jni/pjproject-android/.svn/pristine/6f/6f022f529d50e94a22bc2b6870728abe2a75e513.svn-base - jami-client-android - Gitiles

 /* $Id$ */
 /*
  * Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com)
  * Copyright (C) 2003-2008 Benny Prijono <benny@prijono.org>
  *
  * This program is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License as published by
  * the Free Software Foundation; either version 2 of the License, or
  * (at your option) any later version.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
  */

 #ifndef __PJMEDIA_CIRC_BUF_H__
 #define __PJMEDIA_CIRC_BUF_H__

 /**
  * @file circbuf.h
  * @brief Circular Buffer.
  */

 #include <pj/assert.h>
 #include <pj/errno.h>
 #include <pj/pool.h>
 #include <pjmedia/frame.h>

 /**
  * @defgroup PJMED_CIRCBUF Circular Buffer
  * @ingroup PJMEDIA_FRAME_OP
  * @brief Circular buffer manages read and write contiguous audio samples in a
  * non-contiguous buffer as if the buffer were contiguous. This should give
  * better performance than keeping contiguous samples in a contiguous buffer,
  * since read/write operations will only update the pointers, instead of
  * shifting audio samples.
  *
  * @{
  *
  * This section describes PJMEDIA's implementation of circular buffer.
  */

 /* Algorithm checkings, for development purpose only */
 #if 0
 #   define PJMEDIA_CIRC_BUF_CHECK(x) pj_assert(x)
 #else
 #   define PJMEDIA_CIRC_BUF_CHECK(x)
 #endif

 PJ_BEGIN_DECL

 /**
  * Circular buffer structure
  */
 typedef struct pjmedia_circ_buf {
     pj_int16_t	    *buf;	    /**< The buffer			*/
     unsigned	     capacity;	    /**< Buffer capacity, in samples	*/

     pj_int16_t	    *start;	    /**< Pointer to the first sample	*/
     unsigned	     len;	    /**< Audio samples length,
 					 in samples			*/
 } pjmedia_circ_buf;


 /**
  * Create the circular buffer.
  *
  * @param pool		    Pool where the circular buffer will be allocated
  *			    from.
  * @param capacity	    Capacity of the buffer, in samples.
  * @param p_cb		    Pointer to receive the circular buffer instance.
  *
  * @return		    PJ_SUCCESS if the circular buffer has been
  *			    created successfully, otherwise the appropriate
  *			    error will be returned.
  */
 PJ_INLINE(pj_status_t) pjmedia_circ_buf_create(pj_pool_t *pool,
 					       unsigned capacity,
 					       pjmedia_circ_buf **p_cb)
 {
     pjmedia_circ_buf *cbuf;

     cbuf = PJ_POOL_ZALLOC_T(pool, pjmedia_circ_buf);
     cbuf->buf = (pj_int16_t*) pj_pool_calloc(pool, capacity,
 					     sizeof(pj_int16_t));
     cbuf->capacity = capacity;
     cbuf->start = cbuf->buf;
     cbuf->len = 0;

     *p_cb = cbuf;

     return PJ_SUCCESS;
 }


 /**
  * Reset the circular buffer.
  *
  * @param circbuf	    The circular buffer.
  *
  * @return		    PJ_SUCCESS when successful.
  */
 PJ_INLINE(pj_status_t) pjmedia_circ_buf_reset(pjmedia_circ_buf *circbuf)
 {
     circbuf->start = circbuf->buf;
     circbuf->len = 0;

     return PJ_SUCCESS;
 }


 /**
  * Get the circular buffer length, it is number of samples buffered in the
  * circular buffer.
  *
  * @param circbuf	    The circular buffer.
  *
  * @return		    The buffer length.
  */
 PJ_INLINE(unsigned) pjmedia_circ_buf_get_len(pjmedia_circ_buf *circbuf)
 {
     return circbuf->len;
 }


 /**
  * Set circular buffer length. This is useful when audio buffer is manually
  * manipulated by the user, e.g: shrinked, expanded.
  *
  * @param circbuf	    The circular buffer.
  * @param len		    The new buffer length.
  */
 PJ_INLINE(void) pjmedia_circ_buf_set_len(pjmedia_circ_buf *circbuf,
 					 unsigned len)
 {
     PJMEDIA_CIRC_BUF_CHECK(len <= circbuf->capacity);
     circbuf->len = len;
 }


 /**
  * Advance the read pointer of circular buffer. This function will discard
  * the skipped samples while advancing the read pointer, thus reducing
  * the buffer length.
  *
  * @param circbuf	    The circular buffer.
  * @param count		    Distance from current read pointer, can only be
  *			    possitive number, in samples.
  *
  * @return		    PJ_SUCCESS when successful, otherwise
  *			    the appropriate error will be returned.
  */
 PJ_INLINE(pj_status_t) pjmedia_circ_buf_adv_read_ptr(pjmedia_circ_buf *circbuf,
 						     unsigned count)
 {
     if (count >= circbuf->len)
 	return pjmedia_circ_buf_reset(circbuf);

     PJMEDIA_CIRC_BUF_CHECK(count <= circbuf->len);

     circbuf->start += count;
     if (circbuf->start >= circbuf->buf + circbuf->capacity)
 	circbuf->start -= circbuf->capacity;
     circbuf->len -= count;

     return PJ_SUCCESS;
 }


 /**
  * Advance the write pointer of circular buffer. Since write pointer is always
  * pointing to a sample after the end of sample, so this function also means
  * increasing the buffer length.
  *
  * @param circbuf	    The circular buffer.
  * @param count		    Distance from current write pointer, can only be
  *			    possitive number, in samples.
  *
  * @return		    PJ_SUCCESS when successful, otherwise
  *			    the appropriate error will be returned.
  */
 PJ_INLINE(pj_status_t) pjmedia_circ_buf_adv_write_ptr(pjmedia_circ_buf *circbuf,
 						      unsigned count)
 {
     if (count + circbuf->len > circbuf->capacity)
 	return PJ_ETOOBIG;

     circbuf->len += count;

     return PJ_SUCCESS;
 }


 /**
  * Get the real buffer addresses containing the audio samples.
  *
  * @param circbuf	    The circular buffer.
  * @param reg1		    Pointer to store the first buffer address.
  * @param reg1_len	    Pointer to store the length of the first buffer,
  *			    in samples.
  * @param reg2		    Pointer to store the second buffer address.
  * @param reg2_len	    Pointer to store the length of the second buffer,
  *			    in samples.
  */
 PJ_INLINE(void) pjmedia_circ_buf_get_read_regions(pjmedia_circ_buf *circbuf,
 						  pj_int16_t **reg1,
 						  unsigned *reg1_len,
 						  pj_int16_t **reg2,
 						  unsigned *reg2_len)
 {
     *reg1 = circbuf->start;
     *reg1_len = circbuf->len;
     if (*reg1 + *reg1_len > circbuf->buf + circbuf->capacity) {
 	*reg1_len = (unsigned)(circbuf->buf + circbuf->capacity -
 			       circbuf->start);
 	*reg2 = circbuf->buf;
 	*reg2_len = circbuf->len - *reg1_len;
     } else {
 	*reg2 = NULL;
 	*reg2_len = 0;
     }

     PJMEDIA_CIRC_BUF_CHECK(*reg1_len != 0 || (*reg1_len == 0 &&
 					      circbuf->len == 0));
     PJMEDIA_CIRC_BUF_CHECK(*reg1_len + *reg2_len == circbuf->len);
 }


 /**
  * Get the real buffer addresses that is empty or writeable.
  *
  * @param circbuf	    The circular buffer.
  * @param reg1		    Pointer to store the first buffer address.
  * @param reg1_len	    Pointer to store the length of the first buffer,
  *			    in samples.
  * @param reg2		    Pointer to store the second buffer address.
  * @param reg2_len	    Pointer to store the length of the second buffer,
  *			    in samples.
  */
 PJ_INLINE(void) pjmedia_circ_buf_get_write_regions(pjmedia_circ_buf *circbuf,
 						   pj_int16_t **reg1,
 						   unsigned *reg1_len,
 						   pj_int16_t **reg2,
 						   unsigned *reg2_len)
 {
     *reg1 = circbuf->start + circbuf->len;
     if (*reg1 >= circbuf->buf + circbuf->capacity)
 	*reg1 -= circbuf->capacity;
     *reg1_len = circbuf->capacity - circbuf->len;
     if (*reg1 + *reg1_len > circbuf->buf + circbuf->capacity) {
 	*reg1_len = (unsigned)(circbuf->buf + circbuf->capacity - *reg1);
 	*reg2 = circbuf->buf;
 	*reg2_len = (unsigned)(circbuf->start - circbuf->buf);
     } else {
 	*reg2 = NULL;
 	*reg2_len = 0;
     }

     PJMEDIA_CIRC_BUF_CHECK(*reg1_len != 0 || (*reg1_len == 0 &&
 					      circbuf->len == 0));
     PJMEDIA_CIRC_BUF_CHECK(*reg1_len + *reg2_len == circbuf->capacity -
 			   circbuf->len);
 }


 /**
  * Read audio samples from the circular buffer.
  *
  * @param circbuf	    The circular buffer.
  * @param data		    Buffer to store the read audio samples.
  * @param count		    Number of samples being read.
  *
  * @return		    PJ_SUCCESS when successful, otherwise
  *			    the appropriate error will be returned.
  */
 PJ_INLINE(pj_status_t) pjmedia_circ_buf_read(pjmedia_circ_buf *circbuf,
 					     pj_int16_t *data,
 					     unsigned count)
 {
     pj_int16_t *reg1, *reg2;
     unsigned reg1cnt, reg2cnt;

     /* Data in the buffer is less than requested */
     if (count > circbuf->len)
 	return PJ_ETOOBIG;

     pjmedia_circ_buf_get_read_regions(circbuf, &reg1, &reg1cnt,
 				      &reg2, &reg2cnt);
     if (reg1cnt >= count) {
 	pjmedia_copy_samples(data, reg1, count);
     } else {
 	pjmedia_copy_samples(data, reg1, reg1cnt);
 	pjmedia_copy_samples(data + reg1cnt, reg2, count - reg1cnt);
     }

     return pjmedia_circ_buf_adv_read_ptr(circbuf, count);
 }


 /**
  * Write audio samples to the circular buffer.
  *
  * @param circbuf	    The circular buffer.
  * @param data		    Audio samples to be written.
  * @param count		    Number of samples being written.
  *
  * @return		    PJ_SUCCESS when successful, otherwise
  *			    the appropriate error will be returned.
  */
 PJ_INLINE(pj_status_t) pjmedia_circ_buf_write(pjmedia_circ_buf *circbuf,
 					      pj_int16_t *data,
 					      unsigned count)
 {
     pj_int16_t *reg1, *reg2;
     unsigned reg1cnt, reg2cnt;

     /* Data to write is larger than buffer can store */
     if (count > circbuf->capacity - circbuf->len)
 	return PJ_ETOOBIG;

     pjmedia_circ_buf_get_write_regions(circbuf, &reg1, &reg1cnt,
 				       &reg2, &reg2cnt);
     if (reg1cnt >= count) {
 	pjmedia_copy_samples(reg1, data, count);
     } else {
 	pjmedia_copy_samples(reg1, data, reg1cnt);
 	pjmedia_copy_samples(reg2, data + reg1cnt, count - reg1cnt);
     }

     return pjmedia_circ_buf_adv_write_ptr(circbuf, count);
 }


 /**
  * Copy audio samples from the circular buffer without changing its state.
  *
  * @param circbuf	    The circular buffer.
  * @param start_idx	    Starting sample index to be copied.
  * @param data		    Buffer to store the read audio samples.
  * @param count		    Number of samples being read.
  *
  * @return		    PJ_SUCCESS when successful, otherwise
  *			    the appropriate error will be returned.
  */
 PJ_INLINE(pj_status_t) pjmedia_circ_buf_copy(pjmedia_circ_buf *circbuf,
 					     unsigned start_idx,
 					     pj_int16_t *data,
 					     unsigned count)
 {
     pj_int16_t *reg1, *reg2;
     unsigned reg1cnt, reg2cnt;

     /* Data in the buffer is less than requested */
     if (count + start_idx > circbuf->len)
 	return PJ_ETOOBIG;

     pjmedia_circ_buf_get_read_regions(circbuf, &reg1, &reg1cnt,
 				      &reg2, &reg2cnt);
     if (reg1cnt > start_idx) {
 	unsigned tmp_len;
 	tmp_len = reg1cnt - start_idx;
 	if (tmp_len > count)
 	    tmp_len = count;
 	pjmedia_copy_samples(data, reg1 + start_idx, tmp_len);
 	if (tmp_len < count)
 	    pjmedia_copy_samples(data + tmp_len, reg2, count - tmp_len);
     } else {
 	pjmedia_copy_samples(data, reg2 + start_idx - reg1cnt, count);
     }

     return PJ_SUCCESS;
 }


 /**
  * Pack the buffer so the first sample will be in the beginning of the buffer.
  * This will also make the buffer contiguous.
  *
  * @param circbuf	    The circular buffer.
  *
  * @return		    PJ_SUCCESS when successful, otherwise
  *			    the appropriate error will be returned.
  */
 PJ_INLINE(pj_status_t) pjmedia_circ_buf_pack_buffer(pjmedia_circ_buf *circbuf)
 {
     pj_int16_t *reg1, *reg2;
     unsigned reg1cnt, reg2cnt;
     unsigned gap;

     pjmedia_circ_buf_get_read_regions(circbuf, &reg1, &reg1cnt,
 				      &reg2, &reg2cnt);

     /* Check if not contigue */
     if (reg2cnt != 0) {
 	/* Check if no space left to roll the buffer
 	 * (or should this function provide temporary buffer?)
 	 */
 	gap = circbuf->capacity - pjmedia_circ_buf_get_len(circbuf);
 	if (gap == 0)
 	    return PJ_ETOOBIG;

 	/* Roll buffer left using the gap until reg2cnt == 0 */
 	do {
 	    if (gap > reg2cnt)
 		gap = reg2cnt;
 	    pjmedia_move_samples(reg1 - gap, reg1, reg1cnt);
 	    pjmedia_copy_samples(reg1 + reg1cnt - gap, reg2, gap);
 	    if (gap < reg2cnt)
 		pjmedia_move_samples(reg2, reg2 + gap, reg2cnt - gap);
 	    reg1 -= gap;
 	    reg1cnt += gap;
 	    reg2cnt -= gap;
 	} while (reg2cnt > 0);
     }

     /* Finally, Shift samples to the left edge */
     if (reg1 != circbuf->buf)
 	pjmedia_move_samples(circbuf->buf, reg1,
 			     pjmedia_circ_buf_get_len(circbuf));
     circbuf->start = circbuf->buf;

     return PJ_SUCCESS;
 }


 PJ_END_DECL

 /**
  * @}
  */

 #endif
	/* $Id$ */
	/*
	* Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com)
	* Copyright (C) 2003-2008 Benny Prijono <benny@prijono.org>
	*
	* This program is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License as published by
	* the Free Software Foundation; either version 2 of the License, or
	* (at your option) any later version.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, write to the Free Software
	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
	*/

	#ifndef __PJMEDIA_CIRC_BUF_H__
	#define __PJMEDIA_CIRC_BUF_H__

	/**
	* @file circbuf.h
	* @brief Circular Buffer.
	*/

	#include <pj/assert.h>
	#include <pj/errno.h>
	#include <pj/pool.h>
	#include <pjmedia/frame.h>

	/**
	* @defgroup PJMED_CIRCBUF Circular Buffer
	* @ingroup PJMEDIA_FRAME_OP
	* @brief Circular buffer manages read and write contiguous audio samples in a
	* non-contiguous buffer as if the buffer were contiguous. This should give
	* better performance than keeping contiguous samples in a contiguous buffer,
	* since read/write operations will only update the pointers, instead of
	* shifting audio samples.
	*
	* @{
	*
	* This section describes PJMEDIA's implementation of circular buffer.
	*/

	/* Algorithm checkings, for development purpose only */
	#if 0
	# define PJMEDIA_CIRC_BUF_CHECK(x) pj_assert(x)
	#else
	# define PJMEDIA_CIRC_BUF_CHECK(x)
	#endif

	PJ_BEGIN_DECL

	/**
	* Circular buffer structure
	*/
	typedef struct pjmedia_circ_buf {
	pj_int16_t buf; /< The buffer /
	unsigned capacity; /*< Buffer capacity, in samples /

	pj_int16_t start; /< Pointer to the first sample /
	unsigned len; /**< Audio samples length,
	in samples */
	} pjmedia_circ_buf;


	/**
	* Create the circular buffer.
	*
	* @param pool Pool where the circular buffer will be allocated
	* from.
	* @param capacity Capacity of the buffer, in samples.
	* @param p_cb Pointer to receive the circular buffer instance.
	*
	* @return PJ_SUCCESS if the circular buffer has been
	* created successfully, otherwise the appropriate
	* error will be returned.
	*/
	PJ_INLINE(pj_status_t) pjmedia_circ_buf_create(pj_pool_t *pool,
	unsigned capacity,
	pjmedia_circ_buf **p_cb)
	{
	pjmedia_circ_buf *cbuf;

	cbuf = PJ_POOL_ZALLOC_T(pool, pjmedia_circ_buf);
	cbuf->buf = (pj_int16_t*) pj_pool_calloc(pool, capacity,
	sizeof(pj_int16_t));
	cbuf->capacity = capacity;
	cbuf->start = cbuf->buf;
	cbuf->len = 0;

	*p_cb = cbuf;

	return PJ_SUCCESS;
	}


	/**
	* Reset the circular buffer.
	*
	* @param circbuf The circular buffer.
	*
	* @return PJ_SUCCESS when successful.
	*/
	PJ_INLINE(pj_status_t) pjmedia_circ_buf_reset(pjmedia_circ_buf *circbuf)
	{
	circbuf->start = circbuf->buf;
	circbuf->len = 0;

	return PJ_SUCCESS;
	}


	/**
	* Get the circular buffer length, it is number of samples buffered in the
	* circular buffer.
	*
	* @param circbuf The circular buffer.
	*
	* @return The buffer length.
	*/
	PJ_INLINE(unsigned) pjmedia_circ_buf_get_len(pjmedia_circ_buf *circbuf)
	{
	return circbuf->len;
	}


	/**
	* Set circular buffer length. This is useful when audio buffer is manually
	* manipulated by the user, e.g: shrinked, expanded.
	*
	* @param circbuf The circular buffer.
	* @param len The new buffer length.
	*/
	PJ_INLINE(void) pjmedia_circ_buf_set_len(pjmedia_circ_buf *circbuf,
	unsigned len)
	{
	PJMEDIA_CIRC_BUF_CHECK(len <= circbuf->capacity);
	circbuf->len = len;
	}


	/**
	* Advance the read pointer of circular buffer. This function will discard
	* the skipped samples while advancing the read pointer, thus reducing
	* the buffer length.
	*
	* @param circbuf The circular buffer.
	* @param count Distance from current read pointer, can only be
	* possitive number, in samples.
	*
	* @return PJ_SUCCESS when successful, otherwise
	* the appropriate error will be returned.
	*/
	PJ_INLINE(pj_status_t) pjmedia_circ_buf_adv_read_ptr(pjmedia_circ_buf *circbuf,
	unsigned count)
	{
	if (count >= circbuf->len)
	return pjmedia_circ_buf_reset(circbuf);

	PJMEDIA_CIRC_BUF_CHECK(count <= circbuf->len);

	circbuf->start += count;
	if (circbuf->start >= circbuf->buf + circbuf->capacity)
	circbuf->start -= circbuf->capacity;
	circbuf->len -= count;

	return PJ_SUCCESS;
	}


	/**
	* Advance the write pointer of circular buffer. Since write pointer is always
	* pointing to a sample after the end of sample, so this function also means
	* increasing the buffer length.
	*
	* @param circbuf The circular buffer.
	* @param count Distance from current write pointer, can only be
	* possitive number, in samples.
	*
	* @return PJ_SUCCESS when successful, otherwise
	* the appropriate error will be returned.
	*/
	PJ_INLINE(pj_status_t) pjmedia_circ_buf_adv_write_ptr(pjmedia_circ_buf *circbuf,
	unsigned count)
	{
	if (count + circbuf->len > circbuf->capacity)
	return PJ_ETOOBIG;

	circbuf->len += count;

	return PJ_SUCCESS;
	}


	/**
	* Get the real buffer addresses containing the audio samples.
	*
	* @param circbuf The circular buffer.
	* @param reg1 Pointer to store the first buffer address.
	* @param reg1_len Pointer to store the length of the first buffer,
	* in samples.
	* @param reg2 Pointer to store the second buffer address.
	* @param reg2_len Pointer to store the length of the second buffer,
	* in samples.
	*/
	PJ_INLINE(void) pjmedia_circ_buf_get_read_regions(pjmedia_circ_buf *circbuf,
	pj_int16_t **reg1,
	unsigned *reg1_len,
	pj_int16_t **reg2,
	unsigned *reg2_len)
	{
	*reg1 = circbuf->start;
	*reg1_len = circbuf->len;
	if (reg1 + reg1_len > circbuf->buf + circbuf->capacity) {
	*reg1_len = (unsigned)(circbuf->buf + circbuf->capacity -
	circbuf->start);
	*reg2 = circbuf->buf;
	reg2_len = circbuf->len - reg1_len;
	} else {
	*reg2 = NULL;
	*reg2_len = 0;
	}

	PJMEDIA_CIRC_BUF_CHECK(reg1_len != 0 \|\| (reg1_len == 0 &&
	circbuf->len == 0));
	PJMEDIA_CIRC_BUF_CHECK(reg1_len + reg2_len == circbuf->len);
	}


	/**
	* Get the real buffer addresses that is empty or writeable.
	*
	* @param circbuf The circular buffer.
	* @param reg1 Pointer to store the first buffer address.
	* @param reg1_len Pointer to store the length of the first buffer,
	* in samples.
	* @param reg2 Pointer to store the second buffer address.
	* @param reg2_len Pointer to store the length of the second buffer,
	* in samples.
	*/
	PJ_INLINE(void) pjmedia_circ_buf_get_write_regions(pjmedia_circ_buf *circbuf,
	pj_int16_t **reg1,
	unsigned *reg1_len,
	pj_int16_t **reg2,
	unsigned *reg2_len)
	{
	*reg1 = circbuf->start + circbuf->len;
	if (*reg1 >= circbuf->buf + circbuf->capacity)
	*reg1 -= circbuf->capacity;
	*reg1_len = circbuf->capacity - circbuf->len;
	if (reg1 + reg1_len > circbuf->buf + circbuf->capacity) {
	reg1_len = (unsigned)(circbuf->buf + circbuf->capacity - reg1);
	*reg2 = circbuf->buf;
	*reg2_len = (unsigned)(circbuf->start - circbuf->buf);
	} else {
	*reg2 = NULL;
	*reg2_len = 0;
	}

	PJMEDIA_CIRC_BUF_CHECK(reg1_len != 0 \|\| (reg1_len == 0 &&
	circbuf->len == 0));
	PJMEDIA_CIRC_BUF_CHECK(reg1_len + reg2_len == circbuf->capacity -
	circbuf->len);
	}


	/**
	* Read audio samples from the circular buffer.
	*
	* @param circbuf The circular buffer.
	* @param data Buffer to store the read audio samples.
	* @param count Number of samples being read.
	*
	* @return PJ_SUCCESS when successful, otherwise
	* the appropriate error will be returned.
	*/
	PJ_INLINE(pj_status_t) pjmedia_circ_buf_read(pjmedia_circ_buf *circbuf,
	pj_int16_t *data,
	unsigned count)
	{
	pj_int16_t reg1, reg2;
	unsigned reg1cnt, reg2cnt;

	/* Data in the buffer is less than requested */
	if (count > circbuf->len)
	return PJ_ETOOBIG;

	pjmedia_circ_buf_get_read_regions(circbuf, &reg1, &reg1cnt,
	&reg2, &reg2cnt);
	if (reg1cnt >= count) {
	pjmedia_copy_samples(data, reg1, count);
	} else {
	pjmedia_copy_samples(data, reg1, reg1cnt);
	pjmedia_copy_samples(data + reg1cnt, reg2, count - reg1cnt);
	}

	return pjmedia_circ_buf_adv_read_ptr(circbuf, count);
	}


	/**
	* Write audio samples to the circular buffer.
	*
	* @param circbuf The circular buffer.
	* @param data Audio samples to be written.
	* @param count Number of samples being written.
	*
	* @return PJ_SUCCESS when successful, otherwise
	* the appropriate error will be returned.
	*/
	PJ_INLINE(pj_status_t) pjmedia_circ_buf_write(pjmedia_circ_buf *circbuf,
	pj_int16_t *data,
	unsigned count)
	{
	pj_int16_t reg1, reg2;
	unsigned reg1cnt, reg2cnt;

	/* Data to write is larger than buffer can store */
	if (count > circbuf->capacity - circbuf->len)
	return PJ_ETOOBIG;

	pjmedia_circ_buf_get_write_regions(circbuf, &reg1, &reg1cnt,
	&reg2, &reg2cnt);
	if (reg1cnt >= count) {
	pjmedia_copy_samples(reg1, data, count);
	} else {
	pjmedia_copy_samples(reg1, data, reg1cnt);
	pjmedia_copy_samples(reg2, data + reg1cnt, count - reg1cnt);
	}

	return pjmedia_circ_buf_adv_write_ptr(circbuf, count);
	}


	/**
	* Copy audio samples from the circular buffer without changing its state.
	*
	* @param circbuf The circular buffer.
	* @param start_idx Starting sample index to be copied.
	* @param data Buffer to store the read audio samples.
	* @param count Number of samples being read.
	*
	* @return PJ_SUCCESS when successful, otherwise
	* the appropriate error will be returned.
	*/
	PJ_INLINE(pj_status_t) pjmedia_circ_buf_copy(pjmedia_circ_buf *circbuf,
	unsigned start_idx,
	pj_int16_t *data,
	unsigned count)
	{
	pj_int16_t reg1, reg2;
	unsigned reg1cnt, reg2cnt;

	/* Data in the buffer is less than requested */
	if (count + start_idx > circbuf->len)
	return PJ_ETOOBIG;

	pjmedia_circ_buf_get_read_regions(circbuf, &reg1, &reg1cnt,
	&reg2, &reg2cnt);
	if (reg1cnt > start_idx) {
	unsigned tmp_len;
	tmp_len = reg1cnt - start_idx;
	if (tmp_len > count)
	tmp_len = count;
	pjmedia_copy_samples(data, reg1 + start_idx, tmp_len);
	if (tmp_len < count)
	pjmedia_copy_samples(data + tmp_len, reg2, count - tmp_len);
	} else {
	pjmedia_copy_samples(data, reg2 + start_idx - reg1cnt, count);
	}

	return PJ_SUCCESS;
	}


	/**
	* Pack the buffer so the first sample will be in the beginning of the buffer.
	* This will also make the buffer contiguous.
	*
	* @param circbuf The circular buffer.
	*
	* @return PJ_SUCCESS when successful, otherwise
	* the appropriate error will be returned.
	*/
	PJ_INLINE(pj_status_t) pjmedia_circ_buf_pack_buffer(pjmedia_circ_buf *circbuf)
	{
	pj_int16_t reg1, reg2;
	unsigned reg1cnt, reg2cnt;
	unsigned gap;

	pjmedia_circ_buf_get_read_regions(circbuf, &reg1, &reg1cnt,
	&reg2, &reg2cnt);

	/* Check if not contigue */
	if (reg2cnt != 0) {
	/* Check if no space left to roll the buffer
	* (or should this function provide temporary buffer?)
	*/
	gap = circbuf->capacity - pjmedia_circ_buf_get_len(circbuf);
	if (gap == 0)
	return PJ_ETOOBIG;

	/* Roll buffer left using the gap until reg2cnt == 0 */
	do {
	if (gap > reg2cnt)
	gap = reg2cnt;
	pjmedia_move_samples(reg1 - gap, reg1, reg1cnt);
	pjmedia_copy_samples(reg1 + reg1cnt - gap, reg2, gap);
	if (gap < reg2cnt)
	pjmedia_move_samples(reg2, reg2 + gap, reg2cnt - gap);
	reg1 -= gap;
	reg1cnt += gap;
	reg2cnt -= gap;
	} while (reg2cnt > 0);
	}

	/* Finally, Shift samples to the left edge */
	if (reg1 != circbuf->buf)
	pjmedia_move_samples(circbuf->buf, reg1,
	pjmedia_circ_buf_get_len(circbuf));
	circbuf->start = circbuf->buf;

	return PJ_SUCCESS;
	}


	PJ_END_DECL

	/**
	* @}
	*/

	#endif