diff options
| author | John Stebbins <[email protected]> | 2016-09-21 15:36:07 -0700 |
|---|---|---|
| committer | John Stebbins <[email protected]> | 2017-02-21 13:54:40 -0700 |
| commit | e1ced8ee0d1052941d88c54b55f664fc481f94ea (patch) | |
| tree | 234bbf6d294042292d2a06ba51c72fdb0f111e82 /libhb/vfr.c | |
| parent | 04d8859af6f0a4cba77818dda89f5bfb4fc437ca (diff) | |
vfr: simplify and improve CFR frame dropping algo
The new algo caches extra frames so it can select a "best" frame to drop
from a list. A metric for each buffer is calculated as it is added to
the list. The metric indicates how much the frame differes from the
previous frame. The one with the lowest metric is selected for dropping
when a drop is required.
The old algo tried to latch on to a pattern without keeping any extra
frames. When "in sync" it would drop the buffer that fit the pattern.
But this only worked for a few specific patterns I had tested with and
did not work for all possible patterns (e.g. issue 50 where 1 in 5
needed to be dropped to convert 29.97 to 23.976).
fixes https://github.com/HandBrake/HandBrake/issues/50
Diffstat (limited to 'libhb/vfr.c')
| -rw-r--r-- | libhb/vfr.c | 356 |
1 files changed, 198 insertions, 158 deletions
diff --git a/libhb/vfr.c b/libhb/vfr.c index e91fe62f9..41be58f5e 100644 --- a/libhb/vfr.c +++ b/libhb/vfr.c @@ -9,33 +9,34 @@ #include "hb.h" +#define MAX_FRAME_ANALYSIS_DEPTH 10 + struct hb_filter_private_s { - hb_job_t * job; - int cfr; - hb_rational_t input_vrate; - hb_rational_t vrate; - hb_fifo_t * delay_queue; - int dropped_frames; - int extended_frames; - int64_t last_start[4]; - int64_t last_stop[4]; - int64_t lost_time[4]; - int64_t total_lost_time; - int64_t total_gained_time; - int count_frames; // frames output so far - double frame_rate; // 90KHz ticks per frame (for CFR/PFR) - int64_t out_last_stop; // where last frame ended (for CFR/PFR) - int drops; // frames dropped (for CFR/PFR) - int dups; // frames duped (for CFR/PFR) + hb_job_t * job; + int cfr; + hb_rational_t input_vrate; + hb_rational_t vrate; + hb_fifo_t * delay_queue; + int dropped_frames; + int extended_frames; + int64_t last_start[4]; + int64_t last_stop[4]; + int64_t lost_time[4]; + int64_t total_lost_time; + int64_t total_gained_time; + int count_frames; // frames output so far + double frame_duration; // 90KHz ticks per frame (for CFR/PFR) + double out_last_stop; // where last frame ended (for CFR/PFR) + int drops; // frames dropped (for CFR/PFR) + int dups; // frames duped (for CFR/PFR) // Duplicate frame detection members - float max_metric; // highest motion metric since - // last output frame - float frame_metric; // motion metric of last frame - float out_metric; // motion metric of last output frame - int sync_parity; - unsigned gamma_lut[256]; + int frame_analysis_depth; + hb_list_t * frame_rate_list; + double * frame_metric; + + unsigned gamma_lut[256]; }; static int hb_vfr_init( hb_filter_object_t * filter, @@ -82,18 +83,17 @@ static void build_gamma_lut( hb_filter_private_t * pv ) // Compute ths sum of squared errors for a 16x16 block // Gamma adjusts pixel values so that less visible diffreences // count less. -static inline unsigned sse_block16( hb_filter_private_t *pv, uint8_t *a, uint8_t *b, int stride ) +static inline unsigned sse_block16( unsigned *gamma_lut, uint8_t *a, uint8_t *b, int stride ) { int x, y; unsigned sum = 0; int diff; - unsigned *g = pv->gamma_lut; for( y = 0; y < 16; y++ ) { for( x = 0; x < 16; x++ ) { - diff = g[a[x]] - g[b[x]]; + diff = gamma_lut[a[x]] - gamma_lut[b[x]]; sum += diff * diff; } a += stride; @@ -104,7 +104,7 @@ static inline unsigned sse_block16( hb_filter_private_t *pv, uint8_t *a, uint8_t // Sum of squared errors. Computes and sums the SSEs for all // 16x16 blocks in the images. Only checks the Y component. -static float motion_metric( hb_filter_private_t * pv, hb_buffer_t * a, hb_buffer_t * b ) +static float motion_metric( unsigned * gamma_lut, hb_buffer_t * a, hb_buffer_t * b ) { int bw = a->f.width / 16; int bh = a->f.height / 16; @@ -118,13 +118,38 @@ static float motion_metric( hb_filter_private_t * pv, hb_buffer_t * a, hb_buffer { for( x = 0; x < bw; x++ ) { - sum += sse_block16( pv, pa + y * 16 * stride + x * 16, - pb + y * 16 * stride + x * 16, stride ); + sum += sse_block16( gamma_lut, pa + y * 16 * stride + x * 16, + pb + y * 16 * stride + x * 16, + stride ); } } return (float)sum / ( a->f.width * a->f.height );; } +static void delete_metric(double * metrics, int pos, int size) +{ + double * dst = &metrics[pos]; + double * src = &metrics[pos + 1]; + int msize = (size - (pos + 1)) * sizeof(double); + memmove(dst, src, msize); +} + +static int find_drop_frame(double *metrics, int count) +{ + int ii, min; + + min = 0; + for (ii = 1; ii < count; ii++) + { + if (metrics[ii] < metrics[min]) + { + min = ii; + } + } + + return min; +} + // This section of the code implements video frame rate control. // Since filters are allowed to duplicate and drop frames (which // changes the timing), this has to be the last thing done in render. @@ -142,135 +167,106 @@ static float motion_metric( hb_filter_private_t * pv, hb_buffer_t * a, hb_buffer // to keep the average under this value. Other than those drops, frame // times are left alone. // - -static void adjust_frame_rate( hb_filter_private_t *pv, hb_buffer_list_t *list ) +static hb_buffer_t * adjust_frame_rate( hb_filter_private_t * pv, + hb_buffer_t * in ) { - hb_buffer_t *out = hb_buffer_list_tail(list); - if (out == NULL || out->size <= 0 ) + if (pv->cfr == 0) { - return; + ++pv->count_frames; + pv->out_last_stop = in->s.stop; + return in; } - if ( pv->cfr == 0 ) + int count; + + // in == NULL signals we are flushing the frame_rate_list + if (in != NULL) { - ++pv->count_frames; - pv->out_last_stop = out->s.stop; - return; - } + if (pv->out_last_stop == (int64_t)AV_NOPTS_VALUE) + { + pv->out_last_stop = in->s.start; + } - // compute where this frame would stop if the frame rate were constant - // (this is our target stopping time for CFR and earliest possible - // stopping time for PFR). - double cfr_stop = pv->frame_rate * ( pv->count_frames + 1 ); + hb_list_add(pv->frame_rate_list, in); + count = hb_list_count(pv->frame_rate_list); + if (count < 2) + { + return NULL; + } - hb_buffer_t * next = hb_fifo_see( pv->delay_queue ); + hb_buffer_t * penultimate, * ultimate; + penultimate = hb_list_item(pv->frame_rate_list, count - 2); + ultimate = hb_list_item(pv->frame_rate_list, count - 1); - float next_metric = 0; - if( next ) - next_metric = motion_metric( pv, out, next ); + pv->frame_metric[count - 1] = motion_metric(pv->gamma_lut, + penultimate, ultimate); - if( pv->out_last_stop >= out->s.stop ) + if (count < pv->frame_analysis_depth) + { + return NULL; + } + } + else { - ++pv->drops; - hb_buffer_list_rem_tail(list); - hb_buffer_close(&out); + count = hb_list_count(pv->frame_rate_list); + } - pv->frame_metric = next_metric; - if( next_metric > pv->max_metric ) - pv->max_metric = next_metric; + hb_buffer_list_t list; + hb_buffer_t * out, * last; + double cfr_stop; - return; - } + hb_buffer_list_clear(&list); - if( out->s.start <= pv->out_last_stop && - out->s.stop > pv->out_last_stop && - next && next->s.stop < cfr_stop ) + // compute where the second to last frame in the frame_rate_list would + // stop if the frame rate were constant. + // + // this is our target stopping time for CFR and earliest possible + // stopping time for PFR. + cfr_stop = pv->out_last_stop + pv->frame_duration * (count - 1); + + // If the last frame's stop timestamp is before the calculated + // CFR stop time of the second to last frame, then we need to drop a frame. + last = hb_list_item(pv->frame_rate_list, count - 1); + if (last->s.stop < cfr_stop) { - // This frame starts before the end of the last output - // frame and ends after the end of the last output - // frame (i.e. it straddles it). Also the next frame - // ends before the end of the next output frame. If the - // next frame is not a duplicate, and we haven't seen - // a changed frame since the last output frame, - // then drop this frame. - // - // This causes us to sync to the pattern of progressive - // 23.976 fps content that has been upsampled to - // progressive 59.94 fps. - if( pv->out_metric > pv->max_metric && - next_metric > pv->max_metric ) - { - // Pattern: N R R N - // o c n - // N == new frame - // R == repeat frame - // o == last output frame - // c == current frame - // n == next frame - // We haven't seen a frame change since the last output - // frame and the next frame changes. Use the next frame, - // drop this one. - ++pv->drops; - pv->frame_metric = next_metric; - pv->max_metric = next_metric; - pv->sync_parity = 1; - hb_buffer_list_rem_tail(list); - hb_buffer_close(&out); - return; - } - else if( pv->sync_parity && - pv->out_metric < pv->max_metric && - pv->max_metric > pv->frame_metric && - pv->frame_metric < next_metric ) - { - // Pattern: R N R N - // o c n - // N == new frame - // R == repeat frame - // o == last output frame - // c == current frame - // n == next frame - // If we see this pattern, we must not use the next - // frame when straddling the current frame. - pv->sync_parity = 0; - } - else if( pv->sync_parity ) - { - // The pattern is indeterminate. Continue dropping - // frames on the same schedule - ++pv->drops; - pv->frame_metric = next_metric; - pv->max_metric = next_metric; - pv->sync_parity = 1; - hb_buffer_list_rem_tail(list); - hb_buffer_close(&out); - return; - } + int drop_frame; + drop_frame = find_drop_frame(pv->frame_metric, count); + out = hb_list_item(pv->frame_rate_list, drop_frame); + hb_list_rem(pv->frame_rate_list, out); + hb_buffer_close(&out); + delete_metric(pv->frame_metric, drop_frame, count); + ++pv->drops; + return NULL; } + out = hb_list_item(pv->frame_rate_list, 0); + hb_list_rem(pv->frame_rate_list, out); + hb_buffer_list_append(&list, out); + delete_metric(pv->frame_metric, 0, count); + // this frame has to start where the last one stopped. out->s.start = pv->out_last_stop; - - pv->out_metric = pv->frame_metric; - pv->frame_metric = next_metric; - pv->max_metric = next_metric; + cfr_stop = pv->out_last_stop + pv->frame_duration; // at this point we know that this frame doesn't push the average // rate over the limit so we just pass it on for PFR. For CFR we're // going to return it (with its start & stop times modified) and // we may have to dup it. ++pv->count_frames; - if ( pv->cfr > 1 ) + if (pv->cfr > 1) { // PFR - we're going to keep the frame but may need to // adjust it's stop time to meet the average rate constraint. - if ( out->s.stop <= cfr_stop ) + if (out->s.stop < cfr_stop) { - out->s.stop = cfr_stop; + out->s.stop = pv->out_last_stop = cfr_stop; + } + else + { + pv->out_last_stop = out->s.stop; } - pv->out_last_stop = out->s.stop; } else { @@ -278,23 +274,36 @@ static void adjust_frame_rate( hb_filter_private_t *pv, hb_buffer_list_t *list ) // buffer that ends too far in the future or, if the buffer is // two or more frame times long, split it into multiple pieces, // each of which is a frame time long. - double excess_dur = (double)out->s.stop - cfr_stop; - out->s.stop = cfr_stop; - pv->out_last_stop = out->s.stop; - for ( ; excess_dur >= pv->frame_rate; excess_dur -= pv->frame_rate ) + double excess = (double)out->s.stop - cfr_stop; + out->s.stop = pv->out_last_stop = cfr_stop; + for (; excess >= pv->frame_duration; excess -= pv->frame_duration) { /* next frame too far ahead - dup current frame */ hb_buffer_t *dup = hb_buffer_dup( out ); dup->s.new_chap = 0; dup->s.start = cfr_stop; - cfr_stop += pv->frame_rate; - dup->s.stop = cfr_stop; - pv->out_last_stop = dup->s.stop; - hb_buffer_list_append(list, dup); + cfr_stop += pv->frame_duration; + dup->s.stop = pv->out_last_stop = cfr_stop; + hb_buffer_list_append(&list, dup); ++pv->dups; ++pv->count_frames; } } + + return hb_buffer_list_clear(&list); +} + +static hb_buffer_t * flush_frames(hb_filter_private_t * pv) +{ + hb_buffer_list_t list; + + hb_buffer_list_clear(&list); + while (hb_list_count(pv->frame_rate_list) > 0) + { + hb_buffer_list_append(&list, adjust_frame_rate(pv, NULL)); + } + + return hb_buffer_list_clear(&list); } static int hb_vfr_init(hb_filter_object_t *filter, hb_filter_init_t *init) @@ -308,24 +317,60 @@ static int hb_vfr_init(hb_filter_object_t *filter, hb_filter_init_t *init) hb_dict_extract_int(&pv->cfr, filter->settings, "mode"); hb_dict_extract_rational(&pv->vrate, filter->settings, "rate"); + // By default, we need at least 4 delay frames in order to smooth + // timestamp values + pv->frame_analysis_depth = 1; + + // Calculate the number of frames we need to keep in order to + // detect "best" candidate frames to drop. + double in_vrate = (double)pv->input_vrate.num / pv->input_vrate.den; + double out_vrate = (double)pv->vrate.num / pv->vrate.den; + if (in_vrate > out_vrate) + { + // in_vrate / out_vrate tells us how many consecutive repeated + // frames we can expect to see. if the number of consecutive + // repeated frame is < 2, we need the number of consecutive + // non-repeated frames. Then add 1 to round up fractions + // and add 2 so that we should have transitions that we can + // detect at both ends of a sequence. + double factor = in_vrate / out_vrate; + if (factor >= 1.0 && factor < 2.0) + { + factor = 1 / (factor - 1); + } + pv->frame_analysis_depth = factor + 3; + + // if we end up with an absurdly large value, limit it + if (pv->frame_analysis_depth > MAX_FRAME_ANALYSIS_DEPTH) + { + pv->frame_analysis_depth = MAX_FRAME_ANALYSIS_DEPTH; + } + } + pv->frame_metric = calloc(pv->frame_analysis_depth, sizeof(double)); + pv->frame_metric[0] = INT_MAX; + pv->job = init->job; /* Setup FIFO queue for subtitle cache */ pv->delay_queue = hb_fifo_init( 8, 1 ); + pv->frame_rate_list = hb_list_init(); + /* VFR IVTC needs a bunch of time-keeping variables to track how many frames are dropped, how many are extended, what the last 4 start and stop times were (so they can be modified), how much time has been lost and gained overall, how much time the latest 4 frames should be extended by */ - pv->dropped_frames = 0; - pv->extended_frames = 0; - pv->last_start[0] = 0; - pv->last_stop[0] = 0; - pv->total_lost_time = 0; + pv->dropped_frames = 0; + pv->extended_frames = 0; + pv->last_start[0] = 0; + pv->last_stop[0] = 0; + pv->total_lost_time = 0; pv->total_gained_time = 0; - pv->lost_time[0] = 0; pv->lost_time[1] = 0; pv->lost_time[2] = 0; pv->lost_time[3] = 0; - pv->frame_metric = 1000; // Force first frame + pv->lost_time[0] = 0; + pv->lost_time[1] = 0; + pv->lost_time[2] = 0; + pv->lost_time[3] = 0; if (pv->cfr == 2) { @@ -344,8 +389,9 @@ static int hb_vfr_init(hb_filter_object_t *filter, hb_filter_init_t *init) { init->vrate = pv->vrate; } - pv->frame_rate = (double)pv->vrate.den * 90000. / pv->vrate.num; - init->cfr = pv->cfr; + pv->frame_duration = (double)pv->vrate.den * 90000. / pv->vrate.num; + pv->out_last_stop = (int64_t)AV_NOPTS_VALUE; + init->cfr = pv->cfr; return 0; } @@ -451,6 +497,8 @@ static void hb_vfr_close( hb_filter_object_t * filter ) { hb_fifo_close( &pv->delay_queue ); } + free(pv->frame_metric); + hb_list_close(&pv->frame_rate_list); /* Cleanup render work structure */ free( pv ); @@ -462,26 +510,20 @@ static int hb_vfr_work( hb_filter_object_t * filter, hb_buffer_t ** buf_out ) { hb_filter_private_t * pv = filter->private_data; - hb_buffer_list_t list; hb_buffer_t * in = *buf_in; hb_buffer_t * out = NULL; *buf_in = NULL; *buf_out = NULL; - hb_buffer_list_clear(&list); - if (in->s.flags & HB_BUF_FLAG_EOF) { + hb_buffer_list_t list; hb_buffer_t * next; int counter = 2; - /* If the input buffer is end of stream, send out an empty one - * to the next stage as well. To avoid losing the contents of - * the delay queue connect the buffers in the delay queue in - * the correct order, and add the end of stream buffer to the - * end. - */ + // Flush the delay_queue and frame rate adjustment + hb_buffer_list_clear(&list); while ((next = hb_fifo_get(pv->delay_queue)) != NULL) { @@ -495,9 +537,9 @@ static int hb_vfr_work( hb_filter_object_t * filter, next->s.start = pv->last_start[counter]; next->s.stop = pv->last_stop[counter--]; - hb_buffer_list_append(&list, next); - adjust_frame_rate(pv, &list); + hb_buffer_list_append(&list, adjust_frame_rate(pv, next)); } + hb_buffer_list_append(&list, flush_frames(pv)); hb_buffer_list_append(&list, in); *buf_out = hb_buffer_list_clear(&list); return HB_FILTER_DONE; @@ -620,10 +662,8 @@ static int hb_vfr_work( hb_filter_object_t * filter, out->s.start = pv->last_start[3]; out->s.stop = pv->last_stop[3]; - hb_buffer_list_append(&list, out); - adjust_frame_rate(pv, &list); + *buf_out = adjust_frame_rate(pv, out); - *buf_out = hb_buffer_list_clear(&list); return HB_FILTER_OK; } |