decoder/ihevcd_bitstream.h - platform/external/libhevc - Git at Google

 /******************************************************************************
 *
 * Copyright (C) 2012 Ittiam Systems Pvt Ltd, Bangalore
 *
 * Licensed 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
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 *
 ******************************************************************************/
 /**
 *******************************************************************************
 * @file
 *  ihevcd_bitps_bitstrm.h
 *
 * @brief
 *  Header for bitps_bitstrm access functions
 *
 * @author
 *  Harish
 *
 * @par List of Functions:
 *
 * @remarks
 *  None
 *
 *******************************************************************************
 */

 #ifndef _IHEVCD_BITSTREAM_H_
 #define _IHEVCD_BITSTREAM_H_
 /**
  *  @brief  defines the maximum number of bits in a bitstream word
  */
 #define WORD_SIZE         32
 /**
  *  @brief  Twice the WORD_SIZE
  */
 #define DBL_WORD_SIZE     (2 * (WORD_SIZE))

 /**
  *  @brief  WORD_SIZE - 1
  */
 #define WORD_SIZE_MINUS1  (WORD_SIZE - 1)

 /**
 ******************************************************************************
 * @brief Macro used to copy elements in bistream structure to local variables.
 ******************************************************************************
 */

 #define GET_STREAM(m_ps_bitstrm, m_pu4_buf, m_u4_bit_ofst,  \
                   m_u4_cur_word, m_u4_nxt_word)             \
 {                                                           \
     m_pu4_buf            = m_ps_bitstrm->pu4_buf;           \
     m_u4_bit_ofst        = m_ps_bitstrm->u4_bit_ofst;       \
     m_u4_cur_word        = m_ps_bitstrm->u4_cur_word;       \
     m_u4_nxt_word        = m_ps_bitstrm->u4_nxt_word;       \
 }

 /**
 ******************************************************************************
 * @brief Macro used to copy local variables to elements in bistream structure.
 ******************************************************************************
 */
 #define SET_STREAM(m_ps_bitstrm, m_pu4_buf, m_u4_bit_ofst,  \
                   m_u4_cur_word, m_u4_nxt_word)             \
 {                                                           \
     m_ps_bitstrm->pu4_buf       = m_pu4_buf;                \
     m_ps_bitstrm->u4_bit_ofst   = m_u4_bit_ofst;            \
     m_ps_bitstrm->u4_cur_word   = m_u4_cur_word;            \
     m_ps_bitstrm->u4_nxt_word   = m_u4_nxt_word;            \
 }


 /**
 ******************************************************************************
 * @brief  Snoop next m_cnt bits without updating offsets or buffer increments.
 * Data is not consumed in this call
 ******************************************************************************
 */
 #define BITS_NXT(m_u4_bits, m_pu4_buf, m_u4_bit_ofst,       \
                  m_u4_cur_word, m_u4_nxt_word, m_cnt)       \
 {                                                           \
     m_u4_bits = (m_u4_cur_word << m_u4_bit_ofst)  >>        \
                               (WORD_SIZE - m_cnt);          \
                                                             \
     if(m_u4_bit_ofst > (WORD_SIZE - m_cnt))                 \
     {                                                       \
         m_u4_bits |= SHR(m_u4_nxt_word,                     \
                    (WORD_SIZE + WORD_SIZE - m_cnt           \
                           - m_u4_bit_ofst));                \
     }                                                       \
 }


 /**
 ******************************************************************************
 *  @brief Snoop next 32 bits without updating offsets or buffer increments.
 * Data is not consumed in this call
 ******************************************************************************
 */
 #define BITS_NXT32(m_u4_bits, m_pu4_buf, m_u4_bit_ofst,             \
                  m_u4_cur_word, m_u4_nxt_word)                      \
 {                                                                   \
     m_u4_bits = (m_u4_cur_word << m_u4_bit_ofst);                   \
                                                                     \
     m_u4_bits |= SHR(m_u4_nxt_word, (WORD_SIZE - m_u4_bit_ofst));   \
 }


 /**
 ******************************************************************************
 *  @brief  Flush m_u4_bits and updated the buffer pointer.
 * Data is consumed
 ******************************************************************************
 */
 #define BITS_FLUSH(m_pu4_buf, m_u4_bit_ofst, m_u4_cur_word, \
                     m_u4_nxt_word, m_cnt)                   \
 {                                                           \
     UWORD32 temp;                                           \
                                                             \
     m_u4_bit_ofst += m_cnt;                                 \
     if( m_u4_bit_ofst >=   WORD_SIZE )                      \
     {                                                       \
         m_u4_cur_word  = m_u4_nxt_word;                     \
         /* Getting the next word */                         \
         temp = *(m_pu4_buf++);                              \
                                                             \
         m_u4_bit_ofst -= WORD_SIZE;                         \
         /* Swapping little endian to big endian conversion*/\
         m_u4_nxt_word = ITT_BIG_ENDIAN(temp);                   \
     }                                                       \
 }
 /**
 ******************************************************************************
 *  @brief Get m_cnt number of bits and update bffer pointers and offset.
 * Data is consumed
 ******************************************************************************
 */
 #define BITS_GET(m_u4_bits, m_pu4_buf, m_u4_bit_ofst,           \
                           m_u4_cur_word,m_u4_nxt_word, m_cnt)   \
 {                                                               \
     m_u4_bits = (m_u4_cur_word << m_u4_bit_ofst)                \
                              >> (WORD_SIZE - m_cnt);            \
     m_u4_bit_ofst += m_cnt;                                     \
     if(m_u4_bit_ofst > WORD_SIZE)                               \
     {                                                           \
         m_u4_bits |= SHR(m_u4_nxt_word,                         \
                      (DBL_WORD_SIZE - m_u4_bit_ofst));          \
     }                                                           \
                                                                 \
     if( m_u4_bit_ofst >=   WORD_SIZE )                          \
     {                                                           \
         UWORD32 pu4_word_tmp;                                   \
         m_u4_cur_word  = m_u4_nxt_word;                         \
         /* Getting the next word */                             \
         pu4_word_tmp = *(m_pu4_buf++);                          \
                                                                 \
         m_u4_bit_ofst -= WORD_SIZE;                             \
         /* Swapping little endian to big endian conversion*/    \
         m_u4_nxt_word  = ITT_BIG_ENDIAN(pu4_word_tmp);              \
     }                                                           \
 }

 /**
 ******************************************************************************
 *  @brief Get 1 bit and update buffer pointers and offset.
 * Data is consumed
 ******************************************************************************
 */

 #define BIT_GET(m_u4_bits,m_pu4_buf,m_u4_bit_ofst,              \
                           m_u4_cur_word,m_u4_nxt_word)          \
 {                                                               \
     m_u4_bits = (m_u4_cur_word << m_u4_bit_ofst)                \
                              >> (WORD_SIZE_MINUS1);             \
     m_u4_bit_ofst++;                                            \
                                                                 \
     if(m_u4_bit_ofst ==  WORD_SIZE)                             \
     {                                                           \
         UWORD32 pu4_word_tmp;                                   \
         m_u4_cur_word  = m_u4_nxt_word;                         \
         /* Getting the next word */                             \
         pu4_word_tmp = *m_pu4_buf++;                            \
                                                                 \
         m_u4_bit_ofst = 0;                                      \
         /* Swapping little endian to big endian conversion*/    \
         m_u4_nxt_word  = ITT_BIG_ENDIAN(pu4_word_tmp);              \
     }                                                           \
 }

 void ihevcd_bits_init(bitstrm_t *ps_bitstrm,
                       UWORD8 *pu1_buf,
                       UWORD32 u4_numbytes);
 void ihevcd_bits_flush(bitstrm_t *ps_bitstrm, UWORD32 u4_numbits);

 void ihevcd_bits_flush_to_byte_boundary(bitstrm_t *ps_bitstrm);

 UWORD32 ihevcd_bits_nxt(bitstrm_t *ps_bitstrm, UWORD32 u4_numbits);

 UWORD32 ihevcd_bits_nxt32(bitstrm_t *ps_bitstrm, UWORD32 u4_numbits);


 UWORD32 ihevcd_bits_get(bitstrm_t *ps_bitstrm, UWORD32 u4_numbits);

 UWORD32  ihevcd_bits_num_bits_remaining(bitstrm_t *ps_bitstrm);


 UWORD32  ihevcd_bits_num_bits_consumed(bitstrm_t *ps_bitstrm);

 UWORD32 ihevcd_uev(bitstrm_t *ps_bitstrm);

 WORD32 ihevcd_sev(bitstrm_t *ps_bitstrm);

 void ihevcd_bits_seek(bitstrm_t *ps_bitstrm, WORD32 numbits);

 #endif /* _IHEVCD_BITSTREAM_H_ */
	/******************************************************************************
	*
	* Copyright (C) 2012 Ittiam Systems Pvt Ltd, Bangalore
	*
	* Licensed 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
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	******************************************************************************/
	/**
	*******************************************************************************
	* @file
	* ihevcd_bitps_bitstrm.h
	*
	* @brief
	* Header for bitps_bitstrm access functions
	*
	* @author
	* Harish
	*
	* @par List of Functions:
	*
	* @remarks
	* None
	*
	*******************************************************************************
	*/

	#ifndef _IHEVCD_BITSTREAM_H_
	#define _IHEVCD_BITSTREAM_H_
	/**
	* @brief defines the maximum number of bits in a bitstream word
	*/
	#define WORD_SIZE 32
	/**
	* @brief Twice the WORD_SIZE
	*/
	#define DBL_WORD_SIZE (2 * (WORD_SIZE))

	/**
	* @brief WORD_SIZE - 1
	*/
	#define WORD_SIZE_MINUS1 (WORD_SIZE - 1)

	/**
	******************************************************************************
	* @brief Macro used to copy elements in bistream structure to local variables.
	******************************************************************************
	*/

	#define GET_STREAM(m_ps_bitstrm, m_pu4_buf, m_u4_bit_ofst, \
	m_u4_cur_word, m_u4_nxt_word) \
	{ \
	m_pu4_buf = m_ps_bitstrm->pu4_buf; \
	m_u4_bit_ofst = m_ps_bitstrm->u4_bit_ofst; \
	m_u4_cur_word = m_ps_bitstrm->u4_cur_word; \
	m_u4_nxt_word = m_ps_bitstrm->u4_nxt_word; \
	}

	/**
	******************************************************************************
	* @brief Macro used to copy local variables to elements in bistream structure.
	******************************************************************************
	*/
	#define SET_STREAM(m_ps_bitstrm, m_pu4_buf, m_u4_bit_ofst, \
	m_u4_cur_word, m_u4_nxt_word) \
	{ \
	m_ps_bitstrm->pu4_buf = m_pu4_buf; \
	m_ps_bitstrm->u4_bit_ofst = m_u4_bit_ofst; \
	m_ps_bitstrm->u4_cur_word = m_u4_cur_word; \
	m_ps_bitstrm->u4_nxt_word = m_u4_nxt_word; \
	}



	/**
	******************************************************************************
	* @brief Snoop next m_cnt bits without updating offsets or buffer increments.
	* Data is not consumed in this call
	******************************************************************************
	*/
	#define BITS_NXT(m_u4_bits, m_pu4_buf, m_u4_bit_ofst, \
	m_u4_cur_word, m_u4_nxt_word, m_cnt) \
	{ \
	m_u4_bits = (m_u4_cur_word << m_u4_bit_ofst) >> \
	(WORD_SIZE - m_cnt); \
	\
	if(m_u4_bit_ofst > (WORD_SIZE - m_cnt)) \
	{ \
	m_u4_bits \|= SHR(m_u4_nxt_word, \
	(WORD_SIZE + WORD_SIZE - m_cnt \
	- m_u4_bit_ofst)); \
	} \
	}


	/**
	******************************************************************************
	* @brief Snoop next 32 bits without updating offsets or buffer increments.
	* Data is not consumed in this call
	******************************************************************************
	*/
	#define BITS_NXT32(m_u4_bits, m_pu4_buf, m_u4_bit_ofst, \
	m_u4_cur_word, m_u4_nxt_word) \
	{ \
	m_u4_bits = (m_u4_cur_word << m_u4_bit_ofst); \
	\
	m_u4_bits \|= SHR(m_u4_nxt_word, (WORD_SIZE - m_u4_bit_ofst)); \
	}


	/**
	******************************************************************************
	* @brief Flush m_u4_bits and updated the buffer pointer.
	* Data is consumed
	******************************************************************************
	*/
	#define BITS_FLUSH(m_pu4_buf, m_u4_bit_ofst, m_u4_cur_word, \
	m_u4_nxt_word, m_cnt) \
	{ \
	UWORD32 temp; \
	\
	m_u4_bit_ofst += m_cnt; \
	if( m_u4_bit_ofst >= WORD_SIZE ) \
	{ \
	m_u4_cur_word = m_u4_nxt_word; \
	/* Getting the next word */ \
	temp = *(m_pu4_buf++); \
	\
	m_u4_bit_ofst -= WORD_SIZE; \
	/* Swapping little endian to big endian conversion*/\
	m_u4_nxt_word = ITT_BIG_ENDIAN(temp); \
	} \
	}
	/**
	******************************************************************************
	* @brief Get m_cnt number of bits and update bffer pointers and offset.
	* Data is consumed
	******************************************************************************
	*/
	#define BITS_GET(m_u4_bits, m_pu4_buf, m_u4_bit_ofst, \
	m_u4_cur_word,m_u4_nxt_word, m_cnt) \
	{ \
	m_u4_bits = (m_u4_cur_word << m_u4_bit_ofst) \
	>> (WORD_SIZE - m_cnt); \
	m_u4_bit_ofst += m_cnt; \
	if(m_u4_bit_ofst > WORD_SIZE) \
	{ \
	m_u4_bits \|= SHR(m_u4_nxt_word, \
	(DBL_WORD_SIZE - m_u4_bit_ofst)); \
	} \
	\
	if( m_u4_bit_ofst >= WORD_SIZE ) \
	{ \
	UWORD32 pu4_word_tmp; \
	m_u4_cur_word = m_u4_nxt_word; \
	/* Getting the next word */ \
	pu4_word_tmp = *(m_pu4_buf++); \
	\
	m_u4_bit_ofst -= WORD_SIZE; \
	/* Swapping little endian to big endian conversion*/ \
	m_u4_nxt_word = ITT_BIG_ENDIAN(pu4_word_tmp); \
	} \
	}

	/**
	******************************************************************************
	* @brief Get 1 bit and update buffer pointers and offset.
	* Data is consumed
	******************************************************************************
	*/

	#define BIT_GET(m_u4_bits,m_pu4_buf,m_u4_bit_ofst, \
	m_u4_cur_word,m_u4_nxt_word) \
	{ \
	m_u4_bits = (m_u4_cur_word << m_u4_bit_ofst) \
	>> (WORD_SIZE_MINUS1); \
	m_u4_bit_ofst++; \
	\
	if(m_u4_bit_ofst == WORD_SIZE) \
	{ \
	UWORD32 pu4_word_tmp; \
	m_u4_cur_word = m_u4_nxt_word; \
	/* Getting the next word */ \
	pu4_word_tmp = *m_pu4_buf++; \
	\
	m_u4_bit_ofst = 0; \
	/* Swapping little endian to big endian conversion*/ \
	m_u4_nxt_word = ITT_BIG_ENDIAN(pu4_word_tmp); \
	} \
	}

	void ihevcd_bits_init(bitstrm_t *ps_bitstrm,
	UWORD8 *pu1_buf,
	UWORD32 u4_numbytes);
	void ihevcd_bits_flush(bitstrm_t *ps_bitstrm, UWORD32 u4_numbits);

	void ihevcd_bits_flush_to_byte_boundary(bitstrm_t *ps_bitstrm);

	UWORD32 ihevcd_bits_nxt(bitstrm_t *ps_bitstrm, UWORD32 u4_numbits);

	UWORD32 ihevcd_bits_nxt32(bitstrm_t *ps_bitstrm, UWORD32 u4_numbits);


	UWORD32 ihevcd_bits_get(bitstrm_t *ps_bitstrm, UWORD32 u4_numbits);

	UWORD32 ihevcd_bits_num_bits_remaining(bitstrm_t *ps_bitstrm);


	UWORD32 ihevcd_bits_num_bits_consumed(bitstrm_t *ps_bitstrm);

	UWORD32 ihevcd_uev(bitstrm_t *ps_bitstrm);

	WORD32 ihevcd_sev(bitstrm_t *ps_bitstrm);

	void ihevcd_bits_seek(bitstrm_t *ps_bitstrm, WORD32 numbits);

	#endif /* _IHEVCD_BITSTREAM_H_ */