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FFmpeg/libavdevice/timefilter.c

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  1. /*

  2.  * Delay Locked Loop based time filter

  3.  * Copyright (c) 2009 Samalyse

  4.  * Copyright (c) 2009 Michael Niedermayer

  5.  * Author: Olivier Guilyardi <olivier samalyse com>

  6.  *         Michael Niedermayer <michaelni gmx at>

  7.  *

  8.  * This file is part of Libav.

  9.  *

  10.  * Libav is free software; you can redistribute it and/or

  11.  * modify it under the terms of the GNU Lesser General Public

  12.  * License as published by the Free Software Foundation; either

  13.  * version 2.1 of the License, or (at your option) any later version.

  14.  *

  15.  * Libav is distributed in the hope that it will be useful,

  16.  * but WITHOUT ANY WARRANTY; without even the implied warranty of

  17.  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

  18.  * Lesser General Public License for more details.

  19.  *

  20.  * You should have received a copy of the GNU Lesser General Public

  21.  * License along with Libav; if not, write to the Free Software

  22.  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA

  23.  */

  24. 

  25. #include "libavutil/mem.h"

  26. #include "config.h"

  27. #include "timefilter.h"

  28. 

  29. struct TimeFilter {

  30.     /// Delay Locked Loop data. These variables refer to mathematical

  31.     /// concepts described in: http://www.kokkinizita.net/papers/usingdll.pdf

  32.     double cycle_time;

  33.     double feedback2_factor;

  34.     double feedback3_factor;

  35.     double clock_period;

  36.     int count;

  37. };

  38. 

  39. TimeFilter *ff_timefilter_new(double clock_period,

  40.                               double feedback2_factor,

  41.                               double feedback3_factor)

  42. {

  43.     TimeFilter *self       = av_mallocz(sizeof(TimeFilter));

  44.     self->clock_period     = clock_period;

  45.     self->feedback2_factor = feedback2_factor;

  46.     self->feedback3_factor = feedback3_factor;

  47.     return self;

  48. }

  49. 

  50. void ff_timefilter_destroy(TimeFilter *self)

  51. {

  52.     av_freep(&self);

  53. }

  54. 

  55. void ff_timefilter_reset(TimeFilter *self)

  56. {

  57.     self->count = 0;

  58. }

  59. 

  60. double ff_timefilter_update(TimeFilter *self, double system_time, double period)

  61. {

  62.     self->count++;

  63.     if (self->count == 1) {

  64.         /// init loop

  65.         self->cycle_time = system_time;

  66.     } else {

  67.         double loop_error;

  68.         self->cycle_time += self->clock_period * period;

  69.         /// calculate loop error

  70.         loop_error = system_time - self->cycle_time;

  71. 

  72.         /// update loop

  73.         self->cycle_time   += FFMAX(self->feedback2_factor, 1.0 / self->count) * loop_error;

  74.         self->clock_period += self->feedback3_factor * loop_error / period;

  75.     }

  76.     return self->cycle_time;

  77. }

  78. 

  79. #ifdef TEST

  80. #include "libavutil/lfg.h"

  81. #define LFG_MAX ((1LL << 32) - 1)

  82. 

  83. #undef printf

  84. 

  85. int main(void)

  86. {

  87.     AVLFG prng;

  88.     double n0, n1;

  89. #define SAMPLES 1000

  90.     double ideal[SAMPLES];

  91.     double samples[SAMPLES];

  92. #if 1

  93.     for (n0 = 0; n0 < 40; n0 = 2 * n0 + 1) {

  94.         for (n1 = 0; n1 < 10; n1 = 2 * n1 + 1) {

  95. #else

  96.     {

  97.         {

  98.             n0 = 7;

  99.             n1 = 1;

  100. #endif

  101.             double best_error = 1000000000;

  102.             double bestpar0   = 1;

  103.             double bestpar1   = 0.001;

  104.             int better, i;

  105. 

  106.             av_lfg_init(&prng, 123);

  107.             for (i = 0; i < SAMPLES; i++) {

  108.                 ideal[i]   = 10 + i + n1 * i / (1000);

  109.                 samples[i] = ideal[i] + n0 * (av_lfg_get(&prng) - LFG_MAX / 2) / (LFG_MAX * 10LL);

  110.             }

  111. 

  112.             do {

  113.                 double par0, par1;

  114.                 better = 0;

  115.                 for (par0 = bestpar0 * 0.8; par0 <= bestpar0 * 1.21; par0 += bestpar0 * 0.05) {

  116.                     for (par1 = bestpar1 * 0.8; par1 <= bestpar1 * 1.21; par1 += bestpar1 * 0.05) {

  117.                         double error   = 0;

  118.                         TimeFilter *tf = ff_timefilter_new(1, par0, par1);

  119.                         for (i = 0; i < SAMPLES; i++) {

  120.                             double filtered;

  121.                             filtered = ff_timefilter_update(tf, samples[i], 1);

  122.                             error   += (filtered - ideal[i]) * (filtered - ideal[i]);

  123.                         }

  124.                         ff_timefilter_destroy(tf);

  125.                         if (error < best_error) {

  126.                             best_error = error;

  127.                             bestpar0   = par0;

  128.                             bestpar1   = par1;

  129.                             better     = 1;

  130.                         }

  131.                     }

  132.                 }

  133.             } while (better);

  134. #if 0

  135.             double lastfil = 9;

  136.             TimeFilter *tf = ff_timefilter_new(1, bestpar0, bestpar1);

  137.             for (i = 0; i < SAMPLES; i++) {

  138.                 double filtered;

  139.                 filtered = ff_timefilter_update(tf, samples[i], 1);

  140.                 printf("%f %f %f %f\n", i - samples[i] + 10, filtered - samples[i],

  141.                        samples[FFMAX(i, 1)] - samples[FFMAX(i - 1, 0)], filtered - lastfil);

  142.                 lastfil = filtered;

  143.             }

  144.             ff_timefilter_destroy(tf);

  145. #else

  146.             printf(" [%f %f %9f]", bestpar0, bestpar1, best_error);

  147. #endif

  148.         }

  149.         printf("\n");

  150.     }

  151.     return 0;

  152. }

  153. #endif