/*****************************************************************************
* ratecontrol.c: ratecontrol
*****************************************************************************
- * Copyright (C) 2005-2014 x264 project
+ * Copyright (C) 2005-2015 x264 project
*
* Authors: Loren Merritt <lorenm@u.washington.edu>
* Michael Niedermayer <michaelni@gmx.at>
*/
static inline float qp2qscale( float qp )
{
- return 0.85f * powf( 2.0f, ( qp - 12.0f ) / 6.0f );
+ return 0.85f * powf( 2.0f, ( qp - (12.0f + QP_BD_OFFSET) ) / 6.0f );
}
static inline float qscale2qp( float qscale )
{
- return 12.0f + 6.0f * log2f( qscale/0.85f );
+ return (12.0f + QP_BD_OFFSET) + 6.0f * log2f( qscale/0.85f );
}
/* Texture bitrate is not quite inversely proportional to qscale,
h->mb.ip_offset = rc->ip_offset + 0.5;
rc->lstep = pow( 2, h->param.rc.i_qp_step / 6.0 );
- rc->last_qscale = qp2qscale( 26 );
+ rc->last_qscale = qp2qscale( 26 + QP_BD_OFFSET );
int num_preds = h->param.b_sliced_threads * h->param.i_threads + 1;
CHECKED_MALLOC( rc->pred, 5 * sizeof(predictor_t) * num_preds );
CHECKED_MALLOC( rc->pred_b_from_p, sizeof(predictor_t) );
+ static const float pred_coeff_table[3] = { 1.0, 1.0, 1.5 };
for( int i = 0; i < 3; i++ )
{
rc->last_qscale_for[i] = qp2qscale( ABR_INIT_QP );
rc->lmax[i] = qp2qscale( h->param.rc.i_qp_max );
for( int j = 0; j < num_preds; j++ )
{
- rc->pred[i+j*5].coeff_min = 2.0 / 4;
- rc->pred[i+j*5].coeff = 2.0;
+ rc->pred[i+j*5].coeff_min = pred_coeff_table[i] / 2;
+ rc->pred[i+j*5].coeff = pred_coeff_table[i];
rc->pred[i+j*5].count = 1.0;
rc->pred[i+j*5].decay = 0.5;
rc->pred[i+j*5].offset = 0.0;
rc->row_preds[i][j].offset = 0.0;
}
}
- *rc->pred_b_from_p = rc->pred[0];
+ rc->pred_b_from_p->coeff_min = 0.5 / 2;
+ rc->pred_b_from_p->coeff = 0.5;
+ rc->pred_b_from_p->count = 1.0;
+ rc->pred_b_from_p->decay = 0.5;
+ rc->pred_b_from_p->offset = 0.0;
if( parse_zones( h ) < 0 )
{
{
ratecontrol_entry_t *rce = &rc->entry[i];
rce->pict_type = SLICE_TYPE_P;
- rce->qscale = rce->new_qscale = qp2qscale( 20 );
+ rce->qscale = rce->new_qscale = qp2qscale( 20 + QP_BD_OFFSET );
rce->misc_bits = rc->nmb + 10;
rce->new_qp = 0;
}
h->fdec->f_row_qscale[y] = qscale;
update_predictor( &rc->row_pred[0], qscale, h->fdec->i_row_satd[y], h->fdec->i_row_bits[y] );
- if( h->sh.i_type == SLICE_TYPE_P && rc->qpm < h->fref[0][0]->f_row_qp[y] )
+ if( h->sh.i_type != SLICE_TYPE_I && rc->qpm < h->fref[0][0]->f_row_qp[y] )
update_predictor( &rc->row_pred[1], qscale, h->fdec->i_row_satds[0][0][y], h->fdec->i_row_bits[y] );
/* update ratecontrol per-mbpair in MBAFF */
if( var < 10 )
return;
float old_coeff = p->coeff / p->count;
- float new_coeff = X264_MAX( bits*q / var, p->coeff_min );
+ float old_offset = p->offset / p->count;
+ float new_coeff = X264_MAX( (bits*q - old_offset) / var, p->coeff_min );
float new_coeff_clipped = x264_clip3f( new_coeff, old_coeff/range, old_coeff*range );
float new_offset = bits*q - new_coeff_clipped * var;
if( new_offset >= 0 )