#include <stdlib.h>
#include <stdio.h>
#include <string.h>
-
#include <math.h>
+#ifdef __WIN32__
+#include <windows.h>
+#define pthread_t HANDLE
+#define pthread_create(t,u,f,d) *(t)=CreateThread(NULL,0,f,d,0,NULL)
+#define pthread_join(t,s) { WaitForSingleObject(t,INFINITE); \
+ CloseHandle(t); }
+#define HAVE_PTHREAD 1
+
+#elif defined(SYS_BEOS)
+#include <kernel/OS.h>
+#define pthread_t thread_id
+#define pthread_create(t,u,f,d) { *(t)=spawn_thread(f,"",10,d); \
+ resume_thread(*(t)); }
+#define pthread_join(t,s) wait_for_thread(t,(long*)s)
+#define HAVE_PTHREAD 1
+
+#elif HAVE_PTHREAD
+#include <pthread.h>
+#endif
+
#include "common/common.h"
#include "common/cpu.h"
#include "ratecontrol.h"
#include "macroblock.h"
+#if VISUALIZE
+#include "common/visualize.h"
+#endif
+
//#define DEBUG_MB_TYPE
//#define DEBUG_DUMP_FRAME
//#define DEBUG_BENCHMARK
#define TIMER_STOP( d )
#endif
+#define NALU_OVERHEAD 5 // startcode + NAL type costs 5 bytes per frame
/****************************************************************************
*
******************************* x264 libs **********************************
*
****************************************************************************/
-static int64_t x264_sqe( uint8_t *pix1, int i_pix_stride, uint8_t *pix2, int i_pix2_stride, int i_width, int i_height )
+static int64_t x264_sqe( x264_t *h, uint8_t *pix1, int i_pix_stride, uint8_t *pix2, int i_pix2_stride, int i_width, int i_height )
{
int64_t i_sqe = 0;
-
int x, y;
- for( y = 0; y < i_height; y++ )
+#define SSD(size) i_sqe += h->pixf.ssd[size]( pix1+y*i_pix_stride+x, i_pix_stride, \
+ pix2+y*i_pix2_stride+x, i_pix2_stride );
+ for( y = 0; y < i_height-15; y += 16 )
{
- for( x = 0; x < i_width; x++ )
- {
- int tmp;
-
- tmp = pix1[y*i_pix_stride+x] - pix2[y*i_pix2_stride+x];
-
- i_sqe += tmp * tmp;
- }
+ for( x = 0; x < i_width-15; x += 16 )
+ SSD(PIXEL_16x16);
+ if( x < i_width-7 )
+ SSD(PIXEL_8x16);
}
- return i_sqe;
-}
+ if( y < i_height-7 )
+ for( x = 0; x < i_width-7; x += 8 )
+ SSD(PIXEL_8x8);
+#undef SSD
+ x264_cpu_restore( h->param.cpu );
-static float x264_mse( int64_t i_sqe, int64_t i_size )
-{
- return (double)i_sqe / ((double)65025.0 * (double)i_size);
+ return i_sqe;
}
static float x264_psnr( int64_t i_sqe, int64_t i_size )
/* Fill "default" values */
-static void x264_slice_header_init( x264_slice_header_t *sh, x264_param_t *param,
+static void x264_slice_header_init( x264_t *h, x264_slice_header_t *sh,
x264_sps_t *sps, x264_pps_t *pps,
- int i_type, int i_idr_pic_id, int i_frame )
+ int i_type, int i_idr_pic_id, int i_frame, int i_qp )
{
+ x264_param_t *param = &h->param;
+ int i;
+
/* First we fill all field */
sh->sps = sps;
sh->pps = pps;
sh->i_type = i_type;
sh->i_first_mb = 0;
+ sh->i_last_mb = h->sps->i_mb_width * h->sps->i_mb_height;
sh->i_pps_id = pps->i_id;
sh->i_frame_num = i_frame;
sh->i_num_ref_idx_l0_active = 1;
sh->i_num_ref_idx_l1_active = 1;
+ sh->b_ref_pic_list_reordering_l0 = h->b_ref_reorder[0];
+ sh->b_ref_pic_list_reordering_l1 = h->b_ref_reorder[1];
+
+ /* If the ref list isn't in the default order, construct reordering header */
+ /* List1 reordering isn't needed yet */
+ if( sh->b_ref_pic_list_reordering_l0 )
+ {
+ int pred_frame_num = i_frame;
+ for( i = 0; i < h->i_ref0; i++ )
+ {
+ int diff = h->fref0[i]->i_frame_num - pred_frame_num;
+ if( diff == 0 )
+ x264_log( h, X264_LOG_ERROR, "diff frame num == 0\n" );
+ sh->ref_pic_list_order[0][i].idc = ( diff > 0 );
+ sh->ref_pic_list_order[0][i].arg = abs( diff ) - 1;
+ pred_frame_num = h->fref0[i]->i_frame_num;
+ }
+ }
+
sh->i_cabac_init_idc = param->i_cabac_init_idc;
- sh->i_qp_delta = 0;
+ sh->i_qp_delta = i_qp - pps->i_pic_init_qp;
sh->b_sp_for_swidth = 0;
sh->i_qs_delta = 0;
- if( param->b_deblocking_filter )
+ /* If effective qp <= 15, deblocking would have no effect anyway */
+ if( param->b_deblocking_filter
+ && ( h->mb.b_variable_qp
+ || 15 < i_qp + X264_MAX(param->i_deblocking_filter_alphac0, param->i_deblocking_filter_beta) ) )
{
sh->i_disable_deblocking_filter_idc = 0;
}
static void x264_slice_header_write( bs_t *s, x264_slice_header_t *sh, int i_nal_ref_idc )
{
+ int i;
+
bs_write_ue( s, sh->i_first_mb );
bs_write_ue( s, sh->i_type + 5 ); /* same type things */
bs_write_ue( s, sh->i_pps_id );
/* ref pic list reordering */
if( sh->i_type != SLICE_TYPE_I )
{
- int b_ref_pic_list_reordering_l0 = 0;
- bs_write1( s, b_ref_pic_list_reordering_l0 );
- if( b_ref_pic_list_reordering_l0 )
+ bs_write1( s, sh->b_ref_pic_list_reordering_l0 );
+ if( sh->b_ref_pic_list_reordering_l0 )
{
- /* FIXME */
+ for( i = 0; i < sh->i_num_ref_idx_l0_active; i++ )
+ {
+ bs_write_ue( s, sh->ref_pic_list_order[0][i].idc );
+ bs_write_ue( s, sh->ref_pic_list_order[0][i].arg );
+
+ }
+ bs_write_ue( s, 3 );
}
}
if( sh->i_type == SLICE_TYPE_B )
{
- int b_ref_pic_list_reordering_l1 = 0;
- bs_write1( s, b_ref_pic_list_reordering_l1 );
- if( b_ref_pic_list_reordering_l1 )
+ bs_write1( s, sh->b_ref_pic_list_reordering_l1 );
+ if( sh->b_ref_pic_list_reordering_l1 )
{
- /* FIXME */
+ for( i = 0; i < sh->i_num_ref_idx_l1_active; i++ )
+ {
+ bs_write_ue( s, sh->ref_pic_list_order[1][i].idc );
+ bs_write_ue( s, sh->ref_pic_list_order[1][i].arg );
+ }
+ bs_write_ue( s, 3 );
}
}
*
****************************************************************************/
-/****************************************************************************
- * x264_encoder_open:
- ****************************************************************************/
-x264_t *x264_encoder_open ( x264_param_t *param )
+static int x264_validate_parameters( x264_t *h )
{
- x264_t *h = x264_malloc( sizeof( x264_t ) );
- int i, i_slice;
-
- /* Create a copy of param */
- memcpy( &h->param, param, sizeof( x264_param_t ) );
- if( h->param.rc.psz_stat_out )
- h->param.rc.psz_stat_out = strdup( h->param.rc.psz_stat_out );
- if( h->param.rc.psz_stat_in )
- h->param.rc.psz_stat_in = strdup( h->param.rc.psz_stat_in );
- if( h->param.rc.psz_rc_eq )
- h->param.rc.psz_rc_eq = strdup( h->param.rc.psz_rc_eq );
-
- /* Check parameters validity */
- if( param->i_width <= 0 || param->i_height <= 0 )
+ if( h->param.i_width <= 0 || h->param.i_height <= 0 )
{
x264_log( h, X264_LOG_ERROR, "invalid width x height (%dx%d)\n",
- param->i_width, param->i_height );
- free( h );
- return NULL;
+ h->param.i_width, h->param.i_height );
+ return -1;
}
- if( param->i_width % 16 != 0 || param->i_height % 16 != 0 )
+ if( h->param.i_width % 16 != 0 || h->param.i_height % 16 != 0 )
{
x264_log( h, X264_LOG_ERROR, "width %% 16 != 0 or height %% 16 != 0 (%dx%d)\n",
- param->i_width, param->i_height );
- free( h );
- return NULL;
+ h->param.i_width, h->param.i_height );
+ return -1;
}
- if( param->i_csp != X264_CSP_I420 )
+ if( h->param.i_csp != X264_CSP_I420 )
{
x264_log( h, X264_LOG_ERROR, "invalid CSP (only I420 supported)\n" );
- free( h );
- return NULL;
+ return -1;
}
- /* Fix parameters values */
- h->param.i_frame_reference = x264_clip3( h->param.i_frame_reference, 1, 15 );
+ h->param.i_threads = x264_clip3( h->param.i_threads, 1, X264_SLICE_MAX );
+ h->param.i_threads = X264_MIN( h->param.i_threads, h->param.i_height / 16 );
+#if !(HAVE_PTHREAD)
+ if( h->param.i_threads > 1 )
+ {
+ x264_log( h, X264_LOG_WARNING, "not compiled with pthread support!\n");
+ x264_log( h, X264_LOG_WARNING, "multislicing anyway, but you won't see any speed gain.\n" );
+ }
+#endif
+
+ if( !h->param.rc.b_cbr && h->param.rc.i_qp_constant == 0 )
+ {
+ h->mb.b_lossless = 1;
+ h->param.analyse.b_transform_8x8 = 0;
+ h->param.i_cqm_preset = X264_CQM_FLAT;
+ h->param.rc.f_ip_factor = 1;
+ h->param.rc.f_pb_factor = 1;
+ h->param.analyse.b_psnr = 0;
+ }
+
+ h->param.i_frame_reference = x264_clip3( h->param.i_frame_reference, 1, 16 );
if( h->param.i_keyint_max <= 0 )
h->param.i_keyint_max = 1;
h->param.i_keyint_min = x264_clip3( h->param.i_keyint_min, 1, h->param.i_keyint_max/2+1 );
+
h->param.i_bframe = x264_clip3( h->param.i_bframe, 0, X264_BFRAME_MAX );
+ h->param.i_bframe_bias = x264_clip3( h->param.i_bframe_bias, -90, 100 );
+ h->param.b_bframe_pyramid = h->param.b_bframe_pyramid && h->param.i_bframe > 1;
+ h->frames.i_delay = h->param.i_bframe;
+ h->frames.i_max_ref0 = h->param.i_frame_reference;
+ h->frames.i_max_ref1 = h->param.b_bframe_pyramid ? 2
+ : h->param.i_bframe ? 1 : 0;
+ h->frames.i_max_dpb = X264_MIN( 16, h->frames.i_max_ref0 + h->frames.i_max_ref1 ) + 1;
h->param.i_deblocking_filter_alphac0 = x264_clip3( h->param.i_deblocking_filter_alphac0, -6, 6 );
h->param.i_deblocking_filter_beta = x264_clip3( h->param.i_deblocking_filter_beta, -6, 6 );
h->param.i_cabac_init_idc = x264_clip3( h->param.i_cabac_init_idc, -1, 2 );
-
- h->param.analyse.i_subpel_refine = x264_clip3( h->param.analyse.i_subpel_refine, 1, 5 );
- if( h->param.analyse.inter & X264_ANALYSE_PSUB8x8 )
- h->param.analyse.inter |= X264_ANALYSE_PSUB16x16;
+ /* don't yet support merging of cabac stats */
+ if( h->param.i_threads > 1 && h->param.i_cabac_init_idc == -1 )
+ h->param.i_cabac_init_idc = 0;
+
+ if( h->param.i_cqm_preset < X264_CQM_FLAT || h->param.i_cqm_preset > X264_CQM_CUSTOM )
+ h->param.i_cqm_preset = X264_CQM_FLAT;
+
+ if( h->param.analyse.i_me_method < X264_ME_DIA ||
+ h->param.analyse.i_me_method > X264_ME_ESA )
+ h->param.analyse.i_me_method = X264_ME_HEX;
+ if( h->param.analyse.i_me_range < 4 )
+ h->param.analyse.i_me_range = 4;
+ if( h->param.analyse.i_me_range > 16 && h->param.analyse.i_me_method <= X264_ME_HEX )
+ h->param.analyse.i_me_range = 16;
+ h->param.analyse.i_subpel_refine = x264_clip3( h->param.analyse.i_subpel_refine, 1, 6 );
+ if( !(h->param.analyse.inter & X264_ANALYSE_PSUB16x16) )
+ h->param.analyse.inter &= ~X264_ANALYSE_PSUB8x8;
+ if( !h->param.analyse.b_transform_8x8 )
+ {
+ h->param.analyse.inter &= ~X264_ANALYSE_I8x8;
+ h->param.analyse.intra &= ~X264_ANALYSE_I8x8;
+ }
+ h->param.analyse.i_chroma_qp_offset = x264_clip3(h->param.analyse.i_chroma_qp_offset, -12, 12);
+ h->param.analyse.i_mv_range = x264_clip3(h->param.analyse.i_mv_range, 32, 2048);
if( h->param.rc.f_qblur < 0 )
h->param.rc.f_qblur = 0;
if( h->param.rc.f_complexity_blur < 0 )
h->param.rc.f_complexity_blur = 0;
+ h->param.rc.i_qp_constant = x264_clip3(h->param.rc.i_qp_constant, 0, 51);
+
+ return 0;
+}
+
+/****************************************************************************
+ * x264_encoder_open:
+ ****************************************************************************/
+x264_t *x264_encoder_open ( x264_param_t *param )
+{
+ x264_t *h = x264_malloc( sizeof( x264_t ) );
+ int i;
+
+ memset( h, 0, sizeof( x264_t ) );
+
+ /* Create a copy of param */
+ memcpy( &h->param, param, sizeof( x264_param_t ) );
+
+ if( x264_validate_parameters( h ) < 0 )
+ {
+ x264_free( h );
+ return NULL;
+ }
+
+ if( h->param.psz_cqm_file )
+ if( x264_cqm_parse_file( h, h->param.psz_cqm_file ) < 0 )
+ {
+ x264_free( h );
+ return NULL;
+ }
+
+ if( h->param.rc.psz_stat_out )
+ h->param.rc.psz_stat_out = strdup( h->param.rc.psz_stat_out );
+ if( h->param.rc.psz_stat_in )
+ h->param.rc.psz_stat_in = strdup( h->param.rc.psz_stat_in );
+ if( h->param.rc.psz_rc_eq )
+ h->param.rc.psz_rc_eq = strdup( h->param.rc.psz_rc_eq );
/* VUI */
if( h->param.vui.i_sar_width > 0 && h->param.vui.i_sar_height > 0 )
/* Init x264_t */
h->out.i_nal = 0;
- h->out.i_bitstream = 1000000; /* FIXME estimate max size (idth/height) */
+ h->out.i_bitstream = X264_MAX( 1000000, h->param.i_width * h->param.i_height * 1.7
+ * ( h->param.rc.b_cbr ? pow( 0.5, h->param.rc.i_qp_min )
+ : pow( 0.5, h->param.rc.i_qp_constant ) * X264_MAX( 1, h->param.rc.f_ip_factor )));
h->out.p_bitstream = x264_malloc( h->out.i_bitstream );
h->i_frame = 0;
h->i_frame_num = 0;
- h->i_poc = 0;
h->i_idr_pic_id = 0;
h->sps = &h->sps_array[0];
h->pps = &h->pps_array[0];
x264_pps_init( h->pps, 0, &h->param, h->sps);
+
+ x264_cqm_init( h );
h->mb.i_mb_count = h->sps->i_mb_width * h->sps->i_mb_height;
/* Init frames. */
- for( i = 0; i < X264_BFRAME_MAX + 1; i++ )
+ for( i = 0; i < X264_BFRAME_MAX + 3; i++ )
{
h->frames.current[i] = NULL;
h->frames.next[i] = NULL;
h->frames.unused[i] = NULL;
}
- for( i = 0; i < 1 + h->param.i_bframe; i++ )
+ for( i = 0; i < 1 + h->frames.i_delay; i++ )
{
h->frames.unused[i] = x264_frame_new( h );
}
- for( i = 0; i < 2 + h->param.i_frame_reference; i++ )
+ for( i = 0; i < h->frames.i_max_dpb; i++ )
{
- /* 2 = 1 backward ref + 1 fdec */
h->frames.reference[i] = x264_frame_new( h );
}
+ h->frames.reference[h->frames.i_max_dpb] = NULL;
h->frames.i_last_idr = - h->param.i_keyint_max;
h->frames.i_input = 0;
+ h->frames.last_nonb = NULL;
h->i_ref0 = 0;
h->i_ref1 = 0;
/* init CPU functions */
x264_predict_16x16_init( h->param.cpu, h->predict_16x16 );
+ x264_predict_8x8c_init( h->param.cpu, h->predict_8x8c );
x264_predict_8x8_init( h->param.cpu, h->predict_8x8 );
x264_predict_4x4_init( h->param.cpu, h->predict_4x4 );
x264_mc_init( h->param.cpu, &h->mc );
x264_csp_init( h->param.cpu, h->param.i_csp, &h->csp );
+ memcpy( h->pixf.mbcmp,
+ ( h->mb.b_lossless || h->param.analyse.i_subpel_refine <= 1 ) ? h->pixf.sad : h->pixf.satd,
+ sizeof(h->pixf.mbcmp) );
+
/* rate control */
if( x264_ratecontrol_new( h ) < 0 )
return NULL;
- h->i_last_intra_size = 0;
- h->i_last_inter_size = 0;
-
- /* stat */
- for( i_slice = 0; i_slice < 5; i_slice++ )
- {
- h->stat.i_slice_count[i_slice] = 0;
- h->stat.i_slice_size[i_slice] = 0;
- h->stat.i_slice_qp[i_slice] = 0;
-
- h->stat.i_sqe_global[i_slice] = 0;
- h->stat.f_psnr_average[i_slice] = 0.0;
- h->stat.f_psnr_mean_y[i_slice] = h->stat.f_psnr_mean_u[i_slice] = h->stat.f_psnr_mean_v[i_slice] = 0.0;
-
- for( i = 0; i < 18; i++ )
- h->stat.i_mb_count[i_slice][i] = 0;
- }
-
x264_log( h, X264_LOG_INFO, "using cpu capabilities %s%s%s%s%s%s\n",
param->cpu&X264_CPU_MMX ? "MMX " : "",
param->cpu&X264_CPU_MMXEXT ? "MMXEXT " : "",
param->cpu&X264_CPU_3DNOW ? "3DNow! " : "",
param->cpu&X264_CPU_ALTIVEC ? "Altivec " : "" );
+ h->thread[0] = h;
+ for( i = 1; i < param->i_threads; i++ )
+ h->thread[i] = x264_malloc( sizeof(x264_t) );
+
return h;
}
+/****************************************************************************
+ * x264_encoder_reconfig:
+ ****************************************************************************/
+int x264_encoder_reconfig( x264_t *h, x264_param_t *param )
+{
+ h->param.i_bframe_bias = param->i_bframe_bias;
+ h->param.i_deblocking_filter_alphac0 = param->i_deblocking_filter_alphac0;
+ h->param.i_deblocking_filter_beta = param->i_deblocking_filter_beta;
+ h->param.analyse.i_me_method = param->analyse.i_me_method;
+ h->param.analyse.i_me_range = param->analyse.i_me_range;
+ h->param.analyse.i_subpel_refine = param->analyse.i_subpel_refine;
+ h->param.analyse.intra = param->analyse.intra;
+ h->param.analyse.inter = param->analyse.inter;
+ if( h->sps->b_direct8x8_inference && h->param.i_bframe
+ && h->param.analyse.i_direct_mv_pred == X264_DIRECT_PRED_TEMPORAL )
+ h->param.analyse.inter &= ~X264_ANALYSE_PSUB8x8;
+
+ memcpy( h->pixf.mbcmp,
+ ( h->mb.b_lossless || h->param.analyse.i_subpel_refine <= 1 ) ? h->pixf.sad : h->pixf.satd,
+ sizeof(h->pixf.mbcmp) );
+
+ return x264_validate_parameters( h );
+}
+
/* internal usage */
static void x264_nal_start( x264_t *h, int i_type, int i_ref_idc )
{
/* Put SPS and PPS */
if( h->i_frame == 0 )
{
+ /* identify ourself */
+ x264_nal_start( h, NAL_SEI, NAL_PRIORITY_DISPOSABLE );
+ x264_sei_version_write( &h->out.bs );
+ x264_nal_end( h );
+
/* generate sequence parameters */
x264_nal_start( h, NAL_SPS, NAL_PRIORITY_HIGHEST );
x264_sps_write( &h->out.bs, h->sps );
static void x264_frame_put( x264_frame_t *list[X264_BFRAME_MAX], x264_frame_t *frame )
{
int i = 0;
-
- while( list[i] != NULL ) i++;
-
+ while( list[i] ) i++;
list[i] = frame;
}
+static void x264_frame_push( x264_frame_t *list[X264_BFRAME_MAX], x264_frame_t *frame )
+{
+ int i = 0;
+ while( list[i] ) i++;
+ while( i-- )
+ list[i+1] = list[i];
+ list[0] = frame;
+}
+
static x264_frame_t *x264_frame_get( x264_frame_t *list[X264_BFRAME_MAX+1] )
{
x264_frame_t *frame = list[0];
int i;
-
- for( i = 0; i < X264_BFRAME_MAX; i++ )
- {
+ for( i = 0; list[i]; i++ )
list[i] = list[i+1];
- }
- list[X264_BFRAME_MAX] = NULL;
-
return frame;
}
-/* Sort queued frames into input order */
-static void x264_frame_sort( x264_frame_t *list[X264_BFRAME_MAX+1] )
+static void x264_frame_sort( x264_frame_t *list[X264_BFRAME_MAX+1], int b_dts )
{
int i, b_ok;
do {
b_ok = 1;
- for( i = 0; i < X264_BFRAME_MAX && list[i+1]; i++ )
+ for( i = 0; list[i+1]; i++ )
{
- if( list[i]->i_frame > list[i+1]->i_frame )
+ int dtype = list[i]->i_type - list[i+1]->i_type;
+ int dtime = list[i]->i_frame - list[i+1]->i_frame;
+ int swap = b_dts ? dtype > 0 || ( dtype == 0 && dtime > 0 )
+ : dtime > 0;
+ if( swap )
{
x264_frame_t *tmp = list[i+1];
list[i+1] = list[i];
}
} while( !b_ok );
}
+#define x264_frame_sort_dts(list) x264_frame_sort(list, 1)
+#define x264_frame_sort_pts(list) x264_frame_sort(list, 0)
-static inline void x264_reference_build_list( x264_t *h, int i_poc )
+static inline void x264_reference_build_list( x264_t *h, int i_poc, int i_slice_type )
{
int i;
int b_ok;
/* build ref list 0/1 */
h->i_ref0 = 0;
h->i_ref1 = 0;
- for( i = 1; i < h->param.i_frame_reference+2; i++ )
+ for( i = 1; i < h->frames.i_max_dpb; i++ )
{
if( h->frames.reference[i]->i_poc >= 0 )
{
}
}
}
+
/* Order ref0 from higher to lower poc */
do
{
}
} while( !b_ok );
- if( h->i_ref0 > h->param.i_frame_reference )
- {
- h->i_ref0 = h->param.i_frame_reference;
- }
- if( h->i_ref1 > 1 )
+ /* In the standard, a P-frame's ref list is sorted by frame_num.
+ * We use POC, but check whether explicit reordering is needed */
+ h->b_ref_reorder[0] =
+ h->b_ref_reorder[1] = 0;
+ if( i_slice_type == SLICE_TYPE_P )
{
- h->i_ref1 = 1;
+ for( i = 0; i < h->i_ref0 - 1; i++ )
+ if( h->fref0[i]->i_frame_num < h->fref0[i+1]->i_frame_num )
+ {
+ h->b_ref_reorder[0] = 1;
+ break;
+ }
}
+
+ h->i_ref1 = X264_MIN( h->i_ref1, h->frames.i_max_ref1 );
+ h->i_ref0 = X264_MIN( h->i_ref0, h->frames.i_max_ref0 );
+ h->i_ref0 = X264_MIN( h->i_ref0, 16 - h->i_ref1 );
}
static inline void x264_reference_update( x264_t *h )
int i;
/* apply deblocking filter to the current decoded picture */
- if( h->param.b_deblocking_filter )
+ if( !h->sh.i_disable_deblocking_filter_idc )
{
TIMER_START( i_mtime_filter );
x264_frame_deblocking_filter( h, h->sh.i_type );
/* expand border of filtered images */
x264_frame_expand_border_filtered( h->fdec );
+ /* move lowres copy of the image to the ref frame */
+ for( i = 0; i < 4; i++)
+ {
+ uint8_t *tmp = h->fdec->lowres[i];
+ h->fdec->lowres[i] = h->fenc->lowres[i];
+ h->fenc->lowres[i] = tmp;
+ }
+
+ /* adaptive B decision needs a pointer, since it can't use the ref lists */
+ if( h->sh.i_type != SLICE_TYPE_B )
+ h->frames.last_nonb = h->fdec;
+
/* move frame in the buffer */
- h->fdec = h->frames.reference[h->param.i_frame_reference+1];
- for( i = h->param.i_frame_reference+1; i > 0; i-- )
+ /* FIXME: override to forget earliest pts, not earliest dts */
+ h->fdec = h->frames.reference[h->frames.i_max_dpb-1];
+ for( i = h->frames.i_max_dpb-1; i > 0; i-- )
{
h->frames.reference[i] = h->frames.reference[i-1];
}
int i;
/* reset ref pictures */
- for( i = 1; i < h->param.i_frame_reference+2; i++ )
+ for( i = 1; i < h->frames.i_max_dpb; i++ )
{
h->frames.reference[i]->i_poc = -1;
}
/* ------------------------ Create slice header ----------------------- */
if( i_nal_type == NAL_SLICE_IDR )
{
- x264_slice_header_init( &h->sh, &h->param, h->sps, h->pps, i_slice_type, h->i_idr_pic_id, h->i_frame_num - 1 );
+ x264_slice_header_init( h, &h->sh, h->sps, h->pps, i_slice_type, h->i_idr_pic_id, h->i_frame_num - 1, i_global_qp );
/* increment id */
h->i_idr_pic_id = ( h->i_idr_pic_id + 1 ) % 65536;
}
else
{
- x264_slice_header_init( &h->sh, &h->param, h->sps, h->pps, i_slice_type, -1, h->i_frame_num - 1 );
+ x264_slice_header_init( h, &h->sh, h->sps, h->pps, i_slice_type, -1, h->i_frame_num - 1, i_global_qp );
/* always set the real higher num of ref frame used */
h->sh.b_num_ref_idx_override = 1;
h->sh.i_num_ref_idx_l1_active = h->i_ref1 <= 0 ? 1 : h->i_ref1;
}
+ h->fdec->i_frame_num = h->sh.i_frame_num;
+
if( h->sps->i_poc_type == 0 )
{
h->sh.i_poc_lsb = h->fdec->i_poc & ( (1 << h->sps->i_log2_max_poc_lsb) - 1 );
/* Nothing to do ? */
}
- /* global qp */
- h->sh.i_qp_delta = i_global_qp - h->pps->i_pic_init_qp;
-
/* get adapative cabac model if needed */
if( h->param.b_cabac )
{
x264_macroblock_slice_init( h );
}
-static inline void x264_slice_write( x264_t *h, int i_nal_type, int i_nal_ref_idc )
+static int x264_slice_write( x264_t *h )
{
int i_skip;
int mb_xy;
- int i;
- /* Init stats */
- h->stat.frame.i_hdr_bits =
- h->stat.frame.i_itex_bits =
- h->stat.frame.i_ptex_bits =
- h->stat.frame.i_misc_bits =
- h->stat.frame.i_intra_cost =
- h->stat.frame.i_inter_cost = 0;
- for( i = 0; i < 18; i++ )
- h->stat.frame.i_mb_count[i] = 0;
+ /* init stats */
+ memset( &h->stat.frame, 0, sizeof(h->stat.frame) );
/* Slice */
- x264_nal_start( h, i_nal_type, i_nal_ref_idc );
+ x264_nal_start( h, h->i_nal_type, h->i_nal_ref_idc );
/* Slice header */
- x264_slice_header_write( &h->out.bs, &h->sh, i_nal_ref_idc );
+ x264_slice_header_write( &h->out.bs, &h->sh, h->i_nal_ref_idc );
if( h->param.b_cabac )
{
/* alignment needed */
h->mb.i_last_qp = h->pps->i_pic_init_qp + h->sh.i_qp_delta;
h->mb.i_last_dqp = 0;
- for( mb_xy = 0, i_skip = 0; mb_xy < h->sps->i_mb_width * h->sps->i_mb_height; mb_xy++ )
+ for( mb_xy = h->sh.i_first_mb, i_skip = 0; mb_xy < h->sh.i_last_mb; mb_xy++ )
{
const int i_mb_y = mb_xy / h->sps->i_mb_width;
const int i_mb_x = mb_xy % h->sps->i_mb_width;
TIMER_STOP( i_mtime_encode );
TIMER_START( i_mtime_write );
- if( IS_SKIP( h->mb.i_type ) )
+ if( h->param.b_cabac )
{
- if( h->param.b_cabac )
- {
- if( mb_xy > 0 )
- {
- /* not end_of_slice_flag */
- x264_cabac_encode_terminal( &h->cabac, 0 );
- }
+ if( mb_xy > h->sh.i_first_mb )
+ x264_cabac_encode_terminal( &h->cabac, 0 );
+ if( IS_SKIP( h->mb.i_type ) )
x264_cabac_mb_skip( h, 1 );
- }
else
{
- i_skip++;
+ if( h->sh.i_type != SLICE_TYPE_I )
+ x264_cabac_mb_skip( h, 0 );
+ x264_macroblock_write_cabac( h, &h->cabac );
}
}
else
{
- if( h->param.b_cabac )
- {
- if( mb_xy > 0 )
- {
- /* not end_of_slice_flag */
- x264_cabac_encode_terminal( &h->cabac, 0 );
- }
- if( h->sh.i_type != SLICE_TYPE_I )
- {
- x264_cabac_mb_skip( h, 0 );
- }
- x264_macroblock_write_cabac( h, &h->out.bs );
- }
+ if( IS_SKIP( h->mb.i_type ) )
+ i_skip++;
else
{
if( h->sh.i_type != SLICE_TYPE_I )
}
TIMER_STOP( i_mtime_write );
+#if VISUALIZE
+ if( h->param.b_visualize )
+ x264_visualize_mb( h );
+#endif
+
/* save cache */
x264_macroblock_cache_save( h );
h->stat.frame.i_mb_count[h->mb.i_type]++;
+ if( h->mb.i_cbp_luma && !IS_INTRA(h->mb.i_type) )
+ {
+ h->stat.frame.i_mb_count_8x8dct[0] ++;
+ h->stat.frame.i_mb_count_8x8dct[1] += h->mb.b_transform_8x8;
+ }
- x264_ratecontrol_mb(h, bs_pos(&h->out.bs) - mb_spos);
+ if( h->mb.b_variable_qp )
+ x264_ratecontrol_mb(h, bs_pos(&h->out.bs) - mb_spos);
}
if( h->param.b_cabac )
/* Compute misc bits */
h->stat.frame.i_misc_bits = bs_pos( &h->out.bs )
+ + NALU_OVERHEAD * 8
- h->stat.frame.i_itex_bits
- h->stat.frame.i_ptex_bits
- h->stat.frame.i_hdr_bits;
+
+ return 0;
+}
+
+static inline int x264_slices_write( x264_t *h )
+{
+ int i_frame_size;
+
+#if VISUALIZE
+ if( h->param.b_visualize )
+ x264_visualize_init( h );
+#endif
+
+ if( h->param.i_threads == 1 )
+ {
+ x264_slice_write( h );
+ i_frame_size = h->out.nal[h->out.i_nal-1].i_payload;
+ }
+ else
+ {
+ int i_nal = h->out.i_nal;
+ int i_bs_size = h->out.i_bitstream / h->param.i_threads;
+ int i;
+ /* duplicate contexts */
+ for( i = 0; i < h->param.i_threads; i++ )
+ {
+ x264_t *t = h->thread[i];
+ if( i > 0 )
+ {
+ memcpy( t, h, sizeof(x264_t) );
+ t->out.p_bitstream += i*i_bs_size;
+ bs_init( &t->out.bs, t->out.p_bitstream, i_bs_size );
+ }
+ t->sh.i_first_mb = (i * h->sps->i_mb_height / h->param.i_threads) * h->sps->i_mb_width;
+ t->sh.i_last_mb = ((i+1) * h->sps->i_mb_height / h->param.i_threads) * h->sps->i_mb_width;
+ t->out.i_nal = i_nal + i;
+ }
+
+ /* dispatch */
+#if HAVE_PTHREAD
+ {
+ pthread_t handles[X264_SLICE_MAX];
+ void *status;
+ for( i = 0; i < h->param.i_threads; i++ )
+ pthread_create( &handles[i], NULL, (void*)x264_slice_write, (void*)h->thread[i] );
+ for( i = 0; i < h->param.i_threads; i++ )
+ pthread_join( handles[i], &status );
+ }
+#else
+ for( i = 0; i < h->param.i_threads; i++ )
+ x264_slice_write( h->thread[i] );
+#endif
+
+ /* merge contexts */
+ i_frame_size = h->out.nal[i_nal].i_payload;
+ for( i = 1; i < h->param.i_threads; i++ )
+ {
+ int j;
+ x264_t *t = h->thread[i];
+ h->out.nal[i_nal+i] = t->out.nal[i_nal+i];
+ i_frame_size += t->out.nal[i_nal+i].i_payload;
+ // all entries in stat.frame are ints
+ for( j = 0; j < sizeof(h->stat.frame) / sizeof(int); j++ )
+ ((int*)&h->stat.frame)[j] += ((int*)&t->stat.frame)[j];
+ }
+ h->out.i_nal = i_nal + h->param.i_threads;
+ }
+
+#if VISUALIZE
+ if( h->param.b_visualize )
+ {
+ x264_visualize_show( h );
+ x264_visualize_close( h );
+ }
+#endif
+
+ return i_frame_size;
}
/****************************************************************************
****************************************************************************/
int x264_encoder_encode( x264_t *h,
x264_nal_t **pp_nal, int *pi_nal,
- x264_picture_t *pic )
+ x264_picture_t *pic_in,
+ x264_picture_t *pic_out )
{
x264_frame_t *frame_psnr = h->fdec; /* just to keep the current decoded frame for psnr calculation */
int i_nal_type;
int i_nal_ref_idc;
int i_slice_type;
+ int i_frame_size;
int i;
/* ------------------- Setup new frame from picture -------------------- */
TIMER_START( i_mtime_encode_frame );
- if( pic != NULL )
+ if( pic_in != NULL )
{
/* 1: Copy the picture to a frame and move it to a buffer */
x264_frame_t *fenc = x264_frame_get( h->frames.unused );
- x264_frame_copy_picture( h, fenc, pic );
+ x264_frame_copy_picture( h, fenc, pic_in );
fenc->i_frame = h->frames.i_input++;
x264_frame_put( h->frames.next, fenc );
- if( h->frames.i_input <= h->param.i_bframe )
+ x264_frame_init_lowres( h->param.cpu, fenc );
+
+ if( h->frames.i_input <= h->frames.i_delay )
{
/* Nothing yet to encode */
/* waiting for filling bframe buffer */
- pic->i_type = X264_TYPE_AUTO;
+ pic_out->i_type = X264_TYPE_AUTO;
return 0;
}
}
if( h->frames.current[0] == NULL )
{
+ int bframes = 0;
/* 2: Select frame types */
- x264_frame_t *frm;
- int bframes;
-
if( h->frames.next[0] == NULL )
return 0;
- if( h->param.rc.b_stat_read )
- {
- /* Use the frame types from the first pass */
- for( i = 0; h->frames.next[i] != NULL; i++ )
- h->frames.next[i]->i_type =
- x264_ratecontrol_slice_type( h, h->frames.next[i]->i_frame );
- }
+ x264_slicetype_decide( h );
- for( bframes = 0;; bframes++ )
+ /* 3: move some B-frames and 1 non-B to encode queue */
+ while( IS_X264_TYPE_B( h->frames.next[bframes]->i_type ) )
+ bframes++;
+ x264_frame_put( h->frames.current, x264_frame_get( &h->frames.next[bframes] ) );
+ /* FIXME: when max B-frames > 3, BREF may no longer be centered after GOP closing */
+ if( h->param.b_bframe_pyramid && bframes > 1 )
{
- frm = h->frames.next[bframes];
-
- /* Limit GOP size */
- if( frm->i_frame - h->frames.i_last_idr >= h->param.i_keyint_max )
- {
- if( frm->i_type == X264_TYPE_AUTO )
- frm->i_type = X264_TYPE_IDR;
- if( frm->i_type != X264_TYPE_IDR )
- x264_log( h, X264_LOG_ERROR, "specified frame type (%d) is not compatible with keyframe interval\n", frm->i_type );
- }
- if( frm->i_type == X264_TYPE_IDR )
- {
- h->i_poc = 0;
- h->i_frame_num = 0;
-
- /* Close GOP */
- if( bframes > 0 )
- {
- bframes--;
- h->frames.next[bframes]->i_type = X264_TYPE_P;
- }
- }
-
- if( bframes == h->param.i_bframe
- || h->frames.next[bframes+1] == NULL )
- {
- if( frm->i_type == X264_TYPE_B )
- x264_log( h, X264_LOG_ERROR, "specified frame type is not compatible with max B-frames\n" );
- if( frm->i_type == X264_TYPE_AUTO
- || frm->i_type == X264_TYPE_B )
- frm->i_type = X264_TYPE_P;
- }
-
- frm->i_poc = h->i_poc;
- h->i_poc += 2;
-
- if( frm->i_type != X264_TYPE_AUTO && frm->i_type != X264_TYPE_B )
- break;
-
- frm->i_type = X264_TYPE_B;
+ x264_frame_t *mid = x264_frame_get( &h->frames.next[bframes/2] );
+ mid->i_type = X264_TYPE_BREF;
+ x264_frame_put( h->frames.current, mid );
+ bframes--;
}
-
- /* 3: move some B-frames and 1 non-B to encode queue */
- x264_frame_put( h->frames.current, h->frames.next[bframes] );
while( bframes-- )
x264_frame_put( h->frames.current, x264_frame_get( h->frames.next ) );
- x264_frame_get( h->frames.next );
}
TIMER_STOP( i_mtime_encode_frame );
{
/* Nothing yet to encode (ex: waiting for I/P with B frames) */
/* waiting for filling bframe buffer */
- pic->i_type = X264_TYPE_AUTO;
+ pic_out->i_type = X264_TYPE_AUTO;
return 0;
}
i_nal_ref_idc = NAL_PRIORITY_HIGH; /* Not completely true but for now it is (as all I/P are kept as ref)*/
i_slice_type = SLICE_TYPE_P;
}
+ else if( h->fenc->i_type == X264_TYPE_BREF )
+ {
+ i_nal_type = NAL_SLICE;
+ i_nal_ref_idc = NAL_PRIORITY_HIGH; /* maybe add MMCO to forget it? -> low */
+ i_slice_type = SLICE_TYPE_B;
+ }
else /* B frame */
{
i_nal_type = NAL_SLICE;
i_slice_type = SLICE_TYPE_B;
}
- pic->i_type =
+ h->fdec->i_poc =
+ h->fenc->i_poc = 2 * (h->fenc->i_frame - h->frames.i_last_idr);
h->fdec->i_type = h->fenc->i_type;
- h->fdec->i_poc = h->fenc->i_poc;
h->fdec->i_frame = h->fenc->i_frame;
+ h->fenc->b_kept_as_ref =
+ h->fdec->b_kept_as_ref = i_nal_ref_idc != NAL_PRIORITY_DISPOSABLE;
/* ------------------- Init ----------------------------- */
+ /* build ref list 0/1 */
+ x264_reference_build_list( h, h->fdec->i_poc, i_slice_type );
+
/* Init the rate control */
- x264_ratecontrol_start( h, i_slice_type );
+ x264_ratecontrol_start( h, i_slice_type, h->fenc->i_qpplus1 );
i_global_qp = x264_ratecontrol_qp( h );
- if( h->fenc->i_qpplus1 > 0 )
- {
- i_global_qp = x264_clip3( h->fenc->i_qpplus1 - 1, 0, 51 );
- }
- /* build ref list 0/1 */
- x264_reference_build_list( h, h->fdec->i_poc );
+ pic_out->i_qpplus1 =
+ h->fdec->i_qpplus1 = i_global_qp + 1;
+
+ if( i_slice_type == SLICE_TYPE_B )
+ x264_macroblock_bipred_init( h );
/* increase frame num but only once for B frame */
if( i_slice_type != SLICE_TYPE_B || h->sh.i_type != SLICE_TYPE_B )
h->out.i_nal = 0;
bs_init( &h->out.bs, h->out.p_bitstream, h->out.i_bitstream );
+ if(h->param.b_aud){
+ int pic_type;
+
+ if(i_slice_type == SLICE_TYPE_I)
+ pic_type = 0;
+ else if(i_slice_type == SLICE_TYPE_P)
+ pic_type = 1;
+ else if(i_slice_type == SLICE_TYPE_B)
+ pic_type = 2;
+ else
+ pic_type = 7;
+
+ x264_nal_start(h, NAL_AUD, NAL_PRIORITY_DISPOSABLE);
+ bs_write(&h->out.bs, 3, pic_type);
+ bs_rbsp_trailing(&h->out.bs);
+ x264_nal_end(h);
+ }
+
+ h->i_nal_type = i_nal_type;
+ h->i_nal_ref_idc = i_nal_ref_idc;
+
/* Write SPS and PPS */
if( i_nal_type == NAL_SLICE_IDR )
{
+ if( h->fenc->i_frame == 0 )
+ {
+ /* identify ourself */
+ x264_nal_start( h, NAL_SEI, NAL_PRIORITY_DISPOSABLE );
+ x264_sei_version_write( &h->out.bs );
+ x264_nal_end( h );
+ }
+
/* generate sequence parameters */
x264_nal_start( h, NAL_SPS, NAL_PRIORITY_HIGHEST );
x264_sps_write( &h->out.bs, h->sps );
x264_nal_end( h );
}
- /* Write the slice */
- x264_slice_write( h, i_nal_type, i_nal_ref_idc );
+ /* Write frame */
+ i_frame_size = x264_slices_write( h );
/* restore CPU state (before using float again) */
x264_cpu_restore( h->param.cpu );
- /* XXX: this scene cut won't work with B frame (it may never create IDR -> bad) */
if( i_slice_type == SLICE_TYPE_P && !h->param.rc.b_stat_read
&& h->param.i_scenecut_threshold >= 0 )
{
- int i_mb_i = h->stat.frame.i_mb_count[I_4x4] + h->stat.frame.i_mb_count[I_16x16];
- int i_mb_p = h->stat.frame.i_mb_count[P_L0] + h->stat.frame.i_mb_count[P_8x8];
- int i_mb_s = h->stat.frame.i_mb_count[P_SKIP];
+ const int *mbs = h->stat.frame.i_mb_count;
+ int i_mb_i = mbs[I_16x16] + mbs[I_8x8] + mbs[I_4x4];
+ int i_mb_p = mbs[P_L0] + mbs[P_8x8];
+ int i_mb_s = mbs[P_SKIP];
int i_mb = h->sps->i_mb_width * h->sps->i_mb_height;
int64_t i_inter_cost = h->stat.frame.i_inter_cost;
int64_t i_intra_cost = h->stat.frame.i_intra_cost;
float f_bias;
int i_gop_size = h->fenc->i_frame - h->frames.i_last_idr;
float f_thresh_max = h->param.i_scenecut_threshold / 100.0;
- /* ratio of 10 pulled out of thin air */
+ /* magic numbers pulled out of thin air */
float f_thresh_min = f_thresh_max * h->param.i_keyint_min
/ ( h->param.i_keyint_max * 4 );
if( h->param.i_keyint_min == h->param.i_keyint_max )
/* Bad P will be reencoded as I */
if( i_mb_s < i_mb &&
i_inter_cost >= (1.0 - f_bias) * i_intra_cost )
- /* i_mb_i >= (1.0 - f_bias) * i_mb ) */
- /*
- h->out.nal[h->out.i_nal-1].i_payload > h->i_last_intra_size +
- h->i_last_intra_size * (3+h->i_last_intra_qp - i_global_qp) / 16 &&
- i_mb_count[I_4x4] + i_mb_count[I_16x16] > i_mb_count[P_SKIP] + i_mb_count[P_L0]/2 &&
- h->out.nal[h->out.i_nal-1].i_payload > 2 * h->i_last_inter_size &&
- h->frames.i_last_i > 4)*/
{
+ int b;
- x264_log( h, X264_LOG_DEBUG, "scene cut at %d size=%d Icost:%.0f Pcost:%.0f ratio:%.3f bias=%.3f lastIDR:%d (I:%d P:%d Skip:%d)\n",
+ x264_log( h, X264_LOG_DEBUG, "scene cut at %d Icost:%.0f Pcost:%.0f ratio:%.3f bias=%.3f lastIDR:%d (I:%d P:%d S:%d)\n",
h->fenc->i_frame,
- h->out.nal[h->out.i_nal-1].i_payload,
(double)i_intra_cost, (double)i_inter_cost,
(double)i_inter_cost / i_intra_cost,
f_bias, i_gop_size,
/* Restore frame num */
h->i_frame_num--;
- for( i = 0; h->frames.current[i] && h->frames.current[i]->i_type == X264_TYPE_B; i++ );
- if( i > 0 )
+ for( b = 0; h->frames.current[b] && IS_X264_TYPE_B( h->frames.current[b]->i_type ); b++ );
+ if( b > 0 )
{
/* If using B-frames, force GOP to be closed.
* Even if this frame is going to be I and not IDR, forcing a
* we can't assign an I-frame. Instead, change the previous
* B-frame to P, and rearrange coding order. */
- x264_frame_t *tmp = h->frames.current[i-1];
- h->frames.current[i-1] = h->fenc;
- h->fenc = tmp;
+ if( h->param.b_bframe_adaptive || b > 1 )
+ h->fenc->i_type = X264_TYPE_AUTO;
+ x264_frame_sort_pts( h->frames.current );
+ x264_frame_push( h->frames.next, h->fenc );
+ h->fenc = h->frames.current[b-1];
+ h->frames.current[b-1] = NULL;
h->fenc->i_type = X264_TYPE_P;
+ x264_frame_sort_dts( h->frames.current );
}
/* Do IDR if needed */
else if( i_gop_size >= h->param.i_keyint_min )
x264_frame_t *tmp;
/* Reset */
- h->i_poc = 0;
h->i_frame_num = 0;
/* Reinit field of fenc */
h->fenc->i_type = X264_TYPE_IDR;
h->fenc->i_poc = 0;
- /* Next Poc */
- h->i_poc += 2;
-
/* Put enqueued frames back in the pool */
while( (tmp = x264_frame_get( h->frames.current ) ) != NULL )
x264_frame_put( h->frames.next, tmp );
- x264_frame_sort( h->frames.next );
+ x264_frame_sort_pts( h->frames.next );
}
else
{
}
goto do_encode;
}
- h->i_last_inter_size = h->out.nal[h->out.i_nal-1].i_payload;
- }
- else
- {
- h->i_last_intra_size = h->out.nal[h->out.i_nal-1].i_payload;
- h->i_last_intra_qp = i_global_qp;
}
/* End bitstream, set output */
*pi_nal = h->out.i_nal;
- *pp_nal = &h->out.nal[0];
+ *pp_nal = h->out.nal;
/* Set output picture properties */
if( i_slice_type == SLICE_TYPE_I )
- pic->i_type = i_nal_type == NAL_SLICE_IDR ? X264_TYPE_IDR : X264_TYPE_I;
+ pic_out->i_type = i_nal_type == NAL_SLICE_IDR ? X264_TYPE_IDR : X264_TYPE_I;
else if( i_slice_type == SLICE_TYPE_P )
- pic->i_type = X264_TYPE_P;
+ pic_out->i_type = X264_TYPE_P;
else
- pic->i_type = X264_TYPE_B;
- pic->i_pts = h->fenc->i_pts;
+ pic_out->i_type = X264_TYPE_B;
+ pic_out->i_pts = h->fenc->i_pts;
+
+ pic_out->img.i_plane = h->fdec->i_plane;
+ for(i = 0; i < 4; i++){
+ pic_out->img.i_stride[i] = h->fdec->i_stride[i];
+ pic_out->img.plane[i] = h->fdec->plane[i];
+ }
/* ---------------------- Update encoder state ------------------------- */
/* update cabac */
- if( h->param.b_cabac )
+ if( h->param.b_cabac && h->param.i_cabac_init_idc == -1 )
{
x264_cabac_model_update( &h->cabac, i_slice_type, h->sh.pps->i_pic_init_qp + h->sh.i_qp_delta );
}
x264_cpu_restore( h->param.cpu );
/* update rc */
- x264_ratecontrol_end( h, h->out.nal[h->out.i_nal-1].i_payload * 8 );
+ x264_ratecontrol_end( h, i_frame_size * 8 );
x264_frame_put( h->frames.unused, h->fenc );
/* ---------------------- Compute/Print statistics --------------------- */
/* Slice stat */
h->stat.i_slice_count[i_slice_type]++;
- h->stat.i_slice_size[i_slice_type] += bs_pos( &h->out.bs) / 8;
+ h->stat.i_slice_size[i_slice_type] += i_frame_size + NALU_OVERHEAD;
h->stat.i_slice_qp[i_slice_type] += i_global_qp;
- for( i = 0; i < 18; i++ )
- {
+ for( i = 0; i < 19; i++ )
h->stat.i_mb_count[h->sh.i_type][i] += h->stat.frame.i_mb_count[i];
- }
+ for( i = 0; i < 2; i++ )
+ h->stat.i_mb_count_8x8dct[i] += h->stat.frame.i_mb_count_8x8dct[i];
if( h->param.analyse.b_psnr )
{
int64_t i_sqe_y, i_sqe_u, i_sqe_v;
/* PSNR */
- i_sqe_y = x264_sqe( frame_psnr->plane[0], frame_psnr->i_stride[0], h->fenc->plane[0], h->fenc->i_stride[0], h->param.i_width, h->param.i_height );
- i_sqe_u = x264_sqe( frame_psnr->plane[1], frame_psnr->i_stride[1], h->fenc->plane[1], h->fenc->i_stride[1], h->param.i_width/2, h->param.i_height/2);
- i_sqe_v = x264_sqe( frame_psnr->plane[2], frame_psnr->i_stride[2], h->fenc->plane[2], h->fenc->i_stride[2], h->param.i_width/2, h->param.i_height/2);
+ i_sqe_y = x264_sqe( h, frame_psnr->plane[0], frame_psnr->i_stride[0], h->fenc->plane[0], h->fenc->i_stride[0], h->param.i_width, h->param.i_height );
+ i_sqe_u = x264_sqe( h, frame_psnr->plane[1], frame_psnr->i_stride[1], h->fenc->plane[1], h->fenc->i_stride[1], h->param.i_width/2, h->param.i_height/2);
+ i_sqe_v = x264_sqe( h, frame_psnr->plane[2], frame_psnr->i_stride[2], h->fenc->plane[2], h->fenc->i_stride[2], h->param.i_width/2, h->param.i_height/2);
h->stat.i_sqe_global[i_slice_type] += i_sqe_y + i_sqe_u + i_sqe_v;
h->stat.f_psnr_average[i_slice_type] += x264_psnr( i_sqe_y + i_sqe_u + i_sqe_v, 3 * h->param.i_width * h->param.i_height / 2 );
}
x264_log( h, X264_LOG_DEBUG,
- "frame=%4d QP=%i NAL=%d Slice:%c Poc:%-3d I4x4:%-4d I16x16:%-4d P:%-4d SKIP:%-4d size=%d bytes%s\n",
+ "frame=%4d QP=%i NAL=%d Slice:%c Poc:%-3d I:%-4d P:%-4d SKIP:%-4d size=%d bytes%s\n",
h->i_frame - 1,
i_global_qp,
i_nal_ref_idc,
i_slice_type == SLICE_TYPE_I ? 'I' : (i_slice_type == SLICE_TYPE_P ? 'P' : 'B' ),
frame_psnr->i_poc,
- h->stat.frame.i_mb_count[I_4x4],
- h->stat.frame.i_mb_count[I_16x16],
+ h->stat.frame.i_mb_count_i,
h->stat.frame.i_mb_count_p,
h->stat.frame.i_mb_count_skip,
- h->out.nal[h->out.i_nal-1].i_payload,
+ i_frame_size,
psz_message );
#ifdef DEBUG_MB_TYPE
{
- static const char mb_chars[] = { 'i', 'I', 'C', 'P', '8', 'S',
+ static const char mb_chars[] = { 'i', 'i', 'I', 'C', 'P', '8', 'S',
'D', '<', 'X', 'B', 'X', '>', 'B', 'B', 'B', 'B', '8', 'S' };
int mb_xy;
for( mb_xy = 0; mb_xy < h->sps->i_mb_width * h->sps->i_mb_height; mb_xy++ )
{
- if( h->mb.type[mb_xy] < 18 && h->mb.type[mb_xy] >= 0 )
+ if( h->mb.type[mb_xy] < 19 && h->mb.type[mb_xy] >= 0 )
fprintf( stderr, "%c ", mb_chars[ h->mb.type[mb_xy] ] );
else
fprintf( stderr, "? " );
if( h->param.analyse.b_psnr )
{
x264_log( h, X264_LOG_INFO,
- "slice %s:%-4d Avg QP:%5.2f Avg size:%6.0f PSNR Mean Y:%5.2f U:%5.2f V:%5.2f Avg:%5.2f Global:%5.2f MSE*Size:%5.3f\n",
+ "slice %s:%-4d Avg QP:%5.2f Avg size:%6.0f PSNR Mean Y:%5.2f U:%5.2f V:%5.2f Avg:%5.2f Global:%5.2f\n",
slice_name[i_slice],
i_count,
(double)h->stat.i_slice_qp[i_slice] / i_count,
(double)h->stat.i_slice_size[i_slice] / i_count,
h->stat.f_psnr_mean_y[i_slice] / i_count, h->stat.f_psnr_mean_u[i_slice] / i_count, h->stat.f_psnr_mean_v[i_slice] / i_count,
h->stat.f_psnr_average[i_slice] / i_count,
- x264_psnr( h->stat.i_sqe_global[i_slice], i_count * i_yuv_size ),
- x264_mse( h->stat.i_sqe_global[i_slice], i_count * i_yuv_size ) * h->stat.i_slice_size[i_slice] / i_count );
+ x264_psnr( h->stat.i_sqe_global[i_slice], i_count * i_yuv_size ) );
}
else
{
const int64_t *i_mb_count = h->stat.i_mb_count[SLICE_TYPE_I];
const double i_count = h->stat.i_slice_count[SLICE_TYPE_I] * h->mb.i_mb_count / 100.0;
x264_log( h, X264_LOG_INFO,
- "slice I Avg I4x4:%.1f%% I16x16:%.1f%%\n",
+ "slice I Avg I4x4:%.1f%% I8x8:%.1f%% I16x16:%.1f%%\n",
i_mb_count[I_4x4] / i_count,
+ i_mb_count[I_8x8] / i_count,
i_mb_count[I_16x16]/ i_count );
}
if( h->stat.i_slice_count[SLICE_TYPE_P] > 0 )
const int64_t *i_mb_count = h->stat.i_mb_count[SLICE_TYPE_P];
const double i_count = h->stat.i_slice_count[SLICE_TYPE_P] * h->mb.i_mb_count / 100.0;
x264_log( h, X264_LOG_INFO,
- "slice P Avg I4x4:%.1f%% I16x16:%.1f%% P:%.1f%% P8x8:%.1f%% PSKIP:%.1f%%\n",
+ "slice P Avg I4x4:%.1f%% I8x8:%.1f%% I16x16:%.1f%% P:%.1f%% P8x8:%.1f%% PSKIP:%.1f%%\n",
i_mb_count[I_4x4] / i_count,
+ i_mb_count[I_8x8] / i_count,
i_mb_count[I_16x16]/ i_count,
i_mb_count[P_L0] / i_count,
i_mb_count[P_8x8] / i_count,
const int64_t *i_mb_count = h->stat.i_mb_count[SLICE_TYPE_B];
const double i_count = h->stat.i_slice_count[SLICE_TYPE_B] * h->mb.i_mb_count / 100.0;
x264_log( h, X264_LOG_INFO,
- "slice B Avg I4x4:%.1f%% I16x16:%.1f%% P:%.1f%% B:%.1f%% B8x8:%.1f%% DIRECT:%.1f%% BSKIP:%.1f%%\n",
+ "slice B Avg I4x4:%.1f%% I8x8:%.1f%% I16x16:%.1f%% P:%.1f%% B:%.1f%% B8x8:%.1f%% DIRECT:%.1f%% BSKIP:%.1f%%\n",
i_mb_count[I_4x4] / i_count,
+ i_mb_count[I_8x8] / i_count,
i_mb_count[I_16x16] / i_count,
(i_mb_count[B_L0_L0] + i_mb_count[B_L1_L1] + i_mb_count[B_L1_L0] + i_mb_count[B_L0_L1]) / i_count,
(i_mb_count[B_BI_BI] + i_mb_count[B_L0_BI] + i_mb_count[B_L1_BI] + i_mb_count[B_BI_L0] + i_mb_count[B_BI_L1]) / i_count,
h->stat.i_slice_count[SLICE_TYPE_P] +
h->stat.i_slice_count[SLICE_TYPE_B];
float fps = (float) h->param.i_fps_num / h->param.i_fps_den;
+#define SUM3(p) (p[SLICE_TYPE_I] + p[SLICE_TYPE_P] + p[SLICE_TYPE_B])
+#define SUM3b(p,o) (p[SLICE_TYPE_I][o] + p[SLICE_TYPE_P][o] + p[SLICE_TYPE_B][o])
+ float f_bitrate = fps * SUM3(h->stat.i_slice_size) / i_count / 125;
+
+ if( h->param.analyse.b_transform_8x8 )
+ {
+ int64_t i_i8x8 = SUM3b( h->stat.i_mb_count, I_8x8 );
+ int64_t i_intra = i_i8x8 + SUM3b( h->stat.i_mb_count, I_4x4 ) + SUM3b( h->stat.i_mb_count, I_16x16 );
+ x264_log( h, X264_LOG_INFO, "8x8 transform intra:%.1f%% inter:%.1f%%\n",
+ 100. * i_i8x8 / i_intra,
+ 100. * h->stat.i_mb_count_8x8dct[1] / h->stat.i_mb_count_8x8dct[0] );
+ }
if( h->param.analyse.b_psnr )
x264_log( h, X264_LOG_INFO,
"PSNR Mean Y:%5.2f U:%5.2f V:%5.2f Avg:%5.2f Global:%5.2f kb/s:%.1f\n",
- (h->stat.f_psnr_mean_y[SLICE_TYPE_I] + h->stat.f_psnr_mean_y[SLICE_TYPE_P] + h->stat.f_psnr_mean_y[SLICE_TYPE_B]) / i_count,
- (h->stat.f_psnr_mean_u[SLICE_TYPE_I] + h->stat.f_psnr_mean_u[SLICE_TYPE_P] + h->stat.f_psnr_mean_u[SLICE_TYPE_B]) / i_count,
- (h->stat.f_psnr_mean_v[SLICE_TYPE_I] + h->stat.f_psnr_mean_v[SLICE_TYPE_P] + h->stat.f_psnr_mean_v[SLICE_TYPE_B]) / i_count,
-
- (h->stat.f_psnr_average[SLICE_TYPE_I] + h->stat.f_psnr_average[SLICE_TYPE_P] + h->stat.f_psnr_average[SLICE_TYPE_B]) / i_count,
-
- x264_psnr( h->stat.i_sqe_global[SLICE_TYPE_I] + h->stat.i_sqe_global[SLICE_TYPE_P]+ h->stat.i_sqe_global[SLICE_TYPE_B],
- i_count * i_yuv_size ),
- fps * 8*(h->stat.i_slice_size[SLICE_TYPE_I]+h->stat.i_slice_size[SLICE_TYPE_P]+h->stat.i_slice_size[SLICE_TYPE_B]) / i_count / 1000 );
+ SUM3( h->stat.f_psnr_mean_y ) / i_count,
+ SUM3( h->stat.f_psnr_mean_u ) / i_count,
+ SUM3( h->stat.f_psnr_mean_v ) / i_count,
+ SUM3( h->stat.f_psnr_average ) / i_count,
+ x264_psnr( SUM3( h->stat.i_sqe_global ), i_count * i_yuv_size ),
+ f_bitrate );
else
- x264_log( h, X264_LOG_INFO,
- "kb/s:%.1f\n",
- fps * 8*(h->stat.i_slice_size[SLICE_TYPE_I]+h->stat.i_slice_size[SLICE_TYPE_P]+h->stat.i_slice_size[SLICE_TYPE_B]) / i_count / 1000 );
+ x264_log( h, X264_LOG_INFO, "kb/s:%.1f\n", f_bitrate );
}
/* frames */
- for( i = 0; i < X264_BFRAME_MAX + 1; i++ )
+ for( i = 0; i < X264_BFRAME_MAX + 3; i++ )
{
if( h->frames.current[i] ) x264_frame_delete( h->frames.current[i] );
if( h->frames.next[i] ) x264_frame_delete( h->frames.next[i] );
if( h->frames.unused[i] ) x264_frame_delete( h->frames.unused[i] );
}
/* ref frames */
- for( i = 0; i < h->param.i_frame_reference+2; i++ )
+ for( i = 0; i < h->frames.i_max_dpb; i++ )
{
x264_frame_delete( h->frames.reference[i] );
}
x264_macroblock_cache_end( h );
x264_free( h->out.p_bitstream );
+ for( i = 1; i < h->param.i_threads; i++ )
+ x264_free( h->thread[i] );
x264_free( h );
}