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FFmpeg/libavfilter/avf_ahistogram.c

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  1. /*

  2.  * Copyright (c) 2015 Paul B Mahol

  3.  *

  4.  * This file is part of FFmpeg.

  5.  *

  6.  * FFmpeg is free software; you can redistribute it and/or

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

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

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

  10.  *

  11.  * FFmpeg is distributed in the hope that it will be useful,

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

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

  14.  * Lesser General Public License for more details.

  15.  *

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

  17.  * License along with FFmpeg; if not, write to the Free Software

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

  19.  */

  20. 

  21. #include "libavutil/avassert.h"

  22. #include "libavutil/opt.h"

  23. #include "libavutil/parseutils.h"

  24. #include "avfilter.h"

  25. #include "formats.h"

  26. #include "audio.h"

  27. #include "video.h"

  28. #include "internal.h"

  29. 

  30. enum DisplayScale   { LINEAR, SQRT, CBRT, LOG, RLOG, NB_SCALES };

  31. enum AmplitudeScale { ALINEAR, ALOG, NB_ASCALES };

  32. enum SlideMode      { REPLACE, SCROLL, NB_SLIDES };

  33. enum DisplayMode    { SINGLE, SEPARATE, NB_DMODES };

  34. enum HistogramMode  { ACCUMULATE, CURRENT, NB_HMODES };

  35. 

  36. typedef struct AudioHistogramContext {

  37.     const AVClass *class;

  38.     AVFrame *out;

  39.     int w, h;

  40.     AVRational frame_rate;

  41.     uint64_t *achistogram;

  42.     uint64_t *shistogram;

  43.     int ascale;

  44.     int scale;

  45.     float phisto;

  46.     int histogram_h;

  47.     int apos;

  48.     int ypos;

  49.     int slide;

  50.     int dmode;

  51.     int dchannels;

  52.     int count;

  53.     int frame_count;

  54.     float *combine_buffer;

  55.     AVFrame *in[101];

  56.     int first;

  57. } AudioHistogramContext;

  58. 

  59. #define OFFSET(x) offsetof(AudioHistogramContext, x)

  60. #define FLAGS AV_OPT_FLAG_FILTERING_PARAM|AV_OPT_FLAG_VIDEO_PARAM

  61. 

  62. static const AVOption ahistogram_options[] = {

  63.     { "dmode", "set method to display channels", OFFSET(dmode), AV_OPT_TYPE_INT, {.i64=SINGLE}, 0, NB_DMODES-1, FLAGS, "dmode" },

  64.         { "single", "all channels use single histogram", 0, AV_OPT_TYPE_CONST, {.i64=SINGLE},   0, 0, FLAGS, "dmode" },

  65.         { "separate", "each channel have own histogram", 0, AV_OPT_TYPE_CONST, {.i64=SEPARATE}, 0, 0, FLAGS, "dmode" },

  66.     { "rate", "set video rate", OFFSET(frame_rate), AV_OPT_TYPE_VIDEO_RATE, {.str="25"}, 0, 0, FLAGS },

  67.     { "r",    "set video rate", OFFSET(frame_rate), AV_OPT_TYPE_VIDEO_RATE, {.str="25"}, 0, 0, FLAGS },

  68.     { "size", "set video size", OFFSET(w), AV_OPT_TYPE_IMAGE_SIZE, {.str="hd720"}, 0, 0, FLAGS },

  69.     { "s",    "set video size", OFFSET(w), AV_OPT_TYPE_IMAGE_SIZE, {.str="hd720"}, 0, 0, FLAGS },

  70.     { "scale", "set display scale", OFFSET(scale), AV_OPT_TYPE_INT, {.i64=LOG}, LINEAR, NB_SCALES-1, FLAGS, "scale" },

  71.         { "log",  "logarithmic",         0, AV_OPT_TYPE_CONST, {.i64=LOG},    0, 0, FLAGS, "scale" },

  72.         { "sqrt", "square root",         0, AV_OPT_TYPE_CONST, {.i64=SQRT},   0, 0, FLAGS, "scale" },

  73.         { "cbrt", "cubic root",          0, AV_OPT_TYPE_CONST, {.i64=CBRT},   0, 0, FLAGS, "scale" },

  74.         { "lin",  "linear",              0, AV_OPT_TYPE_CONST, {.i64=LINEAR}, 0, 0, FLAGS, "scale" },

  75.         { "rlog", "reverse logarithmic", 0, AV_OPT_TYPE_CONST, {.i64=RLOG},   0, 0, FLAGS, "scale" },

  76.     { "ascale", "set amplitude scale", OFFSET(ascale), AV_OPT_TYPE_INT, {.i64=ALOG}, LINEAR, NB_ASCALES-1, FLAGS, "ascale" },

  77.         { "log",  "logarithmic", 0, AV_OPT_TYPE_CONST, {.i64=ALOG},    0, 0, FLAGS, "ascale" },

  78.         { "lin",  "linear",      0, AV_OPT_TYPE_CONST, {.i64=ALINEAR}, 0, 0, FLAGS, "ascale" },

  79.     { "acount", "how much frames to accumulate", OFFSET(count), AV_OPT_TYPE_INT, {.i64=1}, -1, 100, FLAGS },

  80.     { "rheight", "set histogram ratio of window height", OFFSET(phisto), AV_OPT_TYPE_FLOAT, {.dbl=0.10}, 0, 1, FLAGS },

  81.     { "slide", "set sonogram sliding", OFFSET(slide), AV_OPT_TYPE_INT, {.i64=REPLACE}, 0, NB_SLIDES-1, FLAGS, "slide" },

  82.         { "replace", "replace old rows with new", 0, AV_OPT_TYPE_CONST, {.i64=REPLACE},    0, 0, FLAGS, "slide" },

  83.         { "scroll",  "scroll from top to bottom", 0, AV_OPT_TYPE_CONST, {.i64=SCROLL}, 0, 0, FLAGS, "slide" },

  84.     { NULL }

  85. };

  86. 

  87. AVFILTER_DEFINE_CLASS(ahistogram);

  88. 

  89. static int query_formats(AVFilterContext *ctx)

  90. {

  91.     AVFilterFormats *formats = NULL;

  92.     AVFilterChannelLayouts *layouts = NULL;

  93.     AVFilterLink *inlink = ctx->inputs[0];

  94.     AVFilterLink *outlink = ctx->outputs[0];

  95.     static const enum AVSampleFormat sample_fmts[] = { AV_SAMPLE_FMT_FLTP, AV_SAMPLE_FMT_NONE };

  96.     static const enum AVPixelFormat pix_fmts[] = { AV_PIX_FMT_YUVA444P, AV_PIX_FMT_NONE };

  97.     int ret = AVERROR(EINVAL);

  98. 

  99.     formats = ff_make_format_list(sample_fmts);

  100.     if ((ret = ff_formats_ref         (formats, &inlink->out_formats        )) < 0 ||

  101.         (layouts = ff_all_channel_counts()) == NULL ||

  102.         (ret = ff_channel_layouts_ref (layouts, &inlink->out_channel_layouts)) < 0)

  103.         return ret;

  104. 

  105.     formats = ff_all_samplerates();

  106.     if ((ret = ff_formats_ref(formats, &inlink->out_samplerates)) < 0)

  107.         return ret;

  108. 

  109.     formats = ff_make_format_list(pix_fmts);

  110.     if ((ret = ff_formats_ref(formats, &outlink->in_formats)) < 0)

  111.         return ret;

  112. 

  113.     return 0;

  114. }

  115. 

  116. static int config_input(AVFilterLink *inlink)

  117. {

  118.     AVFilterContext *ctx = inlink->dst;

  119.     AudioHistogramContext *s = ctx->priv;

  120.     int nb_samples;

  121. 

  122.     nb_samples = FFMAX(1024, ((double)inlink->sample_rate / av_q2d(s->frame_rate)) + 0.5);

  123.     inlink->partial_buf_size =

  124.     inlink->min_samples =

  125.     inlink->max_samples = nb_samples;

  126. 

  127.     s->dchannels = s->dmode == SINGLE ? 1 : inlink->channels;

  128.     s->shistogram = av_calloc(s->w, s->dchannels * sizeof(*s->shistogram));

  129.     if (!s->shistogram)

  130.         return AVERROR(ENOMEM);

  131. 

  132.     s->achistogram = av_calloc(s->w, s->dchannels * sizeof(*s->achistogram));

  133.     if (!s->achistogram)

  134.         return AVERROR(ENOMEM);

  135. 

  136.     return 0;

  137. }

  138. 

  139. static int config_output(AVFilterLink *outlink)

  140. {

  141.     AudioHistogramContext *s = outlink->src->priv;

  142. 

  143.     outlink->w = s->w;

  144.     outlink->h = s->h;

  145.     outlink->sample_aspect_ratio = (AVRational){1,1};

  146.     outlink->frame_rate = s->frame_rate;

  147. 

  148.     s->histogram_h = s->h * s->phisto;

  149.     s->ypos = s->h * s->phisto;

  150. 

  151.     if (s->dmode == SEPARATE) {

  152.         s->combine_buffer = av_malloc_array(outlink->w * 3, sizeof(*s->combine_buffer));

  153.         if (!s->combine_buffer)

  154.             return AVERROR(ENOMEM);

  155.     }

  156. 

  157.     return 0;

  158. }

  159. 

  160. static int filter_frame(AVFilterLink *inlink, AVFrame *in)

  161. {

  162.     AVFilterContext *ctx = inlink->dst;

  163.     AVFilterLink *outlink = ctx->outputs[0];

  164.     AudioHistogramContext *s = ctx->priv;

  165.     const int H = s->histogram_h;

  166.     const int w = s->w;

  167.     int c, y, n, p, bin;

  168.     uint64_t acmax = 0;

  169. 

  170.     if (!s->out || s->out->width  != outlink->w ||

  171.                    s->out->height != outlink->h) {

  172.         av_frame_free(&s->out);

  173.         s->out = ff_get_video_buffer(outlink, outlink->w, outlink->h);

  174.         if (!s->out) {

  175.             av_frame_free(&in);

  176.             return AVERROR(ENOMEM);

  177.         }

  178.         for (n = H; n < s->h; n++) {

  179.             memset(s->out->data[0] + n * s->out->linesize[0], 0, w);

  180.             memset(s->out->data[1] + n * s->out->linesize[0], 127, w);

  181.             memset(s->out->data[2] + n * s->out->linesize[0], 127, w);

  182.             memset(s->out->data[3] + n * s->out->linesize[0], 0, w);

  183.         }

  184.     }

  185. 

  186.     if (s->dmode == SEPARATE) {

  187.         for (y = 0; y < w; y++) {

  188.             s->combine_buffer[3 * y    ] = 0;

  189.             s->combine_buffer[3 * y + 1] = 127.5;

  190.             s->combine_buffer[3 * y + 2] = 127.5;

  191.         }

  192.     }

  193. 

  194.     for (n = 0; n < H; n++) {

  195.         memset(s->out->data[0] + n * s->out->linesize[0], 0, w);

  196.         memset(s->out->data[1] + n * s->out->linesize[0], 127, w);

  197.         memset(s->out->data[2] + n * s->out->linesize[0], 127, w);

  198.         memset(s->out->data[3] + n * s->out->linesize[0], 0, w);

  199.     }

  200.     s->out->pts = in->pts;

  201. 

  202.     s->first = s->frame_count;

  203. 

  204.     switch (s->ascale) {

  205.     case ALINEAR:

  206.         for (c = 0; c < inlink->channels; c++) {

  207.             const float *src = (const float *)in->extended_data[c];

  208.             uint64_t *achistogram = &s->achistogram[(s->dmode == SINGLE ? 0: c) * w];

  209. 

  210.             for (n = 0; n < in->nb_samples; n++) {

  211.                 bin = lrint(av_clipf(fabsf(src[n]), 0, 1) * (w - 1));

  212. 

  213.                 achistogram[bin]++;

  214.             }

  215. 

  216.             if (s->in[s->first] && s->count >= 0) {

  217.                 uint64_t *shistogram = &s->shistogram[(s->dmode == SINGLE ? 0: c) * w];

  218.                 const float *src2 = (const float *)s->in[s->first]->extended_data[c];

  219. 

  220.                 for (n = 0; n < in->nb_samples; n++) {

  221.                     bin = lrint(av_clipf(fabsf(src2[n]), 0, 1) * (w - 1));

  222. 

  223.                     shistogram[bin]++;

  224.                 }

  225.             }

  226.         }

  227.         break;

  228.     case ALOG:

  229.         for (c = 0; c < inlink->channels; c++) {

  230.             const float *src = (const float *)in->extended_data[c];

  231.             uint64_t *achistogram = &s->achistogram[(s->dmode == SINGLE ? 0: c) * w];

  232. 

  233.             for (n = 0; n < in->nb_samples; n++) {

  234.                 bin = lrint(av_clipf(1 + log10(fabsf(src[n])) / 6, 0, 1) * (w - 1));

  235. 

  236.                 achistogram[bin]++;

  237.             }

  238. 

  239.             if (s->in[s->first] && s->count >= 0) {

  240.                 uint64_t *shistogram = &s->shistogram[(s->dmode == SINGLE ? 0: c) * w];

  241.                 const float *src2 = (const float *)s->in[s->first]->extended_data[c];

  242. 

  243.                 for (n = 0; n < in->nb_samples; n++) {

  244.                     bin = lrint(av_clipf(1 + log10(fabsf(src2[n])) / 6, 0, 1) * (w - 1));

  245. 

  246.                     shistogram[bin]++;

  247.                 }

  248.             }

  249.         }

  250.         break;

  251.     }

  252. 

  253.     av_frame_free(&s->in[s->frame_count]);

  254.     s->in[s->frame_count] = in;

  255.     s->frame_count++;

  256.     if (s->frame_count > s->count)

  257.         s->frame_count = 0;

  258. 

  259.     for (n = 0; n < w * s->dchannels; n++) {

  260.         acmax = FFMAX(s->achistogram[n] - s->shistogram[n], acmax);

  261.     }

  262. 

  263.     for (c = 0; c < s->dchannels; c++) {

  264.         uint64_t *shistogram  = &s->shistogram[c * w];

  265.         uint64_t *achistogram = &s->achistogram[c * w];

  266.         float yf, uf, vf;

  267. 

  268.         if (s->dmode == SEPARATE) {

  269.             yf = 256.0f / s->dchannels;

  270.             uf = yf * M_PI;

  271.             vf = yf * M_PI;

  272.             uf *= 0.5 * sin((2 * M_PI * c) / s->dchannels);

  273.             vf *= 0.5 * cos((2 * M_PI * c) / s->dchannels);

  274.         }

  275. 

  276.         for (n = 0; n < w; n++) {

  277.             double a, aa;

  278.             int h;

  279. 

  280.             a = achistogram[n] - shistogram[n];

  281. 

  282.             switch (s->scale) {

  283.             case LINEAR:

  284.                 aa = a / (double)acmax;

  285.                 break;

  286.             case SQRT:

  287.                 aa = sqrt(a) / sqrt(acmax);

  288.                 break;

  289.             case CBRT:

  290.                 aa = cbrt(a) / cbrt(acmax);

  291.                 break;

  292.             case LOG:

  293.                 aa = log2(a + 1) / log2(acmax + 1);

  294.                 break;

  295.             case RLOG:

  296.                 aa = 1. - log2(a + 1) / log2(acmax + 1);

  297.                 if (aa == 1.)

  298.                     aa = 0;

  299.                 break;

  300.             default:

  301.                 av_assert0(0);

  302.             }

  303. 

  304.             h = aa * (H - 1);

  305. 

  306.             if (s->dmode == SINGLE) {

  307. 

  308.                 for (y = H - h; y < H; y++) {

  309.                     s->out->data[0][y * s->out->linesize[0] + n] = 255;

  310.                     s->out->data[3][y * s->out->linesize[0] + n] = 255;

  311.                 }

  312. 

  313.                 if (s->h - H > 0) {

  314.                     h = aa * 255;

  315. 

  316.                     s->out->data[0][s->ypos * s->out->linesize[0] + n] = h;

  317.                     s->out->data[1][s->ypos * s->out->linesize[1] + n] = 127;

  318.                     s->out->data[2][s->ypos * s->out->linesize[2] + n] = 127;

  319.                     s->out->data[3][s->ypos * s->out->linesize[3] + n] = 255;

  320.                 }

  321.             } else if (s->dmode == SEPARATE) {

  322.                 float *out = &s->combine_buffer[3 * n];

  323.                 int old;

  324. 

  325.                 old = s->out->data[0][(H - h) * s->out->linesize[0] + n];

  326.                 for (y = H - h; y < H; y++) {

  327.                     if (s->out->data[0][y * s->out->linesize[0] + n] != old)

  328.                         break;

  329.                     old = s->out->data[0][y * s->out->linesize[0] + n];

  330.                     s->out->data[0][y * s->out->linesize[0] + n] = yf;

  331.                     s->out->data[1][y * s->out->linesize[1] + n] = 128+uf;

  332.                     s->out->data[2][y * s->out->linesize[2] + n] = 128+vf;

  333.                     s->out->data[3][y * s->out->linesize[3] + n] = 255;

  334.                 }

  335. 

  336.                 out[0] += aa * yf;

  337.                 out[1] += aa * uf;

  338.                 out[2] += aa * vf;

  339.             }

  340.         }

  341.     }

  342. 

  343.     if (s->h - H > 0) {

  344.         if (s->dmode == SEPARATE) {

  345.             for (n = 0; n < w; n++) {

  346.                 float *cb = &s->combine_buffer[3 * n];

  347. 

  348.                 s->out->data[0][s->ypos * s->out->linesize[0] + n] = cb[0];

  349.                 s->out->data[1][s->ypos * s->out->linesize[1] + n] = cb[1];

  350.                 s->out->data[2][s->ypos * s->out->linesize[2] + n] = cb[2];

  351.                 s->out->data[3][s->ypos * s->out->linesize[3] + n] = 255;

  352.             }

  353.         }

  354. 

  355.         if (s->slide == SCROLL) {

  356.             for (p = 0; p < 4; p++) {

  357.                 for (y = s->h; y >= H + 1; y--) {

  358.                     memmove(s->out->data[p] + (y  ) * s->out->linesize[p],

  359.                             s->out->data[p] + (y-1) * s->out->linesize[p], w);

  360.                 }

  361.             }

  362.         }

  363. 

  364.         s->ypos++;

  365.         if (s->slide == SCROLL || s->ypos >= s->h)

  366.             s->ypos = H;

  367.     }

  368. 

  369.     return ff_filter_frame(outlink, av_frame_clone(s->out));

  370. }

  371. 

  372. static av_cold void uninit(AVFilterContext *ctx)

  373. {

  374.     AudioHistogramContext *s = ctx->priv;

  375.     int i;

  376. 

  377.     av_frame_free(&s->out);

  378.     av_freep(&s->shistogram);

  379.     av_freep(&s->achistogram);

  380.     av_freep(&s->combine_buffer);

  381.     for (i = 0; i < 101; i++)

  382.         av_frame_free(&s->in[i]);

  383. }

  384. 

  385. static const AVFilterPad audiovectorscope_inputs[] = {

  386.     {

  387.         .name         = "default",

  388.         .type         = AVMEDIA_TYPE_AUDIO,

  389.         .config_props = config_input,

  390.         .filter_frame = filter_frame,

  391.     },

  392.     { NULL }

  393. };

  394. 

  395. static const AVFilterPad audiovectorscope_outputs[] = {

  396.     {

  397.         .name         = "default",

  398.         .type         = AVMEDIA_TYPE_VIDEO,

  399.         .config_props = config_output,

  400.     },

  401.     { NULL }

  402. };

  403. 

  404. AVFilter ff_avf_ahistogram = {

  405.     .name          = "ahistogram",

  406.     .description   = NULL_IF_CONFIG_SMALL("Convert input audio to histogram video output."),

  407.     .uninit        = uninit,

  408.     .query_formats = query_formats,

  409.     .priv_size     = sizeof(AudioHistogramContext),

  410.     .inputs        = audiovectorscope_inputs,

  411.     .outputs       = audiovectorscope_outputs,

  412.     .priv_class    = &ahistogram_class,

  413. };