/* detelecine.c Copyright (c) 2003-2020 HandBrake Team This file is part of the HandBrake source code Homepage: . It may be used under the terms of the GNU General Public License v2. For full terms see the file COPYING file or visit http://www.gnu.org/licenses/gpl-2.0.html */ #include "handbrake/handbrake.h" #include "handbrake/hbffmpeg.h" /* * * PULLUP DEFINITIONS * */ #define PULLUP_FMT_Y 1 #define PULLUP_HAVE_BREAKS 1 #define PULLUP_HAVE_AFFINITY 2 #define PULLUP_BREAK_LEFT 1 #define PULLUP_BREAK_RIGHT 2 #define PULLUP_ABS( a ) (((a)^((a)>>31))-((a)>>31)) #ifndef PIC_FLAG_REPEAT_FIRST_FIELD #define PIC_FLAG_REPEAT_FIRST_FIELD 256 #endif struct pullup_buffer { int lock[2]; unsigned char **planes; int *size; }; struct pullup_field { int parity; struct pullup_buffer *buffer; unsigned int flags; int breaks; int affinity; int *diffs; int *comb; int *var; struct pullup_field *prev, *next; }; struct pullup_frame { int lock; int length; int parity; struct pullup_buffer **ifields, *ofields[2]; struct pullup_buffer *buffer; }; struct pullup_context { /* Public interface */ int format; int nplanes; int *bpp, *w, *h, *stride, *background; unsigned int cpu; int junk_left, junk_right, junk_top, junk_bottom; int verbose; int metric_plane; int strict_breaks; int strict_pairs; int parity; /* Internal data */ struct pullup_field *first, *last, *head; struct pullup_buffer *buffers; int nbuffers; int (*diff)(unsigned char *, unsigned char *, int); int (*comb)(unsigned char *, unsigned char *, int); int (*var)(unsigned char *, unsigned char *, int); int metric_w, metric_h, metric_len, metric_offset; struct pullup_frame *frame; }; /* * * DETELECINE FILTER DEFINITIONS * */ struct hb_filter_private_s { struct pullup_context * pullup_ctx; int pullup_fakecount; int pullup_skipflag; hb_filter_init_t input; hb_filter_init_t output; }; static int hb_detelecine_init( hb_filter_object_t * filter, hb_filter_init_t * init ); static int hb_detelecine_work( hb_filter_object_t * filter, hb_buffer_t ** buf_in, hb_buffer_t ** buf_out ); static void hb_detelecine_close( hb_filter_object_t * filter ); static const char detelecine_template[] = "skip-left=^"HB_INT_REG"$:skip-right=^"HB_INT_REG"$:" "skip-top=^"HB_INT_REG"$:skip-bottom=^"HB_INT_REG"$:" "strict-breaks=^"HB_BOOL_REG"$:plane=^([012])$:parity=^([01])$:" "disable=^"HB_BOOL_REG"$"; hb_filter_object_t hb_filter_detelecine = { .id = HB_FILTER_DETELECINE, .enforce_order = 1, .name = "Detelecine (pullup)", .settings = NULL, .init = hb_detelecine_init, .work = hb_detelecine_work, .close = hb_detelecine_close, .settings_template = detelecine_template, }; /* * * PULLUP STATIC FUNCTIONS * */ static int pullup_diff_y( unsigned char *a, unsigned char * b, int s ) { int i, j, diff = 0; for( i = 4; i; i-- ) { for( j = 0; j < 8; j++ ) { diff += PULLUP_ABS( a[j]-b[j] ); } a+=s; b+=s; } return diff; } static int pullup_licomb_y( unsigned char * a, unsigned char * b, int s ) { int i, j, diff = 0; for( i = 4; i; i-- ) { for( j = 0; j < 8; j++ ) { diff += PULLUP_ABS( (a[j]<<1) - b[j-s] - b[j] ) + PULLUP_ABS( (b[j]<<1) - a[j] - a[j+s] ); } a+=s; b+=s; } return diff; } static int pullup_var_y( unsigned char * a, unsigned char * b, int s ) { int i, j, var = 0; for( i = 3; i; i-- ) { for( j = 0; j < 8; j++ ) { var += PULLUP_ABS( a[j]-a[j+s] ); } a+=s; b+=s; } return 4*var; } static void pullup_alloc_metrics( struct pullup_context * c, struct pullup_field * f ) { f->diffs = calloc( c->metric_len, sizeof(int) ); f->comb = calloc( c->metric_len, sizeof(int) ); f->var = calloc( c->metric_len, sizeof(int) ); } static void pullup_compute_metric( struct pullup_context * c, struct pullup_field * fa, int pa, struct pullup_field * fb, int pb, int (* func)( unsigned char *, unsigned char *, int), int * dest ) { unsigned char *a, *b; int x, y; int mp = c->metric_plane; int xstep = c->bpp[mp]; int ystep = c->stride[mp]<<3; int s = c->stride[mp]<<1; /* field stride */ int w = c->metric_w*xstep; if( !fa->buffer || !fb->buffer ) return; /* Shortcut for duplicate fields (e.g. from RFF flag) */ if( fa->buffer == fb->buffer && pa == pb ) { memset( dest, 0, c->metric_len * sizeof(int) ); return; } a = fa->buffer->planes[mp] + pa * c->stride[mp] + c->metric_offset; b = fb->buffer->planes[mp] + pb * c->stride[mp] + c->metric_offset; for( y = c->metric_h; y; y-- ) { for( x = 0; x < w; x += xstep ) { *dest++ = func( a + x, b + x, s ); } a += ystep; b += ystep; } } static struct pullup_field * pullup_make_field_queue( struct pullup_context * c, int len ) { struct pullup_field * head, * f; f = head = calloc( 1, sizeof(struct pullup_field) ); pullup_alloc_metrics( c, f ); for ( ; len > 0; len-- ) { f->next = calloc( 1, sizeof(struct pullup_field) ); f->next->prev = f; f = f->next; pullup_alloc_metrics( c, f ); } f->next = head; head->prev = f; return head; } static void pullup_check_field_queue( struct pullup_context * c ) { if( c->head->next == c->first ) { struct pullup_field *f = calloc( 1, sizeof(struct pullup_field) ); pullup_alloc_metrics( c, f ); f->prev = c->head; f->next = c->first; c->head->next = f; c->first->prev = f; } } static void pullup_copy_field( struct pullup_context * c, struct pullup_buffer * dest, struct pullup_buffer * src, int parity ) { int i, j; unsigned char *d, *s; for( i = 0; i < c->nplanes; i++ ) { s = src->planes[i] + parity*c->stride[i]; d = dest->planes[i] + parity*c->stride[i]; for( j = c->h[i]>>1; j; j-- ) { memcpy( d, s, c->stride[i] ); s += c->stride[i]<<1; d += c->stride[i]<<1; } } } static int pullup_queue_length( struct pullup_field * begin, struct pullup_field * end ) { int count = 1; struct pullup_field * f; if( !begin || !end ) return 0; for( f = begin; f != end; f = f->next ) count++; return count; } static int pullup_find_first_break( struct pullup_field * f, int max ) { int i; for( i = 0; i < max; i++ ) { if( f->breaks & PULLUP_BREAK_RIGHT || f->next->breaks & PULLUP_BREAK_LEFT ) { return i+1; } f = f->next; } return 0; } static void pullup_compute_breaks( struct pullup_context * c, struct pullup_field * f0 ) { int i; struct pullup_field *f1 = f0->next; struct pullup_field *f2 = f1->next; struct pullup_field *f3 = f2->next; int l, max_l=0, max_r=0; if( f0->flags & PULLUP_HAVE_BREAKS ) return; f0->flags |= PULLUP_HAVE_BREAKS; /* Special case when fields are 100% identical */ if( f0->buffer == f2->buffer && f1->buffer != f3->buffer ) { f2->breaks |= PULLUP_BREAK_RIGHT; return; } if( f0->buffer != f2->buffer && f1->buffer == f3->buffer ) { f1->breaks |= PULLUP_BREAK_LEFT; return; } for( i = 0; i < c->metric_len; i++ ) { l = f2->diffs[i] - f3->diffs[i]; if( l > max_l) max_l = l; if( -l > max_r) max_r = -l; } /* Don't get tripped up when differences are mostly quant error */ if( max_l + max_r < 128 ) return; if( max_l > 4*max_r ) f1->breaks |= PULLUP_BREAK_LEFT; if( max_r > 4*max_l ) f2->breaks |= PULLUP_BREAK_RIGHT; } static void pullup_compute_affinity( struct pullup_context * c, struct pullup_field * f ) { int i; int max_l = 0, max_r = 0, l; if( f->flags & PULLUP_HAVE_AFFINITY ) { return; } f->flags |= PULLUP_HAVE_AFFINITY; if( f->buffer == f->next->next->buffer ) { f->affinity = 1; f->next->affinity = 0; f->next->next->affinity = -1; f->next->flags |= PULLUP_HAVE_AFFINITY; f->next->next->flags |= PULLUP_HAVE_AFFINITY; return; } for( i = 0; i < c->metric_len; i++ ) { int lv = f->prev->var[i]; int rv = f->next->var[i]; int v = f->var[i]; int lc = f->comb[i] - (v+lv) + PULLUP_ABS( v-lv ); int rc = f->next->comb[i] - (v+rv) + PULLUP_ABS( v-rv ); lc = (lc > 0) ? lc : 0; rc = (rc > 0) ? rc : 0; l = lc - rc; if( l > max_l ) max_l = l; if( -l > max_r ) max_r = -l; } if( max_l + max_r < 64 ) { return; } if( max_r > 6*max_l ) { f->affinity = -1; } else if( max_l > 6*max_r ) { f->affinity = 1; } } static void pullup_foo( struct pullup_context * c ) { struct pullup_field * f = c->first; int i, n = pullup_queue_length (f, c->last ); for( i = 0; i < n-1; i++ ) { if( i < n-3 ) pullup_compute_breaks( c, f ); pullup_compute_affinity( c, f ); f = f->next; } } static int pullup_decide_frame_length( struct pullup_context * c ) { struct pullup_field *f0 = c->first; struct pullup_field *f1 = f0->next; struct pullup_field *f2 = f1->next; int l; if( pullup_queue_length( c->first, c->last ) < 4 ) { return 0; } pullup_foo( c ); if( f0->affinity == -1 ) return 1; l = pullup_find_first_break( f0, 3 ); if( l == 1 && c->strict_breaks < 0 ) l = 0; switch (l) { case 1: if ( c->strict_breaks < 1 && f0->affinity == 1 && f1->affinity == -1 ) { return 2; } else { return 1; } case 2: /* FIXME: strictly speaking, f0->prev is no longer valid... :) */ if( c->strict_pairs && (f0->prev->breaks & PULLUP_BREAK_RIGHT) && (f2->breaks & PULLUP_BREAK_LEFT) && (f0->affinity != 1 || f1->affinity != -1) ) { return 1; } if( f1->affinity == 1 ) { return 1; } else { return 2; } case 3: if( f2->affinity == 1 ) { return 2; } else { return 3; } default: /* 9 possibilities covered before switch */ if( f1->affinity == 1 ) { return 1; /* covers 6 */ } else if( f1->affinity == -1 ) { return 2; /* covers 6 */ } else if( f2->affinity == -1 ) { /* covers 2 */ if( f0->affinity == 1 ) { return 3; } else { return 1; } } else { return 2; /* the remaining 6 */ } } } static void pullup_print_aff_and_breaks(struct pullup_context * c, struct pullup_field * f ) { int i; struct pullup_field * f0 = f; const char aff_l[] = "+..", aff_r[] = "..+"; hb_log( "affinity: " ); for( i = 0; i < 4; i++ ) { printf( "%c%d%c", aff_l[1+f->affinity], i, aff_r[1+f->affinity] ); f = f->next; } f = f0; printf("\nbreaks: "); for( i = 0; i < 4; i++ ) { printf( "%c%d%c", f->breaks & PULLUP_BREAK_LEFT ? '|' : '.', i, f->breaks & PULLUP_BREAK_RIGHT ? '|' : '.' ); f = f->next; } printf("\n"); } /* * * PULLUP CONTEXT FUNCTIONS * */ struct pullup_context * pullup_alloc_context( void ) { struct pullup_context * c; c = calloc( 1, sizeof(struct pullup_context)) ; return c; } void pullup_preinit_context( struct pullup_context * c ) { c->bpp = calloc( c->nplanes, sizeof(int) ); c->w = calloc( c->nplanes, sizeof(int) ); c->h = calloc( c->nplanes, sizeof(int) ); c->stride = calloc( c->nplanes, sizeof(int) ); c->background = calloc( c->nplanes, sizeof(int) ); } void pullup_init_context( struct pullup_context * c ) { int mp = c->metric_plane; if ( c->nbuffers < 10 ) { c->nbuffers = 10; } c->buffers = calloc( c->nbuffers, sizeof (struct pullup_buffer) ); c->metric_w = (c->w[mp] - ((c->junk_left + c->junk_right) << 3)) >> 3; c->metric_h = (c->h[mp] - ((c->junk_top + c->junk_bottom) << 1)) >> 3; c->metric_offset = c->junk_left*c->bpp[mp] + (c->junk_top<<1)*c->stride[mp]; c->metric_len = c->metric_w * c->metric_h; c->head = pullup_make_field_queue( c, 8 ); c->frame = calloc( 1, sizeof (struct pullup_frame) ); c->frame->ifields = calloc( 3, sizeof (struct pullup_buffer *) ); if( c->format == PULLUP_FMT_Y ) { c->diff = pullup_diff_y; c->comb = pullup_licomb_y; c->var = pullup_var_y; } } void pullup_free_context( struct pullup_context * c ) { struct pullup_field * f; free( c->buffers ); f = c->head->next; while( f != c->head ) { free( f->diffs ); free( f->comb ); f = f->next; free( f->prev ); } free( f->diffs ); free( f->comb ); free(f); free( c->frame ); free( c ); } /* * * PULLUP BUFFER FUNCTIONS * */ static void pullup_alloc_buffer( struct pullup_context * c, struct pullup_buffer * b ) { int i; if( b->planes ) return; b->planes = calloc( c->nplanes, sizeof(unsigned char *) ); b->size = calloc( c->nplanes, sizeof(int) ); for ( i = 0; i < c->nplanes; i++ ) { b->size[i] = c->h[i] * c->stride[i]; b->planes[i] = malloc(b->size[i]); /* Deal with idiotic 128=0 for chroma: */ memset( b->planes[i], c->background[i], b->size[i] ); } } struct pullup_buffer * pullup_lock_buffer( struct pullup_buffer * b, int parity ) { if( !b ) return 0; if( (parity+1) & 1 ) b->lock[0]++; if( (parity+1) & 2 ) b->lock[1]++; return b; } void pullup_release_buffer( struct pullup_buffer * b, int parity ) { if( !b ) return; if( (parity+1) & 1 ) b->lock[0]--; if( (parity+1) & 2 ) b->lock[1]--; } struct pullup_buffer * pullup_get_buffer( struct pullup_context * c, int parity ) { int i; /* Try first to get the sister buffer for the previous field */ if( parity < 2 && c->last && parity != c->last->parity && !c->last->buffer->lock[parity]) { pullup_alloc_buffer( c, c->last->buffer ); return pullup_lock_buffer( c->last->buffer, parity ); } /* Prefer a buffer with both fields open */ for( i = 0; i < c->nbuffers; i++ ) { if( c->buffers[i].lock[0] ) continue; if( c->buffers[i].lock[1] ) continue; pullup_alloc_buffer( c, &c->buffers[i] ); return pullup_lock_buffer( &c->buffers[i], parity ); } if( parity == 2 ) return 0; /* Search for any half-free buffer */ for( i = 0; i < c->nbuffers; i++ ) { if( ((parity+1) & 1) && c->buffers[i].lock[0] ) continue; if( ((parity+1) & 2) && c->buffers[i].lock[1] ) continue; pullup_alloc_buffer( c, &c->buffers[i] ); return pullup_lock_buffer( &c->buffers[i], parity ); } return 0; } /* * * PULLUP FRAME FUNCTIONS * */ struct pullup_frame * pullup_get_frame( struct pullup_context * c ) { int i; struct pullup_frame * fr = c->frame; int n = pullup_decide_frame_length( c ); int aff = c->first->next->affinity; if ( !n ) return 0; if ( fr->lock ) return 0; if ( c->verbose ) { pullup_print_aff_and_breaks(c, c->first); printf("duration: %d \n", n); } fr->lock++; fr->length = n; fr->parity = c->first->parity; fr->buffer = 0; for( i = 0; i < n; i++ ) { /* We cheat and steal the buffer without release+relock */ fr->ifields[i] = c->first->buffer; c->first->buffer = 0; c->first = c->first->next; } if( n == 1 ) { fr->ofields[fr->parity] = fr->ifields[0]; fr->ofields[fr->parity^1] = 0; } else if( n == 2 ) { fr->ofields[fr->parity] = fr->ifields[0]; fr->ofields[fr->parity^1] = fr->ifields[1]; } else if( n == 3 ) { if( aff == 0 ) { aff = (fr->ifields[0] == fr->ifields[1]) ? -1 : 1; } fr->ofields[fr->parity] = fr->ifields[1+aff]; fr->ofields[fr->parity^1] = fr->ifields[1]; } pullup_lock_buffer( fr->ofields[0], 0 ); pullup_lock_buffer( fr->ofields[1], 1 ); if( fr->ofields[0] == fr->ofields[1] ) { fr->buffer = fr->ofields[0]; pullup_lock_buffer(fr->buffer, 2); return fr; } return fr; } void pullup_pack_frame( struct pullup_context * c, struct pullup_frame * fr) { int i; if (fr->buffer) return; if (fr->length < 2) return; /* FIXME: deal with this */ for( i = 0; i < 2; i++ ) { if( fr->ofields[i]->lock[i^1] ) continue; fr->buffer = fr->ofields[i]; pullup_lock_buffer(fr->buffer, 2); pullup_copy_field( c, fr->buffer, fr->ofields[i^1], i^1 ); return; } fr->buffer = pullup_get_buffer( c, 2 ); pullup_copy_field( c, fr->buffer, fr->ofields[0], 0 ); pullup_copy_field( c, fr->buffer, fr->ofields[1], 1 ); } void pullup_release_frame( struct pullup_frame * fr ) { int i; for( i = 0; i < fr->length; i++ ) { pullup_release_buffer( fr->ifields[i], fr->parity ^ (i&1) ); } pullup_release_buffer( fr->ofields[0], 0 ); pullup_release_buffer( fr->ofields[1], 1 ); if (fr->buffer) pullup_release_buffer( fr->buffer, 2 ); fr->lock--; } /* * * PULLUP FIELD FUNCTIONS * */ void pullup_submit_field( struct pullup_context * c, struct pullup_buffer * b, int parity ) { struct pullup_field * f; /* Grow the circular list if needed */ pullup_check_field_queue( c ); /* Cannot have two fields of same parity in a row; drop the new one */ if( c->last && c->last->parity == parity ) return; f = c->head; f->parity = parity; f->buffer = pullup_lock_buffer( b, parity ); f->flags = 0; f->breaks = 0; f->affinity = 0; pullup_compute_metric( c, f, parity, f->prev->prev, parity, c->diff, f->diffs ); pullup_compute_metric( c, parity?f->prev:f, 0, parity?f:f->prev, 1, c->comb, f->comb ); pullup_compute_metric( c, f, parity, f, -1, c->var, f->var ); /* Advance the circular list */ if( !c->first ) c->first = c->head; c->last = c->head; c->head = c->head->next; } void pullup_flush_fields( struct pullup_context * c ) { struct pullup_field * f; for( f = c->first; f && f != c->head; f = f->next ) { pullup_release_buffer( f->buffer, f->parity ); f->buffer = 0; } c->first = c->last = 0; } /* * * DETELECINE FILTER FUNCTIONS * */ static int hb_detelecine_init( hb_filter_object_t * filter, hb_filter_init_t * init ) { filter->private_data = calloc(sizeof(struct hb_filter_private_s), 1); hb_filter_private_t * pv = filter->private_data; struct pullup_context * ctx; pv->input = *init; pv->pullup_ctx = ctx = pullup_alloc_context(); ctx->junk_left = ctx->junk_right = 1; ctx->junk_top = ctx->junk_bottom = 4; ctx->strict_breaks = -1; ctx->metric_plane = 0; ctx->parity = -1; // "Skip" array [top, bottom, left, right] hb_dict_extract_int(&ctx->junk_top, filter->settings, "skip-top"); hb_dict_extract_int(&ctx->junk_bottom, filter->settings, "skip-bottom"); hb_dict_extract_int(&ctx->junk_left, filter->settings, "skip-left"); hb_dict_extract_int(&ctx->junk_right, filter->settings, "skip-right"); hb_dict_extract_int(&ctx->strict_breaks, filter->settings, "strict-breaks"); hb_dict_extract_int(&ctx->metric_plane, filter->settings, "plane"); hb_dict_extract_int(&ctx->parity, filter->settings, "parity"); ctx->format = PULLUP_FMT_Y; ctx->nplanes = 4; pullup_preinit_context( ctx ); ctx->bpp[0] = ctx->bpp[1] = ctx->bpp[2] = 8; ctx->background[1] = ctx->background[2] = 128; ctx->w[0] = init->geometry.width; ctx->h[0] = hb_image_height( init->pix_fmt, init->geometry.height, 0 ); ctx->stride[0] = hb_image_stride( init->pix_fmt, init->geometry.width, 0 ); ctx->w[1] = init->geometry.width >> 1; ctx->h[1] = hb_image_height( init->pix_fmt, init->geometry.height, 1 ); ctx->stride[1] = hb_image_stride( init->pix_fmt, init->geometry.width, 1 ); ctx->w[1] = init->geometry.width >> 1; ctx->h[2] = hb_image_height( init->pix_fmt, init->geometry.height, 2 ); ctx->stride[2] = hb_image_stride( init->pix_fmt, init->geometry.width, 2 ); ctx->w[3] = ((init->geometry.width + 15) / 16) * ((init->geometry.height + 15) / 16); ctx->h[3] = 2; ctx->stride[3] = ctx->w[3]; #if 0 ctx->verbose = 1; #endif pullup_init_context( ctx ); pv->pullup_fakecount = 1; pv->pullup_skipflag = 0; init->job->use_detelecine = 1; pv->output = *init; return 0; } static void hb_detelecine_close( hb_filter_object_t * filter ) { hb_filter_private_t * pv = filter->private_data; if( !pv ) { return; } if( pv->pullup_ctx ) { pullup_free_context( pv->pullup_ctx ); } free( pv ); filter->private_data = NULL; } static int hb_detelecine_work( hb_filter_object_t * filter, hb_buffer_t ** buf_in, hb_buffer_t ** buf_out ) { hb_filter_private_t * pv = filter->private_data; hb_buffer_t * in = *buf_in, * out; if (in->s.flags & HB_BUF_FLAG_EOF) { *buf_out = in; *buf_in = NULL; return HB_FILTER_DONE; } struct pullup_context * ctx = pv->pullup_ctx; struct pullup_buffer * buf; struct pullup_frame * frame; buf = pullup_get_buffer( ctx, 2 ); if( !buf ) { frame = pullup_get_frame( ctx ); pullup_release_frame( frame ); hb_log( "Could not get buffer from pullup!" ); return HB_FILTER_FAILED; } /* Copy input buffer into pullup buffer */ memcpy( buf->planes[0], in->plane[0].data, buf->size[0] ); memcpy( buf->planes[1], in->plane[1].data, buf->size[1] ); memcpy( buf->planes[2], in->plane[2].data, buf->size[2] ); /* Submit buffer fields based on buffer flags. Detelecine assumes BFF when the TFF flag isn't present. */ int parity = 1; if( in->s.flags & PIC_FLAG_TOP_FIELD_FIRST ) { /* Source signals TFF */ parity = 0; } else if( ctx->parity == 0 ) { /* Many non-MPEG-2 sources lack parity flags even though they are TFF, so this allow users to override. */ parity = 0; } if( ctx->parity == 1 ) { /* Override autodetected parity with BFF */ parity = 1; } pullup_submit_field( ctx, buf, parity ); pullup_submit_field( ctx, buf, parity^1 ); if( in->s.flags & PIC_FLAG_REPEAT_FIRST_FIELD ) { pullup_submit_field( ctx, buf, parity ); } pullup_release_buffer( buf, 2 ); /* Get frame and check if pullup is ready */ frame = pullup_get_frame( ctx ); if( !frame ) { if( pv->pullup_fakecount ) { pv->pullup_fakecount--; *buf_in = NULL; *buf_out = in; goto output_frame; } else { goto discard_frame; } } /* Check to see if frame should be dropped */ if( frame->length < 2 ) { pullup_release_frame( frame ); frame = pullup_get_frame( ctx ); if (!frame) { goto discard_frame; } if( frame->length < 2 ) { pullup_release_frame( frame ); if( !(in->s.flags & PIC_FLAG_REPEAT_FIRST_FIELD) ) { goto discard_frame; } frame = pullup_get_frame( ctx ); if( !frame ) { goto discard_frame; } if( frame->length < 2 ) { pullup_release_frame( frame ); goto discard_frame; } } } /* Check to see if frame buffer is ready for export */ if( !frame->buffer ) { pullup_pack_frame( ctx, frame ); } out = hb_frame_buffer_init(pv->output.pix_fmt, in->f.width, in->f.height); out->f.color_prim = pv->output.color_prim; out->f.color_transfer = pv->output.color_transfer; out->f.color_matrix = pv->output.color_matrix; out->f.color_range = pv->output.color_range ; /* Copy pullup frame buffer into output buffer */ memcpy( out->plane[0].data, frame->buffer->planes[0], frame->buffer->size[0] ); memcpy( out->plane[1].data, frame->buffer->planes[1], frame->buffer->size[1] ); memcpy( out->plane[2].data, frame->buffer->planes[2], frame->buffer->size[2] ); pullup_release_frame( frame ); out->s = in->s; *buf_out = out; output_frame: return HB_FILTER_OK; /* This and all discard_frame calls shown above are the result of me restoring the functionality in pullup that huevos_rancheros disabled because HB couldn't handle it. */ discard_frame: return HB_FILTER_OK; }