trunk/src/modules/audio_coding/neteq/cng_internal.c - vendor/opensource/webrtc - Git at Google

 /*
  *  Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 /*
  * This file contains the function for obtaining comfort noise from noise parameters
  * according to IETF RFC 3389.
  */

 #include "dsp.h"

 #include "signal_processing_library.h"
 #include "webrtc_cng.h"

 #include "dsp_helpfunctions.h"
 #include "neteq_error_codes.h"

 /****************************************************************************
  * WebRtcNetEQ_Cng(...)
  *
  * This function produces CNG according to RFC 3389.
  *
  * Input:
  *      - inst          : NetEQ DSP instance
  *      - len           : Number of samples to produce (max 640 or
  *                        640 - fsHz*5/8000 for first-time CNG, governed by
  *                        the definition of WEBRTC_CNG_MAX_OUTSIZE_ORDER in
  *                        webrtc_cng.h)
  *
  * Output:
  *      - pw16_outData  : Output CNG
  *
  * Return value         :  0 - Ok
  *                        <0 - Error
  */

 #ifdef NETEQ_CNG_CODEC
 /* Must compile NetEQ with CNG support to enable this function */

 int WebRtcNetEQ_Cng(DSPInst_t *inst, WebRtc_Word16 *pw16_outData, int len)
 {
     WebRtc_Word16 w16_winMute = 0; /* mixing factor for overlap data */
     WebRtc_Word16 w16_winUnMute = 0; /* mixing factor for comfort noise */
     WebRtc_Word16 w16_winMuteInc = 0; /* mixing factor increment (negative) */
     WebRtc_Word16 w16_winUnMuteInc = 0; /* mixing factor increment */
     int i;

     /*
      * Check if last RecOut call was other than RFC3389,
      * that is, this call is the first of a CNG period.
      */
     if (inst->w16_mode != MODE_RFC3389CNG)
     {
         /* Reset generation and overlap slightly with old data */

         /* Generate len samples + overlap */
         if (WebRtcCng_Generate(inst->CNG_Codec_inst, pw16_outData,
             (WebRtc_Word16) (len + inst->ExpandInst.w16_overlap), 1) < 0)
         {
             /* error returned */
             return -WebRtcCng_GetErrorCodeDec(inst->CNG_Codec_inst);
         }

         /* Set windowing parameters depending on sample rate */
         if (inst->fs == 8000)
         {
             /* Windowing in Q15 */
             w16_winMute = NETEQ_OVERLAP_WINMUTE_8KHZ_START;
             w16_winMuteInc = NETEQ_OVERLAP_WINMUTE_8KHZ_INC;
             w16_winUnMute = NETEQ_OVERLAP_WINUNMUTE_8KHZ_START;
             w16_winUnMuteInc = NETEQ_OVERLAP_WINUNMUTE_8KHZ_INC;
 #ifdef NETEQ_WIDEBAND
         }
         else if (inst->fs == 16000)
         {
             /* Windowing in Q15 */
             w16_winMute = NETEQ_OVERLAP_WINMUTE_16KHZ_START;
             w16_winMuteInc = NETEQ_OVERLAP_WINMUTE_16KHZ_INC;
             w16_winUnMute = NETEQ_OVERLAP_WINUNMUTE_16KHZ_START;
             w16_winUnMuteInc = NETEQ_OVERLAP_WINUNMUTE_16KHZ_INC;
 #endif
 #ifdef NETEQ_32KHZ_WIDEBAND
         }
         else if (inst->fs == 32000)
         {
             /* Windowing in Q15 */
             w16_winMute = NETEQ_OVERLAP_WINMUTE_32KHZ_START;
             w16_winMuteInc = NETEQ_OVERLAP_WINMUTE_32KHZ_INC;
             w16_winUnMute = NETEQ_OVERLAP_WINUNMUTE_32KHZ_START;
             w16_winUnMuteInc = NETEQ_OVERLAP_WINUNMUTE_32KHZ_INC;
 #endif
 #ifdef NETEQ_48KHZ_WIDEBAND
         }
         else if (inst->fs == 48000)
         {
             /* Windowing in Q15 */
             w16_winMute = NETEQ_OVERLAP_WINMUTE_48KHZ_START;
             w16_winMuteInc = NETEQ_OVERLAP_WINMUTE_48KHZ_INC;
             w16_winUnMute = NETEQ_OVERLAP_WINUNMUTE_48KHZ_START;
             w16_winUnMuteInc = NETEQ_OVERLAP_WINUNMUTE_48KHZ_INC;
 #endif
         }
         else
         {
             /* Unsupported sample rate (should not be possible) */
             return NETEQ_OTHER_ERROR;
         }

         /* Do overlap add between new vector and overlap */
         for (i = 0; i < inst->ExpandInst.w16_overlap; i++)
         {
             /* overlapVec[i] = WinMute * overlapVec[i] + WinUnMute * outData[i] */
             inst->ExpandInst.pw16_overlapVec[i] = (WebRtc_Word16) WEBRTC_SPL_RSHIFT_W32(
                 WEBRTC_SPL_MUL_16_16(
                     inst->ExpandInst.pw16_overlapVec[i], w16_winMute) +
                 WEBRTC_SPL_MUL_16_16(pw16_outData[i], w16_winUnMute)
                 + 16384, 15); /* shift with proper rounding */

             w16_winMute += w16_winMuteInc; /* decrease mute factor (inc<0) */
             w16_winUnMute += w16_winUnMuteInc; /* increase unmute factor (inc>0) */

         }

         /*
          * Shift the contents of the outData buffer by overlap samples, since we
          * already used these first samples in the overlapVec above
          */

         WEBRTC_SPL_MEMMOVE_W16(pw16_outData, pw16_outData+inst->ExpandInst.w16_overlap, len);

     }
     else
     {
         /* This is a subsequent CNG call; no special overlap needed */

         /* Generate len samples */
         if (WebRtcCng_Generate(inst->CNG_Codec_inst, pw16_outData, (WebRtc_Word16) len, 0) < 0)
         {
             /* error returned */
             return -WebRtcCng_GetErrorCodeDec(inst->CNG_Codec_inst);
         }
     }

     return 0;

 }

 #endif /* NETEQ_CNG_CODEC */
	/*
	* Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	/*
	* This file contains the function for obtaining comfort noise from noise parameters
	* according to IETF RFC 3389.
	*/

	#include "dsp.h"

	#include "signal_processing_library.h"
	#include "webrtc_cng.h"

	#include "dsp_helpfunctions.h"
	#include "neteq_error_codes.h"

	/****************************************************************************
	* WebRtcNetEQ_Cng(...)
	*
	* This function produces CNG according to RFC 3389.
	*
	* Input:
	* - inst : NetEQ DSP instance
	* - len : Number of samples to produce (max 640 or
	* 640 - fsHz*5/8000 for first-time CNG, governed by
	* the definition of WEBRTC_CNG_MAX_OUTSIZE_ORDER in
	* webrtc_cng.h)
	*
	* Output:
	* - pw16_outData : Output CNG
	*
	* Return value : 0 - Ok
	* <0 - Error
	*/

	#ifdef NETEQ_CNG_CODEC
	/* Must compile NetEQ with CNG support to enable this function */

	int WebRtcNetEQ_Cng(DSPInst_t inst, WebRtc_Word16 pw16_outData, int len)
	{
	WebRtc_Word16 w16_winMute = 0; /* mixing factor for overlap data */
	WebRtc_Word16 w16_winUnMute = 0; /* mixing factor for comfort noise */
	WebRtc_Word16 w16_winMuteInc = 0; /* mixing factor increment (negative) */
	WebRtc_Word16 w16_winUnMuteInc = 0; /* mixing factor increment */
	int i;

	/*
	* Check if last RecOut call was other than RFC3389,
	* that is, this call is the first of a CNG period.
	*/
	if (inst->w16_mode != MODE_RFC3389CNG)
	{
	/* Reset generation and overlap slightly with old data */

	/* Generate len samples + overlap */
	if (WebRtcCng_Generate(inst->CNG_Codec_inst, pw16_outData,
	(WebRtc_Word16) (len + inst->ExpandInst.w16_overlap), 1) < 0)
	{
	/* error returned */
	return -WebRtcCng_GetErrorCodeDec(inst->CNG_Codec_inst);
	}

	/* Set windowing parameters depending on sample rate */
	if (inst->fs == 8000)
	{
	/* Windowing in Q15 */
	w16_winMute = NETEQ_OVERLAP_WINMUTE_8KHZ_START;
	w16_winMuteInc = NETEQ_OVERLAP_WINMUTE_8KHZ_INC;
	w16_winUnMute = NETEQ_OVERLAP_WINUNMUTE_8KHZ_START;
	w16_winUnMuteInc = NETEQ_OVERLAP_WINUNMUTE_8KHZ_INC;
	#ifdef NETEQ_WIDEBAND
	}
	else if (inst->fs == 16000)
	{
	/* Windowing in Q15 */
	w16_winMute = NETEQ_OVERLAP_WINMUTE_16KHZ_START;
	w16_winMuteInc = NETEQ_OVERLAP_WINMUTE_16KHZ_INC;
	w16_winUnMute = NETEQ_OVERLAP_WINUNMUTE_16KHZ_START;
	w16_winUnMuteInc = NETEQ_OVERLAP_WINUNMUTE_16KHZ_INC;
	#endif
	#ifdef NETEQ_32KHZ_WIDEBAND
	}
	else if (inst->fs == 32000)
	{
	/* Windowing in Q15 */
	w16_winMute = NETEQ_OVERLAP_WINMUTE_32KHZ_START;
	w16_winMuteInc = NETEQ_OVERLAP_WINMUTE_32KHZ_INC;
	w16_winUnMute = NETEQ_OVERLAP_WINUNMUTE_32KHZ_START;
	w16_winUnMuteInc = NETEQ_OVERLAP_WINUNMUTE_32KHZ_INC;
	#endif
	#ifdef NETEQ_48KHZ_WIDEBAND
	}
	else if (inst->fs == 48000)
	{
	/* Windowing in Q15 */
	w16_winMute = NETEQ_OVERLAP_WINMUTE_48KHZ_START;
	w16_winMuteInc = NETEQ_OVERLAP_WINMUTE_48KHZ_INC;
	w16_winUnMute = NETEQ_OVERLAP_WINUNMUTE_48KHZ_START;
	w16_winUnMuteInc = NETEQ_OVERLAP_WINUNMUTE_48KHZ_INC;
	#endif
	}
	else
	{
	/* Unsupported sample rate (should not be possible) */
	return NETEQ_OTHER_ERROR;
	}

	/* Do overlap add between new vector and overlap */
	for (i = 0; i < inst->ExpandInst.w16_overlap; i++)
	{
	/* overlapVec[i] = WinMute * overlapVec[i] + WinUnMute * outData[i] */
	inst->ExpandInst.pw16_overlapVec[i] = (WebRtc_Word16) WEBRTC_SPL_RSHIFT_W32(
	WEBRTC_SPL_MUL_16_16(
	inst->ExpandInst.pw16_overlapVec[i], w16_winMute) +
	WEBRTC_SPL_MUL_16_16(pw16_outData[i], w16_winUnMute)
	+ 16384, 15); /* shift with proper rounding */

	w16_winMute += w16_winMuteInc; /* decrease mute factor (inc<0) */
	w16_winUnMute += w16_winUnMuteInc; /* increase unmute factor (inc>0) */

	}

	/*
	* Shift the contents of the outData buffer by overlap samples, since we
	* already used these first samples in the overlapVec above
	*/

	WEBRTC_SPL_MEMMOVE_W16(pw16_outData, pw16_outData+inst->ExpandInst.w16_overlap, len);

	}
	else
	{
	/* This is a subsequent CNG call; no special overlap needed */

	/* Generate len samples */
	if (WebRtcCng_Generate(inst->CNG_Codec_inst, pw16_outData, (WebRtc_Word16) len, 0) < 0)
	{
	/* error returned */
	return -WebRtcCng_GetErrorCodeDec(inst->CNG_Codec_inst);
	}
	}

	return 0;

	}

	#endif /* NETEQ_CNG_CODEC */