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+/* -----------------------------------------------------------------------------
+Software License for The Fraunhofer FDK AAC Codec Library for Android
+
+© Copyright  1995 - 2018 Fraunhofer-Gesellschaft zur Förderung der angewandten
+Forschung e.V. All rights reserved.
+
+ 1.    INTRODUCTION
+The Fraunhofer FDK AAC Codec Library for Android ("FDK AAC Codec") is software
+that implements 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.
+
+Patent licenses for necessary patent claims for the FDK AAC Codec (including
+those of Fraunhofer) may be obtained through Via Licensing
+(www.vialicensing.com) or through the respective patent owners individually for
+the purpose of encoding or decoding bit streams in products that are compliant
+with the ISO/IEC MPEG audio standards. Please note that most manufacturers of
+Android devices already license these patent claims through Via Licensing or
+directly from the patent owners, and therefore FDK AAC Codec software may
+already be covered under those patent licenses when it is used for those
+licensed purposes only.
+
+Commercially-licensed AAC software libraries, including floating-point versions
+with enhanced sound quality, are also available from Fraunhofer. Users are
+encouraged to check the Fraunhofer website for additional applications
+information and documentation.
+
+2.    COPYRIGHT LICENSE
+
+Redistribution and use in source and binary forms, with or without modification,
+are permitted without payment of copyright license fees provided that you
+satisfy the following conditions:
+
+You must retain the complete text of this software license in redistributions of
+the FDK AAC Codec or your modifications thereto in source code form.
+
+You must retain the complete text of this software license in the documentation
+and/or other materials provided with redistributions of the FDK AAC Codec or
+your modifications thereto in binary form. You must make available free of
+charge copies of the complete source code of the FDK AAC Codec and your
+modifications thereto to recipients of copies in binary form.
+
+The name of Fraunhofer may not be used to endorse or promote products derived
+from this library without prior written permission.
+
+You may not charge copyright license fees for anyone to use, copy or distribute
+the FDK AAC Codec software or your modifications thereto.
+
+Your modified versions of the FDK AAC Codec must carry prominent notices stating
+that you changed the software and the date of any change. For modified versions
+of the FDK AAC Codec, the term "Fraunhofer FDK AAC Codec Library for Android"
+must be replaced by the term "Third-Party Modified Version of the Fraunhofer FDK
+AAC Codec Library for Android."
+
+3.    NO PATENT LICENSE
+
+NO EXPRESS OR IMPLIED LICENSES TO ANY PATENT CLAIMS, including without
+limitation the patents of Fraunhofer, ARE GRANTED BY THIS SOFTWARE LICENSE.
+Fraunhofer provides no warranty of patent non-infringement with respect to this
+software.
+
+You may use this FDK AAC Codec software or modifications thereto only for
+purposes that are authorized by appropriate patent licenses.
+
+4.    DISCLAIMER
+
+This FDK AAC Codec software is provided by Fraunhofer on behalf of the copyright
+holders and contributors "AS IS" and WITHOUT ANY EXPRESS OR IMPLIED WARRANTIES,
+including but not limited to the implied warranties of merchantability and
+fitness for a particular purpose. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
+CONTRIBUTORS BE LIABLE for any direct, indirect, incidental, special, exemplary,
+or consequential damages, including but not limited to procurement of substitute
+goods or services; loss of use, data, or profits, or business interruption,
+however caused and on any theory of liability, whether in contract, strict
+liability, or tort (including negligence), arising in any way out of the use of
+this software, even if advised of the possibility of such damage.
+
+5.    CONTACT INFORMATION
+
+Fraunhofer Institute for Integrated Circuits IIS
+Attention: Audio and Multimedia Departments - FDK AAC LL
+Am Wolfsmantel 33
+91058 Erlangen, Germany
+
+www.iis.fraunhofer.de/amm
+amm-info@iis.fraunhofer.de
+----------------------------------------------------------------------------- */
+
+/**************************** SBR decoder library ******************************
+
+   Author(s):   Christian Griebel
+
+   Description: Dynamic range control (DRC) decoder tool for SBR
+
+*******************************************************************************/
+
+#include "sbrdec_drc.h"
+
+/* DRC - Offset table for QMF interpolation. Shifted by one index position.
+   The table defines the (short) window borders rounded to the nearest QMF
+   timeslot. It has the size 16 because it is accessed with the
+   drcInterpolationScheme that is read from the bitstream with 4 bit. */
+static const UCHAR winBorderToColMappingTab[2][16] = {
+    /*-1, 0, 1, 2,  3,  4,  5,  6,  7,  8 */
+    {0, 0, 4, 8, 12, 16, 20, 24, 28, 32, 32, 32, 32, 32, 32,
+     32}, /* 1024 framing */
+    {0, 0, 4, 8, 11, 15, 19, 23, 26, 30, 30, 30, 30, 30, 30,
+     30} /*  960 framing */
+};
+
+/*!
+  \brief Initialize DRC QMF factors
+
+  \hDrcData Handle to DRC channel data.
+
+  \return none
+*/
+void sbrDecoder_drcInitChannel(HANDLE_SBR_DRC_CHANNEL hDrcData) {
+  int band;
+
+  if (hDrcData == NULL) {
+    return;
+  }
+
+  for (band = 0; band < (64); band++) {
+    hDrcData->prevFact_mag[band] = FL2FXCONST_DBL(0.5f);
+  }
+
+  for (band = 0; band < SBRDEC_MAX_DRC_BANDS; band++) {
+    hDrcData->currFact_mag[band] = FL2FXCONST_DBL(0.5f);
+    hDrcData->nextFact_mag[band] = FL2FXCONST_DBL(0.5f);
+  }
+
+  hDrcData->prevFact_exp = 1;
+  hDrcData->currFact_exp = 1;
+  hDrcData->nextFact_exp = 1;
+
+  hDrcData->numBandsCurr = 1;
+  hDrcData->numBandsNext = 1;
+
+  hDrcData->winSequenceCurr = 0;
+  hDrcData->winSequenceNext = 0;
+
+  hDrcData->drcInterpolationSchemeCurr = 0;
+  hDrcData->drcInterpolationSchemeNext = 0;
+
+  hDrcData->enable = 0;
+}
+
+/*!
+  \brief Swap DRC QMF scaling factors after they have been applied.
+
+  \hDrcData Handle to DRC channel data.
+
+  \return none
+*/
+void sbrDecoder_drcUpdateChannel(HANDLE_SBR_DRC_CHANNEL hDrcData) {
+  if (hDrcData == NULL) {
+    return;
+  }
+  if (hDrcData->enable != 1) {
+    return;
+  }
+
+  /* swap previous data */
+  FDKmemcpy(hDrcData->currFact_mag, hDrcData->nextFact_mag,
+            SBRDEC_MAX_DRC_BANDS * sizeof(FIXP_DBL));
+
+  hDrcData->currFact_exp = hDrcData->nextFact_exp;
+
+  hDrcData->numBandsCurr = hDrcData->numBandsNext;
+
+  FDKmemcpy(hDrcData->bandTopCurr, hDrcData->bandTopNext,
+            SBRDEC_MAX_DRC_BANDS * sizeof(USHORT));
+
+  hDrcData->drcInterpolationSchemeCurr = hDrcData->drcInterpolationSchemeNext;
+
+  hDrcData->winSequenceCurr = hDrcData->winSequenceNext;
+}
+
+/*!
+  \brief Apply DRC factors slot based.
+
+  \hDrcData Handle to DRC channel data.
+  \qmfRealSlot Pointer to real valued QMF data of one time slot.
+  \qmfImagSlot Pointer to the imaginary QMF data of one time slot.
+  \col Number of the time slot.
+  \numQmfSubSamples Total number of time slots for one frame.
+  \scaleFactor Pointer to the out scale factor of the time slot.
+
+  \return None.
+*/
+void sbrDecoder_drcApplySlot(HANDLE_SBR_DRC_CHANNEL hDrcData,
+                             FIXP_DBL *qmfRealSlot, FIXP_DBL *qmfImagSlot,
+                             int col, int numQmfSubSamples, int maxShift) {
+  const UCHAR *winBorderToColMap;
+
+  int band, bottomMdct, topMdct, bin, useLP;
+  int indx = numQmfSubSamples - (numQmfSubSamples >> 1) - 10; /* l_border */
+  int frameLenFlag = (numQmfSubSamples == 30) ? 1 : 0;
+  int frameSize = (frameLenFlag == 1) ? 960 : 1024;
+
+  const FIXP_DBL *fact_mag = NULL;
+  INT fact_exp = 0;
+  UINT numBands = 0;
+  USHORT *bandTop = NULL;
+  int shortDrc = 0;
+
+  FIXP_DBL alphaValue = FL2FXCONST_DBL(0.0f);
+
+  if (hDrcData == NULL) {
+    return;
+  }
+  if (hDrcData->enable != 1) {
+    return;
+  }
+
+  winBorderToColMap = winBorderToColMappingTab[frameLenFlag];
+
+  useLP = (qmfImagSlot == NULL) ? 1 : 0;
+
+  col += indx;
+  bottomMdct = 0;
+
+  /* get respective data and calc interpolation factor */
+  if (col < (numQmfSubSamples >> 1)) {    /* first half of current frame */
+    if (hDrcData->winSequenceCurr != 2) { /* long window */
+      int j = col + (numQmfSubSamples >> 1);
+
+      if (hDrcData->drcInterpolationSchemeCurr == 0) {
+        INT k = (frameLenFlag) ? 0x4444445 : 0x4000000;
+
+        alphaValue = (FIXP_DBL)(j * k);
+      } else {
+        if (j >= (int)winBorderToColMap[hDrcData->drcInterpolationSchemeCurr]) {
+          alphaValue = (FIXP_DBL)MAXVAL_DBL;
+        }
+      }
+    } else { /* short windows */
+      shortDrc = 1;
+    }
+
+    fact_mag = hDrcData->currFact_mag;
+    fact_exp = hDrcData->currFact_exp;
+    numBands = hDrcData->numBandsCurr;
+    bandTop = hDrcData->bandTopCurr;
+  } else if (col < numQmfSubSamples) {    /* second half of current frame */
+    if (hDrcData->winSequenceNext != 2) { /* next: long window */
+      int j = col - (numQmfSubSamples >> 1);
+
+      if (hDrcData->drcInterpolationSchemeNext == 0) {
+        INT k = (frameLenFlag) ? 0x4444445 : 0x4000000;
+
+        alphaValue = (FIXP_DBL)(j * k);
+      } else {
+        if (j >= (int)winBorderToColMap[hDrcData->drcInterpolationSchemeNext]) {
+          alphaValue = (FIXP_DBL)MAXVAL_DBL;
+        }
+      }
+
+      fact_mag = hDrcData->nextFact_mag;
+      fact_exp = hDrcData->nextFact_exp;
+      numBands = hDrcData->numBandsNext;
+      bandTop = hDrcData->bandTopNext;
+    } else {                                /* next: short windows */
+      if (hDrcData->winSequenceCurr != 2) { /* current: long window */
+        alphaValue = (FIXP_DBL)0;
+
+        fact_mag = hDrcData->nextFact_mag;
+        fact_exp = hDrcData->nextFact_exp;
+        numBands = hDrcData->numBandsNext;
+        bandTop = hDrcData->bandTopNext;
+      } else { /* current: short windows */
+        shortDrc = 1;
+
+        fact_mag = hDrcData->currFact_mag;
+        fact_exp = hDrcData->currFact_exp;
+        numBands = hDrcData->numBandsCurr;
+        bandTop = hDrcData->bandTopCurr;
+      }
+    }
+  } else {                                /* first half of next frame */
+    if (hDrcData->winSequenceNext != 2) { /* long window */
+      int j = col - (numQmfSubSamples >> 1);
+
+      if (hDrcData->drcInterpolationSchemeNext == 0) {
+        INT k = (frameLenFlag) ? 0x4444445 : 0x4000000;
+
+        alphaValue = (FIXP_DBL)(j * k);
+      } else {
+        if (j >= (int)winBorderToColMap[hDrcData->drcInterpolationSchemeNext]) {
+          alphaValue = (FIXP_DBL)MAXVAL_DBL;
+        }
+      }
+    } else { /* short windows */
+      shortDrc = 1;
+    }
+
+    fact_mag = hDrcData->nextFact_mag;
+    fact_exp = hDrcData->nextFact_exp;
+    numBands = hDrcData->numBandsNext;
+    bandTop = hDrcData->bandTopNext;
+
+    col -= numQmfSubSamples;
+  }
+
+  /* process bands */
+  for (band = 0; band < (int)numBands; band++) {
+    int bottomQmf, topQmf;
+
+    FIXP_DBL drcFact_mag = (FIXP_DBL)MAXVAL_DBL;
+
+    topMdct = (bandTop[band] + 1) << 2;
+
+    if (!shortDrc) { /* long window */
+      if (frameLenFlag) {
+        /* 960 framing */
+        bottomQmf = fMultIfloor((FIXP_DBL)0x4444445, bottomMdct);
+        topQmf = fMultIfloor((FIXP_DBL)0x4444445, topMdct);
+
+        topMdct = 30 * topQmf;
+      } else {
+        /* 1024 framing */
+        topMdct &= ~0x1f;
+
+        bottomQmf = bottomMdct >> 5;
+        topQmf = topMdct >> 5;
+      }
+
+      if (band == ((int)numBands - 1)) {
+        topQmf = (64);
+      }
+
+      for (bin = bottomQmf; bin < topQmf; bin++) {
+        FIXP_DBL drcFact1_mag = hDrcData->prevFact_mag[bin];
+        FIXP_DBL drcFact2_mag = fact_mag[band];
+
+        /* normalize scale factors */
+        if (hDrcData->prevFact_exp < maxShift) {
+          drcFact1_mag >>= maxShift - hDrcData->prevFact_exp;
+        }
+        if (fact_exp < maxShift) {
+          drcFact2_mag >>= maxShift - fact_exp;
+        }
+
+        /* interpolate */
+        if (alphaValue == (FIXP_DBL)0) {
+          drcFact_mag = drcFact1_mag;
+        } else if (alphaValue == (FIXP_DBL)MAXVAL_DBL) {
+          drcFact_mag = drcFact2_mag;
+        } else {
+          drcFact_mag =
+              fMult(alphaValue, drcFact2_mag) +
+              fMult(((FIXP_DBL)MAXVAL_DBL - alphaValue), drcFact1_mag);
+        }
+
+        /* apply scaling */
+        qmfRealSlot[bin] = fMult(qmfRealSlot[bin], drcFact_mag);
+        if (!useLP) {
+          qmfImagSlot[bin] = fMult(qmfImagSlot[bin], drcFact_mag);
+        }
+
+        /* save previous factors */
+        if (col == (numQmfSubSamples >> 1) - 1) {
+          hDrcData->prevFact_mag[bin] = fact_mag[band];
+        }
+      }
+    } else { /* short windows */
+      unsigned startWinIdx, stopWinIdx;
+      int startCol, stopCol;
+      FIXP_DBL invFrameSizeDiv8 =
+          (frameLenFlag) ? (FIXP_DBL)0x1111112 : (FIXP_DBL)0x1000000;
+
+      /* limit top at the frame borders */
+      if (topMdct < 0) {
+        topMdct = 0;
+      }
+      if (topMdct >= frameSize) {
+        topMdct = frameSize - 1;
+      }
+
+      if (frameLenFlag) {
+        /*  960 framing */
+        topMdct = fMultIfloor((FIXP_DBL)0x78000000,
+                              fMultIfloor((FIXP_DBL)0x22222223, topMdct) << 2);
+
+        startWinIdx = fMultIfloor(invFrameSizeDiv8, bottomMdct) +
+                      1; /* winBorderToColMap table has offset of 1 */
+        stopWinIdx = fMultIceil(invFrameSizeDiv8 - (FIXP_DBL)1, topMdct) + 1;
+      } else {
+        /* 1024 framing */
+        topMdct &= ~0x03;
+
+        startWinIdx = fMultIfloor(invFrameSizeDiv8, bottomMdct) + 1;
+        stopWinIdx = fMultIceil(invFrameSizeDiv8, topMdct) + 1;
+      }
+
+      /* startCol is truncated to the nearest corresponding start subsample in
+         the QMF of the short window bottom is present in:*/
+      startCol = (int)winBorderToColMap[startWinIdx];
+
+      /* stopCol is rounded upwards to the nearest corresponding stop subsample
+         in the QMF of the short window top is present in. */
+      stopCol = (int)winBorderToColMap[stopWinIdx];
+
+      bottomQmf = fMultIfloor(invFrameSizeDiv8,
+                              ((bottomMdct % (numQmfSubSamples << 2)) << 5));
+      topQmf = fMultIfloor(invFrameSizeDiv8,
+                           ((topMdct % (numQmfSubSamples << 2)) << 5));
+
+      /* extend last band */
+      if (band == ((int)numBands - 1)) {
+        topQmf = (64);
+        stopCol = numQmfSubSamples;
+        stopWinIdx = 10;
+      }
+
+      if (topQmf == 0) {
+        if (frameLenFlag) {
+          FIXP_DBL rem = fMult(invFrameSizeDiv8,
+                               (FIXP_DBL)(topMdct << (DFRACT_BITS - 12)));
+          if ((LONG)rem & (LONG)0x1F) {
+            stopWinIdx -= 1;
+            stopCol = (int)winBorderToColMap[stopWinIdx];
+          }
+        }
+        topQmf = (64);
+      }
+
+      /* save previous factors */
+      if (stopCol == numQmfSubSamples) {
+        int tmpBottom = bottomQmf;
+
+        if ((int)winBorderToColMap[8] > startCol) {
+          tmpBottom = 0; /* band starts in previous short window */
+        }
+
+        for (bin = tmpBottom; bin < topQmf; bin++) {
+          hDrcData->prevFact_mag[bin] = fact_mag[band];
+        }
+      }
+
+      /* apply */
+      if ((col >= startCol) && (col < stopCol)) {
+        if (col >= (int)winBorderToColMap[startWinIdx + 1]) {
+          bottomQmf = 0; /* band starts in previous short window */
+        }
+        if (col < (int)winBorderToColMap[stopWinIdx - 1]) {
+          topQmf = (64); /* band ends in next short window */
+        }
+
+        drcFact_mag = fact_mag[band];
+
+        /* normalize scale factor */
+        if (fact_exp < maxShift) {
+          drcFact_mag >>= maxShift - fact_exp;
+        }
+
+        /* apply scaling */
+        for (bin = bottomQmf; bin < topQmf; bin++) {
+          qmfRealSlot[bin] = fMult(qmfRealSlot[bin], drcFact_mag);
+          if (!useLP) {
+            qmfImagSlot[bin] = fMult(qmfImagSlot[bin], drcFact_mag);
+          }
+        }
+      }
+    }
+
+    bottomMdct = topMdct;
+  } /* end of bands loop */
+
+  if (col == (numQmfSubSamples >> 1) - 1) {
+    hDrcData->prevFact_exp = fact_exp;
+  }
+}
+
+/*!
+  \brief Apply DRC factors frame based.
+
+  \hDrcData Handle to DRC channel data.
+  \qmfRealSlot Pointer to real valued QMF data of the whole frame.
+  \qmfImagSlot Pointer to the imaginary QMF data of the whole frame.
+  \numQmfSubSamples Total number of time slots for one frame.
+  \scaleFactor Pointer to the out scale factor of the frame.
+
+  \return None.
+*/
+void sbrDecoder_drcApply(HANDLE_SBR_DRC_CHANNEL hDrcData,
+                         FIXP_DBL **QmfBufferReal, FIXP_DBL **QmfBufferImag,
+                         int numQmfSubSamples, int *scaleFactor) {
+  int col;
+  int maxShift = 0;
+
+  if (hDrcData == NULL) {
+    return;
+  }
+  if (hDrcData->enable == 0) {
+    return; /* Avoid changing the scaleFactor even though the processing is
+               disabled. */
+  }
+
+  /* get max scale factor */
+  if (hDrcData->prevFact_exp > maxShift) {
+    maxShift = hDrcData->prevFact_exp;
+  }
+  if (hDrcData->currFact_exp > maxShift) {
+    maxShift = hDrcData->currFact_exp;
+  }
+  if (hDrcData->nextFact_exp > maxShift) {
+    maxShift = hDrcData->nextFact_exp;
+  }
+
+  for (col = 0; col < numQmfSubSamples; col++) {
+    FIXP_DBL *qmfSlotReal = QmfBufferReal[col];
+    FIXP_DBL *qmfSlotImag = (QmfBufferImag == NULL) ? NULL : QmfBufferImag[col];
+
+    sbrDecoder_drcApplySlot(hDrcData, qmfSlotReal, qmfSlotImag, col,
+                            numQmfSubSamples, maxShift);
+  }
+
+  *scaleFactor += maxShift;
+}