libAACenc/src/pre_echo_control.cpp

/* -----------------------------------------------------------------------------------------------------------
Software License for The Fraunhofer FDK AAC Codec Library for Android

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  All rights reserved.

 1.    INTRODUCTION
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the MPEG Advanced Audio Coding ("AAC") encoding and decoding scheme for digital audio.
This FDK AAC Codec software is intended to be used on a wide variety of Android devices.

AAC's HE-AAC and HE-AAC v2 versions are regarded as today's most efficient general perceptual
audio codecs. AAC-ELD is considered the best-performing full-bandwidth communications codec by
independent studies and is widely deployed. AAC has been standardized by ISO and IEC as part
of the MPEG specifications.

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Commercially-licensed AAC software libraries, including floating-point versions with enhanced sound quality,
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Fraunhofer Institute for Integrated Circuits IIS
Attention: Audio and Multimedia Departments - FDK AAC LL
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----------------------------------------------------------------------------------------------------------- */

/******************************** MPEG Audio Encoder **************************

   Initial author:       M.Werner
   contents/description: Pre echo control

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

#include "pre_echo_control.h"
#include "psy_configuration.h"

void FDKaacEnc_InitPreEchoControl(FIXP_DBL    *RESTRICT pbThresholdNm1,
                                  INT         *calcPreEcho,
                                  INT          numPb,
                                  FIXP_DBL    *RESTRICT sfbPcmQuantThreshold,
                                  INT         *mdctScalenm1)
{
  *mdctScalenm1 = PCM_QUANT_THR_SCALE>>1;

  FDKmemcpy(pbThresholdNm1, sfbPcmQuantThreshold, numPb*sizeof(FIXP_DBL));

  *calcPreEcho = 1;
}


void FDKaacEnc_PreEchoControl(FIXP_DBL   *RESTRICT pbThresholdNm1,
                              INT         calcPreEcho,
                              INT         numPb,
                              INT         maxAllowedIncreaseFactor,
                              FIXP_SGL    minRemainingThresholdFactor,
                              FIXP_DBL   *RESTRICT pbThreshold,
                              INT         mdctScale,
                              INT        *mdctScalenm1)
{
    int i;
    FIXP_DBL tmpThreshold1, tmpThreshold2;
    int scaling;

	/* If lastWindowSequence in previous frame was start- or stop-window,
	   skip preechocontrol calculation */
    if (calcPreEcho==0) {
      /* copy thresholds to internal memory */
      FDKmemcpy(pbThresholdNm1, pbThreshold, numPb*sizeof(FIXP_DBL));
      *mdctScalenm1 = mdctScale;
      return;
    }

    if ( mdctScale > *mdctScalenm1 ) {
        /* if current thresholds are downscaled more than the ones from the last block */
        scaling = 2*(mdctScale-*mdctScalenm1);
        for(i = 0; i < numPb; i++) {

            /* multiplication with return data type fract ist equivalent to int multiplication */
            FDK_ASSERT(scaling>=0);
            tmpThreshold1 = maxAllowedIncreaseFactor * (pbThresholdNm1[i]>>scaling);
            tmpThreshold2 = fMult(minRemainingThresholdFactor, pbThreshold[i]);

			FIXP_DBL tmp = pbThreshold[i];

            /* copy thresholds to internal memory */
            pbThresholdNm1[i] = tmp;

            tmp = fixMin(tmp, tmpThreshold1);
            pbThreshold[i] = fixMax(tmp, tmpThreshold2);
        }
    }
    else {
        /* if thresholds of last block are more downscaled than the current ones */
        scaling = 2*(*mdctScalenm1-mdctScale);
        for(i = 0; i < numPb; i++) {

            /* multiplication with return data type fract ist equivalent to int multiplication */
            tmpThreshold1 = (maxAllowedIncreaseFactor>>1) * pbThresholdNm1[i];
            tmpThreshold2 = fMult(minRemainingThresholdFactor, pbThreshold[i]);

            /* copy thresholds to internal memory */
            pbThresholdNm1[i] = pbThreshold[i];

            FDK_ASSERT(scaling>=0);
            if((pbThreshold[i]>>(scaling+1)) > tmpThreshold1) {
                pbThreshold[i] = tmpThreshold1<<(scaling+1);
            }
            pbThreshold[i] = fixMax(pbThreshold[i], tmpThreshold2);
        }
    }

    *mdctScalenm1 = mdctScale;
}