From: Paul Wilkins Date: Tue, 15 May 2012 13:58:13 +0000 (+0100) Subject: Firstpass.c refactoring X-Git-Tag: v1.3.0~1217^2~379^2~34^2 X-Git-Url: https://granicus.if.org/sourcecode?a=commitdiff_plain;h=0529320a9e7082648f7cbec421103d80c38b67b2;p=libvpx Firstpass.c refactoring Removed unused function. Added tentative code to take error score of an older frame into account when calculating Q range. However, for now it is disabled pending merging other changes and testing. Change-Id: Ie89955e70319dac31b79e3b833e3352712a061ec --- diff --git a/vp8/encoder/firstpass.c b/vp8/encoder/firstpass.c index 32006c72d..f1c9e1869 100644 --- a/vp8/encoder/firstpass.c +++ b/vp8/encoder/firstpass.c @@ -617,7 +617,7 @@ void vp8_first_pass(VP8_COMP *cpi) } } - // Experimental search in a second reference frame ((0,0) based only) + // Experimental search in an older reference frame if (cm->current_video_frame > 1) { first_pass_motion_search(cpi, x, &zero_ref_mv, @@ -799,14 +799,10 @@ void vp8_first_pass(VP8_COMP *cpi) accumulate_stats(cpi->twopass.total_stats, &fps); } - // Copy the previous Last Frame into the GF buffer if specific conditions for doing so are met + // Copy the previous Last Frame back into gf and and arf buffers if + // the prediction is good enough. if ((cm->current_video_frame > 0) && - (cpi->twopass.this_frame_stats->pcnt_inter > 0.20) && - ((cpi->twopass.this_frame_stats->intra_error / - cpi->twopass.this_frame_stats->coded_error) > 2.0)) - { - vp8_yv12_copy_frame_ptr(lst_yv12, gld_yv12); - } + (cpi->twopass.this_frame_stats->pcnt_inter > 0.20)) { vp8_yv12_copy_frame_ptr(lst_yv12, gld_yv12); } @@ -886,7 +882,9 @@ static long long estimate_modemvcost(VP8_COMP *cpi, return 0; } -static double calc_correction_factor( double err_per_mb, +static double calc_correction_factor( VP8_COMP *cpi, + FIRSTPASS_STATS * fpstats, + double err_per_mb, double err_divisor, double pt_low, double pt_high, @@ -895,6 +893,9 @@ static double calc_correction_factor( double err_per_mb, double power_term; double error_term = err_per_mb / err_divisor; double correction_factor; + double sr_err_diff; + double sr_correction; + // Adjustment based on actual quantizer to power term. power_term = (vp8_convert_qindex_to_q(Q) * 0.01) + pt_low; @@ -903,10 +904,25 @@ static double calc_correction_factor( double err_per_mb, // Adjustments to error term // TBD - // Calculate correction factor + // Calculate a correction factor based on error per mb correction_factor = pow(error_term, power_term); - // Clip range +#if 0 + // Look at the drop in prediction quality between the last frame + // and the GF buffer (which contained an older frame). + sr_err_diff = + (fpstats->sr_coded_error - fpstats->coded_error) / + (fpstats->count * cpi->common.MBs * 32); + sr_correction = pow( sr_err_diff, 0.5 ); + if ( sr_correction < 0.5 ) + sr_correction = 0.5; + else if ( sr_correction > 1.25 ) + sr_correction = 1.25; + + correction_factor = correction_factor * sr_correction; +#endif + + // Clip final factor range correction_factor = (correction_factor < 0.05) ? 0.05 : (correction_factor > 5.0) ? 5.0 : correction_factor; @@ -1017,22 +1033,24 @@ static int estimate_max_q(VP8_COMP *cpi, // Error per MB based correction factor err_correction_factor = - calc_correction_factor(err_per_mb, ERR_DIVISOR, 0.36, 0.90, Q); + calc_correction_factor(cpi, fpstats, err_per_mb, + ERR_DIVISOR, 0.36, 0.90, Q) * + speed_correction * + cpi->twopass.est_max_qcorrection_factor * + cpi->twopass.section_max_qfactor; bits_per_mb_at_this_q = vp8_bits_per_mb(INTER_FRAME, Q) + overhead_bits_per_mb; - bits_per_mb_at_this_q = (int)(.5 + err_correction_factor - * speed_correction * cpi->twopass.est_max_qcorrection_factor - * cpi->twopass.section_max_qfactor - * (double)bits_per_mb_at_this_q); + bits_per_mb_at_this_q = (int)(.5 + err_correction_factor * + (double)bits_per_mb_at_this_q); // Mode and motion overhead // As Q rises in real encode loop rd code will force overhead down // We make a crude adjustment for this here as *.98 per Q step. // PGW TODO.. This code is broken for the extended Q range // for now overhead set to 0. - overhead_bits_per_mb = (int)((double)overhead_bits_per_mb * 0.98); + //overhead_bits_per_mb = (int)((double)overhead_bits_per_mb * 0.98); if (bits_per_mb_at_this_q <= target_norm_bits_per_mb) break; @@ -1119,8 +1137,8 @@ static int estimate_cq( VP8_COMP *cpi, // Error per MB based correction factor err_correction_factor = - calc_correction_factor(err_per_mb, 100.0, 0.36, 0.90, Q); - + calc_correction_factor(cpi, fpstats, err_per_mb, + 100.0, 0.36, 0.90, Q); bits_per_mb_at_this_q = vp8_bits_per_mb(INTER_FRAME, Q) + overhead_bits_per_mb; @@ -1151,96 +1169,6 @@ static int estimate_cq( VP8_COMP *cpi, return Q; } -// Estimate a worst case Q for a KF group -static int estimate_kf_group_q(VP8_COMP *cpi, double section_err, int section_target_bandwitdh, double group_iiratio) -{ - int Q; - int num_mbs = cpi->common.MBs; - int target_norm_bits_per_mb = (512 * section_target_bandwitdh) / num_mbs; - int bits_per_mb_at_this_q; - - double err_per_mb = section_err / num_mbs; - double err_correction_factor; - double corr_high; - double speed_correction = 1.0; - double current_spend_ratio = 1.0; - - double pow_highq = (POW1 < 0.6) ? POW1 + 0.3 : 0.90; - double pow_lowq = (POW1 < 0.7) ? POW1 + 0.1 : 0.80; - - double iiratio_correction_factor = 1.0; - - double combined_correction_factor; - - // Trap special case where the target is <= 0 - if (target_norm_bits_per_mb <= 0) - return MAXQ * 2; - - // Calculate a corrective factor based on a rolling ratio of bits spent vs target bits - // This is clamped to the range 0.1 to 10.0 - if (cpi->long_rolling_target_bits <= 0) - current_spend_ratio = 10.0; - else - { - current_spend_ratio = (double)cpi->long_rolling_actual_bits / (double)cpi->long_rolling_target_bits; - current_spend_ratio = (current_spend_ratio > 10.0) ? 10.0 : (current_spend_ratio < 0.1) ? 0.1 : current_spend_ratio; - } - - // Calculate a correction factor based on the quality of prediction in the sequence as indicated by intra_inter error score ratio (IIRatio) - // The idea here is to favour subsampling in the hardest sections vs the easyest. - iiratio_correction_factor = 1.0 - ((group_iiratio - 6.0) * 0.1); - - if (iiratio_correction_factor < 0.5) - iiratio_correction_factor = 0.5; - - // Corrections for higher compression speed settings (reduced compression expected) - if (cpi->compressor_speed == 1) - { - if (cpi->oxcf.cpu_used <= 5) - speed_correction = 1.04 + (cpi->oxcf.cpu_used * 0.04); - else - speed_correction = 1.25; - } - - // Combine the various factors calculated above - combined_correction_factor = speed_correction * iiratio_correction_factor * current_spend_ratio; - - // Try and pick a Q that should be high enough to encode the content at the given rate. - for (Q = 0; Q < MAXQ; Q++) - { - // Error per MB based correction factor - err_correction_factor = - calc_correction_factor(err_per_mb, ERR_DIVISOR, pow_lowq, pow_highq, Q); - - bits_per_mb_at_this_q = - (int)(.5 + ( err_correction_factor * - combined_correction_factor * - (double)vp8_bits_per_mb(INTER_FRAME, Q)) ); - - if (bits_per_mb_at_this_q <= target_norm_bits_per_mb) - break; - } - - // If we could not hit the target even at Max Q then estimate what Q would have bee required - while ((bits_per_mb_at_this_q > target_norm_bits_per_mb) && (Q < (MAXQ * 2))) - { - - bits_per_mb_at_this_q = (int)(0.96 * bits_per_mb_at_this_q); - Q++; - } - - if (0) - { - FILE *f = fopen("estkf_q.stt", "a"); - fprintf(f, "%8d %8d %8d %8.2f %8.3f %8.2f %8.3f %8.3f %8.3f %8d\n", cpi->common.current_video_frame, bits_per_mb_at_this_q, - target_norm_bits_per_mb, err_per_mb, err_correction_factor, - current_spend_ratio, group_iiratio, iiratio_correction_factor, - (double)cpi->buffer_level / (double)cpi->oxcf.optimal_buffer_level, Q); - fclose(f); - } - - return Q; -} extern void vp8_new_frame_rate(VP8_COMP *cpi, double framerate);