mirror of
https://github.com/FFmpeg/FFmpeg.git
synced 2024-11-26 19:01:44 +02:00
447 lines
14 KiB
C
447 lines
14 KiB
C
/*
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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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#undef ftype
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#undef FABS
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#undef FMAX
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#undef SAMPLE_FORMAT
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#undef SQRT
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#undef ZERO
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#undef ONE
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#undef TMIN
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#if DEPTH == 32
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#define SAMPLE_FORMAT flt
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#define SQRT sqrtf
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#define FMAX fmaxf
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#define FABS fabsf
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#define ftype float
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#define ZERO 0.f
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#define ONE 1.f
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#define TMIN -FLT_MAX
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#else
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#define SAMPLE_FORMAT dbl
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#define SQRT sqrt
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#define FMAX fmax
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#define FABS fabs
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#define ftype double
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#define ZERO 0.0
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#define ONE 1.0
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#define TMIN -DBL_MAX
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#endif
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#define fn3(a,b) a##_##b
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#define fn2(a,b) fn3(a,b)
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#define fn(a) fn2(a, SAMPLE_FORMAT)
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static void fn(flush)(ftype *dst, const ftype *src, int src_pos,
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int nb_channels, int count, int src_nb_samples,
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int *out_nb_samples)
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{
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int oidx, out_count = count;
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int sidx = src_pos;
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if (count <= 0)
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return;
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oidx = *out_nb_samples + out_count - 1;
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*out_nb_samples += out_count;
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while (out_count-- > 0) {
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const int spos = sidx * nb_channels;
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const int opos = oidx * nb_channels;
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for (int ch = 0; ch < nb_channels; ch++)
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dst[opos + ch] = src[spos + ch];
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oidx--;
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sidx--;
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if (sidx < 0)
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sidx = src_nb_samples - 1;
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}
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}
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static void fn(queue_sample)(AVFilterContext *ctx,
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const ftype *src,
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ftype *queue,
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int *queue_pos,
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int *queue_size,
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int *window_pos,
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int *window_size,
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const int nb_channels,
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const int nb_samples,
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const int window_nb_samples)
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{
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const int pos = *queue_pos * nb_channels;
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for (int ch = 0; ch < nb_channels; ch++)
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queue[pos + ch] = src[ch];
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(*queue_pos)++;
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if (*queue_pos >= nb_samples)
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*queue_pos = 0;
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if (*queue_size < nb_samples)
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(*queue_size)++;
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if (*window_size < window_nb_samples)
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(*window_size)++;
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(*window_pos)++;
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if (*window_pos >= window_nb_samples)
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*window_pos = 0;
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}
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static ftype fn(compute_avg)(ftype *cache, ftype x, ftype px,
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int window_size, int *unused, int *unused2)
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{
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ftype r;
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cache[0] += FABS(x);
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cache[0] -= FABS(px);
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cache[0] = r = FMAX(cache[0], ZERO);
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return r / window_size;
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}
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#define PEAKS(empty_value,op,sample, psample)\
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if (!empty && psample == ss[front]) { \
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ss[front] = empty_value; \
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if (back != front) { \
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front--; \
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if (front < 0) \
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front = n - 1; \
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} \
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empty = front == back; \
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} \
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\
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if (!empty && sample op ss[front]) { \
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while (1) { \
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ss[front] = empty_value; \
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if (back == front) { \
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empty = 1; \
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break; \
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} \
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front--; \
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if (front < 0) \
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front = n - 1; \
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} \
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} \
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\
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while (!empty && sample op ss[back]) { \
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ss[back] = empty_value; \
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if (back == front) { \
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empty = 1; \
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break; \
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} \
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back++; \
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if (back >= n) \
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back = 0; \
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} \
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\
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if (!empty) { \
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back--; \
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if (back < 0) \
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back = n - 1; \
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}
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static ftype fn(compute_median)(ftype *ss, ftype x, ftype px,
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int n, int *ffront, int *bback)
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{
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ftype r, ax = FABS(x);
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int front = *ffront;
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int back = *bback;
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int empty = front == back && ss[front] == -ONE;
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int idx;
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PEAKS(-ONE, >, ax, FABS(px))
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ss[back] = ax;
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idx = (back <= front) ? back + (front - back + 1) / 2 : back + (n + front - back + 1) / 2;
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if (idx >= n)
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idx -= n;
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av_assert2(idx >= 0 && idx < n);
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r = ss[idx];
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*ffront = front;
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*bback = back;
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return r;
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}
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static ftype fn(compute_peak)(ftype *ss, ftype x, ftype px,
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int n, int *ffront, int *bback)
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{
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ftype r, ax = FABS(x);
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int front = *ffront;
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int back = *bback;
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int empty = front == back && ss[front] == ZERO;
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PEAKS(ZERO, >=, ax, FABS(px))
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ss[back] = ax;
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r = ss[front];
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*ffront = front;
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*bback = back;
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return r;
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}
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static ftype fn(compute_ptp)(ftype *ss, ftype x, ftype px,
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int n, int *ffront, int *bback)
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{
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int front = *ffront;
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int back = *bback;
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int empty = front == back && ss[front] == TMIN;
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ftype r, max, min;
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PEAKS(TMIN, >=, x, px)
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ss[back] = x;
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max = ss[front];
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min = x;
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r = FABS(min) + FABS(max - min);
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*ffront = front;
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*bback = back;
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return r;
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}
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static ftype fn(compute_rms)(ftype *cache, ftype x, ftype px,
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int window_size, int *unused, int *unused2)
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{
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ftype r;
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cache[0] += x * x;
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cache[0] -= px * px;
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cache[0] = r = FMAX(cache[0], ZERO);
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return SQRT(r / window_size);
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}
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static ftype fn(compute_dev)(ftype *ss, ftype x, ftype px,
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int n, int *unused, int *unused2)
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{
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ftype r;
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ss[0] += x;
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ss[0] -= px;
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ss[1] += x * x;
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ss[1] -= px * px;
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ss[1] = FMAX(ss[1], ZERO);
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r = FMAX(ss[1] - ss[0] * ss[0] / n, ZERO) / n;
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return SQRT(r);
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}
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static void fn(filter_start)(AVFilterContext *ctx,
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const ftype *src, ftype *dst,
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int *nb_out_samples,
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const int nb_channels)
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{
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SilenceRemoveContext *s = ctx->priv;
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const int start_periods = s->start_periods;
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int out_nb_samples = *nb_out_samples;
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const int start_window_nb_samples = s->start_window->nb_samples;
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const int start_nb_samples = s->start_queuef->nb_samples;
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const int start_wpos = s->start_window_pos * nb_channels;
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const int start_pos = s->start_queue_pos * nb_channels;
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ftype *startw = (ftype *)s->start_window->data[0];
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ftype *start = (ftype *)s->start_queuef->data[0];
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const ftype start_threshold = s->start_threshold;
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const int start_mode = s->start_mode;
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int start_thres = (start_mode == T_ANY) ? 0 : 1;
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const int start_duration = s->start_duration;
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ftype *start_cache = (ftype *)s->start_cache;
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const int start_silence = s->start_silence;
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int window_size = start_window_nb_samples;
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const int cache_size = s->cache_size;
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int *front = s->start_front;
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int *back = s->start_back;
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fn(queue_sample)(ctx, src, start,
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&s->start_queue_pos,
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&s->start_queue_size,
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&s->start_window_pos,
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&s->start_window_size,
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nb_channels,
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start_nb_samples,
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start_window_nb_samples);
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if (s->start_found_periods < 0)
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goto skip;
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if (s->detection != D_PEAK && s->detection != D_MEDIAN &&
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s->detection != D_PTP)
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window_size = s->start_window_size;
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for (int ch = 0; ch < nb_channels; ch++) {
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ftype start_sample = start[start_pos + ch];
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ftype start_ow = startw[start_wpos + ch];
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ftype tstart;
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tstart = fn(s->compute)(start_cache + ch * cache_size,
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start_sample,
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start_ow,
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window_size,
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front + ch,
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back + ch);
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startw[start_wpos + ch] = start_sample;
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if (start_mode == T_ANY) {
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start_thres |= tstart > start_threshold;
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} else {
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start_thres &= tstart > start_threshold;
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}
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}
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if (s->start_found_periods >= 0) {
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if (start_silence > 0) {
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s->start_silence_count++;
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if (s->start_silence_count > start_silence)
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s->start_silence_count = start_silence;
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}
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s->start_sample_count += start_thres;
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}
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if (s->start_sample_count > start_duration) {
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s->start_found_periods++;
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if (s->start_found_periods >= start_periods) {
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if (!ctx->is_disabled)
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fn(flush)(dst, start, s->start_queue_pos, nb_channels,
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s->start_silence_count, start_nb_samples,
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&out_nb_samples);
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s->start_silence_count = 0;
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s->start_found_periods = -1;
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}
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s->start_sample_count = 0;
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}
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skip:
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if (s->start_found_periods < 0 || ctx->is_disabled) {
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const int dst_pos = out_nb_samples * nb_channels;
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for (int ch = 0; ch < nb_channels; ch++)
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dst[dst_pos + ch] = start[start_pos + ch];
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out_nb_samples++;
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}
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*nb_out_samples = out_nb_samples;
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}
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static void fn(filter_stop)(AVFilterContext *ctx,
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const ftype *src, ftype *dst,
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int *nb_out_samples,
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const int nb_channels)
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{
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SilenceRemoveContext *s = ctx->priv;
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const int stop_periods = s->stop_periods;
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int out_nb_samples = *nb_out_samples;
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const int stop_window_nb_samples = s->stop_window->nb_samples;
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const int stop_nb_samples = s->stop_queuef->nb_samples;
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const int stop_wpos = s->stop_window_pos * nb_channels;
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const int stop_pos = s->stop_queue_pos * nb_channels;
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ftype *stopw = (ftype *)s->stop_window->data[0];
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const ftype stop_threshold = s->stop_threshold;
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ftype *stop = (ftype *)s->stop_queuef->data[0];
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const int stop_mode = s->stop_mode;
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int stop_thres = (stop_mode == T_ANY) ? 0 : 1;
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const int stop_duration = s->stop_duration;
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ftype *stop_cache = (ftype *)s->stop_cache;
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const int stop_silence = s->stop_silence;
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int window_size = stop_window_nb_samples;
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const int cache_size = s->cache_size;
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const int restart = s->restart;
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int *front = s->stop_front;
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int *back = s->stop_back;
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fn(queue_sample)(ctx, src, stop,
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&s->stop_queue_pos,
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&s->stop_queue_size,
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&s->stop_window_pos,
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&s->stop_window_size,
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nb_channels,
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stop_nb_samples,
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stop_window_nb_samples);
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if (s->detection != D_PEAK && s->detection != D_MEDIAN &&
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s->detection != D_PTP)
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window_size = s->stop_window_size;
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for (int ch = 0; ch < nb_channels; ch++) {
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ftype stop_sample = stop[stop_pos + ch];
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ftype stop_ow = stopw[stop_wpos + ch];
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ftype tstop;
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tstop = fn(s->compute)(stop_cache + ch * cache_size,
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stop_sample,
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stop_ow,
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window_size,
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front + ch,
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back + ch);
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stopw[stop_wpos + ch] = stop_sample;
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if (stop_mode == T_ANY) {
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stop_thres |= tstop <= stop_threshold;
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} else {
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stop_thres &= tstop <= stop_threshold;
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}
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}
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s->found_nonsilence = FFMAX(s->found_nonsilence, !stop_thres);
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if (restart && !stop_thres)
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s->stop_found_periods = 0;
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if (s->stop_found_periods >= 0 || ctx->is_disabled) {
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if (s->found_nonsilence) {
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s->stop_sample_count += stop_thres;
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s->stop_sample_count *= stop_thres;
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}
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} else if (s->stop_silence_count > 0) {
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const int dst_pos = out_nb_samples * nb_channels;
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for (int ch = 0; ch < nb_channels; ch++)
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dst[dst_pos + ch] = stop[stop_pos + ch];
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s->stop_silence_count--;
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out_nb_samples++;
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}
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if (s->stop_sample_count > stop_duration) {
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s->stop_found_periods++;
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if (s->stop_found_periods >= stop_periods) {
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s->stop_found_periods = -1;
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s->stop_silence_count = stop_silence;
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}
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s->stop_sample_count = 0;
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}
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if (s->stop_found_periods >= 0 || ctx->is_disabled) {
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const int dst_pos = out_nb_samples * nb_channels;
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for (int ch = 0; ch < nb_channels; ch++)
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dst[dst_pos + ch] = stop[stop_pos + ch];
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out_nb_samples++;
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}
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*nb_out_samples = out_nb_samples;
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}
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