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+/****************************************************************************
+
+ (C) Copyright Fraunhofer IIS (2004)
+ All Rights Reserved
+
+ Please be advised that this software and/or program delivery is
+ Confidential Information of Fraunhofer and subject to and covered by the
+
+ Fraunhofer IIS Software Evaluation Agreement
+ between Google Inc. and Fraunhofer
+ effective and in full force since March 1, 2012.
+
+ You may use this software and/or program only under the terms and
+ conditions described in the above mentioned Fraunhofer IIS Software
+ Evaluation Agreement. Any other and/or further use requires a separate agreement.
+
+
+ This software and/or program is protected by copyright law and international
+ treaties. Any reproduction or distribution of this software and/or program,
+ or any portion of it, may result in severe civil and criminal penalties, and
+ will be prosecuted to the maximum extent possible under law.
+
+ $Id$
+
+ History: 04-NOV-2009 A. Tritthart Optimized qmfSynPrototypeFirSlot1
+
+****************************************************************************/
+#if (QMF_NO_POLY==5)
+
+#define FUNCTION_qmfForwardModulationLP_odd
+
+#ifdef FUNCTION_qmfForwardModulationLP_odd
+static void
+qmfForwardModulationLP_odd( HANDLE_QMF_FILTER_BANK anaQmf, /*!< Handle of Qmf Analysis Bank */
+ const FIXP_QMF *timeIn, /*!< Time Signal */
+ FIXP_QMF *rSubband ) /*!< Real Output */
+{
+ int i;
+ int L = anaQmf->no_channels;
+ int M = L>>1;
+ int shift = (anaQmf->no_channels>>6) + 1;
+ int rSubband_e = 0;
+
+ FIXP_QMF *rSubbandPtr0 = &rSubband[M+0]; /* runs with increment */
+ FIXP_QMF *rSubbandPtr1 = &rSubband[M-1]; /* runs with decrement */
+ FIXP_QMF *timeIn0 = (FIXP_DBL *) &timeIn[0]; /* runs with increment */
+ FIXP_QMF *timeIn1 = (FIXP_DBL *) &timeIn[L]; /* runs with increment */
+ FIXP_QMF *timeIn2 = (FIXP_DBL *) &timeIn[L-1]; /* runs with decrement */
+ FIXP_QMF *timeIn3 = (FIXP_DBL *) &timeIn[2*L-1]; /* runs with decrement */
+
+ for (i = 0; i < M; i++)
+ {
+ *rSubbandPtr0++ = (*timeIn2-- >> 1) - (*timeIn0++ >> shift);
+ *rSubbandPtr1-- = (*timeIn1++ >> 1) + (*timeIn3-- >> shift);
+ }
+
+ dct_IV(rSubband,L, &rSubband_e);
+}
+#endif /* FUNCTION_qmfForwardModulationLP_odd */
+
+
+/* NEON optimized QMF currently builts only with RVCT toolchain */
+
+#if defined(__ARM_ARCH_6__) || defined(__ARM_ARCH_5TE__)
+
+#if (SAMPLE_BITS == 16)
+#define FUNCTION_qmfAnaPrototypeFirSlot
+#endif
+
+#ifdef FUNCTION_qmfAnaPrototypeFirSlot
+
+#if defined(__GNUC__) /* cppp replaced: elif */
+
+inline INT SMULBB (const SHORT a, const LONG b)
+{
+ INT result ;
+ __asm__ ("smulbb %0, %1, %2"
+ : "=r" (result)
+ : "r" (a), "r" (b)) ;
+ return result ;
+}
+inline INT SMULBT (const SHORT a, const LONG b)
+{
+ INT result ;
+ __asm__ ("smulbt %0, %1, %2"
+ : "=r" (result)
+ : "r" (a), "r" (b)) ;
+ return result ;
+}
+
+inline INT SMLABB(const LONG accu, const SHORT a, const LONG b)
+{
+ INT result ;
+ __asm__ ("smlabb %0, %1, %2,%3"
+ : "=r" (result)
+ : "r" (a), "r" (b), "r" (accu)) ;
+ return result;
+}
+inline INT SMLABT(const LONG accu, const SHORT a, const LONG b)
+{
+ INT result ;
+ __asm__ ("smlabt %0, %1, %2,%3"
+ : "=r" (result)
+ : "r" (a), "r" (b), "r" (accu)) ;
+ return result;
+}
+#endif /* compiler selection */
+
+
+void qmfAnaPrototypeFirSlot( FIXP_QMF *analysisBuffer,
+ int no_channels, /*!< Number channels of analysis filter */
+ const FIXP_PFT *p_filter,
+ int p_stride, /*!< Stide of analysis filter */
+ FIXP_QAS *RESTRICT pFilterStates
+ )
+{
+ LONG *p_flt = (LONG *) p_filter;
+ LONG flt;
+ FIXP_QMF *RESTRICT pData_0 = analysisBuffer + 2*no_channels - 1;
+ FIXP_QMF *RESTRICT pData_1 = analysisBuffer;
+
+ FIXP_QAS *RESTRICT sta_0 = (FIXP_QAS *)pFilterStates;
+ FIXP_QAS *RESTRICT sta_1 = (FIXP_QAS *)pFilterStates + (2*QMF_NO_POLY*no_channels) - 1;
+
+ FIXP_DBL accu0, accu1;
+ FIXP_QAS sta0, sta1;
+
+ int staStep1 = no_channels<<1;
+ int staStep2 = (no_channels<<3) - 1; /* Rewind one less */
+
+ if (p_stride == 1)
+ {
+ /* FIR filter 0 */
+ flt = *p_flt++;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu1 = SMULBB( sta1, flt);
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ flt = *p_flt++;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu1 = SMLABB( accu1, sta1, flt);
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ flt = *p_flt++;
+ sta1 = *sta_1; sta_1 += staStep2;
+ accu1 = SMLABB( accu1, sta1, flt);
+ *pData_1++ = FX_DBL2FX_QMF(accu1<<1);
+
+ /* FIR filters 1..63 127..65 or 1..31 63..33 */
+ no_channels >>= 1;
+ for (; --no_channels; )
+ {
+ sta0 = *sta_0; sta_0 += staStep1; /* 1,3,5, ... 29/61 */
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMULBT( sta0, flt);
+ accu1 = SMULBT( sta1, flt);
+
+ flt = *p_flt++;
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABB( accu0, sta0, flt);
+ accu1 = SMLABB( accu1, sta1, flt);
+
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABT( accu0, sta0, flt);
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ flt = *p_flt++;
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABB( accu0, sta0, flt);
+ accu1 = SMLABB( accu1, sta1, flt);
+
+ sta0 = *sta_0; sta_0 -= staStep2;
+ sta1 = *sta_1; sta_1 += staStep2;
+ accu0 = SMLABT( accu0, sta0, flt);
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ *pData_0-- = FX_DBL2FX_QMF(accu0<<1);
+ *pData_1++ = FX_DBL2FX_QMF(accu1<<1);
+
+ /* Same sequence as above, but mix B=bottom with T=Top */
+
+ flt = *p_flt++;
+ sta0 = *sta_0; sta_0 += staStep1; /* 2,4,6, ... 30/62 */
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMULBB( sta0, flt);
+ accu1 = SMULBB( sta1, flt);
+
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABT( accu0, sta0, flt);
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ flt = *p_flt++;
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABB( accu0, sta0, flt);
+ accu1 = SMLABB( accu1, sta1, flt);
+
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABT( accu0, sta0, flt);
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ flt = *p_flt++;
+ sta0 = *sta_0; sta_0 -= staStep2;
+ sta1 = *sta_1; sta_1 += staStep2;
+ accu0 = SMLABB( accu0, sta0, flt);
+ accu1 = SMLABB( accu1, sta1, flt);
+
+ *pData_0-- = FX_DBL2FX_QMF(accu0<<1);
+ *pData_1++ = FX_DBL2FX_QMF(accu1<<1);
+ }
+
+ /* FIR filter 31/63 and 33/65 */
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMULBT( sta0, flt);
+ accu1 = SMULBT( sta1, flt);
+
+ flt = *p_flt++;
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABB( accu0, sta0, flt);
+ accu1 = SMLABB( accu1, sta1, flt);
+
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABT( accu0, sta0, flt);
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ flt = *p_flt++;
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABB( accu0, sta0, flt);
+ accu1 = SMLABB( accu1, sta1, flt);
+
+ sta0 = *sta_0; sta_0 -= staStep2;
+ sta1 = *sta_1; sta_1 += staStep2;
+ accu0 = SMLABT( accu0, sta0, flt);
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ *pData_0-- = FX_DBL2FX_QMF(accu0<<1);
+ *pData_1++ = FX_DBL2FX_QMF(accu1<<1);
+
+ /* FIR filter 32/64 */
+ flt = *p_flt++;
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMULBB( sta0, flt);
+ accu1 = SMULBB( sta1, flt);
+
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABT( accu0, sta0, flt);
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ flt = *p_flt++;
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABB( accu0, sta0, flt);
+ accu1 = SMLABB( accu1, sta1, flt);
+
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABT( accu0, sta0, flt);
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ flt = *p_flt;
+ sta0 = *sta_0;
+ sta1 = *sta_1;
+ accu0 = SMLABB( accu0, sta0, flt);
+ accu1 = SMLABB( accu1, sta1, flt);
+
+ *pData_0-- = FX_DBL2FX_QMF(accu0<<1);
+ *pData_1++ = FX_DBL2FX_QMF(accu1<<1);
+ }
+ else
+ {
+ int pfltStep = QMF_NO_POLY * (p_stride-1);
+
+ flt = p_flt[0];
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu1 = SMULBB( sta1, flt);
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ flt = p_flt[1];
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu1 = SMLABB( accu1, sta1, flt);
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ flt = p_flt[2]; p_flt += pfltStep;
+ sta1 = *sta_1; sta_1 += staStep2;
+ accu1 = SMLABB( accu1, sta1, flt);
+ *pData_1++ = FX_DBL2FX_QMF(accu1<<1);
+
+ /* FIR filters 1..63 127..65 or 1..31 63..33 */
+ for (; --no_channels; )
+ {
+ flt = p_flt[0];
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMULBB( sta0, flt);
+ accu1 = SMULBB( sta1, flt);
+
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABT( accu0, sta0, flt);
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ flt = p_flt[1];
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABB( accu0, sta0, flt);
+ accu1 = SMLABB( accu1, sta1, flt);
+
+ sta0 = *sta_0; sta_0 += staStep1;
+ sta1 = *sta_1; sta_1 -= staStep1;
+ accu0 = SMLABT( accu0, sta0, flt);
+ accu1 = SMLABT( accu1, sta1, flt);
+
+ flt = p_flt[2]; p_flt += pfltStep;
+ sta0 = *sta_0; sta_0 -= staStep2;
+ sta1 = *sta_1; sta_1 += staStep2;
+ accu0 = SMLABB( accu0, sta0, flt);
+ accu1 = SMLABB( accu1, sta1, flt);
+
+ *pData_0-- = FX_DBL2FX_QMF(accu0<<1);
+ *pData_1++ = FX_DBL2FX_QMF(accu1<<1);
+ }
+
+ /* FIR filter 32/64 */
+ flt = p_flt[0];
+ sta0 = *sta_0; sta_0 += staStep1;
+ accu0 = SMULBB( sta0, flt);
+ sta0 = *sta_0; sta_0 += staStep1;
+ accu0 = SMLABT( accu0, sta0, flt);
+
+ flt = p_flt[1];
+ sta0 = *sta_0; sta_0 += staStep1;
+ accu0 = SMLABB( accu0, sta0, flt);
+ sta0 = *sta_0; sta_0 += staStep1;
+ accu0 = SMLABT( accu0, sta0, flt);
+
+ flt = p_flt[2];
+ sta0 = *sta_0;
+ accu0 = SMLABB( accu0, sta0, flt);
+ *pData_0-- = FX_DBL2FX_QMF(accu0<<1);
+ }
+}
+#endif /* FUNCTION_qmfAnaPrototypeFirSlot */
+#endif /* #if defined(__CC_ARM) && defined(__ARM_ARCH_6__) */
+
+#if ( defined(__ARM_ARCH_5TE__) && (SAMPLE_BITS == 16) ) && !defined(QMF_TABLE_FULL)
+
+#define FUNCTION_qmfSynPrototypeFirSlot
+
+#if defined(FUNCTION_qmfSynPrototypeFirSlot)
+
+#if defined(__GNUC__) /* cppp replaced: elif */
+
+inline INT SMULWB (const LONG a, const LONG b)
+{
+ INT result ;
+ __asm__ ("smulwb %0, %1, %2"
+ : "=r" (result)
+ : "r" (a), "r" (b)) ;
+
+ return result ;
+}
+inline INT SMULWT (const LONG a, const LONG b)
+{
+ INT result ;
+ __asm__ ("smulwt %0, %1, %2"
+ : "=r" (result)
+ : "r" (a), "r" (b)) ;
+
+ return result ;
+}
+
+inline INT SMLAWB(const LONG accu, const LONG a, const LONG b)
+{
+ INT result;
+ asm("smlawb %0, %1, %2, %3 "
+ : "=r" (result)
+ : "r" (a), "r" (b), "r" (accu) );
+ return result ;
+}
+
+inline INT SMLAWT(const LONG accu, const LONG a, const LONG b)
+{
+ INT result;
+ asm("smlawt %0, %1, %2, %3 "
+ : "=r" (result)
+ : "r" (a), "r" (b), "r" (accu) );
+ return result ;
+}
+
+#endif /* ARM compiler selector */
+
+
+static void qmfSynPrototypeFirSlot1_filter(FIXP_QMF *RESTRICT realSlot,
+ FIXP_QMF *RESTRICT imagSlot,
+ const FIXP_DBL *RESTRICT p_flt,
+ FIXP_QSS *RESTRICT sta,
+ FIXP_DBL *pMyTimeOut,
+ int no_channels)
+{
+ /* This code was the base for the above listed assembler sequence */
+ /* It can be used for debugging purpose or further optimizations */
+ const FIXP_DBL *RESTRICT p_fltm = p_flt + 155;
+
+ do
+ {
+ FIXP_DBL result;
+ FIXP_DBL A, B, real, imag, sta0;
+
+ real = *--realSlot;
+ imag = *--imagSlot;
+ B = p_flt[4]; /* Bottom=[8] Top=[9] */
+ A = p_fltm[3]; /* Bottom=[316] Top=[317] */
+ sta0 = sta[0]; /* save state[0] */
+ *sta++ = SMLAWT( sta[1], imag, B ); /* index=9...........319 */
+ *sta++ = SMLAWB( sta[1], real, A ); /* index=316...........6 */
+ *sta++ = SMLAWB( sta[1], imag, B ); /* index=8,18, ...318 */
+ B = p_flt[3]; /* Bottom=[6] Top=[7] */
+ *sta++ = SMLAWT( sta[1], real, A ); /* index=317...........7 */
+ A = p_fltm[4]; /* Bottom=[318] Top=[319] */
+ *sta++ = SMLAWT( sta[1], imag, B ); /* index=7...........317 */
+ *sta++ = SMLAWB( sta[1], real, A ); /* index=318...........8 */
+ *sta++ = SMLAWB( sta[1], imag, B ); /* index=6...........316 */
+ B = p_flt[2]; /* Bottom=[X] Top=[5] */
+ *sta++ = SMLAWT( sta[1], real, A ); /* index=9...........319 */
+ A = p_fltm[2]; /* Bottom=[X] Top=[315] */
+ *sta++ = SMULWT( imag, B ); /* index=5,15, ... 315 */
+ result = SMLAWT( sta0, real, A ); /* index=315...........5 */
+
+ *pMyTimeOut++ = result;
+
+ real = *--realSlot;
+ imag = *--imagSlot;
+ A = p_fltm[0]; /* Bottom=[310] Top=[311] */
+ B = p_flt[7]; /* Bottom=[14] Top=[15] */
+ result = SMLAWB( sta[0], real, A ); /* index=310...........0 */
+ *sta++ = SMLAWB( sta[1], imag, B ); /* index=14..........324 */
+ *pMyTimeOut++ = result;
+ B = p_flt[6]; /* Bottom=[12] Top=[13] */
+ *sta++ = SMLAWT( sta[1], real, A ); /* index=311...........1 */
+ A = p_fltm[1]; /* Bottom=[312] Top=[313] */
+ *sta++ = SMLAWT( sta[1], imag, B ); /* index=13..........323 */
+ *sta++ = SMLAWB( sta[1], real, A ); /* index=312...........2 */
+ *sta++ = SMLAWB( sta[1], imag, B ); /* index=12..........322 */
+ *sta++ = SMLAWT( sta[1], real, A ); /* index=313...........3 */
+ A = p_fltm[2]; /* Bottom=[314] Top=[315] */
+ B = p_flt[5]; /* Bottom=[10] Top=[11] */
+ *sta++ = SMLAWT( sta[1], imag, B ); /* index=11..........321 */
+ *sta++ = SMLAWB( sta[1], real, A ); /* index=314...........4 */
+ *sta++ = SMULWB( imag, B ); /* index=10..........320 */
+
+
+ p_flt += 5;
+ p_fltm -= 5;
+ }
+ while ((--no_channels) != 0);
+
+}
+
+
+
+INT qmfSynPrototypeFirSlot2(
+ HANDLE_QMF_FILTER_BANK qmf,
+ FIXP_QMF *RESTRICT realSlot, /*!< Input: Pointer to real Slot */
+ FIXP_QMF *RESTRICT imagSlot, /*!< Input: Pointer to imag Slot */
+ INT_PCM *RESTRICT timeOut, /*!< Time domain data */
+ INT stride /*!< Time output buffer stride factor*/
+ )
+{
+ FIXP_QSS *RESTRICT sta = (FIXP_QSS*)qmf->FilterStates;
+ int no_channels = qmf->no_channels;
+ int scale = ((DFRACT_BITS-SAMPLE_BITS)-1-qmf->outScalefactor);
+
+ /* We map an arry of 16-bit values upon an array of 2*16-bit values to read 2 values in one shot */
+ const FIXP_DBL *RESTRICT p_flt = (FIXP_DBL *) qmf->p_filter; /* low=[0], high=[1] */
+ const FIXP_DBL *RESTRICT p_fltm = (FIXP_DBL *) qmf->p_filter + 155; /* low=[310], high=[311] */
+
+ FDK_ASSERT(SAMPLE_BITS-1-qmf->outScalefactor >= 0); // (DFRACT_BITS-SAMPLE_BITS)-1-qmf->outScalefactor >= 0);
+ FDK_ASSERT(qmf->p_stride==2 && qmf->no_channels == 32);
+
+ FDK_ASSERT((no_channels&3) == 0); /* should be a multiple of 4 */
+
+ realSlot += no_channels-1; // ~~"~~
+ imagSlot += no_channels-1; // no_channels-1 .. 0
+
+ FIXP_DBL MyTimeOut[32];
+ FIXP_DBL *pMyTimeOut = &MyTimeOut[0];
+
+ for (no_channels = no_channels; no_channels--;)
+ {
+ FIXP_DBL result;
+ FIXP_DBL A, B, real, imag;
+
+ real = *realSlot--;
+ imag = *imagSlot--;
+ A = p_fltm[0]; /* Bottom=[310] Top=[311] */
+ B = p_flt[7]; /* Bottom=[14] Top=[15] */
+ result = SMLAWB( sta[0], real, A ); /* index=310...........0 */
+ *sta++ = SMLAWB( sta[1], imag, B ); /* index=14..........324 */
+ B = p_flt[6]; /* Bottom=[12] Top=[13] */
+ *sta++ = SMLAWT( sta[1], real, A ); /* index=311...........1 */
+ A = p_fltm[1]; /* Bottom=[312] Top=[313] */
+ *sta++ = SMLAWT( sta[1], imag, B ); /* index=13..........323 */
+ *sta++ = SMLAWB( sta[1], real, A ); /* index=312...........2 */
+ *sta++ = SMLAWB( sta[1], imag, B ); /* index=12..........322 */
+ *sta++ = SMLAWT( sta[1], real, A ); /* index=313...........3 */
+ A = p_fltm[2]; /* Bottom=[314] Top=[315] */
+ B = p_flt[5]; /* Bottom=[10] Top=[11] */
+ *sta++ = SMLAWT( sta[1], imag, B ); /* index=11..........321 */
+ *sta++ = SMLAWB( sta[1], real, A ); /* index=314...........4 */
+ *sta++ = SMULWB( imag, B ); /* index=10..........320 */
+
+ *pMyTimeOut++ = result;
+
+ p_fltm -= 5;
+ p_flt += 5;
+ }
+
+ pMyTimeOut = &MyTimeOut[0];
+#if (SAMPLE_BITS == 16)
+ const FIXP_DBL max_pos = (FIXP_DBL) 0x00007FFF << scale;
+ const FIXP_DBL max_neg = (FIXP_DBL) 0xFFFF8001 << scale;
+#else
+ scale = -scale;
+ const FIXP_DBL max_pos = (FIXP_DBL) 0x7FFFFFFF >> scale;
+ const FIXP_DBL max_neg = (FIXP_DBL) 0x80000001 >> scale;
+#endif
+ const FIXP_DBL add_neg = (1 << scale) - 1;
+
+ no_channels = qmf->no_channels;
+
+ timeOut += no_channels*stride;
+
+ FDK_ASSERT(scale >= 0);
+
+ if (qmf->outGain != 0x80000000)
+ {
+ FIXP_DBL gain = qmf->outGain;
+ for (no_channels>>=2; no_channels--;)
+ {
+ FIXP_DBL result1, result2;
+
+ result1 = *pMyTimeOut++;
+ result2 = *pMyTimeOut++;
+
+ result1 = fMult(result1,gain);
+ timeOut -= stride;
+ if (result1 < 0) result1 += add_neg;
+ if (result1 < max_neg) result1 = max_neg;
+ if (result1 > max_pos) result1 = max_pos;
+#if (SAMPLE_BITS == 16)
+ timeOut[0] = result1 >> scale;
+#else
+ timeOut[0] = result1 << scale;
+#endif
+
+ result2 = fMult(result2,gain);
+ timeOut -= stride;
+ if (result2 < 0) result2 += add_neg;
+ if (result2 < max_neg) result2 = max_neg;
+ if (result2 > max_pos) result2 = max_pos;
+#if (SAMPLE_BITS == 16)
+ timeOut[0] = result2 >> scale;
+#else
+ timeOut[0] = result2 << scale;
+#endif
+
+ result1 = *pMyTimeOut++;
+ result2 = *pMyTimeOut++;
+
+ result1 = fMult(result1,gain);
+ timeOut -= stride;
+ if (result1 < 0) result1 += add_neg;
+ if (result1 < max_neg) result1 = max_neg;
+ if (result1 > max_pos) result1 = max_pos;
+#if (SAMPLE_BITS == 16)
+ timeOut[0] = result1 >> scale;
+#else
+ timeOut[0] = result1 << scale;
+#endif
+
+ result2 = fMult(result2,gain);
+ timeOut -= stride;
+ if (result2 < 0) result2 += add_neg;
+ if (result2 < max_neg) result2 = max_neg;
+ if (result2 > max_pos) result2 = max_pos;
+#if (SAMPLE_BITS == 16)
+ timeOut[0] = result2 >> scale;
+#else
+ timeOut[0] = result2 << scale;
+#endif
+ }
+ }
+ else
+ {
+ for (no_channels>>=2; no_channels--;)
+ {
+ FIXP_DBL result1, result2;
+ result1 = *pMyTimeOut++;
+ result2 = *pMyTimeOut++;
+ timeOut -= stride;
+ if (result1 < 0) result1 += add_neg;
+ if (result1 < max_neg) result1 = max_neg;
+ if (result1 > max_pos) result1 = max_pos;
+#if (SAMPLE_BITS == 16)
+ timeOut[0] = result1 >> scale;
+#else
+ timeOut[0] = result1 << scale;
+#endif
+
+ timeOut -= stride;
+ if (result2 < 0) result2 += add_neg;
+ if (result2 < max_neg) result2 = max_neg;
+ if (result2 > max_pos) result2 = max_pos;
+#if (SAMPLE_BITS == 16)
+ timeOut[0] = result2 >> scale;
+#else
+ timeOut[0] = result2 << scale;
+#endif
+
+ result1 = *pMyTimeOut++;
+ result2 = *pMyTimeOut++;
+ timeOut -= stride;
+ if (result1 < 0) result1 += add_neg;
+ if (result1 < max_neg) result1 = max_neg;
+ if (result1 > max_pos) result1 = max_pos;
+#if (SAMPLE_BITS == 16)
+ timeOut[0] = result1 >> scale;
+#else
+ timeOut[0] = result1 << scale;
+#endif
+
+ timeOut -= stride;
+ if (result2 < 0) result2 += add_neg;
+ if (result2 < max_neg) result2 = max_neg;
+ if (result2 > max_pos) result2 = max_pos;
+#if (SAMPLE_BITS == 16)
+ timeOut[0] = result2 >> scale;
+#else
+ timeOut[0] = result2 << scale;
+#endif
+ }
+ }
+ return 0;
+}
+
+static
+void qmfSynPrototypeFirSlot_fallback( HANDLE_QMF_FILTER_BANK qmf,
+ FIXP_DBL *realSlot, /*!< Input: Pointer to real Slot */
+ FIXP_DBL *imagSlot, /*!< Input: Pointer to imag Slot */
+ INT_PCM *timeOut, /*!< Time domain data */
+ const int stride
+ );
+
+/*!
+ \brief Perform Synthesis Prototype Filtering on a single slot of input data.
+
+ The filter takes 2 * #MAX_SYNTHESIS_CHANNELS of input data and
+ generates #MAX_SYNTHESIS_CHANNELS time domain output samples.
+*/
+
+static
+void qmfSynPrototypeFirSlot( HANDLE_QMF_FILTER_BANK qmf,
+ FIXP_DBL *realSlot, /*!< Input: Pointer to real Slot */
+ FIXP_DBL *imagSlot, /*!< Input: Pointer to imag Slot */
+ INT_PCM *timeOut, /*!< Time domain data */
+ const int stride
+ )
+{
+ INT err = -1;
+
+ switch (qmf->p_stride) {
+ case 2:
+ err = qmfSynPrototypeFirSlot2(qmf, realSlot, imagSlot, timeOut, stride);
+ break;
+ default:
+ err = -1;
+ }
+
+ /* fallback if configuration not available or failed */
+ if(err!=0) {
+ qmfSynPrototypeFirSlot_fallback(qmf, realSlot, imagSlot, timeOut, stride);
+ }
+}
+#endif /* FUNCTION_qmfSynPrototypeFirSlot */
+
+#endif /* ( defined(__CC_ARM) && defined(__ARM_ARCH_5TE__) && (SAMPLE_BITS == 16) ) && !defined(QMF_TABLE_FULL) */
+
+
+
+/* #####################################################################################*/
+
+
+
+#endif /* (QMF_NO_POLY==5) */
+