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diff --git a/libDRCdec/src/drcDec_selectionProcess.cpp b/libDRCdec/src/drcDec_selectionProcess.cpp
new file mode 100644
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+++ b/libDRCdec/src/drcDec_selectionProcess.cpp
@@ -0,0 +1,3083 @@
+/* -----------------------------------------------------------------------------
+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
+----------------------------------------------------------------------------- */
+
+/************************* MPEG-D DRC decoder library **************************
+
+   Author(s):   Andreas Hoelzer
+
+   Description: DRC Set Selection
+
+*******************************************************************************/
+
+#include "drcDec_selectionProcess.h"
+#include "drcDec_tools.h"
+
+#define UNDEFINED_LOUDNESS_VALUE (FIXP_DBL) MAXVAL_DBL
+
+typedef enum {
+  DETR_NONE = 0,
+  DETR_NIGHT = 1,
+  DETR_NOISY = 2,
+  DETR_LIMITED = 3,
+  DETR_LOWLEVEL = 4,
+  DETR_DIALOG = 5,
+  DETR_GENERAL_COMPR = 6,
+  DETR_EXPAND = 7,
+  DETR_ARTISTIC = 8,
+  DETR_COUNT
+} DRC_EFFECT_TYPE_REQUEST;
+
+typedef enum {
+  DFRT_EFFECT_TYPE,
+  DFRT_DYNAMIC_RANGE,
+  DFRT_DRC_CHARACTERISTIC
+} DRC_FEATURE_REQUEST_TYPE;
+
+typedef enum {
+  MDR_DEFAULT = 0,
+  MDR_PROGRAM_LOUDNESS = 1,
+  MDR_ANCHOR_LOUDNESS = 2
+} METHOD_DEFINITION_REQUEST;
+
+typedef enum {
+  MSR_DEFAULT = 0,
+  MSR_BS_1770_4 = 1,
+  MSR_USER = 2,
+  MSR_EXPERT_PANEL = 3,
+  MSR_RESERVED_A = 4,
+  MSR_RESERVED_B = 5,
+  MSR_RESERVED_C = 6,
+  MSR_RESERVED_D = 7,
+  MSR_RESERVED_E = 8
+} MEASUREMENT_SYSTEM_REQUEST;
+
+typedef enum {
+  LPR_DEFAULT = 0,
+  LPR_OFF = 1,
+  LPR_HIGHPASS = 2
+} LOUDNESS_PREPROCESSING_REQUEST;
+
+typedef enum {
+  DRMRT_SHORT_TERM_LOUDNESS_TO_AVG = 0,
+  DRMRT_MOMENTARY_LOUDNESS_TO_AVG = 1,
+  DRMRT_TOP_OF_LOUDNESS_RANGE_TO_AVG = 2
+} DYN_RANGE_MEASUREMENT_REQUEST_TYPE;
+
+typedef enum {
+  TCRT_DOWNMIX_ID = 0,
+  TCRT_TARGET_LAYOUT = 1,
+  TCRT_TARGET_CHANNEL_COUNT = 2
+} TARGET_CONFIG_REQUEST_TYPE;
+
+typedef shouldBeUnion {
+  struct {
+    UCHAR numRequests;
+    UCHAR numRequestsDesired;
+    DRC_EFFECT_TYPE_REQUEST request[MAX_REQUESTS_DRC_EFFECT_TYPE];
+  } drcEffectType;
+  struct {
+    DYN_RANGE_MEASUREMENT_REQUEST_TYPE measurementRequestType;
+    UCHAR requestedIsRange;
+    FIXP_DBL requestValue;    /* e = 7 */
+    FIXP_DBL requestValueMin; /* e = 7 */
+    FIXP_DBL requestValueMax; /* e = 7 */
+  } dynamicRange;
+  UCHAR drcCharacteristic;
+}
+DRC_FEATURE_REQUEST;
+
+typedef struct {
+  /* system parameters */
+  SCHAR baseChannelCount;
+  SCHAR baseLayout; /* not supported */
+  TARGET_CONFIG_REQUEST_TYPE targetConfigRequestType;
+  UCHAR numDownmixIdRequests;
+  UCHAR downmixIdRequested[MAX_REQUESTS_DOWNMIX_ID];
+  UCHAR targetLayoutRequested;
+  UCHAR targetChannelCountRequested;
+  LONG audioSampleRate; /* needed for complexity estimation, currently not
+                           supported */
+
+  /* loudness normalization parameters */
+  UCHAR loudnessNormalizationOn;
+  FIXP_DBL targetLoudness; /* e = 7 */
+  UCHAR albumMode;
+  UCHAR peakLimiterPresent;
+  UCHAR loudnessDeviationMax; /* resolution: 1 dB */
+  METHOD_DEFINITION_REQUEST loudnessMeasurementMethod;
+  MEASUREMENT_SYSTEM_REQUEST loudnessMeasurementSystem;
+  LOUDNESS_PREPROCESSING_REQUEST loudnessMeasurementPreProc; /* not supported */
+  LONG deviceCutOffFrequency;                                /* not supported */
+  FIXP_DBL loudnessNormalizationGainDbMax;                   /* e = 7 */
+  FIXP_DBL loudnessNormalizationGainModificationDb;          /* e = 7 */
+  FIXP_DBL outputPeakLevelMax;                               /* e = 7 */
+
+  /* dynamic range control parameters */
+  UCHAR dynamicRangeControlOn;
+  UCHAR numDrcFeatureRequests;
+  DRC_FEATURE_REQUEST_TYPE drcFeatureRequestType[MAX_REQUESTS_DRC_FEATURE];
+  DRC_FEATURE_REQUEST drcFeatureRequest[MAX_REQUESTS_DRC_FEATURE];
+
+  /* other */
+  FIXP_SGL boost;                /* e = 1 */
+  FIXP_SGL compress;             /* e = 1 */
+  UCHAR drcCharacteristicTarget; /* not supported */
+} SEL_PROC_INPUT, *HANDLE_SEL_PROC_INPUT;
+
+/* Table E.1 of ISO/IEC DIS 23003-4: Recommended order of fallback effect type
+ * requests */
+static DRC_EFFECT_TYPE_REQUEST fallbackEffectTypeRequests[6][5] = {
+    /* Night */ {DETR_GENERAL_COMPR, DETR_NOISY, DETR_LIMITED, DETR_LOWLEVEL,
+                 DETR_DIALOG},
+    /* Noisy */
+    {DETR_GENERAL_COMPR, DETR_NIGHT, DETR_LIMITED, DETR_LOWLEVEL, DETR_DIALOG},
+    /* Limited */
+    {DETR_GENERAL_COMPR, DETR_NIGHT, DETR_NOISY, DETR_LOWLEVEL, DETR_DIALOG},
+    /* LowLevel */
+    {DETR_GENERAL_COMPR, DETR_NOISY, DETR_NIGHT, DETR_LIMITED, DETR_DIALOG},
+    /* Dialog */
+    {DETR_GENERAL_COMPR, DETR_NIGHT, DETR_NOISY, DETR_LIMITED, DETR_LOWLEVEL},
+    /* General */
+    {DETR_NIGHT, DETR_NOISY, DETR_LIMITED, DETR_LOWLEVEL, DETR_DIALOG}};
+
+/*******************************************/
+typedef struct {
+  UCHAR selectionFlag;
+  UCHAR downmixIdRequestIndex;
+  FIXP_DBL outputPeakLevel;                     /* e = 7 */
+  FIXP_DBL loudnessNormalizationGainDbAdjusted; /* e = 7 */
+  FIXP_DBL outputLoudness;                      /* e = 7 */
+  DRC_INSTRUCTIONS_UNI_DRC* pInst;
+
+} DRCDEC_SELECTION_DATA;
+
+typedef struct {
+  UCHAR numData;
+  DRCDEC_SELECTION_DATA data[(12 + 1 + 6)];
+
+} DRCDEC_SELECTION;
+
+/*******************************************/
+/* helper functions                        */
+/*******************************************/
+
+static int _isError(int x) {
+  if (x < DRCDEC_SELECTION_PROCESS_WARNING) {
+    return 1;
+  }
+
+  return 0;
+}
+
+/* compare and assign */
+static inline int _compAssign(UCHAR* dest, const UCHAR src) {
+  int diff = 0;
+  if (*dest != src) diff = 1;
+  *dest = src;
+  return diff;
+}
+
+static inline int _compAssign(SCHAR* dest, const SCHAR src) {
+  int diff = 0;
+  if (*dest != src) diff = 1;
+  *dest = src;
+  return diff;
+}
+
+static inline int _compAssign(FIXP_DBL* dest, const FIXP_DBL src) {
+  int diff = 0;
+  if (*dest != src) diff = 1;
+  *dest = src;
+  return diff;
+}
+
+static inline int _compAssign(FIXP_SGL* dest, const FIXP_SGL src) {
+  int diff = 0;
+  if (*dest != src) diff = 1;
+  *dest = src;
+  return diff;
+}
+
+static inline int _compAssign(TARGET_CONFIG_REQUEST_TYPE* dest, const int src) {
+  int diff = 0;
+  if (*dest != src) diff = 1;
+  *dest = (TARGET_CONFIG_REQUEST_TYPE)src;
+  return diff;
+}
+
+static inline int _compAssign(METHOD_DEFINITION_REQUEST* dest, const int src) {
+  int diff = 0;
+  if (*dest != src) diff = 1;
+  *dest = (METHOD_DEFINITION_REQUEST)src;
+  return diff;
+}
+
+static inline int _compAssign(DRC_FEATURE_REQUEST_TYPE* dest, const int src) {
+  int diff = 0;
+  if (*dest != src) diff = 1;
+  *dest = (DRC_FEATURE_REQUEST_TYPE)src;
+  return diff;
+}
+
+static inline int _compAssign(DRC_EFFECT_TYPE_REQUEST* dest, const int src) {
+  int diff = 0;
+  if (*dest != src) diff = 1;
+  *dest = (DRC_EFFECT_TYPE_REQUEST)src;
+  return diff;
+}
+
+static DRCDEC_SELECTION_DATA* _drcdec_selection_addNew(
+    DRCDEC_SELECTION* pSelection);
+
+static DRCDEC_SELECTION_DATA* _drcdec_selection_add(
+    DRCDEC_SELECTION* pSelection, DRCDEC_SELECTION_DATA* pDataIn);
+
+static int _drcdec_selection_clear(DRCDEC_SELECTION* pSelection);
+
+static int _drcdec_selection_getNumber(DRCDEC_SELECTION* pSelection);
+
+static int _drcdec_selection_setNumber(DRCDEC_SELECTION* pSelection, int num);
+
+static DRCDEC_SELECTION_DATA* _drcdec_selection_getAt(
+    DRCDEC_SELECTION* pSelection, int at);
+
+static int _swapSelectionAndClear(DRCDEC_SELECTION** ppCandidatesPotential,
+                                  DRCDEC_SELECTION** ppCandidatesSelected);
+
+static int _swapSelection(DRCDEC_SELECTION** ppCandidatesPotential,
+                          DRCDEC_SELECTION** ppCandidatesSelected);
+
+/*******************************************/
+/* declarations of static functions        */
+/*******************************************/
+
+static DRCDEC_SELECTION_PROCESS_RETURN _initDefaultParams(
+    HANDLE_SEL_PROC_INPUT hSelProcInput);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _initCodecModeParams(
+    HANDLE_SEL_PROC_INPUT hSelProcInput, const SEL_PROC_CODEC_MODE codecMode);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetPreSelection(
+    SEL_PROC_INPUT* hSelProcInput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+    DRCDEC_SELECTION** ppCandidatesPotential,
+    DRCDEC_SELECTION** ppCandidatesSelected, SEL_PROC_CODEC_MODE codecMode);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetFinalSelection_peakValue0(
+    DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _dynamicRangeMeasurement(
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet, DRC_INSTRUCTIONS_UNI_DRC* pInst,
+    UCHAR downmixIdRequested,
+    DYN_RANGE_MEASUREMENT_REQUEST_TYPE dynamicRangeMeasurementType,
+    int albumMode, int* peakToAveragePresent, FIXP_DBL* peakToAverage);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _channelLayoutToDownmixIdMapping(
+    HANDLE_SEL_PROC_INPUT hSelProcInput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _generateVirtualDrcSets(
+    HANDLE_SEL_PROC_INPUT hSelProcInput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    SEL_PROC_CODEC_MODE codecMode);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetRequestSelection(
+    SEL_PROC_INPUT* hSelProcInput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+    DRCDEC_SELECTION** ppCandidatesPotential,
+    DRCDEC_SELECTION** ppCandidatesSelected);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetFinalSelection(
+    HANDLE_SEL_PROC_INPUT hSelProcInput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    DRCDEC_SELECTION** ppCandidatesPotential,
+    DRCDEC_SELECTION** ppCandidatesSelected, SEL_PROC_CODEC_MODE codecMode);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _generateOutputInfo(
+    HANDLE_SEL_PROC_INPUT hSelProcInput, HANDLE_SEL_PROC_OUTPUT hSelProcOutput,
+    HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+    DRCDEC_SELECTION_DATA* pSelectionData, SEL_PROC_CODEC_MODE codecMode);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _selectDownmixMatrix(
+    HANDLE_SEL_PROC_OUTPUT hSelProcOutput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _getLoudness(
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet, int albumMode,
+    METHOD_DEFINITION_REQUEST measurementMethodRequested,
+    MEASUREMENT_SYSTEM_REQUEST measurementSystemRequested,
+    FIXP_DBL targetLoudness, int drcSetId, int downmixIdRequested,
+    FIXP_DBL* pLoudnessNormalizationGain, FIXP_DBL* pLoudness);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _getMixingLevel(
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet, int downmixIdRequested,
+    int drcSetIdRequested, int albumMode, FIXP_DBL* pMixingLevel);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _getSignalPeakLevel(
+    HANDLE_SEL_PROC_INPUT hSelProcInput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet, DRC_INSTRUCTIONS_UNI_DRC* pInst,
+    int downmixIdRequested, int* explicitPeakInformationPresent,
+    FIXP_DBL* signalPeakLevelOut, /* e = 7 */
+    SEL_PROC_CODEC_MODE codecMode);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _extractLoudnessPeakToAverageValue(
+    LOUDNESS_INFO* loudnessInfo,
+    DYN_RANGE_MEASUREMENT_REQUEST_TYPE dynamicRangeMeasurementType,
+    int* pLoudnessPeakToAverageValuePresent,
+    FIXP_DBL* pLoudnessPeakToAverageValue);
+
+static DRCDEC_SELECTION_PROCESS_RETURN _selectAlbumLoudness(
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+    DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected);
+
+static int _findMethodDefinition(LOUDNESS_INFO* pLoudnessInfo,
+                                 int methodDefinition, int startIndex);
+
+/*******************************************/
+/* public functions                        */
+/*******************************************/
+
+struct s_drcdec_selection_process {
+  SEL_PROC_CODEC_MODE codecMode;
+  SEL_PROC_INPUT selProcInput;
+  DRCDEC_SELECTION
+  selectionData[2]; /* 2 instances, one before and one after selection */
+};
+
+DRCDEC_SELECTION_PROCESS_RETURN
+drcDec_SelectionProcess_Create(HANDLE_DRC_SELECTION_PROCESS* phInstance) {
+  HANDLE_DRC_SELECTION_PROCESS hInstance;
+  hInstance = (HANDLE_DRC_SELECTION_PROCESS)FDKcalloc(
+      1, sizeof(struct s_drcdec_selection_process));
+
+  if (!hInstance) return DRCDEC_SELECTION_PROCESS_OUTOFMEMORY;
+
+  hInstance->codecMode = SEL_PROC_CODEC_MODE_UNDEFINED;
+
+  *phInstance = hInstance;
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+DRCDEC_SELECTION_PROCESS_RETURN
+drcDec_SelectionProcess_Init(HANDLE_DRC_SELECTION_PROCESS hInstance) {
+  if (!hInstance) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+  _initDefaultParams(&hInstance->selProcInput);
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+DRCDEC_SELECTION_PROCESS_RETURN
+drcDec_SelectionProcess_SetCodecMode(HANDLE_DRC_SELECTION_PROCESS hInstance,
+                                     const SEL_PROC_CODEC_MODE codecMode) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+
+  if (!hInstance) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+  switch (codecMode) {
+    case SEL_PROC_MPEG_4_AAC:
+    case SEL_PROC_MPEG_D_USAC:
+    case SEL_PROC_TEST_TIME_DOMAIN:
+    case SEL_PROC_TEST_QMF_DOMAIN:
+    case SEL_PROC_TEST_STFT_DOMAIN:
+      hInstance->codecMode = codecMode;
+      break;
+
+    case SEL_PROC_CODEC_MODE_UNDEFINED:
+    default:
+      return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  retVal = _initCodecModeParams(&(hInstance->selProcInput),
+                                hInstance->codecMode = codecMode);
+
+  return retVal;
+}
+
+DRCDEC_SELECTION_PROCESS_RETURN
+drcDec_SelectionProcess_SetParam(HANDLE_DRC_SELECTION_PROCESS hInstance,
+                                 const SEL_PROC_USER_PARAM requestType,
+                                 FIXP_DBL requestValue, int* pDiff) {
+  INT requestValueInt = (INT)requestValue;
+  int i, diff = 0;
+  SEL_PROC_INPUT* pSelProcInput = &(hInstance->selProcInput);
+
+  switch (requestType) {
+    case SEL_PROC_LOUDNESS_NORMALIZATION_ON:
+      if ((requestValueInt != 0) && (requestValueInt != 1))
+        return DRCDEC_SELECTION_PROCESS_PARAM_OUT_OF_RANGE;
+      diff |=
+          _compAssign(&pSelProcInput->loudnessNormalizationOn, requestValueInt);
+      break;
+    case SEL_PROC_TARGET_LOUDNESS:
+      /* Lower boundary: drcSetTargetLoudnessValueLower default value.
+         Upper boundary: drcSetTargetLoudnessValueUpper default value */
+      if ((requestValue < FL2FXCONST_DBL(-63.0f / (float)(1 << 7))) ||
+          (requestValue > (FIXP_DBL)0))
+        return DRCDEC_SELECTION_PROCESS_PARAM_OUT_OF_RANGE;
+      if (requestValue >
+          FL2FXCONST_DBL(-10.0f /
+                         (float)(1 << 7))) /* recommended maximum value */
+        requestValue = FL2FXCONST_DBL(-10.0f / (float)(1 << 7));
+      diff |= _compAssign(&pSelProcInput->targetLoudness, requestValue);
+      break;
+    case SEL_PROC_EFFECT_TYPE:
+      if ((requestValueInt < -1) || (requestValueInt >= DETR_COUNT))
+        return DRCDEC_SELECTION_PROCESS_PARAM_OUT_OF_RANGE;
+      /* Caution. This overrides all drcFeatureRequests requested so far! */
+      if (requestValueInt == -1) {
+        diff |= _compAssign(&pSelProcInput->dynamicRangeControlOn, 0);
+      } else if (requestValueInt == DETR_NONE) {
+        diff |= _compAssign(&pSelProcInput->dynamicRangeControlOn, 1);
+        diff |= _compAssign(&pSelProcInput->numDrcFeatureRequests, 0);
+      } else {
+        diff |= _compAssign(&pSelProcInput->dynamicRangeControlOn, 1);
+        diff |= _compAssign(&pSelProcInput->numDrcFeatureRequests, 1);
+        diff |= _compAssign(&pSelProcInput->drcFeatureRequestType[0],
+                            DFRT_EFFECT_TYPE);
+        diff |= _compAssign(&pSelProcInput->drcFeatureRequest[0]
+                                 .drcEffectType.numRequestsDesired,
+                            1);
+        diff |= _compAssign(
+            &pSelProcInput->drcFeatureRequest[0].drcEffectType.request[0],
+            requestValueInt);
+        if ((requestValueInt > DETR_NONE) &&
+            (requestValueInt <= DETR_GENERAL_COMPR)) {
+          /* use fallback effect type requests */
+          for (i = 0; i < 5; i++) {
+            diff |=
+                _compAssign(&pSelProcInput->drcFeatureRequest[0]
+                                 .drcEffectType.request[i + 1],
+                            fallbackEffectTypeRequests[requestValueInt - 1][i]);
+          }
+          diff |= _compAssign(
+              &pSelProcInput->drcFeatureRequest[0].drcEffectType.numRequests,
+              6);
+        } else {
+          diff |= _compAssign(
+              &pSelProcInput->drcFeatureRequest[0].drcEffectType.numRequests,
+              1);
+        }
+      }
+      break;
+    case SEL_PROC_LOUDNESS_MEASUREMENT_METHOD:
+      if ((requestValueInt < 0) || (requestValueInt > 2))
+        return DRCDEC_SELECTION_PROCESS_PARAM_OUT_OF_RANGE;
+      diff |= _compAssign(&pSelProcInput->loudnessMeasurementMethod,
+                          requestValueInt);
+      break;
+    case SEL_PROC_DOWNMIX_ID:
+      diff |=
+          _compAssign(&pSelProcInput->targetConfigRequestType, TCRT_DOWNMIX_ID);
+      if (requestValueInt < 0) { /* negative requests signal no downmixId */
+        diff |= _compAssign(&pSelProcInput->numDownmixIdRequests, 0);
+      } else {
+        diff |= _compAssign(&pSelProcInput->numDownmixIdRequests, 1);
+        diff |=
+            _compAssign(&pSelProcInput->downmixIdRequested[0], requestValueInt);
+      }
+      break;
+    case SEL_PROC_TARGET_LAYOUT:
+      /* Request target layout according to ChannelConfiguration in ISO/IEC
+       * 23001-8 (CICP) */
+      if ((requestValueInt < 1) || (requestValueInt > 63))
+        return DRCDEC_SELECTION_PROCESS_PARAM_OUT_OF_RANGE;
+      diff |= _compAssign(&pSelProcInput->targetConfigRequestType,
+                          TCRT_TARGET_LAYOUT);
+      diff |=
+          _compAssign(&pSelProcInput->targetLayoutRequested, requestValueInt);
+      break;
+    case SEL_PROC_TARGET_CHANNEL_COUNT:
+      if ((requestValueInt < 1) || (requestValueInt > 8))
+        return DRCDEC_SELECTION_PROCESS_PARAM_OUT_OF_RANGE;
+      diff |= _compAssign(&pSelProcInput->targetConfigRequestType,
+                          TCRT_TARGET_CHANNEL_COUNT);
+      diff |= _compAssign(&pSelProcInput->targetChannelCountRequested,
+                          requestValueInt);
+      break;
+    case SEL_PROC_BASE_CHANNEL_COUNT:
+      if (requestValueInt < 0)
+        return DRCDEC_SELECTION_PROCESS_PARAM_OUT_OF_RANGE;
+      diff |= _compAssign(&pSelProcInput->baseChannelCount, requestValueInt);
+      break;
+    case SEL_PROC_SAMPLE_RATE:
+      if (requestValueInt < 0)
+        return DRCDEC_SELECTION_PROCESS_PARAM_OUT_OF_RANGE;
+      diff |= _compAssign(&pSelProcInput->audioSampleRate, requestValueInt);
+      break;
+    case SEL_PROC_BOOST:
+      if ((requestValue < (FIXP_DBL)0) ||
+          (requestValue > FL2FXCONST_DBL(1.0f / (float)(1 << 1))))
+        return DRCDEC_SELECTION_PROCESS_PARAM_OUT_OF_RANGE;
+      diff |= _compAssign(&pSelProcInput->boost, FX_DBL2FX_SGL(requestValue));
+      break;
+    case SEL_PROC_COMPRESS:
+      if ((requestValue < (FIXP_DBL)0) ||
+          (requestValue > FL2FXCONST_DBL(1.0f / (float)(1 << 1))))
+        return DRCDEC_SELECTION_PROCESS_PARAM_OUT_OF_RANGE;
+      diff |=
+          _compAssign(&pSelProcInput->compress, FX_DBL2FX_SGL(requestValue));
+      break;
+    default:
+      return DRCDEC_SELECTION_PROCESS_INVALID_PARAM;
+  }
+
+  if (pDiff != NULL) {
+    *pDiff |= diff;
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+FIXP_DBL
+drcDec_SelectionProcess_GetParam(HANDLE_DRC_SELECTION_PROCESS hInstance,
+                                 const SEL_PROC_USER_PARAM requestType) {
+  SEL_PROC_INPUT* pSelProcInput = &(hInstance->selProcInput);
+
+  switch (requestType) {
+    case SEL_PROC_LOUDNESS_NORMALIZATION_ON:
+      return (FIXP_DBL)pSelProcInput->loudnessNormalizationOn;
+    case SEL_PROC_DYNAMIC_RANGE_CONTROL_ON:
+      return (FIXP_DBL)pSelProcInput->dynamicRangeControlOn;
+    default:
+      return (FIXP_DBL)0;
+  }
+}
+
+DRCDEC_SELECTION_PROCESS_RETURN
+drcDec_SelectionProcess_Delete(HANDLE_DRC_SELECTION_PROCESS* phInstance) {
+  if (phInstance == NULL || *phInstance == NULL)
+    return DRCDEC_SELECTION_PROCESS_INVALID_HANDLE;
+
+  FDKfree(*phInstance);
+  *phInstance = NULL;
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+DRCDEC_SELECTION_PROCESS_RETURN
+drcDec_SelectionProcess_Process(HANDLE_DRC_SELECTION_PROCESS hInstance,
+                                HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+                                HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+                                HANDLE_SEL_PROC_OUTPUT hSelProcOutput) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  DRCDEC_SELECTION* pCandidatesSelected;
+  DRCDEC_SELECTION* pCandidatesPotential;
+
+  if (hInstance == NULL) return DRCDEC_SELECTION_PROCESS_INVALID_HANDLE;
+
+  pCandidatesSelected = &(hInstance->selectionData[0]);
+  pCandidatesPotential = &(hInstance->selectionData[1]);
+  _drcdec_selection_setNumber(pCandidatesSelected, 0);
+  _drcdec_selection_setNumber(pCandidatesPotential, 0);
+
+  retVal = _generateVirtualDrcSets(&(hInstance->selProcInput), hUniDrcConfig,
+                                   hInstance->codecMode);
+  if (retVal) return (retVal);
+
+  if (hInstance->selProcInput.baseChannelCount !=
+      hUniDrcConfig->channelLayout.baseChannelCount) {
+    hInstance->selProcInput.baseChannelCount =
+        hUniDrcConfig->channelLayout.baseChannelCount;
+  }
+
+  if ((hInstance->selProcInput.targetConfigRequestType != 0) ||
+      (hInstance->selProcInput.targetConfigRequestType == 0 &&
+       hInstance->selProcInput.numDownmixIdRequests == 0)) {
+    retVal = _channelLayoutToDownmixIdMapping(&(hInstance->selProcInput),
+                                              hUniDrcConfig);
+
+    if (_isError(retVal)) return (retVal);
+  }
+
+  retVal = _drcSetPreSelection(&(hInstance->selProcInput), hUniDrcConfig,
+                               hLoudnessInfoSet, &pCandidatesPotential,
+                               &pCandidatesSelected, hInstance->codecMode);
+  if (retVal) return (retVal);
+
+  if (hInstance->selProcInput.albumMode) {
+    _swapSelectionAndClear(&pCandidatesPotential, &pCandidatesSelected);
+
+    retVal = _selectAlbumLoudness(hLoudnessInfoSet, pCandidatesPotential,
+                                  pCandidatesSelected);
+    if (retVal) return (retVal);
+
+    if (_drcdec_selection_getNumber(pCandidatesSelected) == 0) {
+      _swapSelection(&pCandidatesPotential, &pCandidatesSelected);
+    }
+  }
+
+  _swapSelectionAndClear(&pCandidatesPotential, &pCandidatesSelected);
+
+  retVal = _drcSetRequestSelection(&(hInstance->selProcInput), hUniDrcConfig,
+                                   hLoudnessInfoSet, &pCandidatesPotential,
+                                   &pCandidatesSelected);
+  if (retVal) return (retVal);
+
+  retVal = _drcSetFinalSelection(&(hInstance->selProcInput), hUniDrcConfig,
+                                 &pCandidatesPotential, &pCandidatesSelected,
+                                 hInstance->codecMode);
+  if (retVal) return (retVal);
+
+  retVal = _generateOutputInfo(
+      &(hInstance->selProcInput), hSelProcOutput, hUniDrcConfig,
+      hLoudnessInfoSet, &(pCandidatesSelected->data[0]), hInstance->codecMode);
+
+  if (_isError(retVal)) return (retVal);
+
+  retVal = _selectDownmixMatrix(hSelProcOutput, hUniDrcConfig);
+  if (retVal) return (retVal);
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+/*******************************************/
+/* static functions                        */
+/*******************************************/
+
+static DRCDEC_SELECTION_PROCESS_RETURN _initDefaultParams(
+    HANDLE_SEL_PROC_INPUT hSelProcInput) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+
+  if (hSelProcInput == NULL) return DRCDEC_SELECTION_PROCESS_INVALID_HANDLE;
+
+  /* system parameters */
+  hSelProcInput->baseChannelCount = -1;
+  hSelProcInput->baseLayout = -1;
+  hSelProcInput->targetConfigRequestType = TCRT_DOWNMIX_ID;
+  hSelProcInput->numDownmixIdRequests = 0;
+
+  /* loudness normalization parameters */
+  hSelProcInput->albumMode = 0;
+  hSelProcInput->peakLimiterPresent = 0;
+  hSelProcInput->loudnessNormalizationOn = 1;
+  hSelProcInput->targetLoudness = FL2FXCONST_DBL(-24.0f / (float)(1 << 7));
+  hSelProcInput->loudnessDeviationMax = DEFAULT_LOUDNESS_DEVIATION_MAX;
+  hSelProcInput->loudnessMeasurementMethod = MDR_DEFAULT;
+  hSelProcInput->loudnessMeasurementSystem = MSR_DEFAULT;
+  hSelProcInput->loudnessMeasurementPreProc = LPR_DEFAULT;
+  hSelProcInput->deviceCutOffFrequency = 500;
+  hSelProcInput->loudnessNormalizationGainDbMax =
+      (FIXP_DBL)MAXVAL_DBL; /* infinity as default */
+  hSelProcInput->loudnessNormalizationGainModificationDb = (FIXP_DBL)0;
+  hSelProcInput->outputPeakLevelMax = (FIXP_DBL)0;
+  if (hSelProcInput->peakLimiterPresent == 1) {
+    hSelProcInput->outputPeakLevelMax = FL2FXCONST_DBL(6.0f / (float)(1 << 7));
+  }
+
+  /* dynamic range control parameters */
+  hSelProcInput->dynamicRangeControlOn = 1;
+
+  hSelProcInput->numDrcFeatureRequests = 0;
+
+  /* other parameters */
+  hSelProcInput->boost = FL2FXCONST_SGL(1.f / (float)(1 << 1));
+  hSelProcInput->compress = FL2FXCONST_SGL(1.f / (float)(1 << 1));
+  hSelProcInput->drcCharacteristicTarget = 0;
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _initCodecModeParams(
+    HANDLE_SEL_PROC_INPUT hSelProcInput, const SEL_PROC_CODEC_MODE codecMode) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+
+  if (hSelProcInput == NULL) return DRCDEC_SELECTION_PROCESS_INVALID_HANDLE;
+
+  switch (codecMode) {
+    case SEL_PROC_MPEG_H_3DA:
+      hSelProcInput->loudnessDeviationMax = 0;
+      hSelProcInput->peakLimiterPresent = 1; /* peak limiter is mandatory */
+      /* The peak limiter also has to catch overshoots due to user
+      interactivity, downmixing etc. Therefore the maximum output peak level is
+      reduced to 0 dB. */
+      hSelProcInput->outputPeakLevelMax = (FIXP_DBL)0;
+      break;
+    case SEL_PROC_MPEG_4_AAC:
+    case SEL_PROC_MPEG_D_USAC:
+      hSelProcInput->loudnessDeviationMax = DEFAULT_LOUDNESS_DEVIATION_MAX;
+      hSelProcInput->peakLimiterPresent = 1;
+      /* A peak limiter is present at the end of the decoder, therefore we can
+       * allow for a maximum output peak level greater than full scale
+       */
+      hSelProcInput->outputPeakLevelMax =
+          FL2FXCONST_DBL(6.0f / (float)(1 << 7));
+      break;
+    case SEL_PROC_TEST_TIME_DOMAIN:
+    case SEL_PROC_TEST_QMF_DOMAIN:
+    case SEL_PROC_TEST_STFT_DOMAIN:
+      /* for testing, adapt to default settings in reference software */
+      hSelProcInput->loudnessNormalizationOn = 0;
+      hSelProcInput->dynamicRangeControlOn = 0;
+      break;
+    case SEL_PROC_CODEC_MODE_UNDEFINED:
+    default:
+      hSelProcInput->loudnessDeviationMax = DEFAULT_LOUDNESS_DEVIATION_MAX;
+      hSelProcInput->peakLimiterPresent = 0;
+  }
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _channelLayoutToDownmixIdMapping(
+    HANDLE_SEL_PROC_INPUT hSelProcInput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+
+  DOWNMIX_INSTRUCTIONS* pDown = NULL;
+
+  int i;
+
+  hSelProcInput->numDownmixIdRequests = 0;
+
+  switch (hSelProcInput->targetConfigRequestType) {
+    case TCRT_DOWNMIX_ID:
+      if (hSelProcInput->numDownmixIdRequests == 0) {
+        hSelProcInput->downmixIdRequested[0] = 0;
+        hSelProcInput->numDownmixIdRequests = 1;
+      }
+
+      break;
+
+    case TCRT_TARGET_LAYOUT:
+      if (hSelProcInput->targetLayoutRequested == hSelProcInput->baseLayout) {
+        hSelProcInput->downmixIdRequested[0] = 0;
+        hSelProcInput->numDownmixIdRequests = 1;
+      }
+
+      if (hSelProcInput->numDownmixIdRequests == 0) {
+        for (i = 0; i < hUniDrcConfig->downmixInstructionsCount; i++) {
+          pDown = &(hUniDrcConfig->downmixInstructions[i]);
+
+          if (hSelProcInput->targetLayoutRequested == pDown->targetLayout) {
+            hSelProcInput
+                ->downmixIdRequested[hSelProcInput->numDownmixIdRequests] =
+                pDown->downmixId;
+            hSelProcInput->numDownmixIdRequests++;
+          }
+        }
+      }
+
+      if (hSelProcInput->baseLayout == -1) {
+        retVal = DRCDEC_SELECTION_PROCESS_WARNING;
+      }
+
+      if (hSelProcInput->numDownmixIdRequests == 0) {
+        hSelProcInput->downmixIdRequested[0] = 0;
+        hSelProcInput->numDownmixIdRequests = 1;
+        retVal = DRCDEC_SELECTION_PROCESS_WARNING;
+      }
+
+      break;
+
+    case TCRT_TARGET_CHANNEL_COUNT:
+      if (hSelProcInput->targetChannelCountRequested ==
+          hSelProcInput->baseChannelCount) {
+        hSelProcInput->downmixIdRequested[0] = 0;
+        hSelProcInput->numDownmixIdRequests = 1;
+      }
+
+      if (hSelProcInput->numDownmixIdRequests == 0) {
+        for (i = 0; i < hUniDrcConfig->downmixInstructionsCount; i++) {
+          pDown = &(hUniDrcConfig->downmixInstructions[i]);
+
+          if (hSelProcInput->targetChannelCountRequested ==
+              pDown->targetChannelCount) {
+            hSelProcInput
+                ->downmixIdRequested[hSelProcInput->numDownmixIdRequests] =
+                pDown->downmixId;
+            hSelProcInput->numDownmixIdRequests++;
+          }
+        }
+      }
+
+      if (hSelProcInput->baseChannelCount == -1) {
+        retVal = DRCDEC_SELECTION_PROCESS_WARNING;
+      }
+
+      if (hSelProcInput->numDownmixIdRequests == 0) {
+        retVal = DRCDEC_SELECTION_PROCESS_WARNING;
+        hSelProcInput->downmixIdRequested[0] = 0;
+        hSelProcInput->numDownmixIdRequests = 1;
+      }
+
+      break;
+
+    default:
+      return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  return retVal;
+}
+
+/*******************************************/
+
+/* Note: Numbering of DRC pre-selection steps according to MPEG-D Part-4 DRC
+ * Amd1 */
+
+/* #1: DownmixId of DRC set matches the requested downmixId.
+   #2: Output channel layout of DRC set matches the requested layout.
+   #3: Channel count of DRC set matches the requested channel count. */
+static DRCDEC_SELECTION_PROCESS_RETURN _preSelectionRequirement123(
+    int nRequestedDownmixId, DRC_INSTRUCTIONS_UNI_DRC* pDrcInstructionUniDrc,
+    int* pMatchFound) {
+  int i;
+  *pMatchFound = 0;
+
+  for (i = 0; i < pDrcInstructionUniDrc->downmixIdCount; i++) {
+    if ((pDrcInstructionUniDrc->downmixId[i] == nRequestedDownmixId) ||
+        (pDrcInstructionUniDrc->downmixId[i] == DOWNMIX_ID_ANY_DOWNMIX) ||
+        ((pDrcInstructionUniDrc->downmixId[i] == DOWNMIX_ID_BASE_LAYOUT) &&
+         (pDrcInstructionUniDrc->drcSetId > 0))) {
+      *pMatchFound = 1;
+      break;
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+/* #4: The DRC set is not a "Fade-" or "Ducking-" only DRC set. */
+static DRCDEC_SELECTION_PROCESS_RETURN _preSelectionRequirement4(
+    DRC_INSTRUCTIONS_UNI_DRC* pDrcInstruction, int nDynamicRangeControlOn,
+    int* pMatchFound) {
+  *pMatchFound = 0;
+
+  if (nDynamicRangeControlOn == 1) {
+    if ((pDrcInstruction->drcSetEffect != EB_FADE) &&
+        (pDrcInstruction->drcSetEffect != EB_DUCK_OTHER) &&
+        (pDrcInstruction->drcSetEffect != EB_DUCK_SELF) &&
+        (pDrcInstruction->drcSetEffect != 0 || pDrcInstruction->drcSetId < 0)) {
+      *pMatchFound = 1;
+    }
+  } else {
+    *pMatchFound = 1;
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+/* #5: The number of DRC bands is supported. */
+static DRCDEC_SELECTION_PROCESS_RETURN _preSelectionRequirement5(
+    DRC_INSTRUCTIONS_UNI_DRC* pDrcInstructionUniDrc,
+    DRC_COEFFICIENTS_UNI_DRC* pCoef, int* pMatchFound) {
+  int i;
+
+  *pMatchFound = 1;
+
+  if (pCoef == NULL) /* check for parametricDRC */
+  {
+    *pMatchFound = 1;
+    return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  }
+
+  for (i = 0; i < pDrcInstructionUniDrc->nDrcChannelGroups; i++) {
+    int indexDrcCoeff = pDrcInstructionUniDrc->gainSetIndexForChannelGroup[i];
+    int bandCount = 0;
+
+    if (indexDrcCoeff > pCoef->gainSetCount - 1) /* check for parametricDRC */
+    {
+      *pMatchFound = 1;
+      return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+    }
+
+    GAIN_SET* gainSet = &(pCoef->gainSet[indexDrcCoeff]);
+    bandCount = gainSet->bandCount;
+
+    if (bandCount > 4) {
+      *pMatchFound = 0;
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+/* #6: Independent use of DRC set is permitted.*/
+static DRCDEC_SELECTION_PROCESS_RETURN _preSelectionRequirement6(
+    DRC_INSTRUCTIONS_UNI_DRC* pDrcInstructionUniDrc, int* pMatchFound) {
+  *pMatchFound = 0;
+
+  if (((pDrcInstructionUniDrc->dependsOnDrcSetPresent == 0) &&
+       (pDrcInstructionUniDrc->noIndependentUse == 0)) ||
+      (pDrcInstructionUniDrc->dependsOnDrcSetPresent == 1)) {
+    *pMatchFound = 1;
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+/* #7: DRC sets that require EQ are only permitted if EQ is supported. */
+static DRCDEC_SELECTION_PROCESS_RETURN _preSelectionRequirement7(
+    DRC_INSTRUCTIONS_UNI_DRC* pDrcInstructionUniDrc, int* pMatchFound) {
+  *pMatchFound = 1;
+
+  if (pDrcInstructionUniDrc->requiresEq) {
+    /* EQ is not supported */
+    *pMatchFound = 0;
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static void _setSelectionDataInfo(DRCDEC_SELECTION_DATA* pData,
+                                  FIXP_DBL loudness,
+                                  FIXP_DBL loudnessNormalizationGainDb,
+                                  FIXP_DBL loudnessNormalizationGainDbMax,
+                                  FIXP_DBL loudnessDeviationMax,
+                                  FIXP_DBL signalPeakLevel,
+                                  FIXP_DBL outputPeakLevelMax,
+                                  int applyAdjustment) {
+  FIXP_DBL adjustment = 0;
+
+  if (applyAdjustment) {
+    adjustment =
+        fMax((FIXP_DBL)0, signalPeakLevel + loudnessNormalizationGainDb -
+                              outputPeakLevelMax);
+    adjustment = fMin(adjustment, fMax((FIXP_DBL)0, loudnessDeviationMax));
+  }
+
+  pData->loudnessNormalizationGainDbAdjusted = fMin(
+      loudnessNormalizationGainDb - adjustment, loudnessNormalizationGainDbMax);
+  pData->outputLoudness = loudness + pData->loudnessNormalizationGainDbAdjusted;
+  pData->outputPeakLevel =
+      signalPeakLevel + pData->loudnessNormalizationGainDbAdjusted;
+}
+
+static int _targetLoudnessInRange(
+    DRC_INSTRUCTIONS_UNI_DRC* pDrcInstructionUniDrc, FIXP_DBL targetLoudness) {
+  int retVal = 0;
+
+  FIXP_DBL drcSetTargetLoudnessValueUpper =
+      ((FIXP_DBL)pDrcInstructionUniDrc->drcSetTargetLoudnessValueUpper)
+      << (DFRACT_BITS - 1 - 7);
+  FIXP_DBL drcSetTargetLoudnessValueLower =
+      ((FIXP_DBL)pDrcInstructionUniDrc->drcSetTargetLoudnessValueLower)
+      << (DFRACT_BITS - 1 - 7);
+
+  if (pDrcInstructionUniDrc->drcSetTargetLoudnessPresent &&
+      drcSetTargetLoudnessValueUpper >= targetLoudness &&
+      drcSetTargetLoudnessValueLower < targetLoudness) {
+    retVal = 1;
+  }
+
+  return retVal;
+}
+
+/* #8: The range of the target loudness specified for a DRC set has to include
+ * the requested decoder target loudness. */
+static DRCDEC_SELECTION_PROCESS_RETURN _preSelectionRequirement8(
+    SEL_PROC_INPUT* hSelProcInput, int downmixIdIndex,
+    HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+    DRC_INSTRUCTIONS_UNI_DRC* pDrcInstructionUniDrc,
+    DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected, SEL_PROC_CODEC_MODE codecMode) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  int explicitPeakInformationPresent;
+  FIXP_DBL signalPeakLevel;
+  int addToCandidate = 0;
+
+  FIXP_DBL loudnessNormalizationGainDb;
+  FIXP_DBL loudness;
+
+  FIXP_DBL loudnessDeviationMax =
+      ((FIXP_DBL)hSelProcInput->loudnessDeviationMax) << (DFRACT_BITS - 1 - 7);
+  ;
+
+  if (hSelProcInput->loudnessNormalizationOn) {
+    retVal = _getLoudness(hLoudnessInfoSet, hSelProcInput->albumMode,
+                          hSelProcInput->loudnessMeasurementMethod,
+                          hSelProcInput->loudnessMeasurementSystem,
+                          hSelProcInput->targetLoudness,
+                          pDrcInstructionUniDrc->drcSetId,
+                          hSelProcInput->downmixIdRequested[downmixIdIndex],
+                          &loudnessNormalizationGainDb, &loudness);
+    if (retVal) return (retVal);
+  } else {
+    loudnessNormalizationGainDb = (FIXP_DBL)0;
+    loudness = UNDEFINED_LOUDNESS_VALUE;
+  }
+
+  retVal = _getSignalPeakLevel(
+      hSelProcInput, hUniDrcConfig, hLoudnessInfoSet, pDrcInstructionUniDrc,
+      hSelProcInput->downmixIdRequested[downmixIdIndex],
+      &explicitPeakInformationPresent, &signalPeakLevel, codecMode
+
+  );
+  if (retVal) return (retVal);
+
+  if (hSelProcInput->dynamicRangeControlOn) {
+    if (explicitPeakInformationPresent == 0) {
+      if (pDrcInstructionUniDrc->drcSetTargetLoudnessPresent &&
+          ((hSelProcInput->loudnessNormalizationOn &&
+            _targetLoudnessInRange(pDrcInstructionUniDrc,
+                                   hSelProcInput->targetLoudness)) ||
+           !hSelProcInput->loudnessNormalizationOn)) {
+        DRCDEC_SELECTION_DATA* pData =
+            _drcdec_selection_addNew(pCandidatesSelected);
+        if (pData == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+        _setSelectionDataInfo(pData, loudness, loudnessNormalizationGainDb,
+                              hSelProcInput->loudnessNormalizationGainDbMax,
+                              loudnessDeviationMax, signalPeakLevel,
+                              hSelProcInput->outputPeakLevelMax, 0);
+        pData->downmixIdRequestIndex = downmixIdIndex;
+        pData->pInst = pDrcInstructionUniDrc;
+        pData->selectionFlag =
+            1; /* signal pre-selection step dealing with drcSetTargetLoudness */
+
+        if (hSelProcInput->loudnessNormalizationOn) {
+          pData->outputPeakLevel =
+              hSelProcInput->targetLoudness -
+              (((FIXP_DBL)pData->pInst->drcSetTargetLoudnessValueUpper)
+               << (DFRACT_BITS - 1 - 7));
+        } else {
+          pData->outputPeakLevel = (FIXP_DBL)0;
+        }
+      } else {
+        if ((!hSelProcInput->loudnessNormalizationOn) ||
+            (!pDrcInstructionUniDrc->drcSetTargetLoudnessPresent) ||
+            (hSelProcInput->loudnessNormalizationOn &&
+             _targetLoudnessInRange(pDrcInstructionUniDrc,
+                                    hSelProcInput->targetLoudness))) {
+          addToCandidate = 1;
+        }
+      }
+    } else {
+      addToCandidate = 1;
+    }
+
+    if (addToCandidate) {
+      DRCDEC_SELECTION_DATA* pData =
+          _drcdec_selection_addNew(pCandidatesPotential);
+      if (pData == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+      _setSelectionDataInfo(pData, loudness, loudnessNormalizationGainDb,
+                            hSelProcInput->loudnessNormalizationGainDbMax,
+                            loudnessDeviationMax, signalPeakLevel,
+                            hSelProcInput->outputPeakLevelMax, 0);
+      pData->downmixIdRequestIndex = downmixIdIndex;
+      pData->pInst = pDrcInstructionUniDrc;
+      pData->selectionFlag = 0;
+    }
+  } else {
+    if (pDrcInstructionUniDrc->drcSetId < 0) {
+      DRCDEC_SELECTION_DATA* pData =
+          _drcdec_selection_addNew(pCandidatesSelected);
+      if (pData == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+      _setSelectionDataInfo(pData, loudness, loudnessNormalizationGainDb,
+                            hSelProcInput->loudnessNormalizationGainDbMax,
+                            loudnessDeviationMax, signalPeakLevel,
+                            hSelProcInput->outputPeakLevelMax, 1);
+
+      pData->downmixIdRequestIndex = downmixIdIndex;
+      pData->pInst = pDrcInstructionUniDrc;
+      pData->selectionFlag = 0;
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+/* #9: Clipping is minimized. */
+static DRCDEC_SELECTION_PROCESS_RETURN _preSelectionRequirement9(
+    SEL_PROC_INPUT* hSelProcInput, DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected) {
+  int i;
+
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    DRCDEC_SELECTION_DATA* pCandidate =
+        _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    if (pCandidate->outputPeakLevel <= hSelProcInput->outputPeakLevelMax) {
+      if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+        return DRCDEC_SELECTION_PROCESS_NOT_OK;
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetPreSelectionSingleInstruction(
+    SEL_PROC_INPUT* hSelProcInput, int downmixIdIndex,
+    HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+    DRC_INSTRUCTIONS_UNI_DRC* pDrcInstructionUniDrc,
+    DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected, SEL_PROC_CODEC_MODE codecMode) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  int matchFound = 0;
+  DRC_COEFFICIENTS_UNI_DRC* pCoef =
+      selectDrcCoefficients(hUniDrcConfig, LOCATION_SELECTED);
+
+  retVal = _preSelectionRequirement123(
+      hSelProcInput->downmixIdRequested[downmixIdIndex], pDrcInstructionUniDrc,
+      &matchFound);
+
+  if (!retVal && matchFound)
+    retVal = _preSelectionRequirement4(pDrcInstructionUniDrc,
+                                       hSelProcInput->dynamicRangeControlOn,
+                                       &matchFound);
+
+  if (!retVal && matchFound)
+    retVal =
+        _preSelectionRequirement5(pDrcInstructionUniDrc, pCoef, &matchFound);
+
+  if (!retVal && matchFound)
+    retVal = _preSelectionRequirement6(pDrcInstructionUniDrc, &matchFound);
+
+  if (!retVal && matchFound)
+    retVal = _preSelectionRequirement7(pDrcInstructionUniDrc, &matchFound);
+
+  if (!retVal && matchFound)
+    retVal = _preSelectionRequirement8(
+        hSelProcInput, downmixIdIndex, hUniDrcConfig, hLoudnessInfoSet,
+        pDrcInstructionUniDrc, pCandidatesPotential, pCandidatesSelected,
+        codecMode);
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetSelectionAddCandidates(
+    SEL_PROC_INPUT* hSelProcInput, DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  int nHitCount = 0;
+  int i;
+
+  DRCDEC_SELECTION_DATA* pCandidate = NULL;
+  DRC_INSTRUCTIONS_UNI_DRC* pDrcInstructionUniDrc = NULL;
+
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    pDrcInstructionUniDrc = pCandidate->pInst;
+
+    if (_targetLoudnessInRange(pDrcInstructionUniDrc,
+                               hSelProcInput->targetLoudness)) {
+      nHitCount++;
+    }
+  }
+
+  if (nHitCount != 0) {
+    for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+      pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+      if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+      pDrcInstructionUniDrc = pCandidate->pInst;
+
+      if (_targetLoudnessInRange(pDrcInstructionUniDrc,
+                                 hSelProcInput->targetLoudness)) {
+        if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+          return DRCDEC_SELECTION_PROCESS_NOT_OK;
+      }
+    }
+  } else {
+    FIXP_DBL lowestPeakLevel = MAXVAL_DBL; /* e = 7 */
+    FIXP_DBL peakLevel = 0;                /* e = 7 */
+
+    for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+      pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+      if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+      peakLevel = pCandidate->outputPeakLevel;
+
+      if (peakLevel < lowestPeakLevel) {
+        lowestPeakLevel = peakLevel;
+      }
+    }
+
+    /* add all with lowest peak level or max 1dB above */
+    for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+      FIXP_DBL loudnessDeviationMax =
+          ((FIXP_DBL)hSelProcInput->loudnessDeviationMax)
+          << (DFRACT_BITS - 1 - 7); /* e = 7 */
+
+      pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+      if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+      peakLevel = pCandidate->outputPeakLevel;
+
+      if (peakLevel == lowestPeakLevel ||
+          peakLevel <=
+              lowestPeakLevel + FL2FXCONST_DBL(1.0f / (float)(1 << 7))) {
+        FIXP_DBL adjustment =
+            fMax((FIXP_DBL)0, peakLevel - hSelProcInput->outputPeakLevelMax);
+        adjustment = fMin(adjustment, fMax((FIXP_DBL)0, loudnessDeviationMax));
+
+        pCandidate->loudnessNormalizationGainDbAdjusted -= adjustment;
+        pCandidate->outputPeakLevel -= adjustment;
+        pCandidate->outputLoudness -= adjustment;
+        if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+          return DRCDEC_SELECTION_PROCESS_NOT_OK;
+      }
+    }
+  }
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _dependentDrcInstruction(
+    HANDLE_UNI_DRC_CONFIG hUniDrcConfig, DRC_INSTRUCTIONS_UNI_DRC* pInst,
+    DRC_INSTRUCTIONS_UNI_DRC** ppDrcInstructionsDependent) {
+  int i;
+  DRC_INSTRUCTIONS_UNI_DRC* pDependentDrc = NULL;
+
+  for (i = 0; i < hUniDrcConfig->drcInstructionsUniDrcCount; i++) {
+    pDependentDrc =
+        (DRC_INSTRUCTIONS_UNI_DRC*)&(hUniDrcConfig->drcInstructionsUniDrc[i]);
+
+    if (pDependentDrc->drcSetId == pInst->dependsOnDrcSet) {
+      break;
+    }
+  }
+
+  if (i == hUniDrcConfig->drcInstructionsUniDrcCount) {
+    return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  if (pDependentDrc->dependsOnDrcSetPresent == 1) {
+    return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  *ppDrcInstructionsDependent = pDependentDrc;
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _selectDrcSetEffectNone(
+    HANDLE_UNI_DRC_CONFIG hUniDrcConfig, DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected) {
+  int i;
+
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    DRCDEC_SELECTION_DATA* pCandidate =
+        _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    if ((pCandidate->pInst->drcSetEffect & 0xff) == 0) {
+      if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+        return DRCDEC_SELECTION_PROCESS_NOT_OK;
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _selectSingleEffectType(
+    HANDLE_UNI_DRC_CONFIG hUniDrcConfig, DRC_EFFECT_TYPE_REQUEST effectType,
+    DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected) {
+  int i;
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  DRC_INSTRUCTIONS_UNI_DRC* pInst;
+  DRC_INSTRUCTIONS_UNI_DRC* pDrcInstructionsDependent;
+
+  if (effectType == DETR_NONE) {
+    retVal = _selectDrcSetEffectNone(hUniDrcConfig, pCandidatesPotential,
+                                     pCandidatesSelected);
+    if (retVal) return (retVal);
+  } else {
+    int effectBitPosition = 1 << (effectType - 1);
+
+    for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+      DRCDEC_SELECTION_DATA* pCandidate =
+          _drcdec_selection_getAt(pCandidatesPotential, i);
+      if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+      pInst = pCandidate->pInst;
+
+      if (!pInst->dependsOnDrcSetPresent) {
+        if ((pInst->drcSetEffect & effectBitPosition)) {
+          if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+            return DRCDEC_SELECTION_PROCESS_NOT_OK;
+        }
+      } else {
+        retVal = _dependentDrcInstruction(hUniDrcConfig, pInst,
+                                          &pDrcInstructionsDependent);
+        if (retVal) return (retVal);
+
+        if (((pInst->drcSetEffect & effectBitPosition)) ||
+            ((pDrcInstructionsDependent->drcSetEffect & effectBitPosition))) {
+          if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+            return DRCDEC_SELECTION_PROCESS_NOT_OK;
+        }
+      }
+    }
+  }
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _selectEffectTypeFeature(
+    HANDLE_UNI_DRC_CONFIG hUniDrcConfig, DRC_FEATURE_REQUEST drcFeatureRequest,
+    DRCDEC_SELECTION** ppCandidatesPotential,
+    DRCDEC_SELECTION** ppCandidatesSelected) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  int i;
+  int desiredEffectTypeFound = 0;
+
+  for (i = 0; i < drcFeatureRequest.drcEffectType.numRequestsDesired; i++) {
+    retVal = _selectSingleEffectType(
+        hUniDrcConfig, drcFeatureRequest.drcEffectType.request[i],
+        *ppCandidatesPotential, *ppCandidatesSelected);
+    if (retVal) return (retVal);
+
+    if (_drcdec_selection_getNumber(*ppCandidatesSelected)) {
+      desiredEffectTypeFound = 1;
+      _swapSelectionAndClear(ppCandidatesPotential, ppCandidatesSelected);
+    }
+  }
+
+  if (!desiredEffectTypeFound) {
+    for (i = drcFeatureRequest.drcEffectType.numRequestsDesired;
+         i < drcFeatureRequest.drcEffectType.numRequests; i++) {
+      retVal = _selectSingleEffectType(
+          hUniDrcConfig, drcFeatureRequest.drcEffectType.request[i],
+          *ppCandidatesPotential, *ppCandidatesSelected);
+      if (retVal) return (retVal);
+
+      if (_drcdec_selection_getNumber(*ppCandidatesSelected)) {
+        _swapSelectionAndClear(ppCandidatesPotential, ppCandidatesSelected);
+        break;
+      }
+    }
+  }
+
+  _swapSelection(ppCandidatesPotential, ppCandidatesSelected);
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _selectDynamicRange(
+    HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+    DRC_FEATURE_REQUEST drcFeatureRequest, UCHAR* pDownmixIdRequested,
+    int albumMode, DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* ppCandidatesSelected) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  int i;
+  int peakToAveragePresent;
+  FIXP_DBL peakToAverage;
+
+  FIXP_DBL minVal = MAXVAL_DBL;
+  FIXP_DBL val = 0;
+
+  int numSelectedCandidates = _drcdec_selection_getNumber(ppCandidatesSelected);
+
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    DRCDEC_SELECTION_DATA* pCandidate =
+        _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    retVal = _dynamicRangeMeasurement(
+        hLoudnessInfoSet, pCandidate->pInst,
+        pDownmixIdRequested[pCandidate->downmixIdRequestIndex],
+        drcFeatureRequest.dynamicRange.measurementRequestType, albumMode,
+        &peakToAveragePresent, &peakToAverage);
+    if (retVal) return (retVal);
+
+    if (peakToAveragePresent) {
+      if (!drcFeatureRequest.dynamicRange.requestedIsRange) {
+        val = fAbs(drcFeatureRequest.dynamicRange.requestValue - peakToAverage);
+
+        if (minVal > val) {
+          minVal = val;
+
+          _drcdec_selection_setNumber(ppCandidatesSelected,
+                                      numSelectedCandidates);
+        }
+        if (_drcdec_selection_add(ppCandidatesSelected, pCandidate) == NULL)
+          return DRCDEC_SELECTION_PROCESS_NOT_OK;
+      } else {
+        if ((peakToAverage >= drcFeatureRequest.dynamicRange.requestValueMin) &&
+            (peakToAverage <= drcFeatureRequest.dynamicRange.requestValueMax)) {
+          if (_drcdec_selection_add(ppCandidatesSelected, pCandidate) == NULL)
+            return DRCDEC_SELECTION_PROCESS_NOT_OK;
+        }
+      }
+    }
+  }
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _selectSingleDrcCharacteristic(
+    HANDLE_UNI_DRC_CONFIG hUniDrcConfig, int requestedDrcCharacteristic,
+    DRCDEC_SELECTION** ppCandidatesPotential,
+    DRCDEC_SELECTION** ppCandidatesSelected) {
+  int i, j, b;
+  int hit = 0;
+
+  DRC_INSTRUCTIONS_UNI_DRC* pInst = NULL;
+  DRC_COEFFICIENTS_UNI_DRC* pCoef = NULL;
+  GAIN_SET* pGainSet = NULL;
+
+  if (requestedDrcCharacteristic < 1) {
+    return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  pCoef = selectDrcCoefficients(hUniDrcConfig, LOCATION_SELECTED);
+
+  if (pCoef == NULL) /* check for parametricDRC */
+  {
+    return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  }
+
+  for (i = 0; i < _drcdec_selection_getNumber(*ppCandidatesPotential); i++) {
+    DRCDEC_SELECTION_DATA* pCandidate =
+        _drcdec_selection_getAt(*ppCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    pInst = pCandidate->pInst;
+
+    hit = 0;
+
+    for (j = 0; j < pInst->nDrcChannelGroups; j++) {
+      int bandCount = 0;
+      int indexDrcCoeff = pInst->gainSetIndexForChannelGroup[j];
+
+      if (indexDrcCoeff > pCoef->gainSetCount - 1) /* check for parametricDRC */
+      {
+        return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+      }
+
+      pGainSet = &(pCoef->gainSet[indexDrcCoeff]);
+      bandCount = pGainSet->bandCount;
+
+      for (b = 0; b < bandCount; b++) {
+        if ((pGainSet->drcCharacteristic[b].isCICP) &&
+            (pGainSet->drcCharacteristic[b].cicpIndex ==
+             requestedDrcCharacteristic)) {
+          hit = 1;
+          break;
+        }
+      }
+
+      if (hit) break;
+    }
+
+    if (hit) {
+      if (_drcdec_selection_add(*ppCandidatesSelected, pCandidate) == NULL)
+        return DRCDEC_SELECTION_PROCESS_NOT_OK;
+    }
+  }
+
+  if (_drcdec_selection_getNumber(*ppCandidatesSelected)) {
+    _swapSelectionAndClear(ppCandidatesPotential, ppCandidatesSelected);
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _selectDrcCharacteristic(
+    HANDLE_UNI_DRC_CONFIG hUniDrcConfig, int drcCharacteristicRequested,
+    DRCDEC_SELECTION** ppCandidatesPotential,
+    DRCDEC_SELECTION** ppCandidatesSelected) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+
+  const int secondTry[12] = {0, 2, 3, 4, 5, 6, 5, 9, 10, 7, 8, 10};
+
+  retVal = _selectSingleDrcCharacteristic(
+      hUniDrcConfig, drcCharacteristicRequested, ppCandidatesPotential,
+      ppCandidatesSelected);
+  if (retVal) return (retVal);
+
+  if ((drcCharacteristicRequested <= 11) &&
+      (_drcdec_selection_getNumber(*ppCandidatesSelected) == 0)) {
+    retVal = _selectSingleDrcCharacteristic(
+        hUniDrcConfig, secondTry[drcCharacteristicRequested],
+        ppCandidatesPotential, ppCandidatesSelected);
+    if (retVal) return (retVal);
+  }
+
+  if (_drcdec_selection_getNumber(*ppCandidatesSelected) == 0) {
+    if ((drcCharacteristicRequested >= 2) &&
+        (drcCharacteristicRequested <= 5)) {
+      retVal = _selectSingleDrcCharacteristic(
+          hUniDrcConfig, drcCharacteristicRequested - 1, ppCandidatesPotential,
+          ppCandidatesSelected);
+      if (retVal) return (retVal);
+    } else if (drcCharacteristicRequested == 11) {
+      retVal = _selectSingleDrcCharacteristic(
+          hUniDrcConfig, 9, ppCandidatesPotential, ppCandidatesSelected);
+      if (retVal) return (retVal);
+    }
+  }
+
+  _swapSelection(ppCandidatesPotential, ppCandidatesSelected);
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetFinalSelection_peakValue0(
+    DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected) {
+  int i;
+
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    DRCDEC_SELECTION_DATA* pCandidate =
+        _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    if (pCandidate->outputPeakLevel <= FIXP_DBL(0)) {
+      if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+        return DRCDEC_SELECTION_PROCESS_NOT_OK;
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetFinalSelection_downmixId(
+    HANDLE_SEL_PROC_INPUT hSelProcInput,
+    DRCDEC_SELECTION** ppCandidatesPotential,
+    DRCDEC_SELECTION** ppCandidatesSelected) {
+  int i, j;
+  DRCDEC_SELECTION_DATA* pCandidate = NULL;
+  DRC_INSTRUCTIONS_UNI_DRC* pInst = NULL;
+
+  for (i = 0; i < _drcdec_selection_getNumber(*ppCandidatesPotential); i++) {
+    pCandidate = _drcdec_selection_getAt(*ppCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    pInst = pCandidate->pInst;
+
+    for (j = 0; j < pInst->downmixIdCount; j++) {
+      if (DOWNMIX_ID_BASE_LAYOUT != pInst->downmixId[j] &&
+          DOWNMIX_ID_ANY_DOWNMIX != pInst->downmixId[j] &&
+          hSelProcInput
+                  ->downmixIdRequested[pCandidate->downmixIdRequestIndex] ==
+              pInst->downmixId[j]) {
+        if (_drcdec_selection_add(*ppCandidatesSelected, pCandidate) == NULL)
+          return DRCDEC_SELECTION_PROCESS_NOT_OK;
+      }
+    }
+  }
+
+  if (_drcdec_selection_getNumber(*ppCandidatesSelected) == 0) {
+    _swapSelection(ppCandidatesPotential, ppCandidatesSelected);
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static int _crossSum(int value) {
+  int sum = 0;
+
+  while (value != 0) {
+    if ((value & 1) == 1) {
+      sum++;
+    }
+
+    value >>= 1;
+  }
+
+  return sum;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetFinalSelection_effectTypes(
+    DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected) {
+  int i;
+  int minNumEffects = 1000;
+  int numEffects = 0;
+  int effects = 0;
+  DRCDEC_SELECTION_DATA* pCandidate = NULL;
+  DRC_INSTRUCTIONS_UNI_DRC* pInst = NULL;
+
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    pInst = pCandidate->pInst;
+
+    effects = pInst->drcSetEffect;
+    effects &= 0xffff ^ (EB_GENERAL_COMPR);
+    numEffects = _crossSum(effects);
+
+    if (numEffects < minNumEffects) {
+      minNumEffects = numEffects;
+    }
+  }
+
+  /* add all with minimum number of effects */
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    pInst = pCandidate->pInst;
+
+    effects = pInst->drcSetEffect;
+    effects &= 0xffff ^ (EB_GENERAL_COMPR);
+    numEffects = _crossSum(effects);
+
+    if (numEffects == minNumEffects) {
+      if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+        return DRCDEC_SELECTION_PROCESS_NOT_OK;
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _selectSmallestTargetLoudnessValueUpper(
+    DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected) {
+  int i;
+  SCHAR minVal = 0x7F;
+  SCHAR val = 0;
+  DRCDEC_SELECTION_DATA* pCandidate = NULL;
+
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    val = pCandidate->pInst->drcSetTargetLoudnessValueUpper;
+
+    if (val < minVal) {
+      minVal = val;
+    }
+  }
+
+  /* add all with same smallest drcSetTargetLoudnessValueUpper */
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    val = pCandidate->pInst->drcSetTargetLoudnessValueUpper;
+
+    if (val == minVal) {
+      if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+        return DRCDEC_SELECTION_PROCESS_NOT_OK;
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetFinalSelection_targetLoudness(
+    FIXP_DBL targetLoudness, DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  int i;
+  DRCDEC_SELECTION_DATA* pCandidate = NULL;
+
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    if (pCandidate->selectionFlag == 0) {
+      if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+        return DRCDEC_SELECTION_PROCESS_NOT_OK;
+    }
+  }
+
+  if (_drcdec_selection_getNumber(pCandidatesSelected) == 0) {
+    retVal = _selectSmallestTargetLoudnessValueUpper(pCandidatesPotential,
+                                                     pCandidatesSelected);
+    if (retVal) return (retVal);
+  }
+
+  if (_drcdec_selection_getNumber(pCandidatesSelected) > 1) {
+    DRC_INSTRUCTIONS_UNI_DRC* pDrcInstructionUniDrc = NULL;
+
+    _swapSelectionAndClear(&pCandidatesPotential, &pCandidatesSelected);
+
+    for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+      pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+      if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+      pDrcInstructionUniDrc = pCandidate->pInst;
+
+      if (_targetLoudnessInRange(pDrcInstructionUniDrc, targetLoudness)) {
+        if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+          return DRCDEC_SELECTION_PROCESS_NOT_OK;
+      }
+    }
+
+    if (_drcdec_selection_getNumber(pCandidatesSelected) > 1) {
+      _swapSelectionAndClear(&pCandidatesPotential, &pCandidatesSelected);
+
+      retVal = _selectSmallestTargetLoudnessValueUpper(pCandidatesPotential,
+                                                       pCandidatesSelected);
+      if (retVal) return (retVal);
+    }
+  }
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetFinalSelection_peakValueLargest(
+    DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected) {
+  int i;
+  FIXP_DBL largestPeakLevel = MINVAL_DBL;
+  FIXP_DBL peakLevel = 0;
+  DRCDEC_SELECTION_DATA* pCandidate = NULL;
+
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    peakLevel = pCandidate->outputPeakLevel;
+
+    if (peakLevel > largestPeakLevel) {
+      largestPeakLevel = peakLevel;
+    }
+  }
+
+  /* add all with same largest peak level */
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    peakLevel = pCandidate->outputPeakLevel;
+
+    if (peakLevel == largestPeakLevel) {
+      if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+        return DRCDEC_SELECTION_PROCESS_NOT_OK;
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetFinalSelection_drcSetId(
+    DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected) {
+  int i;
+  int largestId = -1000;
+  int id = 0;
+  DRCDEC_SELECTION_DATA* pCandidate = NULL;
+  DRCDEC_SELECTION_DATA* pCandidateSelected = NULL;
+
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    pCandidate = _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    id = pCandidate->pInst->drcSetId;
+
+    if (id > largestId) {
+      largestId = id;
+      pCandidateSelected = pCandidate;
+    }
+  }
+
+  if (pCandidateSelected != NULL) {
+    if (_drcdec_selection_add(pCandidatesSelected, pCandidateSelected) == NULL)
+      return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  } else {
+    return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetFinalSelection(
+    HANDLE_SEL_PROC_INPUT hSelProcInput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    DRCDEC_SELECTION** ppCandidatesPotential,
+    DRCDEC_SELECTION** ppCandidatesSelected, SEL_PROC_CODEC_MODE codecMode) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+
+  if (_drcdec_selection_getNumber(*ppCandidatesPotential) == 0) {
+    return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  } else if (_drcdec_selection_getNumber(*ppCandidatesPotential) == 1) {
+    _swapSelection(ppCandidatesPotential, ppCandidatesSelected);
+    /* finished */
+  } else /* > 1 */
+  {
+    retVal = _drcSetFinalSelection_peakValue0(*ppCandidatesPotential,
+                                              *ppCandidatesSelected);
+    if (retVal) return (retVal);
+
+    if (_drcdec_selection_getNumber(*ppCandidatesSelected) > 1) {
+      _swapSelectionAndClear(ppCandidatesPotential, ppCandidatesSelected);
+      retVal = _drcSetFinalSelection_downmixId(
+          hSelProcInput, ppCandidatesPotential, ppCandidatesSelected);
+      if (retVal) return (retVal);
+    }
+
+    if (_drcdec_selection_getNumber(*ppCandidatesSelected) > 1) {
+      _swapSelectionAndClear(ppCandidatesPotential, ppCandidatesSelected);
+      retVal = _drcSetFinalSelection_effectTypes(*ppCandidatesPotential,
+                                                 *ppCandidatesSelected);
+      if (retVal) return (retVal);
+    }
+
+    if (_drcdec_selection_getNumber(*ppCandidatesSelected) > 1) {
+      _swapSelectionAndClear(ppCandidatesPotential, ppCandidatesSelected);
+      retVal = _drcSetFinalSelection_targetLoudness(
+          hSelProcInput->targetLoudness, *ppCandidatesPotential,
+          *ppCandidatesSelected);
+      if (retVal) return (retVal);
+    }
+
+    if (_drcdec_selection_getNumber(*ppCandidatesSelected) > 1) {
+      _swapSelectionAndClear(ppCandidatesPotential, ppCandidatesSelected);
+      retVal = _drcSetFinalSelection_peakValueLargest(*ppCandidatesPotential,
+                                                      *ppCandidatesSelected);
+      if (retVal) return (retVal);
+    }
+
+    if (_drcdec_selection_getNumber(*ppCandidatesSelected) > 1) {
+      _swapSelectionAndClear(ppCandidatesPotential, ppCandidatesSelected);
+      retVal = _drcSetFinalSelection_drcSetId(*ppCandidatesPotential,
+                                              *ppCandidatesSelected);
+      if (retVal) return (retVal);
+    }
+  }
+
+  if (_drcdec_selection_getNumber(*ppCandidatesSelected) == 0) {
+    return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _generateVirtualDrcSets(
+    HANDLE_SEL_PROC_INPUT hSelProcInput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    SEL_PROC_CODEC_MODE codecMode) {
+  int i;
+  int nMixes = hUniDrcConfig->downmixInstructionsCount + 1;
+  int index = hUniDrcConfig->drcInstructionsUniDrcCount;
+  int indexVirtual = -1;
+  DRC_INSTRUCTIONS_UNI_DRC* pDrcInstruction =
+      &(hUniDrcConfig->drcInstructionsUniDrc[index]);
+
+  if (codecMode == SEL_PROC_MPEG_H_3DA) {
+    nMixes = 1;
+  }
+
+  if ((index + nMixes) > (12 + 1 + 6)) {
+    return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  FDKmemset(pDrcInstruction, 0, sizeof(DRC_INSTRUCTIONS_UNI_DRC));
+
+  pDrcInstruction->drcSetId = indexVirtual;
+  index++;
+  indexVirtual--;
+  pDrcInstruction->downmixIdCount = 1;
+
+  if ((codecMode == SEL_PROC_MPEG_H_3DA) &&
+      (hSelProcInput->numDownmixIdRequests)) {
+    pDrcInstruction->downmixId[0] = hSelProcInput->downmixIdRequested[0];
+  } else {
+    pDrcInstruction->downmixId[0] = DOWNMIX_ID_BASE_LAYOUT;
+  }
+
+  for (i = 1; i < nMixes; i++) {
+    pDrcInstruction = &(hUniDrcConfig->drcInstructionsUniDrc[index]);
+    FDKmemset(pDrcInstruction, 0, sizeof(DRC_INSTRUCTIONS_UNI_DRC));
+    pDrcInstruction->drcSetId = indexVirtual;
+    pDrcInstruction->downmixId[0] =
+        hUniDrcConfig->downmixInstructions[i - 1].downmixId;
+    pDrcInstruction->downmixIdCount = 1;
+    index++;
+    indexVirtual--;
+  }
+
+  hUniDrcConfig->drcInstructionsCountInclVirtual =
+      hUniDrcConfig->drcInstructionsUniDrcCount + nMixes;
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _generateOutputInfo(
+    HANDLE_SEL_PROC_INPUT hSelProcInput, HANDLE_SEL_PROC_OUTPUT hSelProcOutput,
+    HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+    DRCDEC_SELECTION_DATA* pSelectionData, SEL_PROC_CODEC_MODE codecMode) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+
+  int i, j;
+  int hasDependend = 0;
+  int hasFading = 0;
+  int hasDucking = 0;
+  int selectedDrcSetIds;
+  int selectedDownmixIds;
+  FIXP_DBL mixingLevel = 0;
+  int albumMode = hSelProcInput->albumMode;
+  UCHAR* pDownmixIdRequested = hSelProcInput->downmixIdRequested;
+  FIXP_SGL boost = hSelProcInput->boost;
+  FIXP_SGL compress = hSelProcInput->compress;
+
+  hSelProcOutput->numSelectedDrcSets = 1;
+  hSelProcOutput->selectedDrcSetIds[0] = pSelectionData->pInst->drcSetId;
+  hSelProcOutput->selectedDownmixIds[0] =
+      pSelectionData->pInst->drcApplyToDownmix == 1
+          ? pSelectionData->pInst->downmixId[0]
+          : 0;
+  hSelProcOutput->loudnessNormalizationGainDb =
+      pSelectionData->loudnessNormalizationGainDbAdjusted +
+      hSelProcInput->loudnessNormalizationGainModificationDb;
+  hSelProcOutput->outputPeakLevelDb = pSelectionData->outputPeakLevel;
+
+  hSelProcOutput->boost = boost;
+  hSelProcOutput->compress = compress;
+  hSelProcOutput->baseChannelCount =
+      hUniDrcConfig->channelLayout.baseChannelCount;
+  hSelProcOutput->targetChannelCount =
+      hUniDrcConfig->channelLayout.baseChannelCount;
+  hSelProcOutput->activeDownmixId =
+      pDownmixIdRequested[pSelectionData->downmixIdRequestIndex];
+
+  _getMixingLevel(hLoudnessInfoSet, *pDownmixIdRequested,
+                  hSelProcOutput->selectedDrcSetIds[0], albumMode,
+                  &mixingLevel);
+  hSelProcOutput->mixingLevel = mixingLevel;
+
+  /*dependent*/
+  if (pSelectionData->pInst->dependsOnDrcSetPresent) {
+    int dependsOnDrcSetID = pSelectionData->pInst->dependsOnDrcSet;
+
+    for (i = 0; i < hUniDrcConfig->drcInstructionsCountInclVirtual; i++) {
+      if (hUniDrcConfig->drcInstructionsUniDrc[i].drcSetId ==
+          dependsOnDrcSetID) {
+        hSelProcOutput->selectedDrcSetIds[hSelProcOutput->numSelectedDrcSets] =
+            hUniDrcConfig->drcInstructionsUniDrc[i].drcSetId;
+        hSelProcOutput->selectedDownmixIds[hSelProcOutput->numSelectedDrcSets] =
+            hUniDrcConfig->drcInstructionsUniDrc[i].drcApplyToDownmix == 1
+                ? hUniDrcConfig->drcInstructionsUniDrc[i].downmixId[0]
+                : 0;
+        hSelProcOutput->numSelectedDrcSets++;
+        hasDependend = 1;
+        break;
+      }
+    }
+  }
+
+  /* fading */
+  if (hSelProcInput->albumMode == 0) {
+    for (i = 0; i < hUniDrcConfig->drcInstructionsUniDrcCount; i++) {
+      DRC_INSTRUCTIONS_UNI_DRC* pInst =
+          &(hUniDrcConfig->drcInstructionsUniDrc[i]);
+
+      if (pInst->drcSetEffect & EB_FADE) {
+        if (pInst->downmixId[0] == DOWNMIX_ID_ANY_DOWNMIX) {
+          hSelProcOutput->numSelectedDrcSets = hasDependend + 1;
+          hSelProcOutput
+              ->selectedDrcSetIds[hSelProcOutput->numSelectedDrcSets] =
+              hUniDrcConfig->drcInstructionsUniDrc[i].drcSetId;
+          hSelProcOutput
+              ->selectedDownmixIds[hSelProcOutput->numSelectedDrcSets] =
+              hUniDrcConfig->drcInstructionsUniDrc[i].drcApplyToDownmix == 1
+                  ? hUniDrcConfig->drcInstructionsUniDrc[i].downmixId[0]
+                  : 0;
+          hSelProcOutput->numSelectedDrcSets++;
+          hasFading = 1;
+
+        } else {
+          retVal = DRCDEC_SELECTION_PROCESS_NOT_OK;
+          if (retVal) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+        }
+      }
+    }
+  }
+
+  /* ducking */
+  for (i = 0; i < hUniDrcConfig->drcInstructionsUniDrcCount; i++) {
+    DRC_INSTRUCTIONS_UNI_DRC* pInst =
+        &(hUniDrcConfig->drcInstructionsUniDrc[i]);
+
+    if (pInst->drcSetEffect & (EB_DUCK_OTHER | EB_DUCK_SELF)) {
+      for (j = 0; j < pInst->downmixIdCount; j++) {
+        if (pInst->downmixId[j] == hSelProcOutput->activeDownmixId) {
+          hSelProcOutput->numSelectedDrcSets =
+              hasDependend + 1; /* ducking overrides fading */
+
+          hSelProcOutput
+              ->selectedDrcSetIds[hSelProcOutput->numSelectedDrcSets] =
+              hUniDrcConfig->drcInstructionsUniDrc[i].drcSetId;
+          /* force ducking DRC set to be processed on base layout */
+          hSelProcOutput
+              ->selectedDownmixIds[hSelProcOutput->numSelectedDrcSets] = 0;
+          hSelProcOutput->numSelectedDrcSets++;
+          hasDucking = 1;
+        }
+      }
+    }
+  }
+
+  /* repeat for DOWNMIX_ID_BASE_LAYOUT if no ducking found*/
+
+  if (!hasDucking) {
+    for (i = 0; i < hUniDrcConfig->drcInstructionsUniDrcCount; i++) {
+      DRC_INSTRUCTIONS_UNI_DRC* pInst =
+          &(hUniDrcConfig->drcInstructionsUniDrc[i]);
+
+      if (pInst->drcSetEffect & (EB_DUCK_OTHER | EB_DUCK_SELF)) {
+        for (j = 0; j < pInst->downmixIdCount; j++) {
+          if (pInst->downmixId[j] == DOWNMIX_ID_BASE_LAYOUT) {
+            hSelProcOutput->numSelectedDrcSets = hasDependend + hasFading + 1;
+            hSelProcOutput
+                ->selectedDrcSetIds[hSelProcOutput->numSelectedDrcSets] =
+                hUniDrcConfig->drcInstructionsUniDrc[i].drcSetId;
+            /* force ducking DRC set to be processed on base layout */
+            hSelProcOutput
+                ->selectedDownmixIds[hSelProcOutput->numSelectedDrcSets] = 0;
+            hSelProcOutput->numSelectedDrcSets++;
+          }
+        }
+      }
+    }
+  }
+
+  if (hSelProcOutput->numSelectedDrcSets > 3) {
+    /* maximum permitted number of applied DRC sets is 3, see section 6.3.5 of
+     * ISO/IEC 23003-4 */
+    hSelProcOutput->numSelectedDrcSets = 0;
+    return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  /* sorting: Ducking/Fading -> Dependent -> Selected */
+  if (hSelProcOutput->numSelectedDrcSets == 3) {
+    selectedDrcSetIds = hSelProcOutput->selectedDrcSetIds[0];
+    selectedDownmixIds = hSelProcOutput->selectedDownmixIds[0];
+    hSelProcOutput->selectedDrcSetIds[0] = hSelProcOutput->selectedDrcSetIds[2];
+    hSelProcOutput->selectedDownmixIds[0] =
+        hSelProcOutput->selectedDownmixIds[2];
+    hSelProcOutput->selectedDrcSetIds[2] = selectedDrcSetIds;
+    hSelProcOutput->selectedDownmixIds[2] = selectedDownmixIds;
+  } else if (hSelProcOutput->numSelectedDrcSets == 2) {
+    selectedDrcSetIds = hSelProcOutput->selectedDrcSetIds[0];
+    selectedDownmixIds = hSelProcOutput->selectedDownmixIds[0];
+    hSelProcOutput->selectedDrcSetIds[0] = hSelProcOutput->selectedDrcSetIds[1];
+    hSelProcOutput->selectedDownmixIds[0] =
+        hSelProcOutput->selectedDownmixIds[1];
+    hSelProcOutput->selectedDrcSetIds[1] = selectedDrcSetIds;
+    hSelProcOutput->selectedDownmixIds[1] = selectedDownmixIds;
+  }
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _selectDownmixMatrix(
+    HANDLE_SEL_PROC_OUTPUT hSelProcOutput,
+    HANDLE_UNI_DRC_CONFIG hUniDrcConfig) {
+  int i;
+  hSelProcOutput->baseChannelCount =
+      hUniDrcConfig->channelLayout.baseChannelCount;
+  hSelProcOutput->targetChannelCount =
+      hUniDrcConfig->channelLayout.baseChannelCount;
+  hSelProcOutput->targetLayout = -1;
+  hSelProcOutput->downmixMatrixPresent = 0;
+
+  if (hSelProcOutput->activeDownmixId != 0) {
+    for (i = 0; i < hUniDrcConfig->downmixInstructionsCount; i++) {
+      DOWNMIX_INSTRUCTIONS* pDown = &(hUniDrcConfig->downmixInstructions[i]);
+
+      if (hSelProcOutput->activeDownmixId == pDown->downmixId) {
+        hSelProcOutput->targetChannelCount = pDown->targetChannelCount;
+        hSelProcOutput->targetLayout = pDown->targetLayout;
+
+        if (pDown->downmixCoefficientsPresent) {
+          int j, k;
+          FIXP_DBL downmixOffset = getDownmixOffset(
+              pDown, hSelProcOutput->baseChannelCount); /* e = 1 */
+
+          for (j = 0; j < hSelProcOutput->baseChannelCount; j++) {
+            for (k = 0; k < hSelProcOutput->targetChannelCount; k++) {
+              hSelProcOutput->downmixMatrix[j][k] =
+                  fMultDiv2(
+                      downmixOffset,
+                      pDown->downmixCoefficient[j + k * hSelProcOutput
+                                                            ->baseChannelCount])
+                  << 2;
+            }
+          }
+
+          hSelProcOutput->downmixMatrixPresent = 1;
+        }
+        break;
+      }
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetPreSelection(
+    SEL_PROC_INPUT* hSelProcInput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+    DRCDEC_SELECTION** ppCandidatesPotential,
+    DRCDEC_SELECTION** ppCandidatesSelected, SEL_PROC_CODEC_MODE codecMode) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  int i, j;
+
+  for (i = 0; i < hSelProcInput->numDownmixIdRequests; i++) {
+    for (j = 0; j < hUniDrcConfig->drcInstructionsCountInclVirtual; j++) {
+      DRC_INSTRUCTIONS_UNI_DRC* pDrcInstruction =
+          &(hUniDrcConfig->drcInstructionsUniDrc[j]);
+      retVal = _drcSetPreSelectionSingleInstruction(
+          hSelProcInput, i, hUniDrcConfig, hLoudnessInfoSet, pDrcInstruction,
+          *ppCandidatesPotential, *ppCandidatesSelected, codecMode);
+      if (retVal) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+    }
+  }
+
+  retVal = _preSelectionRequirement9(hSelProcInput, *ppCandidatesPotential,
+                                     *ppCandidatesSelected);
+  if (retVal) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+  if (_drcdec_selection_getNumber(*ppCandidatesSelected) == 0) {
+    retVal = _drcSetSelectionAddCandidates(
+        hSelProcInput, *ppCandidatesPotential, *ppCandidatesSelected);
+    if (retVal) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _drcSetRequestSelection(
+    SEL_PROC_INPUT* hSelProcInput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+    DRCDEC_SELECTION** ppCandidatesPotential,
+    DRCDEC_SELECTION** ppCandidatesSelected) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal;
+  int i;
+
+  if (_drcdec_selection_getNumber(*ppCandidatesPotential) == 0) {
+    retVal = DRCDEC_SELECTION_PROCESS_NOT_OK;
+    if (retVal) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  if (hSelProcInput->dynamicRangeControlOn) {
+    if (hSelProcInput->numDrcFeatureRequests == 0) {
+      retVal = _selectDrcSetEffectNone(hUniDrcConfig, *ppCandidatesPotential,
+                                       *ppCandidatesSelected);
+      if (retVal) return (retVal);
+
+      if (_drcdec_selection_getNumber(*ppCandidatesSelected) == 0) {
+        DRC_FEATURE_REQUEST fallbackRequest;
+        fallbackRequest.drcEffectType.numRequests = 5;
+        fallbackRequest.drcEffectType.numRequestsDesired = 5;
+        fallbackRequest.drcEffectType.request[0] = DETR_GENERAL_COMPR;
+        fallbackRequest.drcEffectType.request[1] = DETR_NIGHT;
+        fallbackRequest.drcEffectType.request[2] = DETR_NOISY;
+        fallbackRequest.drcEffectType.request[3] = DETR_LIMITED;
+        fallbackRequest.drcEffectType.request[4] = DETR_LOWLEVEL;
+
+        retVal = _selectEffectTypeFeature(hUniDrcConfig, fallbackRequest,
+                                          ppCandidatesPotential,
+                                          ppCandidatesSelected);
+        if (retVal) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+      }
+
+      _swapSelectionAndClear(ppCandidatesPotential, ppCandidatesSelected);
+    } else {
+      for (i = 0; i < hSelProcInput->numDrcFeatureRequests; i++) {
+        if (hSelProcInput->drcFeatureRequestType[i] == DFRT_EFFECT_TYPE) {
+          retVal = _selectEffectTypeFeature(
+              hUniDrcConfig, hSelProcInput->drcFeatureRequest[i],
+              ppCandidatesPotential, ppCandidatesSelected);
+
+          _swapSelectionAndClear(ppCandidatesPotential, ppCandidatesSelected);
+          if (retVal) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+        }
+
+        else if (hSelProcInput->drcFeatureRequestType[i] ==
+                 DFRT_DYNAMIC_RANGE) {
+          retVal = _selectDynamicRange(
+              hUniDrcConfig, hLoudnessInfoSet,
+              hSelProcInput->drcFeatureRequest[i],
+              hSelProcInput->downmixIdRequested, hSelProcInput->albumMode,
+              *ppCandidatesPotential, *ppCandidatesSelected);
+
+          if (_drcdec_selection_getNumber(*ppCandidatesSelected) > 0) {
+            _swapSelectionAndClear(ppCandidatesPotential, ppCandidatesSelected);
+          }
+          if (retVal) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+        } else if (hSelProcInput->drcFeatureRequestType[i] ==
+                   DFRT_DRC_CHARACTERISTIC) {
+          retVal = _selectDrcCharacteristic(
+              hUniDrcConfig,
+              hSelProcInput->drcFeatureRequest[i].drcCharacteristic,
+              ppCandidatesPotential, ppCandidatesSelected);
+
+          if (_drcdec_selection_getNumber(*ppCandidatesSelected) > 0) {
+            _swapSelectionAndClear(ppCandidatesPotential, ppCandidatesSelected);
+          }
+          if (retVal) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+        }
+      }
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+/*******************************************/
+static DRCDEC_SELECTION_PROCESS_RETURN _dynamicRangeMeasurement(
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet, DRC_INSTRUCTIONS_UNI_DRC* pInst,
+    UCHAR downmixIdRequested,
+    DYN_RANGE_MEASUREMENT_REQUEST_TYPE dynamicRangeMeasurementType,
+    int albumMode, int* pPeakToAveragePresent, FIXP_DBL* pPeakToAverage) {
+  int i;
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  int drcSetId = fMax(0, pInst->drcSetId);
+
+  *pPeakToAveragePresent = 0;
+
+  if (albumMode) {
+    for (i = 0; i < hLoudnessInfoSet->loudnessInfoAlbumCount; i++) {
+      LOUDNESS_INFO* pLoudnessInfo = &(hLoudnessInfoSet->loudnessInfoAlbum[i]);
+
+      if (drcSetId == pLoudnessInfo->drcSetId) {
+        if (downmixIdRequested == pLoudnessInfo->downmixId) {
+          retVal = _extractLoudnessPeakToAverageValue(
+              pLoudnessInfo, dynamicRangeMeasurementType, pPeakToAveragePresent,
+              pPeakToAverage);
+          if (retVal) return (retVal);
+        }
+      }
+    }
+  }
+
+  if (*pPeakToAveragePresent == 0) {
+    for (i = 0; i < hLoudnessInfoSet->loudnessInfoCount; i++) {
+      LOUDNESS_INFO* pLoudnessInfo = &(hLoudnessInfoSet->loudnessInfo[i]);
+
+      if (drcSetId == pLoudnessInfo->drcSetId) {
+        if (downmixIdRequested == pLoudnessInfo->downmixId) {
+          retVal = _extractLoudnessPeakToAverageValue(
+              pLoudnessInfo, dynamicRangeMeasurementType, pPeakToAveragePresent,
+              pPeakToAverage);
+          if (retVal) return (retVal);
+        }
+      }
+    }
+  }
+
+  return retVal;
+}
+/*******************************************/
+
+static DRCDEC_SELECTION_DATA* _drcdec_selection_addNew(
+    DRCDEC_SELECTION* pSelection) {
+  if (pSelection->numData < (12 + 1 + 6)) {
+    DRCDEC_SELECTION_DATA* pData = &(pSelection->data[pSelection->numData]);
+    FDKmemset(pData, 0, sizeof(DRCDEC_SELECTION_DATA));
+    pSelection->numData++;
+
+    return pData;
+  } else {
+    return NULL;
+  }
+}
+
+static DRCDEC_SELECTION_DATA* _drcdec_selection_add(
+    DRCDEC_SELECTION* pSelection, DRCDEC_SELECTION_DATA* pDataIn) {
+  if (pSelection->numData < (12 + 1 + 6)) {
+    DRCDEC_SELECTION_DATA* pData = &(pSelection->data[pSelection->numData]);
+    FDKmemcpy(pData, pDataIn, sizeof(DRCDEC_SELECTION_DATA));
+    pSelection->numData++;
+    return pData;
+  } else {
+    return NULL;
+  }
+}
+
+static int _drcdec_selection_clear(DRCDEC_SELECTION* pSelection) {
+  return pSelection->numData = 0;
+}
+
+static int _drcdec_selection_getNumber(DRCDEC_SELECTION* pSelection) {
+  return pSelection->numData;
+}
+
+static int _drcdec_selection_setNumber(DRCDEC_SELECTION* pSelection, int num) {
+  if (num >= 0 && num < pSelection->numData) {
+    return pSelection->numData = num;
+  } else {
+    return pSelection->numData;
+  }
+}
+
+static DRCDEC_SELECTION_DATA* _drcdec_selection_getAt(
+    DRCDEC_SELECTION* pSelection, int at) {
+  if (at >= 0 && at < (12 + 1 + 6)) {
+    return &(pSelection->data[at]);
+  } else {
+    return NULL;
+  }
+}
+
+static int _swapSelectionAndClear(DRCDEC_SELECTION** ppCandidatesPotential,
+                                  DRCDEC_SELECTION** ppCandidatesSelected) {
+  DRCDEC_SELECTION* pTmp = *ppCandidatesPotential;
+  *ppCandidatesPotential = *ppCandidatesSelected;
+  *ppCandidatesSelected = pTmp;
+  _drcdec_selection_clear(*ppCandidatesSelected);
+  return 0;
+}
+
+static int _swapSelection(DRCDEC_SELECTION** ppCandidatesPotential,
+                          DRCDEC_SELECTION** ppCandidatesSelected) {
+  DRCDEC_SELECTION* pTmp = *ppCandidatesPotential;
+  *ppCandidatesPotential = *ppCandidatesSelected;
+  *ppCandidatesSelected = pTmp;
+  return 0;
+}
+
+/*******************************************/
+
+static LOUDNESS_INFO* _getLoudnessInfoStructure(
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet, int drcSetId, int downmixId,
+    int albumMode) {
+  int i, j;
+  int count;
+
+  LOUDNESS_INFO* pLoudnessInfo = NULL;
+
+  if (albumMode) {
+    count = hLoudnessInfoSet->loudnessInfoAlbumCount;
+    pLoudnessInfo = hLoudnessInfoSet->loudnessInfoAlbum;
+  } else {
+    count = hLoudnessInfoSet->loudnessInfoCount;
+    pLoudnessInfo = hLoudnessInfoSet->loudnessInfo;
+  }
+
+  for (i = 0; i < count; i++) {
+    if ((pLoudnessInfo[i].drcSetId == drcSetId) &&
+        (pLoudnessInfo[i].downmixId == downmixId)) {
+      for (j = 0; j < pLoudnessInfo[i].measurementCount; j++) {
+        if ((pLoudnessInfo[i].loudnessMeasurement[j].methodDefinition == 1) ||
+            (pLoudnessInfo[i].loudnessMeasurement[j].methodDefinition == 2)) {
+          return &pLoudnessInfo[i];
+        }
+      }
+    }
+  }
+
+  return NULL;
+}
+
+static LOUDNESS_INFO* _getApplicableLoudnessInfoStructure(
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet, int drcSetId,
+    int downmixIdRequested, int albumMode) {
+  LOUDNESS_INFO* pLoudnessInfo = NULL;
+
+  /* default value */
+  pLoudnessInfo = _getLoudnessInfoStructure(hLoudnessInfoSet, drcSetId,
+                                            downmixIdRequested, albumMode);
+
+  /* fallback values */
+  if (pLoudnessInfo == NULL) {
+    pLoudnessInfo =
+        _getLoudnessInfoStructure(hLoudnessInfoSet, drcSetId, 0x7F, albumMode);
+  }
+
+  if (pLoudnessInfo == NULL) {
+    pLoudnessInfo = _getLoudnessInfoStructure(hLoudnessInfoSet, 0x3F,
+                                              downmixIdRequested, albumMode);
+  }
+
+  if (pLoudnessInfo == NULL) {
+    pLoudnessInfo = _getLoudnessInfoStructure(hLoudnessInfoSet, 0,
+                                              downmixIdRequested, albumMode);
+  }
+
+  if (pLoudnessInfo == NULL) {
+    pLoudnessInfo =
+        _getLoudnessInfoStructure(hLoudnessInfoSet, 0x3F, 0x7F, albumMode);
+  }
+
+  if (pLoudnessInfo == NULL) {
+    pLoudnessInfo =
+        _getLoudnessInfoStructure(hLoudnessInfoSet, 0, 0x7F, albumMode);
+  }
+
+  if (pLoudnessInfo == NULL) {
+    pLoudnessInfo =
+        _getLoudnessInfoStructure(hLoudnessInfoSet, drcSetId, 0, albumMode);
+  }
+
+  if (pLoudnessInfo == NULL) {
+    pLoudnessInfo =
+        _getLoudnessInfoStructure(hLoudnessInfoSet, 0x3F, 0, albumMode);
+  }
+
+  if (pLoudnessInfo == NULL) {
+    pLoudnessInfo =
+        _getLoudnessInfoStructure(hLoudnessInfoSet, 0, 0, albumMode);
+  }
+
+  return pLoudnessInfo;
+}
+
+/*******************************************/
+
+typedef struct {
+  FIXP_DBL value;
+  int order;
+} VALUE_ORDER;
+
+void _initValueOrder(VALUE_ORDER* pValue) {
+  pValue->value = (FIXP_DBL)0;
+  pValue->order = -1;
+}
+
+enum {
+  MS_BONUS0 = 0,
+  MS_BONUS1770,
+  MS_BONUSUSER,
+  MS_BONUSEXPERT,
+  MS_RESA,
+  MS_RESB,
+  MS_RESC,
+  MS_RESD,
+  MS_RESE,
+  MS_PROGRAMLOUDNESS,
+  MS_PEAKLOUDNESS
+};
+
+static DRCDEC_SELECTION_PROCESS_RETURN _getMethodValue(
+    VALUE_ORDER* pValueOrder, FIXP_DBL value, int measurementSystem,
+    int measurementSystemRequested) {
+  const int rows = 11;
+  const int columns = 12;
+  const int pOrdering[rows][columns] = {
+      {0, 0, 8, 0, 1, 3, 0, 5, 6, 7, 4, 2}, /* default = bonus1770 */
+      {0, 0, 8, 0, 1, 3, 0, 5, 6, 7, 4, 2}, /* bonus1770 */
+      {0, 0, 1, 0, 8, 5, 0, 2, 3, 4, 6, 7}, /* bonusUser */
+      {0, 0, 3, 0, 1, 8, 0, 4, 5, 6, 7, 2}, /* bonusExpert */
+      {0, 0, 5, 0, 1, 3, 0, 8, 6, 7, 4, 2}, /* ResA */
+      {0, 0, 5, 0, 1, 3, 0, 6, 8, 7, 4, 2}, /* ResB */
+      {0, 0, 5, 0, 1, 3, 0, 6, 7, 8, 4, 2}, /* ResC */
+      {0, 0, 3, 0, 1, 7, 0, 4, 5, 6, 8, 2}, /* ResD */
+      {0, 0, 1, 0, 7, 5, 0, 2, 3, 4, 6, 8}, /* ResE */
+      {0, 0, 1, 0, 0, 0, 0, 2, 3, 4, 0, 0}, /* ProgramLoudness */
+      {0, 7, 0, 0, 0, 0, 6, 5, 4, 3, 2, 1}  /* PeakLoudness */
+  };
+
+  if (measurementSystemRequested < 0 || measurementSystemRequested >= rows ||
+      measurementSystem < 0 || measurementSystem >= columns) {
+    return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  if (pOrdering[measurementSystemRequested][measurementSystem] >
+      pValueOrder->order) {
+    pValueOrder->order =
+        pOrdering[measurementSystemRequested][measurementSystem];
+    pValueOrder->value = value;
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+/*******************************************/
+
+static DRCDEC_SELECTION_PROCESS_RETURN _getLoudness(
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet, int albumMode,
+    METHOD_DEFINITION_REQUEST measurementMethodRequested,
+    MEASUREMENT_SYSTEM_REQUEST measurementSystemRequested,
+    FIXP_DBL targetLoudness, /* e = 7 */
+    int drcSetId, int downmixIdRequested,
+    FIXP_DBL* pLoudnessNormalizationGain, /* e = 7 */
+    FIXP_DBL* pLoudness)                  /* e = 7 */
+{
+  int index;
+
+  LOUDNESS_INFO* pLoudnessInfo = NULL;
+  VALUE_ORDER valueOrder;
+
+  /* map MDR_DEFAULT to MDR_PROGRAM_LOUDNESS */
+  METHOD_DEFINITION_REQUEST requestedMethodDefinition =
+      measurementMethodRequested < MDR_ANCHOR_LOUDNESS ? MDR_PROGRAM_LOUDNESS
+                                                       : MDR_ANCHOR_LOUDNESS;
+
+  if (measurementMethodRequested > MDR_ANCHOR_LOUDNESS) {
+    return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  }
+
+  _initValueOrder(&valueOrder);
+
+  *pLoudness = UNDEFINED_LOUDNESS_VALUE;
+  *pLoudnessNormalizationGain = (FIXP_DBL)0;
+
+  if (drcSetId < 0) {
+    drcSetId = 0;
+  }
+
+  pLoudnessInfo = _getApplicableLoudnessInfoStructure(
+      hLoudnessInfoSet, drcSetId, downmixIdRequested, albumMode);
+
+  if (albumMode && (pLoudnessInfo == NULL)) {
+    pLoudnessInfo = _getApplicableLoudnessInfoStructure(
+        hLoudnessInfoSet, drcSetId, downmixIdRequested, 0);
+  }
+
+  if (pLoudnessInfo == NULL) {
+    return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+  }
+
+  index = -1;
+
+  do {
+    index = _findMethodDefinition(pLoudnessInfo, requestedMethodDefinition,
+                                  index + 1);
+
+    if (index >= 0) {
+      _getMethodValue(
+          &valueOrder, pLoudnessInfo->loudnessMeasurement[index].methodValue,
+          pLoudnessInfo->loudnessMeasurement[index].measurementSystem,
+          measurementSystemRequested);
+    }
+  } while (index >= 0);
+
+  /* repeat with other method definition */
+  if (valueOrder.order == -1) {
+    index = -1;
+
+    do {
+      index = _findMethodDefinition(
+          pLoudnessInfo,
+          requestedMethodDefinition == MDR_PROGRAM_LOUDNESS
+              ? MDR_ANCHOR_LOUDNESS
+              : MDR_PROGRAM_LOUDNESS,
+          index + 1);
+
+      if (index >= 0) {
+        _getMethodValue(
+            &valueOrder, pLoudnessInfo->loudnessMeasurement[index].methodValue,
+            pLoudnessInfo->loudnessMeasurement[index].measurementSystem,
+            measurementSystemRequested);
+      }
+    } while (index >= 0);
+  }
+
+  if (valueOrder.order == -1) {
+    return DRCDEC_SELECTION_PROCESS_NOT_OK;
+  } else {
+    *pLoudnessNormalizationGain = targetLoudness - valueOrder.value;
+    *pLoudness = valueOrder.value;
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+/*******************************************/
+
+static int _truePeakLevelIsPresent(HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+                                   int drcSetId, int downmixId, int albumMode) {
+  int i;
+  int count;
+  LOUDNESS_INFO* pLoudnessInfo = NULL;
+
+  if (albumMode) {
+    count = hLoudnessInfoSet->loudnessInfoAlbumCount;
+    pLoudnessInfo = hLoudnessInfoSet->loudnessInfoAlbum;
+  } else {
+    count = hLoudnessInfoSet->loudnessInfoCount;
+    pLoudnessInfo = hLoudnessInfoSet->loudnessInfo;
+  }
+
+  for (i = 0; i < count; i++) {
+    if ((pLoudnessInfo[i].drcSetId == drcSetId) &&
+        (pLoudnessInfo[i].downmixId == downmixId)) {
+      if (pLoudnessInfo[i].truePeakLevelPresent) return 1;
+    }
+  }
+
+  return 0;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _getTruePeakLevel(
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet, int drcSetId, int downmixId,
+    int albumMode, FIXP_DBL* pTruePeakLevel) {
+  int i;
+  int count;
+  LOUDNESS_INFO* pLoudnessInfo = NULL;
+
+  if (albumMode) {
+    count = hLoudnessInfoSet->loudnessInfoAlbumCount;
+    pLoudnessInfo = hLoudnessInfoSet->loudnessInfoAlbum;
+  } else {
+    count = hLoudnessInfoSet->loudnessInfoCount;
+    pLoudnessInfo = hLoudnessInfoSet->loudnessInfo;
+  }
+
+  for (i = 0; i < count; i++) {
+    if ((pLoudnessInfo[i].drcSetId == drcSetId) &&
+        (pLoudnessInfo[i].downmixId == downmixId)) {
+      if (pLoudnessInfo[i].truePeakLevelPresent) {
+        *pTruePeakLevel = pLoudnessInfo[i].truePeakLevel;
+        return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+      }
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NOT_OK;
+}
+
+static int _samplePeakLevelIsPresent(HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+                                     int drcSetId, int downmixId,
+                                     int albumMode) {
+  int i;
+  int count;
+  LOUDNESS_INFO* pLoudnessInfo = NULL;
+
+  if (albumMode) {
+    count = hLoudnessInfoSet->loudnessInfoAlbumCount;
+    pLoudnessInfo = hLoudnessInfoSet->loudnessInfoAlbum;
+  } else {
+    count = hLoudnessInfoSet->loudnessInfoCount;
+    pLoudnessInfo = hLoudnessInfoSet->loudnessInfo;
+  }
+
+  for (i = 0; i < count; i++) {
+    if ((pLoudnessInfo[i].drcSetId == drcSetId) &&
+        (pLoudnessInfo[i].downmixId == downmixId)) {
+      if (pLoudnessInfo[i].samplePeakLevelPresent) return 1;
+    }
+  }
+
+  return 0;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _getSamplePeakLevel(
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet, int drcSetId, int downmixId,
+    int albumMode, FIXP_DBL* pSamplePeakLevel /* e = 7 */
+) {
+  int i;
+  int count;
+  LOUDNESS_INFO* pLoudnessInfo = NULL;
+
+  if (albumMode) {
+    count = hLoudnessInfoSet->loudnessInfoAlbumCount;
+    pLoudnessInfo = hLoudnessInfoSet->loudnessInfoAlbum;
+  } else {
+    count = hLoudnessInfoSet->loudnessInfoCount;
+    pLoudnessInfo = hLoudnessInfoSet->loudnessInfo;
+  }
+
+  for (i = 0; i < count; i++) {
+    if ((pLoudnessInfo[i].drcSetId == drcSetId) &&
+        (pLoudnessInfo[i].downmixId == downmixId)) {
+      if (pLoudnessInfo[i].samplePeakLevelPresent) {
+        *pSamplePeakLevel = pLoudnessInfo[i].samplePeakLevel;
+        return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+      }
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NOT_OK;
+}
+
+static int _limiterPeakTargetIsPresent(
+    DRC_INSTRUCTIONS_UNI_DRC* pDrcInstruction, int drcSetId, int downmixId) {
+  int i;
+
+  if (pDrcInstruction->limiterPeakTargetPresent) {
+    if ((pDrcInstruction->downmixId[0] == downmixId) ||
+        (pDrcInstruction->downmixId[0] == 0x7F)) {
+      return 1;
+    }
+
+    for (i = 0; i < pDrcInstruction->downmixIdCount; i++) {
+      if (pDrcInstruction->downmixId[i] == downmixId) {
+        return 1;
+      }
+    }
+  }
+
+  return 0;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _getLimiterPeakTarget(
+    DRC_INSTRUCTIONS_UNI_DRC* pDrcInstruction, int drcSetId, int downmixId,
+    FIXP_DBL* pLimiterPeakTarget) {
+  int i;
+
+  if (pDrcInstruction->limiterPeakTargetPresent) {
+    if ((pDrcInstruction->downmixId[0] == downmixId) ||
+        (pDrcInstruction->downmixId[0] == 0x7F)) {
+      *pLimiterPeakTarget =
+          ((FX_SGL2FX_DBL(pDrcInstruction->limiterPeakTarget) >> 2));
+      return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+    }
+
+    for (i = 0; i < pDrcInstruction->downmixIdCount; i++) {
+      if (pDrcInstruction->downmixId[i] == downmixId) {
+        *pLimiterPeakTarget =
+            ((FX_SGL2FX_DBL(pDrcInstruction->limiterPeakTarget) >> 2));
+        return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+      }
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NOT_OK;
+}
+
+static int _downmixCoefficientsArePresent(HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+                                          int downmixId, int* pIndex) {
+  int i;
+  *pIndex = -1;
+
+  for (i = 0; i < hUniDrcConfig->downmixInstructionsCount; i++) {
+    if (hUniDrcConfig->downmixInstructions[i].downmixId == downmixId) {
+      if (hUniDrcConfig->downmixInstructions[i].downmixCoefficientsPresent) {
+        *pIndex = i;
+        return 1;
+      }
+    }
+  }
+
+  return 0;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _getSignalPeakLevel(
+    HANDLE_SEL_PROC_INPUT hSelProcInput, HANDLE_UNI_DRC_CONFIG hUniDrcConfig,
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet, DRC_INSTRUCTIONS_UNI_DRC* pInst,
+    int downmixIdRequested, int* explicitPeakInformationPresent,
+    FIXP_DBL* signalPeakLevelOut, /* e = 7 */
+    SEL_PROC_CODEC_MODE codecMode
+
+) {
+  DRCDEC_SELECTION_PROCESS_RETURN retVal = DRCDEC_SELECTION_PROCESS_NO_ERROR;
+
+  int albumMode = hSelProcInput->albumMode;
+
+  FIXP_DBL signalPeakLevelTmp = (FIXP_DBL)0;
+  FIXP_DBL signalPeakLevel = FIXP_DBL(0);
+
+  int dmxId = downmixIdRequested;
+
+  int drcSetId = pInst->drcSetId;
+
+  if (drcSetId < 0) {
+    drcSetId = 0;
+  }
+
+  *explicitPeakInformationPresent = 1;
+
+  if (_truePeakLevelIsPresent(hLoudnessInfoSet, drcSetId, dmxId, albumMode)) {
+    retVal = _getTruePeakLevel(hLoudnessInfoSet, drcSetId, dmxId, albumMode,
+                               &signalPeakLevel);
+    if (retVal) return (retVal);
+  } else if (_samplePeakLevelIsPresent(hLoudnessInfoSet, drcSetId, dmxId,
+                                       albumMode)) {
+    retVal = _getSamplePeakLevel(hLoudnessInfoSet, drcSetId, dmxId, albumMode,
+                                 &signalPeakLevel);
+    if (retVal) return (retVal);
+  } else if (_truePeakLevelIsPresent(hLoudnessInfoSet, 0x3F, dmxId,
+                                     albumMode)) {
+    retVal = _getTruePeakLevel(hLoudnessInfoSet, 0x3F, dmxId, albumMode,
+                               &signalPeakLevel);
+    if (retVal) return (retVal);
+  } else if (_samplePeakLevelIsPresent(hLoudnessInfoSet, 0x3F, dmxId,
+                                       albumMode)) {
+    retVal = _getSamplePeakLevel(hLoudnessInfoSet, 0x3F, dmxId, albumMode,
+                                 &signalPeakLevel);
+    if (retVal) return (retVal);
+  } else if (_limiterPeakTargetIsPresent(pInst, drcSetId, dmxId)) {
+    retVal = _getLimiterPeakTarget(pInst, drcSetId, dmxId, &signalPeakLevel);
+    if (retVal) return (retVal);
+  } else if (dmxId != 0) {
+    int downmixInstructionIndex = 0;
+    FIXP_DBL downmixPeakLevelDB = 0;
+
+    *explicitPeakInformationPresent = 0;
+
+    signalPeakLevelTmp = FIXP_DBL(0);
+
+    if (_downmixCoefficientsArePresent(hUniDrcConfig, dmxId,
+                                       &downmixInstructionIndex)) {
+      FIXP_DBL dB_m;
+      int dB_e;
+      FIXP_DBL coeff;
+      FIXP_DBL sum, maxSum; /* e = 7, so it is possible to sum up up to 32
+                               downmix coefficients (with e = 2) */
+      int i, j;
+      DOWNMIX_INSTRUCTIONS* pDown =
+          &(hUniDrcConfig->downmixInstructions[downmixInstructionIndex]);
+      FIXP_DBL downmixOffset = getDownmixOffset(
+          pDown, hUniDrcConfig->channelLayout.baseChannelCount); /* e = 1 */
+      maxSum = (FIXP_DBL)0;
+
+      for (i = 0; i < pDown->targetChannelCount; i++) {
+        sum = (FIXP_DBL)0;
+        for (j = 0; j < hUniDrcConfig->channelLayout.baseChannelCount; j++) {
+          coeff = pDown->downmixCoefficient[j + i * hUniDrcConfig->channelLayout
+                                                        .baseChannelCount];
+          sum += coeff >> 5;
+        }
+        if (maxSum < sum) maxSum = sum;
+      }
+
+      maxSum = fMultDiv2(maxSum, downmixOffset) << 2;
+
+      if (maxSum == FL2FXCONST_DBL(1.0f / (float)(1 << 7))) {
+        downmixPeakLevelDB = (FIXP_DBL)0;
+      } else {
+        dB_m = lin2dB(maxSum, 7, &dB_e); /* e_maxSum = 7 */
+        downmixPeakLevelDB =
+            scaleValue(dB_m, dB_e - 7); /* e_downmixPeakLevelDB = 7 */
+      }
+    }
+
+    if (_truePeakLevelIsPresent(hLoudnessInfoSet, drcSetId, 0, albumMode)) {
+      retVal = _getTruePeakLevel(hLoudnessInfoSet, drcSetId, 0, albumMode,
+                                 &signalPeakLevelTmp);
+      if (retVal) return (retVal);
+    } else if (_samplePeakLevelIsPresent(hLoudnessInfoSet, drcSetId, 0,
+                                         albumMode)) {
+      retVal = _getSamplePeakLevel(hLoudnessInfoSet, drcSetId, 0, albumMode,
+                                   &signalPeakLevelTmp);
+      if (retVal) return (retVal);
+    } else if (_truePeakLevelIsPresent(hLoudnessInfoSet, 0x3F, 0, albumMode)) {
+      retVal = _getTruePeakLevel(hLoudnessInfoSet, 0x3F, 0, albumMode,
+                                 &signalPeakLevelTmp);
+      if (retVal) return (retVal);
+    } else if (_samplePeakLevelIsPresent(hLoudnessInfoSet, 0x3F, 0,
+                                         albumMode)) {
+      retVal = _getSamplePeakLevel(hLoudnessInfoSet, 0x3F, 0, albumMode,
+                                   &signalPeakLevelTmp);
+      if (retVal) return (retVal);
+    } else if (_limiterPeakTargetIsPresent(pInst, drcSetId, 0)) {
+      retVal = _getLimiterPeakTarget(pInst, drcSetId, 0, &signalPeakLevelTmp);
+      if (retVal) return (retVal);
+    }
+
+    signalPeakLevel = signalPeakLevelTmp + downmixPeakLevelDB;
+  } else {
+    signalPeakLevel = FIXP_DBL(0); /* worst case estimate */
+    *explicitPeakInformationPresent = FIXP_DBL(0);
+  }
+
+  *signalPeakLevelOut = signalPeakLevel;
+
+  return retVal;
+}
+
+static DRCDEC_SELECTION_PROCESS_RETURN _extractLoudnessPeakToAverageValue(
+    LOUDNESS_INFO* loudnessInfo,
+    DYN_RANGE_MEASUREMENT_REQUEST_TYPE dynamicRangeMeasurementType,
+    int* pLoudnessPeakToAverageValuePresent,
+    FIXP_DBL* pLoudnessPeakToAverageValue) {
+  int i;
+
+  VALUE_ORDER valueOrderLoudness;
+  VALUE_ORDER valueOrderPeakLoudness;
+
+  _initValueOrder(&valueOrderLoudness);
+  _initValueOrder(&valueOrderPeakLoudness);
+
+  LOUDNESS_MEASUREMENT* pLoudnessMeasure = NULL;
+
+  *pLoudnessPeakToAverageValuePresent = 0;
+
+  for (i = 0; i < loudnessInfo->measurementCount; i++) {
+    pLoudnessMeasure = &(loudnessInfo->loudnessMeasurement[i]);
+
+    if (pLoudnessMeasure->methodDefinition == MD_PROGRAM_LOUDNESS) {
+      _getMethodValue(&valueOrderLoudness, pLoudnessMeasure->methodValue,
+                      pLoudnessMeasure->measurementSystem, MS_PROGRAMLOUDNESS);
+    }
+
+    if ((dynamicRangeMeasurementType == DRMRT_SHORT_TERM_LOUDNESS_TO_AVG) &&
+        (pLoudnessMeasure->methodDefinition == MD_SHORT_TERM_LOUDNESS_MAX)) {
+      _getMethodValue(&valueOrderPeakLoudness, pLoudnessMeasure->methodValue,
+                      pLoudnessMeasure->measurementSystem, MS_PEAKLOUDNESS);
+    }
+
+    if ((dynamicRangeMeasurementType == DRMRT_MOMENTARY_LOUDNESS_TO_AVG) &&
+        (pLoudnessMeasure->methodDefinition == MD_MOMENTARY_LOUDNESS_MAX)) {
+      _getMethodValue(&valueOrderPeakLoudness, pLoudnessMeasure->methodValue,
+                      pLoudnessMeasure->measurementSystem, MS_PEAKLOUDNESS);
+    }
+
+    if ((dynamicRangeMeasurementType == DRMRT_TOP_OF_LOUDNESS_RANGE_TO_AVG) &&
+        (pLoudnessMeasure->methodDefinition == MD_MAX_OF_LOUDNESS_RANGE)) {
+      _getMethodValue(&valueOrderPeakLoudness, pLoudnessMeasure->methodValue,
+                      pLoudnessMeasure->measurementSystem, MS_PEAKLOUDNESS);
+    }
+  }
+
+  if ((valueOrderLoudness.order > -1) && (valueOrderPeakLoudness.order > -1)) {
+    *pLoudnessPeakToAverageValue =
+        valueOrderPeakLoudness.value - valueOrderLoudness.value;
+    *pLoudnessPeakToAverageValuePresent = 1;
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+/*******************************************/
+
+static DRCDEC_SELECTION_PROCESS_RETURN _selectAlbumLoudness(
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet,
+    DRCDEC_SELECTION* pCandidatesPotential,
+    DRCDEC_SELECTION* pCandidatesSelected) {
+  int i, j;
+
+  for (i = 0; i < _drcdec_selection_getNumber(pCandidatesPotential); i++) {
+    DRCDEC_SELECTION_DATA* pCandidate =
+        _drcdec_selection_getAt(pCandidatesPotential, i);
+    if (pCandidate == NULL) return DRCDEC_SELECTION_PROCESS_NOT_OK;
+
+    for (j = 0; j < hLoudnessInfoSet->loudnessInfoAlbumCount; j++) {
+      if (pCandidate->pInst->drcSetId ==
+          hLoudnessInfoSet->loudnessInfoAlbum[j].drcSetId) {
+        if (_drcdec_selection_add(pCandidatesSelected, pCandidate) == NULL)
+          return DRCDEC_SELECTION_PROCESS_NOT_OK;
+      }
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+/*******************************************/
+
+static int _findMethodDefinition(LOUDNESS_INFO* pLoudnessInfo,
+                                 int methodDefinition, int startIndex) {
+  int i;
+  int index = -1;
+
+  for (i = startIndex; i < pLoudnessInfo->measurementCount; i++) {
+    if (pLoudnessInfo->loudnessMeasurement[i].methodDefinition ==
+        methodDefinition) {
+      index = i;
+      break;
+    }
+  }
+
+  return index;
+}
+
+/*******************************************/
+
+static DRCDEC_SELECTION_PROCESS_RETURN _getMixingLevel(
+    HANDLE_LOUDNESS_INFO_SET hLoudnessInfoSet, int downmixIdRequested,
+    int drcSetIdRequested, int albumMode, FIXP_DBL* pMixingLevel) {
+  const FIXP_DBL mixingLevelDefault = FL2FXCONST_DBL(85.0f / (float)(1 << 7));
+
+  int i;
+  int count;
+
+  LOUDNESS_INFO* pLoudnessInfo = NULL;
+
+  *pMixingLevel = mixingLevelDefault;
+
+  if (drcSetIdRequested < 0) {
+    drcSetIdRequested = 0;
+  }
+
+  if (albumMode) {
+    count = hLoudnessInfoSet->loudnessInfoAlbumCount;
+    pLoudnessInfo = hLoudnessInfoSet->loudnessInfoAlbum;
+  } else {
+    count = hLoudnessInfoSet->loudnessInfoCount;
+    pLoudnessInfo = hLoudnessInfoSet->loudnessInfo;
+  }
+
+  for (i = 0; i < count; i++) {
+    if ((drcSetIdRequested == pLoudnessInfo[i].drcSetId) &&
+        ((downmixIdRequested == pLoudnessInfo[i].downmixId) ||
+         (DOWNMIX_ID_ANY_DOWNMIX == pLoudnessInfo[i].downmixId))) {
+      int index = _findMethodDefinition(&pLoudnessInfo[i], MD_MIXING_LEVEL, 0);
+
+      if (index >= 0) {
+        *pMixingLevel = pLoudnessInfo[i].loudnessMeasurement[index].methodValue;
+        break;
+      }
+    }
+  }
+
+  return DRCDEC_SELECTION_PROCESS_NO_ERROR;
+}
+
+/*******************************************/