mirror of https://git.ffmpeg.org/ffmpeg.git
269 lines
8.9 KiB
C
269 lines
8.9 KiB
C
/*
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* audio resampling
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* Copyright (c) 2004-2012 Michael Niedermayer <michaelni@gmx.at>
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*
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* This file is part of FFmpeg.
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*
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* FFmpeg is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* FFmpeg is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with FFmpeg; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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/**
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* @file
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* audio resampling
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* @author Michael Niedermayer <michaelni@gmx.at>
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*/
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#if defined(TEMPLATE_RESAMPLE_DBL) \
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|| defined(TEMPLATE_RESAMPLE_DBL_SSE2)
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# define FILTER_SHIFT 0
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# define DELEM double
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# define FELEM double
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# define FELEM2 double
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# define FELEML double
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# define OUT(d, v) d = v
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# if defined(TEMPLATE_RESAMPLE_DBL)
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# define RENAME(N) N ## _double
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# elif defined(TEMPLATE_RESAMPLE_DBL_SSE2)
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# define COMMON_CORE COMMON_CORE_DBL_SSE2
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# define LINEAR_CORE LINEAR_CORE_DBL_SSE2
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# define RENAME(N) N ## _double_sse2
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# endif
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#elif defined(TEMPLATE_RESAMPLE_FLT) \
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|| defined(TEMPLATE_RESAMPLE_FLT_SSE) \
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|| defined(TEMPLATE_RESAMPLE_FLT_AVX)
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# define FILTER_SHIFT 0
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# define DELEM float
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# define FELEM float
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# define FELEM2 float
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# define FELEML float
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# define OUT(d, v) d = v
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# if defined(TEMPLATE_RESAMPLE_FLT)
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# define RENAME(N) N ## _float
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# elif defined(TEMPLATE_RESAMPLE_FLT_SSE)
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# define COMMON_CORE COMMON_CORE_FLT_SSE
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# define LINEAR_CORE LINEAR_CORE_FLT_SSE
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# define RENAME(N) N ## _float_sse
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# elif defined(TEMPLATE_RESAMPLE_FLT_AVX)
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# define COMMON_CORE COMMON_CORE_FLT_AVX
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# define LINEAR_CORE LINEAR_CORE_FLT_AVX
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# define RENAME(N) N ## _float_avx
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# endif
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#elif defined(TEMPLATE_RESAMPLE_S32)
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# define RENAME(N) N ## _int32
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# define FILTER_SHIFT 30
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# define DELEM int32_t
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# define FELEM int32_t
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# define FELEM2 int64_t
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# define FELEML int64_t
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# define FELEM_MAX INT32_MAX
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# define FELEM_MIN INT32_MIN
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# define OUT(d, v) v = (v + (1<<(FILTER_SHIFT-1)))>>FILTER_SHIFT;\
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d = (uint64_t)(v + 0x80000000) > 0xFFFFFFFF ? (v>>63) ^ 0x7FFFFFFF : v
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#elif defined(TEMPLATE_RESAMPLE_S16) \
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|| defined(TEMPLATE_RESAMPLE_S16_MMX2) \
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|| defined(TEMPLATE_RESAMPLE_S16_SSE2)
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# define FILTER_SHIFT 15
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# define DELEM int16_t
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# define FELEM int16_t
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# define FELEM2 int32_t
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# define FELEML int64_t
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# define FELEM_MAX INT16_MAX
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# define FELEM_MIN INT16_MIN
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# define OUT(d, v) v = (v + (1<<(FILTER_SHIFT-1)))>>FILTER_SHIFT;\
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d = (unsigned)(v + 32768) > 65535 ? (v>>31) ^ 32767 : v
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# if defined(TEMPLATE_RESAMPLE_S16)
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# define RENAME(N) N ## _int16
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# elif defined(TEMPLATE_RESAMPLE_S16_MMX2)
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# define COMMON_CORE COMMON_CORE_INT16_MMX2
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# define LINEAR_CORE LINEAR_CORE_INT16_MMX2
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# define RENAME(N) N ## _int16_mmx2
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# elif defined(TEMPLATE_RESAMPLE_S16_SSE2)
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# define COMMON_CORE COMMON_CORE_INT16_SSE2
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# define LINEAR_CORE LINEAR_CORE_INT16_SSE2
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# define RENAME(N) N ## _int16_sse2
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# endif
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#endif
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int RENAME(swri_resample)(ResampleContext *c, DELEM *dst, const DELEM *src, int *consumed, int src_size, int dst_size, int update_ctx){
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int dst_index, i;
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int index= c->index;
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int frac= c->frac;
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int dst_incr_frac= c->dst_incr % c->src_incr;
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int dst_incr= c->dst_incr / c->src_incr;
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av_assert1(c->filter_shift == FILTER_SHIFT);
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av_assert1(c->felem_size == sizeof(FELEM));
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if (c->filter_length == 1 && c->phase_shift == 0) {
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int64_t index2= (1LL<<32)*c->frac/c->src_incr + (1LL<<32)*index;
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int64_t incr= (1LL<<32) * c->dst_incr / c->src_incr;
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int new_size = (src_size * (int64_t)c->src_incr - frac + c->dst_incr - 1) / c->dst_incr;
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dst_size= FFMIN(dst_size, new_size);
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for(dst_index=0; dst_index < dst_size; dst_index++){
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dst[dst_index] = src[index2>>32];
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index2 += incr;
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}
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index += dst_index * dst_incr;
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index += (frac + dst_index * (int64_t)dst_incr_frac) / c->src_incr;
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frac = (frac + dst_index * (int64_t)dst_incr_frac) % c->src_incr;
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av_assert2(index >= 0);
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*consumed= index;
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index = 0;
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} else if (index >= 0 &&
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src_size*(int64_t)c->src_incr < (INT64_MAX >> (c->phase_shift+1))) {
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int64_t end_index = (1LL + src_size - c->filter_length) << c->phase_shift;
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int64_t delta_frac = (end_index - index) * c->src_incr - c->frac;
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int delta_n = (delta_frac + c->dst_incr - 1) / c->dst_incr;
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int n = FFMIN(dst_size, delta_n);
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int sample_index;
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if (!c->linear) {
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sample_index = index >> c->phase_shift;
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index &= c->phase_mask;
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for (dst_index = 0; dst_index < n; dst_index++) {
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FELEM *filter = ((FELEM *) c->filter_bank) + c->filter_alloc * index;
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#ifdef COMMON_CORE
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COMMON_CORE
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#else
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FELEM2 val=0;
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for (i = 0; i < c->filter_length; i++) {
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val += src[sample_index + i] * (FELEM2)filter[i];
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}
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OUT(dst[dst_index], val);
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#endif
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frac += dst_incr_frac;
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index += dst_incr;
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if (frac >= c->src_incr) {
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frac -= c->src_incr;
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index++;
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}
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sample_index += index >> c->phase_shift;
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index &= c->phase_mask;
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}
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} else {
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sample_index = index >> c->phase_shift;
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index &= c->phase_mask;
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for (dst_index = 0; dst_index < n; dst_index++) {
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FELEM *filter = ((FELEM *) c->filter_bank) + c->filter_alloc * index;
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FELEM2 val=0, v2 = 0;
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#ifdef LINEAR_CORE
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LINEAR_CORE
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#else
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for (i = 0; i < c->filter_length; i++) {
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val += src[sample_index + i] * (FELEM2)filter[i];
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v2 += src[sample_index + i] * (FELEM2)filter[i + c->filter_alloc];
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}
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#endif
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val += (v2 - val) * (FELEML) frac / c->src_incr;
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OUT(dst[dst_index], val);
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frac += dst_incr_frac;
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index += dst_incr;
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if (frac >= c->src_incr) {
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frac -= c->src_incr;
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index++;
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}
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sample_index += index >> c->phase_shift;
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index &= c->phase_mask;
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}
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}
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*consumed = sample_index;
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} else {
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int sample_index = 0;
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for(dst_index=0; dst_index < dst_size; dst_index++){
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FELEM *filter;
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FELEM2 val=0;
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sample_index += index >> c->phase_shift;
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index &= c->phase_mask;
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filter = ((FELEM*)c->filter_bank) + c->filter_alloc*index;
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if(sample_index + c->filter_length > src_size || -sample_index >= src_size){
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break;
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}else if(sample_index < 0){
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for(i=0; i<c->filter_length; i++)
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val += src[FFABS(sample_index + i)] * (FELEM2)filter[i];
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OUT(dst[dst_index], val);
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}else if(c->linear){
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FELEM2 v2=0;
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#ifdef LINEAR_CORE
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LINEAR_CORE
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#else
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for(i=0; i<c->filter_length; i++){
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val += src[sample_index + i] * (FELEM2)filter[i];
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v2 += src[sample_index + i] * (FELEM2)filter[i + c->filter_alloc];
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}
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#endif
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val+=(v2-val)*(FELEML)frac / c->src_incr;
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OUT(dst[dst_index], val);
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}else{
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#ifdef COMMON_CORE
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COMMON_CORE
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#else
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for(i=0; i<c->filter_length; i++){
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val += src[sample_index + i] * (FELEM2)filter[i];
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}
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OUT(dst[dst_index], val);
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#endif
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}
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frac += dst_incr_frac;
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index += dst_incr;
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if(frac >= c->src_incr){
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frac -= c->src_incr;
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index++;
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}
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}
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*consumed= FFMAX(sample_index, 0);
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index += FFMIN(sample_index, 0) << c->phase_shift;
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}
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if(update_ctx){
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c->frac= frac;
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c->index= index;
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c->dst_incr= dst_incr_frac + c->src_incr*dst_incr;
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}
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return dst_index;
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}
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#undef COMMON_CORE
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#undef LINEAR_CORE
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#undef RENAME
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#undef FILTER_SHIFT
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#undef DELEM
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#undef FELEM
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#undef FELEM2
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#undef FELEML
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#undef FELEM_MAX
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#undef FELEM_MIN
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#undef OUT
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