libMpegTPEnc/src/tpenc_asc.cpp


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/*****************************  MPEG-4 AAC Encoder  **************************

                        (C) Copyright Fraunhofer IIS (2005)
                               All Rights Reserved

    Please be advised that this software and/or program delivery is
    Confidential Information of Fraunhofer and subject to and covered by the

    Fraunhofer IIS Software Evaluation Agreement
    between Google Inc. and  Fraunhofer
    effective and in full force since March 1, 2012.

    You may use this software and/or program only under the terms and
    conditions described in the above mentioned Fraunhofer IIS Software
    Evaluation Agreement. Any other and/or further use requires a separate agreement.


   $Id$
   Author(s):
   Description:

   This software and/or program is protected by copyright law and international
   treaties. Any reproduction or distribution of this software and/or program,
   or any portion of it, may result in severe civil and criminal penalties, and
   will be prosecuted to the maximum extent possible under law.

******************************************************************************/

#include "tp_data.h"

#include "tpenc_lib.h"
#include "tpenc_asc.h"
#include "FDK_bitstream.h"
#include "genericStds.h"

#define PCE_MAX_ELEMENTS 8

/**
 *  Describe a PCE based on placed channel elements and element type sequence.
 */
typedef struct {

    UCHAR    num_front_channel_elements;     /*!< Number of front channel elements. */
    UCHAR    num_side_channel_elements;      /*!< Number of side channel elements. */
    UCHAR    num_back_channel_elements;      /*!< Number of back channel elements. */
    UCHAR    num_lfe_channel_elements;       /*!< Number of lfe channel elements. */
    MP4_ELEMENT_ID el_list[PCE_MAX_ELEMENTS];/*!< List contains sequence describing the elements
                                                  in present channel mode. (MPEG order) */
} PCE_CONFIGURATION;


/**
 *  Map an incoming channel mode to a existing PCE configuration entry.
 */
typedef struct {

    CHANNEL_MODE        channel_mode;        /*!< Present channel mode. */
    PCE_CONFIGURATION   pce_configuration;   /*!< Program config element description. */

} CHANNEL_CONFIGURATION;


/**
 * \brief Table contains all supported channel modes and according PCE configuration description.
 *
 * The number of channel element parameter describes the kind of consecutively elements.
 * E.g. MODE_1_2_2_2_1 means:
 *                          - First 2 elements (SCE,CPE) are front channel elements.
 *                          - Following element (CPE) is a side channel element.
 *                          - Next element (CPE) is a back channel element.
 *                          - Last element (LFE) is a lfe channel element.
 */
static const CHANNEL_CONFIGURATION pceConfigTab[] =
{
  { MODE_1,                        {  1, 0, 0, 0, { ID_SCE,  ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE } } },
  { MODE_2,                        {  1, 0, 0, 0, { ID_CPE,  ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE } } },
  { MODE_1_2,                      {  2, 0, 0, 0, { ID_SCE,  ID_CPE,  ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE } } },
  { MODE_1_2_1,                    {  2, 0, 1, 0, { ID_SCE,  ID_CPE,  ID_SCE,  ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE } } },
  { MODE_1_2_2,                    {  2, 0, 1, 0, { ID_SCE,  ID_CPE,  ID_CPE,  ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE } } },
  { MODE_1_2_2_1,                  {  2, 0, 1, 1, { ID_SCE,  ID_CPE,  ID_CPE,  ID_LFE, ID_NONE, ID_NONE, ID_NONE, ID_NONE } } },
  { MODE_1_2_2_2_1,                {  2, 1, 1, 1, { ID_SCE,  ID_CPE,  ID_CPE,  ID_CPE,  ID_LFE, ID_NONE, ID_NONE, ID_NONE } } },

  { MODE_1_1,                      {  2, 0, 0, 0, { ID_SCE,  ID_SCE,  ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE } } },
  { MODE_1_1_1_1,                  {  2, 2, 0, 0, { ID_SCE,  ID_SCE,  ID_SCE,  ID_SCE,  ID_NONE, ID_NONE, ID_NONE, ID_NONE } } },
  { MODE_1_1_1_1_1_1,              {  2, 2, 2, 0, { ID_SCE,  ID_SCE,  ID_SCE,  ID_SCE,  ID_SCE,  ID_SCE,  ID_NONE, ID_NONE } } },
  { MODE_1_1_1_1_1_1_1_1,          {  3, 2, 3, 0, { ID_SCE,  ID_SCE,  ID_SCE,  ID_SCE,  ID_SCE,  ID_SCE,  ID_SCE,  ID_SCE } } },

  { MODE_2_2,                      {  1, 0, 1, 0, { ID_CPE,  ID_CPE,  ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE } } },
  { MODE_2_2_2,                    {  1, 1, 1, 0, { ID_CPE,  ID_CPE,  ID_CPE,  ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE } } },
  { MODE_2_2_2_2,                  {  4, 0, 0, 0, { ID_CPE,  ID_CPE,  ID_CPE,  ID_CPE,  ID_NONE, ID_NONE, ID_NONE, ID_NONE } } },

  { MODE_2_1,                      {  1, 0, 1, 0, { ID_CPE,  ID_SCE,  ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE, ID_NONE } } }
};


/**
 * \brief  Get program config element description for existing channel mode.
 *
 * \param channel_mode          Current channel mode.
 *
 * \return
 *          - Pointer to PCE_CONFIGURATION entry, on success.
 *          - NULL, on failure.
 */
static const PCE_CONFIGURATION* getPceEntry(
        const CHANNEL_MODE channel_mode
        )
{
  UINT i;
  const PCE_CONFIGURATION *pce_config = NULL;

  for (i=0; i < (sizeof(pceConfigTab)/sizeof(CHANNEL_CONFIGURATION)); i++) {
    if (pceConfigTab[i].channel_mode == channel_mode) {
      pce_config = &pceConfigTab[i].pce_configuration;
    }
  }

  return pce_config;
}

int getChannelConfig( CHANNEL_MODE channel_mode )
{
  INT chan_config = 0;

  switch(channel_mode) {
    case MODE_1:         chan_config = 1; break;
    case MODE_2:         chan_config = 2; break;
    case MODE_1_2:       chan_config = 3; break;
    case MODE_1_2_1:     chan_config = 4; break;
    case MODE_1_2_2:     chan_config = 5; break;
    case MODE_1_2_2_1:   chan_config = 6; break;
    case MODE_1_2_2_2_1: chan_config = 7; break;

    default:             chan_config = 0;
  }

  return chan_config;
}

CHANNEL_MODE transportEnc_GetChannelMode( int noChannels )
{
  CHANNEL_MODE chMode;

  if (noChannels <= 8 && noChannels > 0)
    chMode = (CHANNEL_MODE)((noChannels == 8) ? 7 : noChannels); /* see : iso/mpeg4 v1 audio subpart1*/
  else
    chMode = MODE_UNKNOWN;

  return chMode;
}

#ifdef TP_PCE_ENABLE
int transportEnc_writePCE(HANDLE_FDK_BITSTREAM hBs,
                          CHANNEL_MODE channelMode,
                          INT sampleRate,
                          int instanceTagPCE,
                          int profile,
                          int matrixMixdownA,
                          int pseudoSurroundEnable,
                          UINT alignAnchor)
{
  int sampleRateIndex, i;
  const PCE_CONFIGURATION* config = NULL;
  const MP4_ELEMENT_ID* pEl_list = NULL;
  UCHAR cpeCnt=0, sceCnt=0, lfeCnt=0;

  sampleRateIndex = getSamplingRateIndex(sampleRate);
  if (sampleRateIndex == 15) {
    return -1;
  }

  if ((config=getPceEntry(channelMode))==NULL) {
    return -1;
  }

  /* Pointer to first element in element list. */
  pEl_list = &config->el_list[0];

  FDKwriteBits(hBs, instanceTagPCE,  4);                        /* Element instance tag */
  FDKwriteBits(hBs, profile,         2);                        /* Object type */
  FDKwriteBits(hBs, sampleRateIndex, 4);                        /* Sample rate index*/

  FDKwriteBits(hBs, config->num_front_channel_elements, 4);     /* Front channel Elements */
  FDKwriteBits(hBs, config->num_side_channel_elements , 4);     /* No Side Channel Elements */
  FDKwriteBits(hBs, config->num_back_channel_elements , 4);     /* No Back channel Elements */
  FDKwriteBits(hBs, config->num_lfe_channel_elements  , 2);     /* No Lfe channel elements */

  FDKwriteBits(hBs, 0, 3);                                      /* No assoc data elements */
  FDKwriteBits(hBs, 0, 4);                                      /* No valid cc elements */
  FDKwriteBits(hBs, 0, 1);                                      /* Mono mixdown present */
  FDKwriteBits(hBs, 0, 1);                                      /* Stereo mixdown present */

  if ( matrixMixdownA!=0 && ((channelMode==MODE_1_2_2)||(channelMode==MODE_1_2_2_1)) ) {
      FDKwriteBits(hBs, 1, 1);                                  /* Matrix mixdown present */
      FDKwriteBits(hBs, (matrixMixdownA-1)&0x3, 2);             /* matrix_mixdown_idx */
      FDKwriteBits(hBs, pseudoSurroundEnable&0x1, 1);           /* pseudo_surround_enable */
  }
  else {
      FDKwriteBits(hBs, 0, 1);                                  /* Matrix mixdown not present */
  }

  for(i=0; i<config->num_front_channel_elements; i++) {
      UCHAR isCpe = (*pEl_list++==ID_CPE) ? 1 : 0;
      UCHAR tag   = (isCpe) ? cpeCnt++ : sceCnt++;
      FDKwriteBits(hBs, isCpe, 1);                              /* Front channel Elements is CPE? */
      FDKwriteBits(hBs, tag, 4);                                /* Front channel Instance Tag.*/
  }
  for(i=0; i<config->num_side_channel_elements; i++) {
      UCHAR isCpe = (*pEl_list++==ID_CPE) ? 1 : 0;
      UCHAR tag   = (isCpe) ? cpeCnt++ : sceCnt++;
      FDKwriteBits(hBs, isCpe, 1);                              /* Front channel Elements is CPE? */
      FDKwriteBits(hBs, tag, 4);                                /* Front channel Instance Tag.*/
  }
  for(i=0; i<config->num_back_channel_elements; i++) {
      UCHAR isCpe = (*pEl_list++==ID_CPE) ? 1 : 0;
      UCHAR tag   = (isCpe) ? cpeCnt++ : sceCnt++;
      FDKwriteBits(hBs, isCpe, 1);                              /* Front channel Elements is CPE? */
      FDKwriteBits(hBs, tag, 4);                                /* Front channel Instance Tag.*/
  }
  for(i=0; i<config->num_lfe_channel_elements; i++) {
      FDKwriteBits(hBs, lfeCnt++, 4);                           /* LFE channel Instance Tag. */
  }

  /* - num_valid_cc_elements always 0.
     - num_assoc_data_elements always 0. */

  /* Byte alignment: relative to alignAnchor
       ADTS: align with respect to the first bit of the raw_data_block()
       ADIF: align with respect to the first bit of the header
       LATM: align with respect to the first bit of the ASC */
  FDKbyteAlign(hBs, alignAnchor);                               /* Alignment */

  FDKwriteBits(hBs, 0 ,8);                                      /* Do no write any comment. */

  /* - comment_field_bytes always 0. */

  return 0;
}

int transportEnc_GetPCEBits(CHANNEL_MODE channelMode,
                            int matrixMixdownA,
                            int bits)
{
  const PCE_CONFIGURATION* config = NULL;

  if ((config=getPceEntry(channelMode))==NULL) {
    return -1;  /* unsupported channelmapping */
  }

  bits += 4 + 2 + 4;        /* Element instance tag  + Object type + Sample rate index */
  bits += 4 + 4 + 4 + 2;    /* No (front + side + back + lfe channel) elements */
  bits += 3 + 4;            /* No (assoc data + valid cc) elements */
  bits += 1 + 1 + 1 ;       /* Mono + Stereo + Matrix mixdown present */

  if ( matrixMixdownA!=0 && ((channelMode==MODE_1_2_2)||(channelMode==MODE_1_2_2_1)) ) {
    bits +=3;               /* matrix_mixdown_idx + pseudo_surround_enable */
  }

  bits += (1+4) * (INT)config->num_front_channel_elements;
  bits += (1+4) * (INT)config->num_side_channel_elements;
  bits += (1+4) * (INT)config->num_back_channel_elements;
  bits +=   (4) * (INT)config->num_lfe_channel_elements;

  /* - num_valid_cc_elements always 0.
     - num_assoc_data_elements always 0. */

  if ((bits%8) != 0) {
    bits += (8 - (bits%8)); /* Alignment */
  }

  bits += 8;                /* Comment field  bytes */

  /* - comment_field_bytes alwys 0. */

  return bits;
}
#endif /* TP_PCE_ENABLE */

static void writeAot(HANDLE_FDK_BITSTREAM hBitstreamBuffer, AUDIO_OBJECT_TYPE aot)
{
    int tmp = (int) aot;

    if (tmp > 31) {
        FDKwriteBits( hBitstreamBuffer, AOT_ESCAPE, 5 );
        FDKwriteBits( hBitstreamBuffer, tmp-32, 6 );   /* AudioObjectType */
    } else {
        FDKwriteBits( hBitstreamBuffer, tmp, 5 );
    }
}

static void writeSampleRate(HANDLE_FDK_BITSTREAM hBitstreamBuffer, int sampleRate)
{
  int sampleRateIndex = getSamplingRateIndex(sampleRate);

  FDKwriteBits( hBitstreamBuffer, sampleRateIndex, 4 );
  if( sampleRateIndex == 15 ) {
    FDKwriteBits( hBitstreamBuffer, sampleRate, 24 );
  }
}

#ifdef TP_GA_ENABLE
static
int transportEnc_writeGASpecificConfig(
                                        HANDLE_FDK_BITSTREAM asc,
                                        CODER_CONFIG *config,
                                        int          extFlg,
                                        UINT         alignAnchor
                                       )
{
  int aot = config->aot;
  int samplesPerFrame = config->samplesPerFrame;

  /* start of GASpecificConfig according to ISO/IEC 14496-3 Subpart 4, 4.4.1 */
  FDKwriteBits( asc, ((samplesPerFrame==960 || samplesPerFrame==480)?1:0), 1);  /* frameLengthFlag: 1 for a 960/480 (I)MDCT, 0 for a 1024/512 (I)MDCT*/
  FDKwriteBits( asc, 0, 1);  /* dependsOnCoreCoder: Sampling Rate Coder Specific, see in ISO/IEC 14496-3 Subpart 4, 4.4.1 */
  FDKwriteBits( asc, extFlg, 1 ); /* Extension Flag: Shall be 1 for aot = 17,19,20,21,22,23 */

  /* Write PCE if channel config is not 1-7 */
  if (getChannelConfig(config->channelMode) == 0) {
      transportEnc_writePCE(asc, config->channelMode, config->samplingRate, 0, 1, 0, 0, alignAnchor);
  }
  if (extFlg) {
    if (aot == AOT_ER_BSAC) {
      FDKwriteBits( asc, config->BSACnumOfSubFrame, 5 ); /* numOfSubFrame */
      FDKwriteBits( asc, config->BSAClayerLength, 11 );  /* layer_length */
    }
    if ((aot == AOT_ER_AAC_LC)   || (aot == AOT_ER_AAC_LTP)  ||
        (aot == AOT_ER_AAC_SCAL) || (aot == AOT_ER_AAC_LD))
    {
      FDKwriteBits( asc, (config->flags & CC_VCB11) ? 1 : 0, 1 ); /* aacSectionDataResillienceFlag */
      FDKwriteBits( asc, (config->flags & CC_RVLC) ? 1 : 0,  1 ); /* aacScaleFactorDataResillienceFlag */
      FDKwriteBits( asc, (config->flags & CC_HCR) ? 1 : 0,   1 ); /* aacSpectralDataResillienceFlag */
    }
    FDKwriteBits( asc, 0, 1 ); /* extensionFlag3: reserved. Shall be '0' */
  }
  return 0;
}
#endif /* TP_GA_ENABLE */

#ifdef TP_ELD_ENABLE

static
int transportEnc_writeELDSpecificConfig(
                                         HANDLE_FDK_BITSTREAM hBs,
                                         CODER_CONFIG *config,
                                         int        epConfig,
                                         CSTpCallBacks *cb
                                        )
{
  /* ELD specific config */
  if (config->channelMode == MODE_1_1) {
    return -1;
  }
  FDKwriteBits(hBs, (config->samplesPerFrame == 480) ? 1 : 0, 1);

  FDKwriteBits(hBs, (config->flags & CC_VCB11 ) ? 1:0, 1);
  FDKwriteBits(hBs, (config->flags & CC_RVLC ) ? 1:0, 1);
  FDKwriteBits(hBs, (config->flags & CC_HCR  ) ? 1:0, 1);

  FDKwriteBits(hBs, (config->flags & CC_SBR) ? 1:0, 1); /* SBR header flag */
  if ( (config->flags & CC_SBR) ) {
    FDKwriteBits(hBs, (config->samplingRate == config->extSamplingRate) ? 0:1, 1); /* Samplerate Flag */
    FDKwriteBits(hBs, (config->flags & CC_SBRCRC) ? 1:0, 1); /* SBR CRC flag*/

    if (cb->cbSbr != NULL) {
      const PCE_CONFIGURATION *pPce;
      int e;

      pPce = getPceEntry(config->channelMode);

      for (e=0; e<PCE_MAX_ELEMENTS && pPce->el_list[e] != ID_NONE; e++  ) {
        if ( (pPce->el_list[e] == ID_SCE) || (pPce->el_list[e] == ID_CPE) ) {
          cb->cbSbr(cb->cbSbrData, hBs, 0, 0, 0, config->aot, pPce->el_list[e], e);
        }
      }
    }
  }

  FDKwriteBits(hBs, 0, 4); /* ELDEXT_TERM */

  return 0;
}
#endif /* TP_ELD_ENABLE */


int transportEnc_writeASC (
                            HANDLE_FDK_BITSTREAM asc,
                            CODER_CONFIG *config,
                            CSTpCallBacks *cb
                           )
{
  UINT extFlag = 0;
  int err;
  int epConfig = 0;

  /* Required for the PCE. */
  UINT alignAnchor = FDKgetValidBits(asc);

  /* Extension Flag: Shall be 1 for aot = 17,19,20,21,22,23,39 */
  switch (config->aot) {
    case AOT_ER_AAC_LC:
    case AOT_ER_AAC_LTP:
    case AOT_ER_AAC_SCAL:
    case AOT_ER_TWIN_VQ:
    case AOT_ER_BSAC:
    case AOT_ER_AAC_LD:
    case AOT_ER_AAC_ELD:
    case AOT_USAC:
        extFlag = 1;
        break;
    default:
        break;
  }

  if (config->extAOT == AOT_SBR || config->extAOT == AOT_PS)
    writeAot(asc, config->extAOT);
  else
    writeAot(asc, config->aot);

  {
    writeSampleRate(asc, config->samplingRate);
  }

  /* Try to guess a reasonable channel mode if not given */
  if (config->channelMode == MODE_INVALID) {
    config->channelMode = transportEnc_GetChannelMode(config->noChannels);
    if (config->channelMode == MODE_INVALID)
      return -1;
  }

  FDKwriteBits( asc, getChannelConfig(config->channelMode), 4 );

  if (config->extAOT == AOT_SBR || config->extAOT == AOT_PS) {
    writeSampleRate(asc, config->extSamplingRate);
    writeAot(asc, config->aot);
  }

  switch (config->aot) {
#ifdef TP_GA_ENABLE
    case AOT_AAC_MAIN:
    case AOT_AAC_LC:
    case AOT_AAC_SSR:
    case AOT_AAC_LTP:
    case AOT_AAC_SCAL:
    case AOT_TWIN_VQ:
    case AOT_ER_AAC_LC:
    case AOT_ER_AAC_LTP:
    case AOT_ER_AAC_SCAL:
    case AOT_ER_TWIN_VQ:
    case AOT_ER_BSAC:
    case AOT_ER_AAC_LD:
      err = transportEnc_writeGASpecificConfig(asc, config, extFlag, alignAnchor);
      if (err)
        return err;
      break;
#endif /* TP_GA_ENABLE */
#ifdef TP_ELD_ENABLE
    case AOT_ER_AAC_ELD:
      err = transportEnc_writeELDSpecificConfig(asc, config, epConfig, cb);
      if (err)
        return err;
      break;
#endif /* TP_ELD_ENABLE */
    default:
      return -1;
  }

  switch (config->aot) {
    case AOT_ER_AAC_LC:
    case AOT_ER_AAC_LTP:
    case AOT_ER_AAC_SCAL:
    case AOT_ER_TWIN_VQ:
    case AOT_ER_BSAC:
    case AOT_ER_AAC_LD:
    case AOT_ER_CELP:
    case AOT_ER_HVXC:
    case AOT_ER_HILN:
    case AOT_ER_PARA:
    case AOT_ER_AAC_ELD:
      FDKwriteBits( asc, 0, 2 ); /* epconfig 0 */
      break;
    default:
      break;
  }

  /* Make sure all bits are sync'ed */
  FDKsyncCache( asc );

  return 0;
}