45 #define MAX_CHANNELS 63
48 #define PRE_B0 1.53512485958697
49 #define PRE_B1 -2.69169618940638
50 #define PRE_B2 1.19839281085285
51 #define PRE_A1 -1.69065929318241
52 #define PRE_A2 0.73248077421585
58 #define RLB_A1 -1.99004745483398
59 #define RLB_A2 0.99007225036621
62 #define ABS_UP_THRES 10
63 #define HIST_GRAIN 100
64 #define HIST_SIZE ((ABS_UP_THRES - ABS_THRES) * HIST_GRAIN + 1)
100 #if CONFIG_SWRESAMPLE
129 #define I400_BINS (48000 * 4 / 10)
130 #define I3000_BINS (48000 * 3)
150 #define OFFSET(x) offsetof(EBUR128Context, x)
151 #define A AV_OPT_FLAG_AUDIO_PARAM
152 #define V AV_OPT_FLAG_VIDEO_PARAM
153 #define F AV_OPT_FLAG_FILTERING_PARAM
158 {
"framelog",
"force frame logging level",
OFFSET(loglevel),
AV_OPT_TYPE_INT, {.i64 = -1}, INT_MIN, INT_MAX,
A|
V|
F,
"level" },
184 const int below0 = y > ebur128->
y_zero_lu;
185 const int reached = y >=
v;
187 const int colorid = 4*line + 2*reached + below0;
193 v += 2 * ebur128->
meter;
223 for (i = 0; buf[i]; i++) {
227 for (char_y = 0; char_y < font_height; char_y++) {
228 for (mask = 0x80;
mask; mask >>= 1) {
229 if (font[buf[i] * font_height + char_y] & mask)
232 memcpy(p,
"\x00\x00\x00", 3);
245 for (i = 0; i <
len; i++) {
246 memcpy(p,
"\x00\xff\x00", 3);
260 if (ebur128->
w < 640 || ebur128->
h < 480) {
262 "minimum size is 640x480\n", ebur128->
w, ebur128->
h);
265 outlink->
w = ebur128->
w;
266 outlink->
h = ebur128->
h;
272 ebur128->
text.
y = 40;
273 ebur128->
text.
w = 3 * 8;
305 memset(outpicref->
data[0], 0, ebur128->
h * outpicref->
linesize[0]);
309 for (i = ebur128->
meter; i >= -ebur128->
meter * 2; i--) {
311 x =
PAD + (i < 10 && i > -10) * 8;
315 "%c%d", i < 0 ? '-' : i > 0 ?
'+' :
' ',
FFABS(i));
322 for (y = 0; y < ebur128->
graph.
h; y++) {
325 for (x = 0; x < ebur128->
graph.
w; x++)
326 memcpy(p + x*3, c, 3);
331 #define DRAW_RECT(r) do { \
332 drawline(outpicref, r.x, r.y - 1, r.w, 3); \
333 drawline(outpicref, r.x, r.y + r.h, r.w, 3); \
334 drawline(outpicref, r.x - 1, r.y, r.h, outpicref->linesize[0]); \
335 drawline(outpicref, r.x + r.w, r.y, r.h, outpicref->linesize[0]); \
371 #define BACK_MASK (AV_CH_BACK_LEFT |AV_CH_BACK_CENTER |AV_CH_BACK_RIGHT| \
372 AV_CH_TOP_BACK_LEFT|AV_CH_TOP_BACK_CENTER|AV_CH_TOP_BACK_RIGHT| \
373 AV_CH_SIDE_LEFT |AV_CH_SIDE_RIGHT| \
374 AV_CH_SURROUND_DIRECT_LEFT |AV_CH_SURROUND_DIRECT_RIGHT)
384 while ((outlink->
channel_layout & 1ULL<<idx_bitposn) == 0 && idx_bitposn < 63)
391 }
else if (1ULL<<idx_bitposn &
BACK_MASK) {
411 #if CONFIG_SWRESAMPLE
415 ebur128->swr_buf =
av_malloc_array(nb_channels, 19200 *
sizeof(
double));
419 if (!ebur128->swr_buf || !ebur128->
true_peaks ||
446 #define ENERGY(loudness) (pow(10, ((loudness) + 0.691) / 10.))
447 #define LOUDNESS(energy) (-0.691 + 10 * log10(energy))
448 #define DBFS(energy) (20 * log10(energy))
479 "True-peak mode requires libswresample to be performed\n");
521 #define HIST_POS(power) (int)(((power) - ABS_THRES) * HIST_GRAIN)
529 double relative_threshold;
540 if (!relative_threshold)
541 relative_threshold = 1e-12;
545 return gate_hist_pos;
550 int i, ch, idx_insample;
555 const double *samples = (
double *)insamples->
data[0];
558 #
if CONFIG_SWRESAMPLE
560 const double *swr_samples = ebur128->swr_buf;
567 for (idx_insample = 0; idx_insample <
ret; idx_insample++) {
571 FFABS(*swr_samples));
578 for (idx_insample = 0; idx_insample < nb_samples; idx_insample++) {
582 #define MOVE_TO_NEXT_CACHED_ENTRY(time) do { \
583 ebur128->i##time.cache_pos++; \
584 if (ebur128->i##time.cache_pos == I##time##_BINS) { \
585 ebur128->i##time.filled = 1; \
586 ebur128->i##time.cache_pos = 0; \
599 ebur128->
x[ch * 3] = *samples++;
605 #define FILTER(Y, X, name) do { \
606 double *dst = ebur128->Y + ch*3; \
607 double *src = ebur128->X + ch*3; \
610 dst[0] = src[0]*name##_B0 + src[1]*name##_B1 + src[2]*name##_B2 \
611 - dst[1]*name##_A1 - dst[2]*name##_A2; \
616 ebur128->
x[ch * 3 + 2] = ebur128->
x[ch * 3 + 1];
617 ebur128->
x[ch * 3 + 1] = ebur128->
x[ch * 3 ];
620 bin = ebur128->
z[ch * 3] * ebur128->
z[ch * 3];
628 ebur128->
i400.
cache [ch][bin_id_400 ] = bin;
636 double loudness_400, loudness_3000;
637 double power_400 = 1e-12, power_3000 = 1e-12;
639 const int64_t pts = insamples->
pts +
645 #define COMPUTE_LOUDNESS(m, time) do { \
646 if (ebur128->i##time.filled) { \
648 for (ch = 0; ch < nb_channels; ch++) \
649 power_##time += ebur128->ch_weighting[ch] * ebur128->i##time.sum[ch]; \
650 power_##time /= I##time##_BINS; \
652 loudness_##time = LOUDNESS(power_##time); \
659 #define I_GATE_THRES -10 // initially defined to -8 LU in the first EBU standard
662 double integrated_sum = 0;
663 int nb_integrated = 0;
669 for (i = gate_hist_pos; i <
HIST_SIZE; i++) {
671 nb_integrated += nb_v;
679 #define LRA_GATE_THRES -20
680 #define LRA_LOWER_PRC 10
681 #define LRA_HIGHER_PRC 95
690 for (i = gate_hist_pos; i <
HIST_SIZE; i++)
698 for (i = gate_hist_pos; i <
HIST_SIZE; i++) {
709 for (i = HIST_SIZE - 1; i >= 0; i--) {
722 #define LOG_FMT "M:%6.1f S:%6.1f I:%6.1f LUFS LRA:%6.1f LU"
729 const int y_loudness_lu_graph =
lu_to_y(ebur128, loudness_3000 + 23);
730 const int y_loudness_lu_gauge =
lu_to_y(ebur128, loudness_400 + 23);
733 p = pic->data[0] + ebur128->
graph.
y*pic->linesize[0] + ebur128->
graph.
x*3;
734 for (y = 0; y < ebur128->
graph.
h; y++) {
737 memmove(p, p + 3, (ebur128->
graph.
w - 1) * 3);
738 memcpy(p + (ebur128->
graph.
w - 1) * 3, c, 3);
739 p += pic->linesize[0];
743 p = pic->data[0] + ebur128->
gauge.
y*pic->linesize[0] + ebur128->
gauge.
x*3;
744 for (y = 0; y < ebur128->
gauge.
h; y++) {
747 for (x = 0; x < ebur128->
gauge.
w; x++)
748 memcpy(p + x*3, c, 3);
749 p += pic->linesize[0];
755 loudness_400, loudness_3000,
767 #define META_PREFIX "lavfi.r128."
769 #define SET_META(name, var) do { \
770 snprintf(metabuf, sizeof(metabuf), "%.3f", var); \
771 av_dict_set(&insamples->metadata, name, metabuf, 0); \
774 #define SET_META_PEAK(name, ptype) do { \
775 if (ebur128->peak_mode & PEAK_MODE_ ## ptype ## _PEAKS) { \
777 for (ch = 0; ch < nb_channels; ch++) { \
778 snprintf(key, sizeof(key), \
779 META_PREFIX AV_STRINGIFY(name) "_peaks_ch%d", ch); \
780 SET_META(key, ebur128->name##_peaks[ch]); \
798 loudness_400, loudness_3000,
801 #define PRINT_PEAKS(str, sp, ptype) do { \
802 if (ebur128->peak_mode & PEAK_MODE_ ## ptype ## _PEAKS) { \
803 av_log(ctx, ebur128->loglevel, " " str ":"); \
804 for (ch = 0; ch < nb_channels; ch++) \
805 av_log(ctx, ebur128->loglevel, " %5.1f", DBFS(sp[ch])); \
806 av_log(ctx, ebur128->loglevel, " dBFS"); \
829 static const int input_srate[] = {48000, -1};
871 " Integrated loudness:\n"
873 " Threshold: %5.1f LUFS\n\n"
876 " Threshold: %5.1f LUFS\n"
877 " LRA low: %5.1f LUFS\n"
878 " LRA high: %5.1f LUFS",
883 #define PRINT_PEAK_SUMMARY(str, sp, ptype) do { \
887 if (ebur128->peak_mode & PEAK_MODE_ ## ptype ## _PEAKS) { \
888 for (ch = 0; ch < ebur128->nb_channels; ch++) \
889 maxpeak = FFMAX(maxpeak, sp[ch]); \
890 av_log(ctx, AV_LOG_INFO, "\n\n " str " peak:\n" \
891 " Peak: %5.1f dBFS", \
914 #if CONFIG_SWRESAMPLE
939 .priv_class = &ebur128_class,