dwByteIdx + 3 < m_dwLength) { *dwResult = (m_pBuf[m_dwByteIdx] << 24) | (m_pBuf[m_dwByteIdx + 1] << 16) | (m_pBuf[m_dwByteIdx + 2] << 8) | m_pBuf[m_dwByteIdx + 3]; m_dwByteIdx += 4; return 0; } else { return -1; } } inline int32_t CJBig2_BitStream::readShortInteger(FX_WORD* dwResult) { if (m_dwByteIdx + 1 < m_dwLength) { *dwResult = (m_pBuf[m_dwByteIdx] << 8) | m_pBuf[m_dwByteIdx + 1]; m_dwByteIdx += 2; return 0; } else { return -1; } } inline void CJBig2_BitStream::alignByte() { if (m_dwBitIdx != 0) { m_dwByteIdx++; m_dwBitIdx = 0; } } inline void CJBig2_BitStream::align4Byte() { if (m_dwBitIdx != 0) { m_dwByteIdx++; m_dwBitIdx = 0; } m_dwByteIdx = (m_dwByteIdx + 3) & -4; } inline uint8_t CJBig2_BitStream::getAt(FX_DWORD dwOffset) { if (dwOffset < m_dwLength) { return m_pBuf[dwOffset]; } else { return 0; } } inline uint8_t CJBig2_BitStream::getCurByte() { if (m_dwByteIdx < m_dwLength) { return m_pBuf[m_dwByteIdx]; } else { return 0; } } inline uint8_t CJBig2_BitStream::getNextByte() { if (m_dwByteIdx + 1 < m_dwLength) { return m_pBuf[m_dwByteIdx + 1]; } else { return 0; } } inline int32_t CJBig2_BitStream::incByteIdx() { if (m_dwByteIdx < m_dwLength) { m_dwByteIdx++; return 0; } else { return -1; } } inline uint8_t CJBig2_BitStream::getCurByte_arith() { if (m_dwByteIdx < m_dwLength) { return m_pBuf[m_dwByteIdx]; } else { return 0xff; } } inline uint8_t CJBig2_BitStream::getNextByte_arith() { if (m_dwByteIdx + 1 < m_dwLength) { return m_pBuf[m_dwByteIdx + 1]; } else { return 0xff; } } inline FX_DWORD CJBig2_BitStream::getOffset() { return m_dwByteIdx; } inline void CJBig2_BitStream::setOffset(FX_DWORD dwOffset) { if (dwOffset > m_dwLength) { dwOffset = m_dwLength; } m_dwByteIdx = dwOffset; } inline FX_DWORD CJBig2_BitStream::getBitPos() { return (m_dwByteIdx << 3) + m_dwBitIdx; } inline void CJBig2_BitStream::setBitPos(FX_DWORD dwBitPos) { m_dwByteIdx = dwBitPos >> 3; m_dwBitIdx = dwBitPos & 7; } inline uint8_t* CJBig2_BitStream::getBuf() { return m_pBuf; } inline uint8_t* CJBig2_BitStream::getPointer() { return m_pBuf + m_dwByteIdx; } inline void CJBig2_BitStream::offset(FX_DWORD dwOffset) { m_dwByteIdx += dwOffset; } inline FX_DWORD CJBig2_BitStream::getByteLeft() { return m_dwLength - m_dwByteIdx; } #endif