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- /*
- * Copyright (c) 2010 The WebM project authors. All Rights Reserved.
- *
- * Use of this source code is governed by a BSD-style license
- * that can be found in the LICENSE file in the root of the source
- * tree. An additional intellectual property rights grant can be found
- * in the file PATENTS. All contributing project authors may
- * be found in the AUTHORS file in the root of the source tree.
- */
- #include <limits.h>
- #include <math.h>
- #include <stdio.h>
- #include "./vpx_dsp_rtcd.h"
- #include "./vpx_scale_rtcd.h"
- #include "vpx_dsp/vpx_dsp_common.h"
- #include "vpx_mem/vpx_mem.h"
- #include "vpx_ports/mem.h"
- #include "vpx_ports/system_state.h"
- #include "vpx_scale/vpx_scale.h"
- #include "vpx_scale/yv12config.h"
- #include "vp9/common/vp9_entropymv.h"
- #include "vp9/common/vp9_quant_common.h"
- #include "vp9/common/vp9_reconinter.h" // vp9_setup_dst_planes()
- #include "vp9/encoder/vp9_aq_variance.h"
- #include "vp9/encoder/vp9_block.h"
- #include "vp9/encoder/vp9_encodeframe.h"
- #include "vp9/encoder/vp9_encodemb.h"
- #include "vp9/encoder/vp9_encodemv.h"
- #include "vp9/encoder/vp9_encoder.h"
- #include "vp9/encoder/vp9_extend.h"
- #include "vp9/encoder/vp9_firstpass.h"
- #include "vp9/encoder/vp9_mcomp.h"
- #include "vp9/encoder/vp9_quantize.h"
- #include "vp9/encoder/vp9_rd.h"
- #include "vpx_dsp/variance.h"
- #define OUTPUT_FPF 0
- #define ARF_STATS_OUTPUT 0
- #define BOOST_BREAKOUT 12.5
- #define BOOST_FACTOR 12.5
- #define FACTOR_PT_LOW 0.70
- #define FACTOR_PT_HIGH 0.90
- #define FIRST_PASS_Q 10.0
- #define GF_MAX_BOOST 96.0
- #define INTRA_MODE_PENALTY 1024
- #define KF_MAX_BOOST 128.0
- #define MIN_ARF_GF_BOOST 240
- #define MIN_DECAY_FACTOR 0.01
- #define MIN_KF_BOOST 300
- #define NEW_MV_MODE_PENALTY 32
- #define SVC_FACTOR_PT_LOW 0.45
- #define DARK_THRESH 64
- #define DEFAULT_GRP_WEIGHT 1.0
- #define RC_FACTOR_MIN 0.75
- #define RC_FACTOR_MAX 1.75
- #define SECTION_NOISE_DEF 250.0
- #define LOW_I_THRESH 24000
- #define NCOUNT_INTRA_THRESH 8192
- #define NCOUNT_INTRA_FACTOR 3
- #define DOUBLE_DIVIDE_CHECK(x) ((x) < 0 ? (x)-0.000001 : (x) + 0.000001)
- #if ARF_STATS_OUTPUT
- unsigned int arf_count = 0;
- #endif
- // Resets the first pass file to the given position using a relative seek from
- // the current position.
- static void reset_fpf_position(TWO_PASS *p, const FIRSTPASS_STATS *position) {
- p->stats_in = position;
- }
- // Read frame stats at an offset from the current position.
- static const FIRSTPASS_STATS *read_frame_stats(const TWO_PASS *p, int offset) {
- if ((offset >= 0 && p->stats_in + offset >= p->stats_in_end) ||
- (offset < 0 && p->stats_in + offset < p->stats_in_start)) {
- return NULL;
- }
- return &p->stats_in[offset];
- }
- static int input_stats(TWO_PASS *p, FIRSTPASS_STATS *fps) {
- if (p->stats_in >= p->stats_in_end) return EOF;
- *fps = *p->stats_in;
- ++p->stats_in;
- return 1;
- }
- static void output_stats(FIRSTPASS_STATS *stats,
- struct vpx_codec_pkt_list *pktlist) {
- struct vpx_codec_cx_pkt pkt;
- pkt.kind = VPX_CODEC_STATS_PKT;
- pkt.data.twopass_stats.buf = stats;
- pkt.data.twopass_stats.sz = sizeof(FIRSTPASS_STATS);
- vpx_codec_pkt_list_add(pktlist, &pkt);
- // TEMP debug code
- #if OUTPUT_FPF
- {
- FILE *fpfile;
- fpfile = fopen("firstpass.stt", "a");
- fprintf(fpfile,
- "%12.0lf %12.4lf %12.0lf %12.0lf %12.0lf %12.0lf %12.4lf"
- "%12.4lf %12.4lf %12.4lf %12.4lf %12.4lf %12.4lf %12.4lf %12.4lf"
- "%12.4lf %12.4lf %12.4lf %12.4lf %12.0lf %12.0lf %12.0lf %12.4lf"
- "\n",
- stats->frame, stats->weight, stats->intra_error, stats->coded_error,
- stats->sr_coded_error, stats->frame_noise_energy, stats->pcnt_inter,
- stats->pcnt_motion, stats->pcnt_second_ref, stats->pcnt_neutral,
- stats->intra_skip_pct, stats->intra_smooth_pct,
- stats->inactive_zone_rows, stats->inactive_zone_cols, stats->MVr,
- stats->mvr_abs, stats->MVc, stats->mvc_abs, stats->MVrv,
- stats->MVcv, stats->mv_in_out_count, stats->new_mv_count,
- stats->count, stats->duration);
- fclose(fpfile);
- }
- #endif
- }
- #if CONFIG_FP_MB_STATS
- static void output_fpmb_stats(uint8_t *this_frame_mb_stats, VP9_COMMON *cm,
- struct vpx_codec_pkt_list *pktlist) {
- struct vpx_codec_cx_pkt pkt;
- pkt.kind = VPX_CODEC_FPMB_STATS_PKT;
- pkt.data.firstpass_mb_stats.buf = this_frame_mb_stats;
- pkt.data.firstpass_mb_stats.sz = cm->initial_mbs * sizeof(uint8_t);
- vpx_codec_pkt_list_add(pktlist, &pkt);
- }
- #endif
- static void zero_stats(FIRSTPASS_STATS *section) {
- section->frame = 0.0;
- section->weight = 0.0;
- section->intra_error = 0.0;
- section->coded_error = 0.0;
- section->sr_coded_error = 0.0;
- section->frame_noise_energy = 0.0;
- section->pcnt_inter = 0.0;
- section->pcnt_motion = 0.0;
- section->pcnt_second_ref = 0.0;
- section->pcnt_neutral = 0.0;
- section->intra_skip_pct = 0.0;
- section->intra_smooth_pct = 0.0;
- section->inactive_zone_rows = 0.0;
- section->inactive_zone_cols = 0.0;
- section->MVr = 0.0;
- section->mvr_abs = 0.0;
- section->MVc = 0.0;
- section->mvc_abs = 0.0;
- section->MVrv = 0.0;
- section->MVcv = 0.0;
- section->mv_in_out_count = 0.0;
- section->new_mv_count = 0.0;
- section->count = 0.0;
- section->duration = 1.0;
- section->spatial_layer_id = 0;
- }
- static void accumulate_stats(FIRSTPASS_STATS *section,
- const FIRSTPASS_STATS *frame) {
- section->frame += frame->frame;
- section->weight += frame->weight;
- section->spatial_layer_id = frame->spatial_layer_id;
- section->intra_error += frame->intra_error;
- section->coded_error += frame->coded_error;
- section->sr_coded_error += frame->sr_coded_error;
- section->frame_noise_energy += frame->frame_noise_energy;
- section->pcnt_inter += frame->pcnt_inter;
- section->pcnt_motion += frame->pcnt_motion;
- section->pcnt_second_ref += frame->pcnt_second_ref;
- section->pcnt_neutral += frame->pcnt_neutral;
- section->intra_skip_pct += frame->intra_skip_pct;
- section->intra_smooth_pct += frame->intra_smooth_pct;
- section->inactive_zone_rows += frame->inactive_zone_rows;
- section->inactive_zone_cols += frame->inactive_zone_cols;
- section->MVr += frame->MVr;
- section->mvr_abs += frame->mvr_abs;
- section->MVc += frame->MVc;
- section->mvc_abs += frame->mvc_abs;
- section->MVrv += frame->MVrv;
- section->MVcv += frame->MVcv;
- section->mv_in_out_count += frame->mv_in_out_count;
- section->new_mv_count += frame->new_mv_count;
- section->count += frame->count;
- section->duration += frame->duration;
- }
- static void subtract_stats(FIRSTPASS_STATS *section,
- const FIRSTPASS_STATS *frame) {
- section->frame -= frame->frame;
- section->weight -= frame->weight;
- section->intra_error -= frame->intra_error;
- section->coded_error -= frame->coded_error;
- section->sr_coded_error -= frame->sr_coded_error;
- section->frame_noise_energy -= frame->frame_noise_energy;
- section->pcnt_inter -= frame->pcnt_inter;
- section->pcnt_motion -= frame->pcnt_motion;
- section->pcnt_second_ref -= frame->pcnt_second_ref;
- section->pcnt_neutral -= frame->pcnt_neutral;
- section->intra_skip_pct -= frame->intra_skip_pct;
- section->intra_smooth_pct -= frame->intra_smooth_pct;
- section->inactive_zone_rows -= frame->inactive_zone_rows;
- section->inactive_zone_cols -= frame->inactive_zone_cols;
- section->MVr -= frame->MVr;
- section->mvr_abs -= frame->mvr_abs;
- section->MVc -= frame->MVc;
- section->mvc_abs -= frame->mvc_abs;
- section->MVrv -= frame->MVrv;
- section->MVcv -= frame->MVcv;
- section->mv_in_out_count -= frame->mv_in_out_count;
- section->new_mv_count -= frame->new_mv_count;
- section->count -= frame->count;
- section->duration -= frame->duration;
- }
- // Calculate an active area of the image that discounts formatting
- // bars and partially discounts other 0 energy areas.
- #define MIN_ACTIVE_AREA 0.5
- #define MAX_ACTIVE_AREA 1.0
- static double calculate_active_area(const VP9_COMP *cpi,
- const FIRSTPASS_STATS *this_frame) {
- double active_pct;
- active_pct =
- 1.0 -
- ((this_frame->intra_skip_pct / 2) +
- ((this_frame->inactive_zone_rows * 2) / (double)cpi->common.mb_rows));
- return fclamp(active_pct, MIN_ACTIVE_AREA, MAX_ACTIVE_AREA);
- }
- // Calculate a modified Error used in distributing bits between easier and
- // harder frames.
- #define ACT_AREA_CORRECTION 0.5
- static double calculate_modified_err(const VP9_COMP *cpi,
- const TWO_PASS *twopass,
- const VP9EncoderConfig *oxcf,
- const FIRSTPASS_STATS *this_frame) {
- const FIRSTPASS_STATS *const stats = &twopass->total_stats;
- const double av_weight = stats->weight / stats->count;
- const double av_err = (stats->coded_error * av_weight) / stats->count;
- double modified_error =
- av_err * pow(this_frame->coded_error * this_frame->weight /
- DOUBLE_DIVIDE_CHECK(av_err),
- oxcf->two_pass_vbrbias / 100.0);
- // Correction for active area. Frames with a reduced active area
- // (eg due to formatting bars) have a higher error per mb for the
- // remaining active MBs. The correction here assumes that coding
- // 0.5N blocks of complexity 2X is a little easier than coding N
- // blocks of complexity X.
- modified_error *=
- pow(calculate_active_area(cpi, this_frame), ACT_AREA_CORRECTION);
- return fclamp(modified_error, twopass->modified_error_min,
- twopass->modified_error_max);
- }
- // This function returns the maximum target rate per frame.
- static int frame_max_bits(const RATE_CONTROL *rc,
- const VP9EncoderConfig *oxcf) {
- int64_t max_bits = ((int64_t)rc->avg_frame_bandwidth *
- (int64_t)oxcf->two_pass_vbrmax_section) /
- 100;
- if (max_bits < 0)
- max_bits = 0;
- else if (max_bits > rc->max_frame_bandwidth)
- max_bits = rc->max_frame_bandwidth;
- return (int)max_bits;
- }
- void vp9_init_first_pass(VP9_COMP *cpi) {
- zero_stats(&cpi->twopass.total_stats);
- }
- void vp9_end_first_pass(VP9_COMP *cpi) {
- if (is_two_pass_svc(cpi)) {
- int i;
- for (i = 0; i < cpi->svc.number_spatial_layers; ++i) {
- output_stats(&cpi->svc.layer_context[i].twopass.total_stats,
- cpi->output_pkt_list);
- }
- } else {
- output_stats(&cpi->twopass.total_stats, cpi->output_pkt_list);
- }
- }
- static vpx_variance_fn_t get_block_variance_fn(BLOCK_SIZE bsize) {
- switch (bsize) {
- case BLOCK_8X8: return vpx_mse8x8;
- case BLOCK_16X8: return vpx_mse16x8;
- case BLOCK_8X16: return vpx_mse8x16;
- default: return vpx_mse16x16;
- }
- }
- static unsigned int get_prediction_error(BLOCK_SIZE bsize,
- const struct buf_2d *src,
- const struct buf_2d *ref) {
- unsigned int sse;
- const vpx_variance_fn_t fn = get_block_variance_fn(bsize);
- fn(src->buf, src->stride, ref->buf, ref->stride, &sse);
- return sse;
- }
- #if CONFIG_VP9_HIGHBITDEPTH
- static vpx_variance_fn_t highbd_get_block_variance_fn(BLOCK_SIZE bsize,
- int bd) {
- switch (bd) {
- default:
- switch (bsize) {
- case BLOCK_8X8: return vpx_highbd_8_mse8x8;
- case BLOCK_16X8: return vpx_highbd_8_mse16x8;
- case BLOCK_8X16: return vpx_highbd_8_mse8x16;
- default: return vpx_highbd_8_mse16x16;
- }
- break;
- case 10:
- switch (bsize) {
- case BLOCK_8X8: return vpx_highbd_10_mse8x8;
- case BLOCK_16X8: return vpx_highbd_10_mse16x8;
- case BLOCK_8X16: return vpx_highbd_10_mse8x16;
- default: return vpx_highbd_10_mse16x16;
- }
- break;
- case 12:
- switch (bsize) {
- case BLOCK_8X8: return vpx_highbd_12_mse8x8;
- case BLOCK_16X8: return vpx_highbd_12_mse16x8;
- case BLOCK_8X16: return vpx_highbd_12_mse8x16;
- default: return vpx_highbd_12_mse16x16;
- }
- break;
- }
- }
- static unsigned int highbd_get_prediction_error(BLOCK_SIZE bsize,
- const struct buf_2d *src,
- const struct buf_2d *ref,
- int bd) {
- unsigned int sse;
- const vpx_variance_fn_t fn = highbd_get_block_variance_fn(bsize, bd);
- fn(src->buf, src->stride, ref->buf, ref->stride, &sse);
- return sse;
- }
- #endif // CONFIG_VP9_HIGHBITDEPTH
- // Refine the motion search range according to the frame dimension
- // for first pass test.
- static int get_search_range(const VP9_COMP *cpi) {
- int sr = 0;
- const int dim = VPXMIN(cpi->initial_width, cpi->initial_height);
- while ((dim << sr) < MAX_FULL_PEL_VAL) ++sr;
- return sr;
- }
- static void first_pass_motion_search(VP9_COMP *cpi, MACROBLOCK *x,
- const MV *ref_mv, MV *best_mv,
- int *best_motion_err) {
- MACROBLOCKD *const xd = &x->e_mbd;
- MV tmp_mv = { 0, 0 };
- MV ref_mv_full = { ref_mv->row >> 3, ref_mv->col >> 3 };
- int num00, tmp_err, n;
- const BLOCK_SIZE bsize = xd->mi[0]->sb_type;
- vp9_variance_fn_ptr_t v_fn_ptr = cpi->fn_ptr[bsize];
- const int new_mv_mode_penalty = NEW_MV_MODE_PENALTY;
- int step_param = 3;
- int further_steps = (MAX_MVSEARCH_STEPS - 1) - step_param;
- const int sr = get_search_range(cpi);
- step_param += sr;
- further_steps -= sr;
- // Override the default variance function to use MSE.
- v_fn_ptr.vf = get_block_variance_fn(bsize);
- #if CONFIG_VP9_HIGHBITDEPTH
- if (xd->cur_buf->flags & YV12_FLAG_HIGHBITDEPTH) {
- v_fn_ptr.vf = highbd_get_block_variance_fn(bsize, xd->bd);
- }
- #endif // CONFIG_VP9_HIGHBITDEPTH
- // Center the initial step/diamond search on best mv.
- tmp_err = cpi->diamond_search_sad(x, &cpi->ss_cfg, &ref_mv_full, &tmp_mv,
- step_param, x->sadperbit16, &num00,
- &v_fn_ptr, ref_mv);
- if (tmp_err < INT_MAX)
- tmp_err = vp9_get_mvpred_var(x, &tmp_mv, ref_mv, &v_fn_ptr, 1);
- if (tmp_err < INT_MAX - new_mv_mode_penalty) tmp_err += new_mv_mode_penalty;
- if (tmp_err < *best_motion_err) {
- *best_motion_err = tmp_err;
- *best_mv = tmp_mv;
- }
- // Carry out further step/diamond searches as necessary.
- n = num00;
- num00 = 0;
- while (n < further_steps) {
- ++n;
- if (num00) {
- --num00;
- } else {
- tmp_err = cpi->diamond_search_sad(x, &cpi->ss_cfg, &ref_mv_full, &tmp_mv,
- step_param + n, x->sadperbit16, &num00,
- &v_fn_ptr, ref_mv);
- if (tmp_err < INT_MAX)
- tmp_err = vp9_get_mvpred_var(x, &tmp_mv, ref_mv, &v_fn_ptr, 1);
- if (tmp_err < INT_MAX - new_mv_mode_penalty)
- tmp_err += new_mv_mode_penalty;
- if (tmp_err < *best_motion_err) {
- *best_motion_err = tmp_err;
- *best_mv = tmp_mv;
- }
- }
- }
- }
- static BLOCK_SIZE get_bsize(const VP9_COMMON *cm, int mb_row, int mb_col) {
- if (2 * mb_col + 1 < cm->mi_cols) {
- return 2 * mb_row + 1 < cm->mi_rows ? BLOCK_16X16 : BLOCK_16X8;
- } else {
- return 2 * mb_row + 1 < cm->mi_rows ? BLOCK_8X16 : BLOCK_8X8;
- }
- }
- static int find_fp_qindex(vpx_bit_depth_t bit_depth) {
- int i;
- for (i = 0; i < QINDEX_RANGE; ++i)
- if (vp9_convert_qindex_to_q(i, bit_depth) >= FIRST_PASS_Q) break;
- if (i == QINDEX_RANGE) i--;
- return i;
- }
- static void set_first_pass_params(VP9_COMP *cpi) {
- VP9_COMMON *const cm = &cpi->common;
- if (!cpi->refresh_alt_ref_frame &&
- (cm->current_video_frame == 0 || (cpi->frame_flags & FRAMEFLAGS_KEY))) {
- cm->frame_type = KEY_FRAME;
- } else {
- cm->frame_type = INTER_FRAME;
- }
- // Do not use periodic key frames.
- cpi->rc.frames_to_key = INT_MAX;
- }
- // Scale an sse threshold to account for 8/10/12 bit.
- static int scale_sse_threshold(VP9_COMMON *cm, int thresh) {
- int ret_val = thresh;
- #if CONFIG_VP9_HIGHBITDEPTH
- if (cm->use_highbitdepth) {
- switch (cm->bit_depth) {
- case VPX_BITS_8: ret_val = thresh; break;
- case VPX_BITS_10: ret_val = thresh >> 4; break;
- case VPX_BITS_12: ret_val = thresh >> 8; break;
- default:
- assert(0 &&
- "cm->bit_depth should be VPX_BITS_8, "
- "VPX_BITS_10 or VPX_BITS_12");
- }
- }
- #else
- (void)cm;
- #endif // CONFIG_VP9_HIGHBITDEPTH
- return ret_val;
- }
- // This threshold is used to track blocks where to all intents and purposes
- // the intra prediction error 0. Though the metric we test against
- // is technically a sse we are mainly interested in blocks where all the pixels
- // in the 8 bit domain have an error of <= 1 (where error = sse) so a
- // linear scaling for 10 and 12 bit gives similar results.
- #define UL_INTRA_THRESH 50
- static int get_ul_intra_threshold(VP9_COMMON *cm) {
- int ret_val = UL_INTRA_THRESH;
- #if CONFIG_VP9_HIGHBITDEPTH
- if (cm->use_highbitdepth) {
- switch (cm->bit_depth) {
- case VPX_BITS_8: ret_val = UL_INTRA_THRESH; break;
- case VPX_BITS_10: ret_val = UL_INTRA_THRESH << 2; break;
- case VPX_BITS_12: ret_val = UL_INTRA_THRESH << 4; break;
- default:
- assert(0 &&
- "cm->bit_depth should be VPX_BITS_8, "
- "VPX_BITS_10 or VPX_BITS_12");
- }
- }
- #else
- (void)cm;
- #endif // CONFIG_VP9_HIGHBITDEPTH
- return ret_val;
- }
- #define SMOOTH_INTRA_THRESH 4000
- static int get_smooth_intra_threshold(VP9_COMMON *cm) {
- int ret_val = SMOOTH_INTRA_THRESH;
- #if CONFIG_VP9_HIGHBITDEPTH
- if (cm->use_highbitdepth) {
- switch (cm->bit_depth) {
- case VPX_BITS_8: ret_val = SMOOTH_INTRA_THRESH; break;
- case VPX_BITS_10: ret_val = SMOOTH_INTRA_THRESH << 4; break;
- case VPX_BITS_12: ret_val = SMOOTH_INTRA_THRESH << 8; break;
- default:
- assert(0 &&
- "cm->bit_depth should be VPX_BITS_8, "
- "VPX_BITS_10 or VPX_BITS_12");
- }
- }
- #else
- (void)cm;
- #endif // CONFIG_VP9_HIGHBITDEPTH
- return ret_val;
- }
- #define FP_DN_THRESH 8
- #define FP_MAX_DN_THRESH 16
- #define KERNEL_SIZE 3
- // Baseline Kernal weights for first pass noise metric
- static uint8_t fp_dn_kernal_3[KERNEL_SIZE * KERNEL_SIZE] = { 1, 2, 1, 2, 4,
- 2, 1, 2, 1 };
- // Estimate noise at a single point based on the impace of a spatial kernal
- // on the point value
- static int fp_estimate_point_noise(uint8_t *src_ptr, const int stride) {
- int sum_weight = 0;
- int sum_val = 0;
- int i, j;
- int max_diff = 0;
- int diff;
- int dn_diff;
- uint8_t *tmp_ptr;
- uint8_t *kernal_ptr;
- uint8_t dn_val;
- uint8_t centre_val = *src_ptr;
- kernal_ptr = fp_dn_kernal_3;
- // Apply the kernal
- tmp_ptr = src_ptr - stride - 1;
- for (i = 0; i < KERNEL_SIZE; ++i) {
- for (j = 0; j < KERNEL_SIZE; ++j) {
- diff = abs((int)centre_val - (int)tmp_ptr[j]);
- max_diff = VPXMAX(max_diff, diff);
- if (diff <= FP_DN_THRESH) {
- sum_weight += *kernal_ptr;
- sum_val += (int)tmp_ptr[j] * (int)*kernal_ptr;
- }
- ++kernal_ptr;
- }
- tmp_ptr += stride;
- }
- if (max_diff < FP_MAX_DN_THRESH)
- // Update the source value with the new filtered value
- dn_val = (sum_val + (sum_weight >> 1)) / sum_weight;
- else
- dn_val = *src_ptr;
- // return the noise energy as the square of the difference between the
- // denoised and raw value.
- dn_diff = (int)*src_ptr - (int)dn_val;
- return dn_diff * dn_diff;
- }
- #if CONFIG_VP9_HIGHBITDEPTH
- static int fp_highbd_estimate_point_noise(uint8_t *src_ptr, const int stride) {
- int sum_weight = 0;
- int sum_val = 0;
- int i, j;
- int max_diff = 0;
- int diff;
- int dn_diff;
- uint8_t *tmp_ptr;
- uint16_t *tmp_ptr16;
- uint8_t *kernal_ptr;
- uint16_t dn_val;
- uint16_t centre_val = *CONVERT_TO_SHORTPTR(src_ptr);
- kernal_ptr = fp_dn_kernal_3;
- // Apply the kernal
- tmp_ptr = src_ptr - stride - 1;
- for (i = 0; i < KERNEL_SIZE; ++i) {
- tmp_ptr16 = CONVERT_TO_SHORTPTR(tmp_ptr);
- for (j = 0; j < KERNEL_SIZE; ++j) {
- diff = abs((int)centre_val - (int)tmp_ptr16[j]);
- max_diff = VPXMAX(max_diff, diff);
- if (diff <= FP_DN_THRESH) {
- sum_weight += *kernal_ptr;
- sum_val += (int)tmp_ptr16[j] * (int)*kernal_ptr;
- }
- ++kernal_ptr;
- }
- tmp_ptr += stride;
- }
- if (max_diff < FP_MAX_DN_THRESH)
- // Update the source value with the new filtered value
- dn_val = (sum_val + (sum_weight >> 1)) / sum_weight;
- else
- dn_val = *CONVERT_TO_SHORTPTR(src_ptr);
- // return the noise energy as the square of the difference between the
- // denoised and raw value.
- dn_diff = (int)(*CONVERT_TO_SHORTPTR(src_ptr)) - (int)dn_val;
- return dn_diff * dn_diff;
- }
- #endif
- // Estimate noise for a block.
- static int fp_estimate_block_noise(MACROBLOCK *x, BLOCK_SIZE bsize) {
- #if CONFIG_VP9_HIGHBITDEPTH
- MACROBLOCKD *xd = &x->e_mbd;
- #endif
- uint8_t *src_ptr = &x->plane[0].src.buf[0];
- const int width = num_4x4_blocks_wide_lookup[bsize] * 4;
- const int height = num_4x4_blocks_high_lookup[bsize] * 4;
- int w, h;
- int stride = x->plane[0].src.stride;
- int block_noise = 0;
- // Sampled points to reduce cost overhead.
- for (h = 0; h < height; h += 2) {
- for (w = 0; w < width; w += 2) {
- #if CONFIG_VP9_HIGHBITDEPTH
- if (xd->cur_buf->flags & YV12_FLAG_HIGHBITDEPTH)
- block_noise += fp_highbd_estimate_point_noise(src_ptr, stride);
- else
- block_noise += fp_estimate_point_noise(src_ptr, stride);
- #else
- block_noise += fp_estimate_point_noise(src_ptr, stride);
- #endif
- ++src_ptr;
- }
- src_ptr += (stride - width);
- }
- return block_noise << 2; // Scale << 2 to account for sampling.
- }
- #define INVALID_ROW -1
- void vp9_first_pass(VP9_COMP *cpi, const struct lookahead_entry *source) {
- int mb_row, mb_col;
- MACROBLOCK *const x = &cpi->td.mb;
- VP9_COMMON *const cm = &cpi->common;
- MACROBLOCKD *const xd = &x->e_mbd;
- TileInfo tile;
- struct macroblock_plane *const p = x->plane;
- struct macroblockd_plane *const pd = xd->plane;
- const PICK_MODE_CONTEXT *ctx = &cpi->td.pc_root->none;
- int i;
- int recon_yoffset, recon_uvoffset;
- int64_t intra_error = 0;
- int64_t coded_error = 0;
- int64_t sr_coded_error = 0;
- int64_t frame_noise_energy = 0;
- int sum_mvr = 0, sum_mvc = 0;
- int sum_mvr_abs = 0, sum_mvc_abs = 0;
- int64_t sum_mvrs = 0, sum_mvcs = 0;
- int mvcount = 0;
- int intercount = 0;
- int second_ref_count = 0;
- const int intrapenalty = INTRA_MODE_PENALTY;
- double neutral_count;
- int intra_skip_count = 0;
- int intra_smooth_count = 0;
- int image_data_start_row = INVALID_ROW;
- int new_mv_count = 0;
- int sum_in_vectors = 0;
- MV lastmv = { 0, 0 };
- TWO_PASS *twopass = &cpi->twopass;
- const MV zero_mv = { 0, 0 };
- int recon_y_stride, recon_uv_stride, uv_mb_height;
- YV12_BUFFER_CONFIG *const lst_yv12 = get_ref_frame_buffer(cpi, LAST_FRAME);
- YV12_BUFFER_CONFIG *gld_yv12 = get_ref_frame_buffer(cpi, GOLDEN_FRAME);
- YV12_BUFFER_CONFIG *const new_yv12 = get_frame_new_buffer(cm);
- const YV12_BUFFER_CONFIG *first_ref_buf = lst_yv12;
- LAYER_CONTEXT *const lc =
- is_two_pass_svc(cpi) ? &cpi->svc.layer_context[cpi->svc.spatial_layer_id]
- : NULL;
- double intra_factor;
- double brightness_factor;
- BufferPool *const pool = cm->buffer_pool;
- MODE_INFO mi_above, mi_left;
- // First pass code requires valid last and new frame buffers.
- assert(new_yv12 != NULL);
- assert((lc != NULL) || frame_is_intra_only(cm) || (lst_yv12 != NULL));
- #if CONFIG_FP_MB_STATS
- if (cpi->use_fp_mb_stats) {
- vp9_zero_array(cpi->twopass.frame_mb_stats_buf, cm->initial_mbs);
- }
- #endif
- vpx_clear_system_state();
- intra_factor = 0.0;
- brightness_factor = 0.0;
- neutral_count = 0.0;
- set_first_pass_params(cpi);
- vp9_set_quantizer(cm, find_fp_qindex(cm->bit_depth));
- if (lc != NULL) {
- twopass = &lc->twopass;
- cpi->lst_fb_idx = cpi->svc.spatial_layer_id;
- cpi->ref_frame_flags = VP9_LAST_FLAG;
- if (cpi->svc.number_spatial_layers + cpi->svc.spatial_layer_id <
- REF_FRAMES) {
- cpi->gld_fb_idx =
- cpi->svc.number_spatial_layers + cpi->svc.spatial_layer_id;
- cpi->ref_frame_flags |= VP9_GOLD_FLAG;
- cpi->refresh_golden_frame = (lc->current_video_frame_in_layer == 0);
- } else {
- cpi->refresh_golden_frame = 0;
- }
- if (lc->current_video_frame_in_layer == 0) cpi->ref_frame_flags = 0;
- vp9_scale_references(cpi);
- // Use either last frame or alt frame for motion search.
- if (cpi->ref_frame_flags & VP9_LAST_FLAG) {
- first_ref_buf = vp9_get_scaled_ref_frame(cpi, LAST_FRAME);
- if (first_ref_buf == NULL)
- first_ref_buf = get_ref_frame_buffer(cpi, LAST_FRAME);
- }
- if (cpi->ref_frame_flags & VP9_GOLD_FLAG) {
- gld_yv12 = vp9_get_scaled_ref_frame(cpi, GOLDEN_FRAME);
- if (gld_yv12 == NULL) {
- gld_yv12 = get_ref_frame_buffer(cpi, GOLDEN_FRAME);
- }
- } else {
- gld_yv12 = NULL;
- }
- set_ref_ptrs(cm, xd,
- (cpi->ref_frame_flags & VP9_LAST_FLAG) ? LAST_FRAME : NONE,
- (cpi->ref_frame_flags & VP9_GOLD_FLAG) ? GOLDEN_FRAME : NONE);
- cpi->Source = vp9_scale_if_required(cm, cpi->un_scaled_source,
- &cpi->scaled_source, 0);
- }
- vp9_setup_block_planes(&x->e_mbd, cm->subsampling_x, cm->subsampling_y);
- vp9_setup_src_planes(x, cpi->Source, 0, 0);
- vp9_setup_dst_planes(xd->plane, new_yv12, 0, 0);
- if (!frame_is_intra_only(cm)) {
- vp9_setup_pre_planes(xd, 0, first_ref_buf, 0, 0, NULL);
- }
- xd->mi = cm->mi_grid_visible;
- xd->mi[0] = cm->mi;
- vp9_frame_init_quantizer(cpi);
- for (i = 0; i < MAX_MB_PLANE; ++i) {
- p[i].coeff = ctx->coeff_pbuf[i][1];
- p[i].qcoeff = ctx->qcoeff_pbuf[i][1];
- pd[i].dqcoeff = ctx->dqcoeff_pbuf[i][1];
- p[i].eobs = ctx->eobs_pbuf[i][1];
- }
- x->skip_recode = 0;
- vp9_init_mv_probs(cm);
- vp9_initialize_rd_consts(cpi);
- // Tiling is ignored in the first pass.
- vp9_tile_init(&tile, cm, 0, 0);
- recon_y_stride = new_yv12->y_stride;
- recon_uv_stride = new_yv12->uv_stride;
- uv_mb_height = 16 >> (new_yv12->y_height > new_yv12->uv_height);
- for (mb_row = 0; mb_row < cm->mb_rows; ++mb_row) {
- MV best_ref_mv = { 0, 0 };
- // Reset above block coeffs.
- recon_yoffset = (mb_row * recon_y_stride * 16);
- recon_uvoffset = (mb_row * recon_uv_stride * uv_mb_height);
- // Set up limit values for motion vectors to prevent them extending
- // outside the UMV borders.
- x->mv_limits.row_min = -((mb_row * 16) + BORDER_MV_PIXELS_B16);
- x->mv_limits.row_max =
- ((cm->mb_rows - 1 - mb_row) * 16) + BORDER_MV_PIXELS_B16;
- for (mb_col = 0; mb_col < cm->mb_cols; ++mb_col) {
- int this_error;
- int this_intra_error;
- const int use_dc_pred = (mb_col || mb_row) && (!mb_col || !mb_row);
- const BLOCK_SIZE bsize = get_bsize(cm, mb_row, mb_col);
- double log_intra;
- int level_sample;
- #if CONFIG_FP_MB_STATS
- const int mb_index = mb_row * cm->mb_cols + mb_col;
- #endif
- vpx_clear_system_state();
- xd->plane[0].dst.buf = new_yv12->y_buffer + recon_yoffset;
- xd->plane[1].dst.buf = new_yv12->u_buffer + recon_uvoffset;
- xd->plane[2].dst.buf = new_yv12->v_buffer + recon_uvoffset;
- xd->mi[0]->sb_type = bsize;
- xd->mi[0]->ref_frame[0] = INTRA_FRAME;
- set_mi_row_col(xd, &tile, mb_row << 1, num_8x8_blocks_high_lookup[bsize],
- mb_col << 1, num_8x8_blocks_wide_lookup[bsize],
- cm->mi_rows, cm->mi_cols);
- // Are edges available for intra prediction?
- // Since the firstpass does not populate the mi_grid_visible,
- // above_mi/left_mi must be overwritten with a nonzero value when edges
- // are available. Required by vp9_predict_intra_block().
- xd->above_mi = (mb_row != 0) ? &mi_above : NULL;
- xd->left_mi = (mb_col > tile.mi_col_start) ? &mi_left : NULL;
- // Do intra 16x16 prediction.
- x->skip_encode = 0;
- xd->mi[0]->mode = DC_PRED;
- xd->mi[0]->tx_size =
- use_dc_pred ? (bsize >= BLOCK_16X16 ? TX_16X16 : TX_8X8) : TX_4X4;
- vp9_encode_intra_block_plane(x, bsize, 0, 0);
- this_error = vpx_get_mb_ss(x->plane[0].src_diff);
- this_intra_error = this_error;
- // Keep a record of blocks that have very low intra error residual
- // (i.e. are in effect completely flat and untextured in the intra
- // domain). In natural videos this is uncommon, but it is much more
- // common in animations, graphics and screen content, so may be used
- // as a signal to detect these types of content.
- if (this_error < get_ul_intra_threshold(cm)) {
- ++intra_skip_count;
- } else if ((mb_col > 0) && (image_data_start_row == INVALID_ROW)) {
- image_data_start_row = mb_row;
- }
- // Blocks that are mainly smooth in the intra domain.
- // Some special accounting for CQ but also these are better for testing
- // noise levels.
- if (this_error < get_smooth_intra_threshold(cm)) {
- ++intra_smooth_count;
- }
- // Special case noise measurement for first frame.
- if (cm->current_video_frame == 0) {
- if (this_intra_error < scale_sse_threshold(cm, LOW_I_THRESH)) {
- frame_noise_energy += fp_estimate_block_noise(x, bsize);
- } else {
- frame_noise_energy += (int64_t)SECTION_NOISE_DEF;
- }
- }
- #if CONFIG_VP9_HIGHBITDEPTH
- if (cm->use_highbitdepth) {
- switch (cm->bit_depth) {
- case VPX_BITS_8: break;
- case VPX_BITS_10: this_error >>= 4; break;
- case VPX_BITS_12: this_error >>= 8; break;
- default:
- assert(0 &&
- "cm->bit_depth should be VPX_BITS_8, "
- "VPX_BITS_10 or VPX_BITS_12");
- return;
- }
- }
- #endif // CONFIG_VP9_HIGHBITDEPTH
- vpx_clear_system_state();
- log_intra = log(this_error + 1.0);
- if (log_intra < 10.0)
- intra_factor += 1.0 + ((10.0 - log_intra) * 0.05);
- else
- intra_factor += 1.0;
- #if CONFIG_VP9_HIGHBITDEPTH
- if (cm->use_highbitdepth)
- level_sample = CONVERT_TO_SHORTPTR(x->plane[0].src.buf)[0];
- else
- level_sample = x->plane[0].src.buf[0];
- #else
- level_sample = x->plane[0].src.buf[0];
- #endif
- if ((level_sample < DARK_THRESH) && (log_intra < 9.0))
- brightness_factor += 1.0 + (0.01 * (DARK_THRESH - level_sample));
- else
- brightness_factor += 1.0;
- // Intrapenalty below deals with situations where the intra and inter
- // error scores are very low (e.g. a plain black frame).
- // We do not have special cases in first pass for 0,0 and nearest etc so
- // all inter modes carry an overhead cost estimate for the mv.
- // When the error score is very low this causes us to pick all or lots of
- // INTRA modes and throw lots of key frames.
- // This penalty adds a cost matching that of a 0,0 mv to the intra case.
- this_error += intrapenalty;
- // Accumulate the intra error.
- intra_error += (int64_t)this_error;
- #if CONFIG_FP_MB_STATS
- if (cpi->use_fp_mb_stats) {
- // initialization
- cpi->twopass.frame_mb_stats_buf[mb_index] = 0;
- }
- #endif
- // Set up limit values for motion vectors to prevent them extending
- // outside the UMV borders.
- x->mv_limits.col_min = -((mb_col * 16) + BORDER_MV_PIXELS_B16);
- x->mv_limits.col_max =
- ((cm->mb_cols - 1 - mb_col) * 16) + BORDER_MV_PIXELS_B16;
- // Other than for the first frame do a motion search.
- if ((lc == NULL && cm->current_video_frame > 0) ||
- (lc != NULL && lc->current_video_frame_in_layer > 0)) {
- int tmp_err, motion_error, raw_motion_error;
- // Assume 0,0 motion with no mv overhead.
- MV mv = { 0, 0 }, tmp_mv = { 0, 0 };
- struct buf_2d unscaled_last_source_buf_2d;
- xd->plane[0].pre[0].buf = first_ref_buf->y_buffer + recon_yoffset;
- #if CONFIG_VP9_HIGHBITDEPTH
- if (xd->cur_buf->flags & YV12_FLAG_HIGHBITDEPTH) {
- motion_error = highbd_get_prediction_error(
- bsize, &x->plane[0].src, &xd->plane[0].pre[0], xd->bd);
- } else {
- motion_error = get_prediction_error(bsize, &x->plane[0].src,
- &xd->plane[0].pre[0]);
- }
- #else
- motion_error =
- get_prediction_error(bsize, &x->plane[0].src, &xd->plane[0].pre[0]);
- #endif // CONFIG_VP9_HIGHBITDEPTH
- // Compute the motion error of the 0,0 motion using the last source
- // frame as the reference. Skip the further motion search on
- // reconstructed frame if this error is small.
- unscaled_last_source_buf_2d.buf =
- cpi->unscaled_last_source->y_buffer + recon_yoffset;
- unscaled_last_source_buf_2d.stride =
- cpi->unscaled_last_source->y_stride;
- #if CONFIG_VP9_HIGHBITDEPTH
- if (xd->cur_buf->flags & YV12_FLAG_HIGHBITDEPTH) {
- raw_motion_error = highbd_get_prediction_error(
- bsize, &x->plane[0].src, &unscaled_last_source_buf_2d, xd->bd);
- } else {
- raw_motion_error = get_prediction_error(bsize, &x->plane[0].src,
- &unscaled_last_source_buf_2d);
- }
- #else
- raw_motion_error = get_prediction_error(bsize, &x->plane[0].src,
- &unscaled_last_source_buf_2d);
- #endif // CONFIG_VP9_HIGHBITDEPTH
- // TODO(pengchong): Replace the hard-coded threshold
- if (raw_motion_error > 25 || lc != NULL) {
- // Test last reference frame using the previous best mv as the
- // starting point (best reference) for the search.
- first_pass_motion_search(cpi, x, &best_ref_mv, &mv, &motion_error);
- // If the current best reference mv is not centered on 0,0 then do a
- // 0,0 based search as well.
- if (!is_zero_mv(&best_ref_mv)) {
- tmp_err = INT_MAX;
- first_pass_motion_search(cpi, x, &zero_mv, &tmp_mv, &tmp_err);
- if (tmp_err < motion_error) {
- motion_error = tmp_err;
- mv = tmp_mv;
- }
- }
- // Search in an older reference frame.
- if (((lc == NULL && cm->current_video_frame > 1) ||
- (lc != NULL && lc->current_video_frame_in_layer > 1)) &&
- gld_yv12 != NULL) {
- // Assume 0,0 motion with no mv overhead.
- int gf_motion_error;
- xd->plane[0].pre[0].buf = gld_yv12->y_buffer + recon_yoffset;
- #if CONFIG_VP9_HIGHBITDEPTH
- if (xd->cur_buf->flags & YV12_FLAG_HIGHBITDEPTH) {
- gf_motion_error = highbd_get_prediction_error(
- bsize, &x->plane[0].src, &xd->plane[0].pre[0], xd->bd);
- } else {
- gf_motion_error = get_prediction_error(bsize, &x->plane[0].src,
- &xd->plane[0].pre[0]);
- }
- #else
- gf_motion_error = get_prediction_error(bsize, &x->plane[0].src,
- &xd->plane[0].pre[0]);
- #endif // CONFIG_VP9_HIGHBITDEPTH
- first_pass_motion_search(cpi, x, &zero_mv, &tmp_mv,
- &gf_motion_error);
- if (gf_motion_error < motion_error && gf_motion_error < this_error)
- ++second_ref_count;
- // Reset to last frame as reference buffer.
- xd->plane[0].pre[0].buf = first_ref_buf->y_buffer + recon_yoffset;
- xd->plane[1].pre[0].buf = first_ref_buf->u_buffer + recon_uvoffset;
- xd->plane[2].pre[0].buf = first_ref_buf->v_buffer + recon_uvoffset;
- // In accumulating a score for the older reference frame take the
- // best of the motion predicted score and the intra coded error
- // (just as will be done for) accumulation of "coded_error" for
- // the last frame.
- if (gf_motion_error < this_error)
- sr_coded_error += gf_motion_error;
- else
- sr_coded_error += this_error;
- } else {
- sr_coded_error += motion_error;
- }
- } else {
- sr_coded_error += motion_error;
- }
- // Start by assuming that intra mode is best.
- best_ref_mv.row = 0;
- best_ref_mv.col = 0;
- #if CONFIG_FP_MB_STATS
- if (cpi->use_fp_mb_stats) {
- // intra prediction statistics
- cpi->twopass.frame_mb_stats_buf[mb_index] = 0;
- cpi->twopass.frame_mb_stats_buf[mb_index] |= FPMB_DCINTRA_MASK;
- cpi->twopass.frame_mb_stats_buf[mb_index] |= FPMB_MOTION_ZERO_MASK;
- if (this_error > FPMB_ERROR_LARGE_TH) {
- cpi->twopass.frame_mb_stats_buf[mb_index] |= FPMB_ERROR_LARGE_MASK;
- } else if (this_error < FPMB_ERROR_SMALL_TH) {
- cpi->twopass.frame_mb_stats_buf[mb_index] |= FPMB_ERROR_SMALL_MASK;
- }
- }
- #endif
- if (motion_error <= this_error) {
- vpx_clear_system_state();
- // Keep a count of cases where the inter and intra were very close
- // and very low. This helps with scene cut detection for example in
- // cropped clips with black bars at the sides or top and bottom.
- if (((this_error - intrapenalty) * 9 <= motion_error * 10) &&
- (this_error < (2 * intrapenalty))) {
- neutral_count += 1.0;
- // Also track cases where the intra is not much worse than the inter
- // and use this in limiting the GF/arf group length.
- } else if ((this_error > NCOUNT_INTRA_THRESH) &&
- (this_error < (NCOUNT_INTRA_FACTOR * motion_error))) {
- neutral_count +=
- (double)motion_error / DOUBLE_DIVIDE_CHECK((double)this_error);
- }
- mv.row *= 8;
- mv.col *= 8;
- this_error = motion_error;
- xd->mi[0]->mode = NEWMV;
- xd->mi[0]->mv[0].as_mv = mv;
- xd->mi[0]->tx_size = TX_4X4;
- xd->mi[0]->ref_frame[0] = LAST_FRAME;
- xd->mi[0]->ref_frame[1] = NONE;
- vp9_build_inter_predictors_sby(xd, mb_row << 1, mb_col << 1, bsize);
- vp9_encode_sby_pass1(x, bsize);
- sum_mvr += mv.row;
- sum_mvr_abs += abs(mv.row);
- sum_mvc += mv.col;
- sum_mvc_abs += abs(mv.col);
- sum_mvrs += mv.row * mv.row;
- sum_mvcs += mv.col * mv.col;
- ++intercount;
- best_ref_mv = mv;
- #if CONFIG_FP_MB_STATS
- if (cpi->use_fp_mb_stats) {
- // inter prediction statistics
- cpi->twopass.frame_mb_stats_buf[mb_index] = 0;
- cpi->twopass.frame_mb_stats_buf[mb_index] &= ~FPMB_DCINTRA_MASK;
- cpi->twopass.frame_mb_stats_buf[mb_index] |= FPMB_MOTION_ZERO_MASK;
- if (this_error > FPMB_ERROR_LARGE_TH) {
- cpi->twopass.frame_mb_stats_buf[mb_index] |=
- FPMB_ERROR_LARGE_MASK;
- } else if (this_error < FPMB_ERROR_SMALL_TH) {
- cpi->twopass.frame_mb_stats_buf[mb_index] |=
- FPMB_ERROR_SMALL_MASK;
- }
- }
- #endif
- if (!is_zero_mv(&mv)) {
- ++mvcount;
- #if CONFIG_FP_MB_STATS
- if (cpi->use_fp_mb_stats) {
- cpi->twopass.frame_mb_stats_buf[mb_index] &=
- ~FPMB_MOTION_ZERO_MASK;
- // check estimated motion direction
- if (mv.as_mv.col > 0 && mv.as_mv.col >= abs(mv.as_mv.row)) {
- // right direction
- cpi->twopass.frame_mb_stats_buf[mb_index] |=
- FPMB_MOTION_RIGHT_MASK;
- } else if (mv.as_mv.row < 0 &&
- abs(mv.as_mv.row) >= abs(mv.as_mv.col)) {
- // up direction
- cpi->twopass.frame_mb_stats_buf[mb_index] |=
- FPMB_MOTION_UP_MASK;
- } else if (mv.as_mv.col < 0 &&
- abs(mv.as_mv.col) >= abs(mv.as_mv.row)) {
- // left direction
- cpi->twopass.frame_mb_stats_buf[mb_index] |=
- FPMB_MOTION_LEFT_MASK;
- } else {
- // down direction
- cpi->twopass.frame_mb_stats_buf[mb_index] |=
- FPMB_MOTION_DOWN_MASK;
- }
- }
- #endif
- // Non-zero vector, was it different from the last non zero vector?
- if (!is_equal_mv(&mv, &lastmv)) ++new_mv_count;
- lastmv = mv;
- // Does the row vector point inwards or outwards?
- if (mb_row < cm->mb_rows / 2) {
- if (mv.row > 0)
- --sum_in_vectors;
- else if (mv.row < 0)
- ++sum_in_vectors;
- } else if (mb_row > cm->mb_rows / 2) {
- if (mv.row > 0)
- ++sum_in_vectors;
- else if (mv.row < 0)
- --sum_in_vectors;
- }
- // Does the col vector point inwards or outwards?
- if (mb_col < cm->mb_cols / 2) {
- if (mv.col > 0)
- --sum_in_vectors;
- else if (mv.col < 0)
- ++sum_in_vectors;
- } else if (mb_col > cm->mb_cols / 2) {
- if (mv.col > 0)
- ++sum_in_vectors;
- else if (mv.col < 0)
- --sum_in_vectors;
- }
- frame_noise_energy += (int64_t)SECTION_NOISE_DEF;
- } else if (this_intra_error < scale_sse_threshold(cm, LOW_I_THRESH)) {
- frame_noise_energy += fp_estimate_block_noise(x, bsize);
- } else { // 0,0 mv but high error
- frame_noise_energy += (int64_t)SECTION_NOISE_DEF;
- }
- } else { // Intra < inter error
- if (this_intra_error < scale_sse_threshold(cm, LOW_I_THRESH))
- frame_noise_energy += fp_estimate_block_noise(x, bsize);
- else
- frame_noise_energy += (int64_t)SECTION_NOISE_DEF;
- }
- } else {
- sr_coded_error += (int64_t)this_error;
- }
- coded_error += (int64_t)this_error;
- // Adjust to the next column of MBs.
- x->plane[0].src.buf += 16;
- x->plane[1].src.buf += uv_mb_height;
- x->plane[2].src.buf += uv_mb_height;
- recon_yoffset += 16;
- recon_uvoffset += uv_mb_height;
- }
- // Adjust to the next row of MBs.
- x->plane[0].src.buf += 16 * x->plane[0].src.stride - 16 * cm->mb_cols;
- x->plane[1].src.buf +=
- uv_mb_height * x->plane[1].src.stride - uv_mb_height * cm->mb_cols;
- x->plane[2].src.buf +=
- uv_mb_height * x->plane[1].src.stride - uv_mb_height * cm->mb_cols;
- vpx_clear_system_state();
- }
- // Clamp the image start to rows/2. This number of rows is discarded top
- // and bottom as dead data so rows / 2 means the frame is blank.
- if ((image_data_start_row > cm->mb_rows / 2) ||
- (image_data_start_row == INVALID_ROW)) {
- image_data_start_row = cm->mb_rows / 2;
- }
- // Exclude any image dead zone
- if (image_data_start_row > 0) {
- intra_skip_count =
- VPXMAX(0, intra_skip_count - (image_data_start_row * cm->mb_cols * 2));
- }
- {
- FIRSTPASS_STATS fps;
- // The minimum error here insures some bit allocation to frames even
- // in static regions. The allocation per MB declines for larger formats
- // where the typical "real" energy per MB also falls.
- // Initial estimate here uses sqrt(mbs) to define the min_err, where the
- // number of mbs is proportional to the image area.
- const int num_mbs = (cpi->oxcf.resize_mode != RESIZE_NONE)
- ? cpi->initial_mbs
- : cpi->common.MBs;
- const double min_err = 200 * sqrt(num_mbs);
- intra_factor = intra_factor / (double)num_mbs;
- brightness_factor = brightness_factor / (double)num_mbs;
- fps.weight = intra_factor * brightness_factor;
- fps.frame = cm->current_video_frame;
- fps.spatial_layer_id = cpi->svc.spatial_layer_id;
- fps.coded_error = (double)(coded_error >> 8) + min_err;
- fps.sr_coded_error = (double)(sr_coded_error >> 8) + min_err;
- fps.intra_error = (double)(intra_error >> 8) + min_err;
- fps.frame_noise_energy = (double)frame_noise_energy / (double)num_mbs;
- fps.count = 1.0;
- fps.pcnt_inter = (double)intercount / num_mbs;
- fps.pcnt_second_ref = (double)second_ref_count / num_mbs;
- fps.pcnt_neutral = (double)neutral_count / num_mbs;
- fps.intra_skip_pct = (double)intra_skip_count / num_mbs;
- fps.intra_smooth_pct = (double)intra_smooth_count / num_mbs;
- fps.inactive_zone_rows = (double)image_data_start_row;
- // Currently set to 0 as most issues relate to letter boxing.
- fps.inactive_zone_cols = (double)0;
- if (mvcount > 0) {
- fps.MVr = (double)sum_mvr / mvcount;
- fps.mvr_abs = (double)sum_mvr_abs / mvcount;
- fps.MVc = (double)sum_mvc / mvcount;
- fps.mvc_abs = (double)sum_mvc_abs / mvcount;
- fps.MVrv =
- ((double)sum_mvrs - ((double)sum_mvr * sum_mvr / mvcount)) / mvcount;
- fps.MVcv =
- ((double)sum_mvcs - ((double)sum_mvc * sum_mvc / mvcount)) / mvcount;
- fps.mv_in_out_count = (double)sum_in_vectors / (mvcount * 2);
- fps.new_mv_count = new_mv_count;
- fps.pcnt_motion = (double)mvcount / num_mbs;
- } else {
- fps.MVr = 0.0;
- fps.mvr_abs = 0.0;
- fps.MVc = 0.0;
- fps.mvc_abs = 0.0;
- fps.MVrv = 0.0;
- fps.MVcv = 0.0;
- fps.mv_in_out_count = 0.0;
- fps.new_mv_count = 0.0;
- fps.pcnt_motion = 0.0;
- }
- // Dont allow a value of 0 for duration.
- // (Section duration is also defaulted to minimum of 1.0).
- fps.duration = VPXMAX(1.0, (double)(source->ts_end - source->ts_start));
- // Don't want to do output stats with a stack variable!
- twopass->this_frame_stats = fps;
- output_stats(&twopass->this_frame_stats, cpi->output_pkt_list);
- accumulate_stats(&twopass->total_stats, &fps);
- #if CONFIG_FP_MB_STATS
- if (cpi->use_fp_mb_stats) {
- output_fpmb_stats(twopass->frame_mb_stats_buf, cm, cpi->output_pkt_list);
- }
- #endif
- }
- // Copy the previous Last Frame back into gf and and arf buffers if
- // the prediction is good enough... but also don't allow it to lag too far.
- if ((twopass->sr_update_lag > 3) ||
- ((cm->current_video_frame > 0) &&
- (twopass->this_frame_stats.pcnt_inter > 0.20) &&
- ((twopass->this_frame_stats.intra_error /
- DOUBLE_DIVIDE_CHECK(twopass->this_frame_stats.coded_error)) > 2.0))) {
- if (gld_yv12 != NULL) {
- ref_cnt_fb(pool->frame_bufs, &cm->ref_frame_map[cpi->gld_fb_idx],
- cm->ref_frame_map[cpi->lst_fb_idx]);
- }
- twopass->sr_update_lag = 1;
- } else {
- ++twopass->sr_update_lag;
- }
- vpx_extend_frame_borders(new_yv12);
- if (lc != NULL) {
- vp9_update_reference_frames(cpi);
- } else {
- // The frame we just compressed now becomes the last frame.
- ref_cnt_fb(pool->frame_bufs, &cm->ref_frame_map[cpi->lst_fb_idx],
- cm->new_fb_idx);
- }
- // Special case for the first frame. Copy into the GF buffer as a second
- // reference.
- if (cm->current_video_frame == 0 && cpi->gld_fb_idx != INVALID_IDX &&
- lc == NULL) {
- ref_cnt_fb(pool->frame_bufs, &cm->ref_frame_map[cpi->gld_fb_idx],
- cm->ref_frame_map[cpi->lst_fb_idx]);
- }
- // Use this to see what the first pass reconstruction looks like.
- if (0) {
- char filename[512];
- FILE *recon_file;
- snprintf(filename, sizeof(filename), "enc%04d.yuv",
- (int)cm->current_video_frame);
- if (cm->current_video_frame == 0)
- recon_file = fopen(filename, "wb");
- else
- recon_file = fopen(filename, "ab");
- (void)fwrite(lst_yv12->buffer_alloc, lst_yv12->frame_size, 1, recon_file);
- fclose(recon_file);
- }
- ++cm->current_video_frame;
- if (cpi->use_svc) vp9_inc_frame_in_layer(cpi);
- }
- static double calc_correction_factor(double err_per_mb, double err_divisor,
- double pt_low, double pt_high, int q,
- vpx_bit_depth_t bit_depth) {
- const double error_term = err_per_mb / err_divisor;
- // Adjustment based on actual quantizer to power term.
- const double power_term =
- VPXMIN(vp9_convert_qindex_to_q(q, bit_depth) * 0.01 + pt_low, pt_high);
- // Calculate correction factor.
- if (power_term < 1.0) assert(error_term >= 0.0);
- return fclamp(pow(error_term, power_term), 0.05, 5.0);
- }
- #define ERR_DIVISOR 115.0
- #define NOISE_FACTOR_MIN 0.9
- #define NOISE_FACTOR_MAX 1.1
- static int get_twopass_worst_quality(VP9_COMP *cpi, const double section_err,
- double inactive_zone, double section_noise,
- int section_target_bandwidth) {
- const RATE_CONTROL *const rc = &cpi->rc;
- const VP9EncoderConfig *const oxcf = &cpi->oxcf;
- TWO_PASS *const twopass = &cpi->twopass;
- // Clamp the target rate to VBR min / max limts.
- const int target_rate =
- vp9_rc_clamp_pframe_target_size(cpi, section_target_bandwidth);
- double noise_factor = pow((section_noise / SECTION_NOISE_DEF), 0.5);
- noise_factor = fclamp(noise_factor, NOISE_FACTOR_MIN, NOISE_FACTOR_MAX);
- inactive_zone = fclamp(inactive_zone, 0.0, 1.0);
- if (target_rate <= 0) {
- return rc->worst_quality; // Highest value allowed
- } else {
- const int num_mbs = (cpi->oxcf.resize_mode != RESIZE_NONE)
- ? cpi->initial_mbs
- : cpi->common.MBs;
- const int active_mbs = VPXMAX(1, num_mbs - (int)(num_mbs * inactive_zone));
- const double av_err_per_mb = section_err / active_mbs;
- const double speed_term = 1.0 + 0.04 * oxcf->speed;
- double last_group_rate_err;
- const int target_norm_bits_per_mb =
- (int)(((uint64_t)target_rate << BPER_MB_NORMBITS) / active_mbs);
- int q;
- int is_svc_upper_layer = 0;
- if (is_two_pass_svc(cpi) && cpi->svc.spatial_layer_id > 0)
- is_svc_upper_layer = 1;
- // based on recent history adjust expectations of bits per macroblock.
- last_group_rate_err =
- (double)twopass->rolling_arf_group_actual_bits /
- DOUBLE_DIVIDE_CHECK((double)twopass->rolling_arf_group_target_bits);
- last_group_rate_err = VPXMAX(0.25, VPXMIN(4.0, last_group_rate_err));
- twopass->bpm_factor *= (3.0 + last_group_rate_err) / 4.0;
- twopass->bpm_factor = VPXMAX(0.25, VPXMIN(4.0, twopass->bpm_factor));
- // Try and pick a max Q that will be high enough to encode the
- // content at the given rate.
- for (q = rc->best_quality; q < rc->worst_quality; ++q) {
- const double factor = calc_correction_factor(
- av_err_per_mb, ERR_DIVISOR,
- is_svc_upper_layer ? SVC_FACTOR_PT_LOW : FACTOR_PT_LOW,
- FACTOR_PT_HIGH, q, cpi->common.bit_depth);
- const int bits_per_mb = vp9_rc_bits_per_mb(
- INTER_FRAME, q,
- factor * speed_term * cpi->twopass.bpm_factor * noise_factor,
- cpi->common.bit_depth);
- if (bits_per_mb <= target_norm_bits_per_mb) break;
- }
- // Restriction on active max q for constrained quality mode.
- if (cpi->oxcf.rc_mode == VPX_CQ) q = VPXMAX(q, oxcf->cq_level);
- return q;
- }
- }
- static void setup_rf_level_maxq(VP9_COMP *cpi) {
- int i;
- RATE_CONTROL *const rc = &cpi->rc;
- for (i = INTER_NORMAL; i < RATE_FACTOR_LEVELS; ++i) {
- int qdelta = vp9_frame_type_qdelta(cpi, i, rc->worst_quality);
- rc->rf_level_maxq[i] = VPXMAX(rc->worst_quality + qdelta, rc->best_quality);
- }
- }
- static void init_subsampling(VP9_COMP *cpi) {
- const VP9_COMMON *const cm = &cpi->common;
- RATE_CONTROL *const rc = &cpi->rc;
- const int w = cm->width;
- const int h = cm->height;
- int i;
- for (i = 0; i < FRAME_SCALE_STEPS; ++i) {
- // Note: Frames with odd-sized dimensions may result from this scaling.
- rc->frame_width[i] = (w * 16) / frame_scale_factor[i];
- rc->frame_height[i] = (h * 16) / frame_scale_factor[i];
- }
- setup_rf_level_maxq(cpi);
- }
- void calculate_coded_size(VP9_COMP *cpi, int *scaled_frame_width,
- int *scaled_frame_height) {
- RATE_CONTROL *const rc = &cpi->rc;
- *scaled_frame_width = rc->frame_width[rc->frame_size_selector];
- *scaled_frame_height = rc->frame_height[rc->frame_size_selector];
- }
- void vp9_init_second_pass(VP9_COMP *cpi) {
- SVC *const svc = &cpi->svc;
- const VP9EncoderConfig *const oxcf = &cpi->oxcf;
- const int is_two_pass_svc =
- (svc->number_spatial_layers > 1) || (svc->number_temporal_layers > 1);
- RATE_CONTROL *const rc = &cpi->rc;
- TWO_PASS *const twopass =
- is_two_pass_svc ? &svc->layer_context[svc->spatial_layer_id].twopass
- : &cpi->twopass;
- double frame_rate;
- FIRSTPASS_STATS *stats;
- zero_stats(&twopass->total_stats);
- zero_stats(&twopass->total_left_stats);
- if (!twopass->stats_in_end) return;
- stats = &twopass->total_stats;
- *stats = *twopass->stats_in_end;
- twopass->total_left_stats = *stats;
- frame_rate = 10000000.0 * stats->count / stats->duration;
- // Each frame can have a different duration, as the frame rate in the source
- // isn't guaranteed to be constant. The frame rate prior to the first frame
- // encoded in the second pass is a guess. However, the sum duration is not.
- // It is calculated based on the actual durations of all frames from the
- // first pass.
- if (is_two_pass_svc) {
- vp9_update_spatial_layer_framerate(cpi, frame_rate);
- twopass->bits_left =
- (int64_t)(stats->duration *
- svc->layer_context[svc->spatial_layer_id].target_bandwidth /
- 10000000.0);
- } else {
- vp9_new_framerate(cpi, frame_rate);
- twopass->bits_left =
- (int64_t)(stats->duration * oxcf->target_bandwidth / 10000000.0);
- }
- // This variable monitors how far behind the second ref update is lagging.
- twopass->sr_update_lag = 1;
- // Scan the first pass file and calculate a modified total error based upon
- // the bias/power function used to allocate bits.
- {
- const double avg_error =
- stats->coded_error / DOUBLE_DIVIDE_CHECK(stats->count);
- const FIRSTPASS_STATS *s = twopass->stats_in;
- double modified_error_total = 0.0;
- twopass->modified_error_min =
- (avg_error * oxcf->two_pass_vbrmin_section) / 100;
- twopass->modified_error_max =
- (avg_error * oxcf->two_pass_vbrmax_section) / 100;
- while (s < twopass->stats_in_end) {
- modified_error_total += calculate_modified_err(cpi, twopass, oxcf, s);
- ++s;
- }
- twopass->modified_error_left = modified_error_total;
- }
- // Reset the vbr bits off target counters
- rc->vbr_bits_off_target = 0;
- rc->vbr_bits_off_target_fast = 0;
- rc->rate_error_estimate = 0;
- // Static sequence monitor variables.
- twopass->kf_zeromotion_pct = 100;
- twopass->last_kfgroup_zeromotion_pct = 100;
- // Initialize bits per macro_block estimate correction factor.
- twopass->bpm_factor = 1.0;
- // Initialize actual and target bits counters for ARF groups so that
- // at the start we have a neutral bpm adjustment.
- twopass->rolling_arf_group_target_bits = 1;
- twopass->rolling_arf_group_actual_bits = 1;
- if (oxcf->resize_mode != RESIZE_NONE) {
- init_subsampling(cpi);
- }
- // Initialize the arnr strangth adjustment to 0
- twopass->arnr_strength_adjustment = 0;
- }
- #define SR_DIFF_PART 0.0015
- #define INTRA_PART 0.005
- #define DEFAULT_DECAY_LIMIT 0.75
- #define LOW_SR_DIFF_TRHESH 0.1
- #define SR_DIFF_MAX 128.0
- #define LOW_CODED_ERR_PER_MB 10.0
- #define NCOUNT_FRAME_II_THRESH 6.0
- static double get_sr_decay_rate(const VP9_COMP *cpi,
- const FIRSTPASS_STATS *frame) {
- const int num_mbs = (cpi->oxcf.resize_mode != RESIZE_NONE) ? cpi->initial_mbs
- : cpi->common.MBs;
- double sr_diff = (frame->sr_coded_error - frame->coded_error) / num_mbs;
- double sr_decay = 1.0;
- double modified_pct_inter;
- double modified_pcnt_intra;
- const double motion_amplitude_part =
- frame->pcnt_motion * ((frame->mvc_abs + frame->mvr_abs) /
- (cpi->initial_height + cpi->initial_width));
- modified_pct_inter = frame->pcnt_inter;
- if (((frame->coded_error / num_mbs) > LOW_CODED_ERR_PER_MB) &&
- ((frame->intra_error / DOUBLE_DIVIDE_CHECK(frame->coded_error)) <
- (double)NCOUNT_FRAME_II_THRESH)) {
- modified_pct_inter = frame->pcnt_inter - frame->pcnt_neutral;
- }
- modified_pcnt_intra = 100 * (1.0 - modified_pct_inter);
- if ((sr_diff > LOW_SR_DIFF_TRHESH)) {
- sr_diff = VPXMIN(sr_diff, SR_DIFF_MAX);
- sr_decay = 1.0 - (SR_DIFF_PART * sr_diff) - motion_amplitude_part -
- (INTRA_PART * modified_pcnt_intra);
- }
- return VPXMAX(sr_decay, VPXMIN(DEFAULT_DECAY_LIMIT, modified_pct_inter));
- }
- // This function gives an estimate of how badly we believe the prediction
- // quality is decaying from frame to frame.
- static double get_zero_motion_factor(const VP9_COMP *cpi,
- const FIRSTPASS_STATS *frame) {
- const double zero_motion_pct = frame->pcnt_inter - frame->pcnt_motion;
- double sr_decay = get_sr_decay_rate(cpi, frame);
- return VPXMIN(sr_decay, zero_motion_pct);
- }
- #define ZM_POWER_FACTOR 0.75
- static double get_prediction_decay_rate(const VP9_COMP *cpi,
- const FIRSTPASS_STATS *next_frame) {
- const double sr_decay_rate = get_sr_decay_rate(cpi, next_frame);
- const double zero_motion_factor =
- (0.95 * pow((next_frame->pcnt_inter - next_frame->pcnt_motion),
- ZM_POWER_FACTOR));
- return VPXMAX(zero_motion_factor,
- (sr_decay_rate + ((1.0 - sr_decay_rate) * zero_motion_factor)));
- }
- // Function to test for a condition where a complex transition is followed
- // by a static section. For example in slide shows where there is a fade
- // between slides. This is to help with more optimal kf and gf positioning.
- static int detect_transition_to_still(VP9_COMP *cpi, int frame_interval,
- int still_interval,
- double loop_decay_rate,
- double last_decay_rate) {
- TWO_PASS *const twopass = &cpi->twopass;
- RATE_CONTROL *const rc = &cpi->rc;
- // Break clause to detect very still sections after motion
- // For example a static image after a fade or other transition
- // instead of a clean scene cut.
- if (frame_interval > rc->min_gf_interval && loop_decay_rate >= 0.999 &&
- last_decay_rate < 0.9) {
- int j;
- // Look ahead a few frames to see if static condition persists...
- for (j = 0; j < still_interval; ++j) {
- const FIRSTPASS_STATS *stats = &twopass->stats_in[j];
- if (stats >= twopass->stats_in_end) break;
- if (stats->pcnt_inter - stats->pcnt_motion < 0.999) break;
- }
- // Only if it does do we signal a transition to still.
- return j == still_interval;
- }
- return 0;
- }
- // This function detects a flash through the high relative pcnt_second_ref
- // score in the frame following a flash frame. The offset passed in should
- // reflect this.
- static int detect_flash(const TWO_PASS *twopass, int offset) {
- const FIRSTPASS_STATS *const next_frame = read_frame_stats(twopass, offset);
- // What we are looking for here is a situation where there is a
- // brief break in prediction (such as a flash) but subsequent frames
- // are reasonably well predicted by an earlier (pre flash) frame.
- // The recovery after a flash is indicated by a high pcnt_second_ref
- // compared to pcnt_inter.
- return next_frame != NULL &&
- next_frame->pcnt_second_ref > next_frame->pcnt_inter &&
- next_frame->pcnt_second_ref >= 0.5;
- }
- // Update the motion related elements to the GF arf boost calculation.
- static void accumulate_frame_motion_stats(const FIRSTPASS_STATS *stats,
- double *mv_in_out,
- double *mv_in_out_accumulator,
- double *abs_mv_in_out_accumulator,
- double *mv_ratio_accumulator) {
- const double pct = stats->pcnt_motion;
- // Accumulate Motion In/Out of frame stats.
- *mv_in_out = stats->mv_in_out_count * pct;
- *mv_in_out_accumulator += *mv_in_out;
- *abs_mv_in_out_accumulator += fabs(*mv_in_out);
- // Accumulate a measure of how uniform (or conversely how random) the motion
- // field is (a ratio of abs(mv) / mv).
- if (pct > 0.05) {
- const double mvr_ratio =
- fabs(stats->mvr_abs) / DOUBLE_DIVIDE_CHECK(fabs(stats->MVr));
- const double mvc_ratio =
- fabs(stats->mvc_abs) / DOUBLE_DIVIDE_CHECK(fabs(stats->MVc));
- *mv_ratio_accumulator +=
- pct * (mvr_ratio < stats->mvr_abs ? mvr_ratio : stats->mvr_abs);
- *mv_ratio_accumulator +=
- pct * (mvc_ratio < stats->mvc_abs ? mvc_ratio : stats->mvc_abs);
- }
- }
- #define BASELINE_ERR_PER_MB 1000.0
- static double calc_frame_boost(VP9_COMP *cpi, const FIRSTPASS_STATS *this_frame,
- double this_frame_mv_in_out, double max_boost) {
- double frame_boost;
- const double lq = vp9_convert_qindex_to_q(
- cpi->rc.avg_frame_qindex[INTER_FRAME], cpi->common.bit_depth);
- const double boost_q_correction = VPXMIN((0.5 + (lq * 0.015)), 1.5);
- int num_mbs = (cpi->oxcf.resize_mode != RESIZE_NONE) ? cpi->initial_mbs
- : cpi->common.MBs;
- // Correct for any inactive region in the image
- num_mbs = (int)VPXMAX(1, num_mbs * calculate_active_area(cpi, this_frame));
- // Underlying boost factor is based on inter error ratio.
- frame_boost = (BASELINE_ERR_PER_MB * num_mbs) /
- DOUBLE_DIVIDE_CHECK(this_frame->coded_error);
- frame_boost = frame_boost * BOOST_FACTOR * boost_q_correction;
- // Increase boost for frames where new data coming into frame (e.g. zoom out).
- // Slightly reduce boost if there is a net balance of motion out of the frame
- // (zoom in). The range for this_frame_mv_in_out is -1.0 to +1.0.
- if (this_frame_mv_in_out > 0.0)
- frame_boost += frame_boost * (this_frame_mv_in_out * 2.0);
- // In the extreme case the boost is halved.
- else
- frame_boost += frame_boost * (this_frame_mv_in_out / 2.0);
- return VPXMIN(frame_boost, max_boost * boost_q_correction);
- }
- static int calc_arf_boost(VP9_COMP *cpi, int offset, int f_frames, int b_frames,
- int *f_boost, int *b_boost) {
- TWO_PASS *const twopass = &cpi->twopass;
- int i;
- double boost_score = 0.0;
- double mv_ratio_accumulator = 0.0;
- double decay_accumulator = 1.0;
- double this_frame_mv_in_out = 0.0;
- double mv_in_out_accumulator = 0.0;
- double abs_mv_in_out_accumulator = 0.0;
- int arf_boost;
- int flash_detected = 0;
- // Search forward from the proposed arf/next gf position.
- for (i = 0; i < f_frames; ++i) {
- const FIRSTPASS_STATS *this_frame = read_frame_stats(twopass, i + offset);
- if (this_frame == NULL) break;
- // Update the motion related elements to the boost calculation.
- accumulate_frame_motion_stats(
- this_frame, &this_frame_mv_in_out, &mv_in_out_accumulator,
- &abs_mv_in_out_accumulator, &mv_ratio_accumulator);
- // We want to discount the flash frame itself and the recovery
- // frame that follows as both will have poor scores.
- flash_detected = detect_flash(twopass, i + offset) ||
- detect_flash(twopass, i + offset + 1);
- // Accumulate the effect of prediction quality decay.
- if (!flash_detected) {
- decay_accumulator *= get_prediction_decay_rate(cpi, this_frame);
- decay_accumulator = decay_accumulator < MIN_DECAY_FACTOR
- ? MIN_DECAY_FACTOR
- : decay_accumulator;
- }
- boost_score +=
- decay_accumulator *
- calc_frame_boost(cpi, this_frame, this_frame_mv_in_out, GF_MAX_BOOST);
- }
- *f_boost = (int)boost_score;
- // Reset for backward looking loop.
- boost_score = 0.0;
- mv_ratio_accumulator = 0.0;
- decay_accumulator = 1.0;
- this_frame_mv_in_out = 0.0;
- mv_in_out_accumulator = 0.0;
- abs_mv_in_out_accumulator = 0.0;
- // Search backward towards last gf position.
- for (i = -1; i >= -b_frames; --i) {
- const FIRSTPASS_STATS *this_frame = read_frame_stats(twopass, i + offset);
- if (this_frame == NULL) break;
- // Update the motion related elements to the boost calculation.
- accumulate_frame_motion_stats(
- this_frame, &this_frame_mv_in_out, &mv_in_out_accumulator,
- &abs_mv_in_out_accumulator, &mv_ratio_accumulator);
- // We want to discount the the flash frame itself and the recovery
- // frame that follows as both will have poor scores.
- flash_detected = detect_flash(twopass, i + offset) ||
- detect_flash(twopass, i + offset + 1);
- // Cumulative effect of prediction quality decay.
- if (!flash_detected) {
- decay_accumulator *= get_prediction_decay_rate(cpi, this_frame);
- decay_accumulator = decay_accumulator < MIN_DECAY_FACTOR
- ? MIN_DECAY_FACTOR
- : decay_accumulator;
- }
- boost_score +=
- decay_accumulator *
- calc_frame_boost(cpi, this_frame, this_frame_mv_in_out, GF_MAX_BOOST);
- }
- *b_boost = (int)boost_score;
- arf_boost = (*f_boost + *b_boost);
- if (arf_boost < ((b_frames + f_frames) * 20))
- arf_boost = ((b_frames + f_frames) * 20);
- arf_boost = VPXMAX(arf_boost, MIN_ARF_GF_BOOST);
- return arf_boost;
- }
- // Calculate a section intra ratio used in setting max loop filter.
- static int calculate_section_intra_ratio(const FIRSTPASS_STATS *begin,
- const FIRSTPASS_STATS *end,
- int section_length) {
- const FIRSTPASS_STATS *s = begin;
- double intra_error = 0.0;
- double coded_error = 0.0;
- int i = 0;
- while (s < end && i < section_length) {
- intra_error += s->intra_error;
- coded_error += s->coded_error;
- ++s;
- ++i;
- }
- return (int)(intra_error / DOUBLE_DIVIDE_CHECK(coded_error));
- }
- // Calculate the total bits to allocate in this GF/ARF group.
- static int64_t calculate_total_gf_group_bits(VP9_COMP *cpi,
- double gf_group_err) {
- const RATE_CONTROL *const rc = &cpi->rc;
- const TWO_PASS *const twopass = &cpi->twopass;
- const int max_bits = frame_max_bits(rc, &cpi->oxcf);
- int64_t total_group_bits;
- // Calculate the bits to be allocated to the group as a whole.
- if ((twopass->kf_group_bits > 0) && (twopass->kf_group_error_left > 0)) {
- total_group_bits = (int64_t)(twopass->kf_group_bits *
- (gf_group_err / twopass->kf_group_error_left));
- } else {
- total_group_bits = 0;
- }
- // Clamp odd edge cases.
- total_group_bits =
- (total_group_bits < 0) ? 0 : (total_group_bits > twopass->kf_group_bits)
- ? twopass->kf_group_bits
- : total_group_bits;
- // Clip based on user supplied data rate variability limit.
- if (total_group_bits > (int64_t)max_bits * rc->baseline_gf_interval)
- total_group_bits = (int64_t)max_bits * rc->baseline_gf_interval;
- return total_group_bits;
- }
- // Calculate the number bits extra to assign to boosted frames in a group.
- static int calculate_boost_bits(int frame_count, int boost,
- int64_t total_group_bits) {
- int allocation_chunks;
- // return 0 for invalid inputs (could arise e.g. through rounding errors)
- if (!boost || (total_group_bits <= 0) || (frame_count <= 0)) return 0;
- allocation_chunks = (frame_count * 100) + boost;
- // Prevent overflow.
- if (boost > 1023) {
- int divisor = boost >> 10;
- boost /= divisor;
- allocation_chunks /= divisor;
- }
- // Calculate the number of extra bits for use in the boosted frame or frames.
- return VPXMAX((int)(((int64_t)boost * total_group_bits) / allocation_chunks),
- 0);
- }
- // Current limit on maximum number of active arfs in a GF/ARF group.
- #define MAX_ACTIVE_ARFS 2
- #define ARF_SLOT1 2
- #define ARF_SLOT2 3
- // This function indirects the choice of buffers for arfs.
- // At the moment the values are fixed but this may change as part of
- // the integration process with other codec features that swap buffers around.
- static void get_arf_buffer_indices(unsigned char *arf_buffer_indices) {
- arf_buffer_indices[0] = ARF_SLOT1;
- arf_buffer_indices[1] = ARF_SLOT2;
- }
- static void allocate_gf_group_bits(VP9_COMP *cpi, int64_t gf_group_bits,
- int gf_arf_bits) {
- RATE_CONTROL *const rc = &cpi->rc;
- TWO_PASS *const twopass = &cpi->twopass;
- GF_GROUP *const gf_group = &twopass->gf_group;
- FIRSTPASS_STATS frame_stats;
- int i;
- int frame_index = 1;
- int target_frame_size;
- int key_frame;
- const int max_bits = frame_max_bits(&cpi->rc, &cpi->oxcf);
- int64_t total_group_bits = gf_group_bits;
- int mid_boost_bits = 0;
- int mid_frame_idx;
- unsigned char arf_buffer_indices[MAX_ACTIVE_ARFS];
- int alt_frame_index = frame_index;
- int has_temporal_layers =
- is_two_pass_svc(cpi) && cpi->svc.number_temporal_layers > 1;
- int normal_frames;
- int normal_frame_bits;
- int last_frame_bits;
- int last_frame_reduction;
- // Only encode alt reference frame in temporal base layer.
- if (has_temporal_layers) alt_frame_index = cpi->svc.number_temporal_layers;
- key_frame =
- cpi->common.frame_type == KEY_FRAME || vp9_is_upper_layer_key_frame(cpi);
- get_arf_buffer_indices(arf_buffer_indices);
- // For key frames the frame target rate is already set and it
- // is also the golden frame.
- if (!key_frame) {
- if (rc->source_alt_ref_active) {
- gf_group->update_type[0] = OVERLAY_UPDATE;
- gf_group->rf_level[0] = INTER_NORMAL;
- gf_group->bit_allocation[0] = 0;
- } else {
- gf_group->update_type[0] = GF_UPDATE;
- gf_group->rf_level[0] = GF_ARF_STD;
- gf_group->bit_allocation[0] = gf_arf_bits;
- }
- gf_group->arf_update_idx[0] = arf_buffer_indices[0];
- gf_group->arf_ref_idx[0] = arf_buffer_indices[0];
- // Step over the golden frame / overlay frame
- if (EOF == input_stats(twopass, &frame_stats)) return;
- }
- // Deduct the boost bits for arf (or gf if it is not a key frame)
- // from the group total.
- if (rc->source_alt_ref_pending || !key_frame) total_group_bits -= gf_arf_bits;
- // Store the bits to spend on the ARF if there is one.
- if (rc->source_alt_ref_pending) {
- gf_group->update_type[alt_frame_index] = ARF_UPDATE;
- gf_group->rf_level[alt_frame_index] = GF_ARF_STD;
- gf_group->bit_allocation[alt_frame_index] = gf_arf_bits;
- if (has_temporal_layers)
- gf_group->arf_src_offset[alt_frame_index] =
- (unsigned char)(rc->baseline_gf_interval -
- cpi->svc.number_temporal_layers);
- else
- gf_group->arf_src_offset[alt_frame_index] =
- (unsigned char)(rc->baseline_gf_interval - 1);
- gf_group->arf_update_idx[alt_frame_index] = arf_buffer_indices[0];
- gf_group->arf_ref_idx[alt_frame_index] =
- arf_buffer_indices[cpi->multi_arf_last_grp_enabled &&
- rc->source_alt_ref_active];
- if (!has_temporal_layers) ++frame_index;
- if (cpi->multi_arf_enabled) {
- // Set aside a slot for a level 1 arf.
- gf_group->update_type[frame_index] = ARF_UPDATE;
- gf_group->rf_level[frame_index] = GF_ARF_LOW;
- gf_group->arf_src_offset[frame_index] =
- (unsigned char)((rc->baseline_gf_interval >> 1) - 1);
- gf_group->arf_update_idx[frame_index] = arf_buffer_indices[1];
- gf_group->arf_ref_idx[frame_index] = arf_buffer_indices[0];
- ++frame_index;
- }
- }
- // Note index of the first normal inter frame int eh group (not gf kf arf)
- gf_group->first_inter_index = frame_index;
- // Define middle frame
- mid_frame_idx = frame_index + (rc->baseline_gf_interval >> 1) - 1;
- normal_frames = (rc->baseline_gf_interval - rc->source_alt_ref_pending);
- // The last frame in the group is used less as a predictor so reduce
- // its allocation a little.
- if (normal_frames > 1) {
- normal_frame_bits = (int)(total_group_bits / normal_frames);
- last_frame_reduction = normal_frame_bits / 16;
- last_frame_bits = normal_frame_bits - last_frame_reduction;
- } else {
- normal_frame_bits = (int)total_group_bits;
- last_frame_bits = normal_frame_bits;
- last_frame_reduction = 0;
- }
- // Allocate bits to the other frames in the group.
- for (i = 0; i < normal_frames; ++i) {
- int arf_idx = 0;
- if (EOF == input_stats(twopass, &frame_stats)) break;
- if (has_temporal_layers && frame_index == alt_frame_index) {
- ++frame_index;
- }
- target_frame_size = (i == (normal_frames - 1))
- ? last_frame_bits
- : (i == mid_frame_idx)
- ? normal_frame_bits + last_frame_reduction
- : normal_frame_bits;
- if (rc->source_alt_ref_pending && cpi->multi_arf_enabled) {
- mid_boost_bits += (target_frame_size >> 4);
- target_frame_size -= (target_frame_size >> 4);
- if (frame_index <= mid_frame_idx) arf_idx = 1;
- }
- gf_group->arf_update_idx[frame_index] = arf_buffer_indices[arf_idx];
- gf_group->arf_ref_idx[frame_index] = arf_buffer_indices[arf_idx];
- target_frame_size =
- clamp(target_frame_size, 0, VPXMIN(max_bits, (int)total_group_bits));
- gf_group->update_type[frame_index] = LF_UPDATE;
- gf_group->rf_level[frame_index] = INTER_NORMAL;
- gf_group->bit_allocation[frame_index] = target_frame_size;
- ++frame_index;
- }
- // Note:
- // We need to configure the frame at the end of the sequence + 1 that will be
- // the start frame for the next group. Otherwise prior to the call to
- // vp9_rc_get_second_pass_params() the data will be undefined.
- gf_group->arf_update_idx[frame_index] = arf_buffer_indices[0];
- gf_group->arf_ref_idx[frame_index] = arf_buffer_indices[0];
- if (rc->source_alt_ref_pending) {
- gf_group->update_type[frame_index] = OVERLAY_UPDATE;
- gf_group->rf_level[frame_index] = INTER_NORMAL;
- // Final setup for second arf and its overlay.
- if (cpi->multi_arf_enabled) {
- gf_group->bit_allocation[2] =
- gf_group->bit_allocation[mid_frame_idx] + mid_boost_bits;
- gf_group->update_type[mid_frame_idx] = OVERLAY_UPDATE;
- gf_group->bit_allocation[mid_frame_idx] = 0;
- }
- } else {
- gf_group->update_type[frame_index] = GF_UPDATE;
- gf_group->rf_level[frame_index] = GF_ARF_STD;
- }
- // Note whether multi-arf was enabled this group for next time.
- cpi->multi_arf_last_grp_enabled = cpi->multi_arf_enabled;
- }
- // Adjusts the ARNF filter for a GF group.
- static void adjust_group_arnr_filter(VP9_COMP *cpi, double section_noise,
- double section_inter,
- double section_motion) {
- TWO_PASS *const twopass = &cpi->twopass;
- double section_zeromv = section_inter - section_motion;
- twopass->arnr_strength_adjustment = 0;
- if ((section_zeromv < 0.10) || (section_noise <= (SECTION_NOISE_DEF * 0.75)))
- twopass->arnr_strength_adjustment -= 1;
- if (section_zeromv > 0.50) twopass->arnr_strength_adjustment += 1;
- }
- // Analyse and define a gf/arf group.
- static void define_gf_group(VP9_COMP *cpi, FIRSTPASS_STATS *this_frame) {
- VP9_COMMON *const cm = &cpi->common;
- RATE_CONTROL *const rc = &cpi->rc;
- VP9EncoderConfig *const oxcf = &cpi->oxcf;
- TWO_PASS *const twopass = &cpi->twopass;
- FIRSTPASS_STATS next_frame;
- const FIRSTPASS_STATS *const start_pos = twopass->stats_in;
- int i;
- double boost_score = 0.0;
- double old_boost_score = 0.0;
- double gf_group_err = 0.0;
- double gf_group_raw_error = 0.0;
- double gf_group_noise = 0.0;
- double gf_group_skip_pct = 0.0;
- double gf_group_inactive_zone_rows = 0.0;
- double gf_group_inter = 0.0;
- double gf_group_motion = 0.0;
- double gf_first_frame_err = 0.0;
- double mod_frame_err = 0.0;
- double mv_ratio_accumulator = 0.0;
- double decay_accumulator = 1.0;
- double zero_motion_accumulator = 1.0;
- double loop_decay_rate = 1.00;
- double last_loop_decay_rate = 1.00;
- double this_frame_mv_in_out = 0.0;
- double mv_in_out_accumulator = 0.0;
- double abs_mv_in_out_accumulator = 0.0;
- double mv_ratio_accumulator_thresh;
- unsigned int allow_alt_ref = is_altref_enabled(cpi);
- int f_boost = 0;
- int b_boost = 0;
- int flash_detected;
- int active_max_gf_interval;
- int active_min_gf_interval;
- int64_t gf_group_bits;
- int gf_arf_bits;
- const int is_key_frame = frame_is_intra_only(cm);
- const int arf_active_or_kf = is_key_frame || rc->source_alt_ref_active;
- // Reset the GF group data structures unless this is a key
- // frame in which case it will already have been done.
- if (is_key_frame == 0) {
- vp9_zero(twopass->gf_group);
- }
- vpx_clear_system_state();
- vp9_zero(next_frame);
- // Load stats for the current frame.
- mod_frame_err = calculate_modified_err(cpi, twopass, oxcf, this_frame);
- // Note the error of the frame at the start of the group. This will be
- // the GF frame error if we code a normal gf.
- gf_first_frame_err = mod_frame_err;
- // If this is a key frame or the overlay from a previous arf then
- // the error score / cost of this frame has already been accounted for.
- if (arf_active_or_kf) {
- gf_group_err -= gf_first_frame_err;
- gf_group_raw_error -= this_frame->coded_error;
- gf_group_noise -= this_frame->frame_noise_energy;
- gf_group_skip_pct -= this_frame->intra_skip_pct;
- gf_group_inactive_zone_rows -= this_frame->inactive_zone_rows;
- gf_group_inter -= this_frame->pcnt_inter;
- gf_group_motion -= this_frame->pcnt_motion;
- }
- // Motion breakout threshold for loop below depends on image size.
- mv_ratio_accumulator_thresh =
- (cpi->initial_height + cpi->initial_width) / 4.0;
- // Set a maximum and minimum interval for the GF group.
- // If the image appears almost completely static we can extend beyond this.
- {
- int int_max_q = (int)(vp9_convert_qindex_to_q(twopass->active_worst_quality,
- cpi->common.bit_depth));
- int int_lbq = (int)(vp9_convert_qindex_to_q(rc->last_boosted_qindex,
- cpi->common.bit_depth));
- active_min_gf_interval =
- rc->min_gf_interval + arf_active_or_kf + VPXMIN(2, int_max_q / 200);
- if (active_min_gf_interval > rc->max_gf_interval)
- active_min_gf_interval = rc->max_gf_interval;
- if (cpi->multi_arf_allowed) {
- active_max_gf_interval = rc->max_gf_interval;
- } else {
- // The value chosen depends on the active Q range. At low Q we have
- // bits to spare and are better with a smaller interval and smaller boost.
- // At high Q when there are few bits to spare we are better with a longer
- // interval to spread the cost of the GF.
- active_max_gf_interval = 12 + arf_active_or_kf + VPXMIN(4, (int_lbq / 6));
- // We have: active_min_gf_interval <= rc->max_gf_interval
- if (active_max_gf_interval < active_min_gf_interval)
- active_max_gf_interval = active_min_gf_interval;
- else if (active_max_gf_interval > rc->max_gf_interval)
- active_max_gf_interval = rc->max_gf_interval;
- // Would the active max drop us out just before the near the next kf?
- if ((active_max_gf_interval <= rc->frames_to_key) &&
- (active_max_gf_interval >= (rc->frames_to_key - rc->min_gf_interval)))
- active_max_gf_interval = rc->frames_to_key / 2;
- }
- }
- i = 0;
- while (i < rc->static_scene_max_gf_interval && i < rc->frames_to_key) {
- ++i;
- // Accumulate error score of frames in this gf group.
- mod_frame_err = calculate_modified_err(cpi, twopass, oxcf, this_frame);
- gf_group_err += mod_frame_err;
- gf_group_raw_error += this_frame->coded_error;
- gf_group_noise += this_frame->frame_noise_energy;
- gf_group_skip_pct += this_frame->intra_skip_pct;
- gf_group_inactive_zone_rows += this_frame->inactive_zone_rows;
- gf_group_inter += this_frame->pcnt_inter;
- gf_group_motion += this_frame->pcnt_motion;
- if (EOF == input_stats(twopass, &next_frame)) break;
- // Test for the case where there is a brief flash but the prediction
- // quality back to an earlier frame is then restored.
- flash_detected = detect_flash(twopass, 0);
- // Update the motion related elements to the boost calculation.
- accumulate_frame_motion_stats(
- &next_frame, &this_frame_mv_in_out, &mv_in_out_accumulator,
- &abs_mv_in_out_accumulator, &mv_ratio_accumulator);
- // Accumulate the effect of prediction quality decay.
- if (!flash_detected) {
- last_loop_decay_rate = loop_decay_rate;
- loop_decay_rate = get_prediction_decay_rate(cpi, &next_frame);
- decay_accumulator = decay_accumulator * loop_decay_rate;
- // Monitor for static sections.
- zero_motion_accumulator = VPXMIN(
- zero_motion_accumulator, get_zero_motion_factor(cpi, &next_frame));
- // Break clause to detect very still sections after motion. For example,
- // a static image after a fade or other transition.
- if (detect_transition_to_still(cpi, i, 5, loop_decay_rate,
- last_loop_decay_rate)) {
- allow_alt_ref = 0;
- break;
- }
- }
- // Calculate a boost number for this frame.
- boost_score +=
- decay_accumulator *
- calc_frame_boost(cpi, &next_frame, this_frame_mv_in_out, GF_MAX_BOOST);
- // Break out conditions.
- if (
- // Break at active_max_gf_interval unless almost totally static.
- ((i >= active_max_gf_interval) && (zero_motion_accumulator < 0.995)) ||
- (
- // Don't break out with a very short interval.
- (i >= active_min_gf_interval) &&
- // If possible dont break very close to a kf
- ((rc->frames_to_key - i) >= rc->min_gf_interval) &&
- (!flash_detected) &&
- ((mv_ratio_accumulator > mv_ratio_accumulator_thresh) ||
- (abs_mv_in_out_accumulator > 3.0) ||
- (mv_in_out_accumulator < -2.0) ||
- ((boost_score - old_boost_score) < BOOST_BREAKOUT)))) {
- boost_score = old_boost_score;
- break;
- }
- *this_frame = next_frame;
- old_boost_score = boost_score;
- }
- // Was the group length constrained by the requirement for a new KF?
- rc->constrained_gf_group = (i >= rc->frames_to_key) ? 1 : 0;
- // Should we use the alternate reference frame.
- if (allow_alt_ref && (i < cpi->oxcf.lag_in_frames) &&
- (i >= rc->min_gf_interval)) {
- // Calculate the boost for alt ref.
- rc->gfu_boost =
- calc_arf_boost(cpi, 0, (i - 1), (i - 1), &f_boost, &b_boost);
- rc->source_alt_ref_pending = 1;
- // Test to see if multi arf is appropriate.
- cpi->multi_arf_enabled =
- (cpi->multi_arf_allowed && (rc->baseline_gf_interval >= 6) &&
- (zero_motion_accumulator < 0.995))
- ? 1
- : 0;
- } else {
- rc->gfu_boost = VPXMAX((int)boost_score, MIN_ARF_GF_BOOST);
- rc->source_alt_ref_pending = 0;
- }
- // Set the interval until the next gf.
- rc->baseline_gf_interval = i - (is_key_frame || rc->source_alt_ref_pending);
- // Only encode alt reference frame in temporal base layer. So
- // baseline_gf_interval should be multiple of a temporal layer group
- // (typically the frame distance between two base layer frames)
- if (is_two_pass_svc(cpi) && cpi->svc.number_temporal_layers > 1) {
- int count = (1 << (cpi->svc.number_temporal_layers - 1)) - 1;
- int new_gf_interval = (rc->baseline_gf_interval + count) & (~count);
- int j;
- for (j = 0; j < new_gf_interval - rc->baseline_gf_interval; ++j) {
- if (EOF == input_stats(twopass, this_frame)) break;
- gf_group_err += calculate_modified_err(cpi, twopass, oxcf, this_frame);
- gf_group_raw_error += this_frame->coded_error;
- gf_group_noise += this_frame->frame_noise_energy;
- gf_group_skip_pct += this_frame->intra_skip_pct;
- gf_group_inactive_zone_rows += this_frame->inactive_zone_rows;
- gf_group_inter += this_frame->pcnt_inter;
- gf_group_motion += this_frame->pcnt_motion;
- }
- rc->baseline_gf_interval = new_gf_interval;
- }
- rc->frames_till_gf_update_due = rc->baseline_gf_interval;
- // Reset the file position.
- reset_fpf_position(twopass, start_pos);
- // Calculate the bits to be allocated to the gf/arf group as a whole
- gf_group_bits = calculate_total_gf_group_bits(cpi, gf_group_err);
- // Calculate an estimate of the maxq needed for the group.
- // We are more agressive about correcting for sections
- // where there could be significant overshoot than for easier
- // sections where we do not wish to risk creating an overshoot
- // of the allocated bit budget.
- if ((cpi->oxcf.rc_mode != VPX_Q) && (rc->baseline_gf_interval > 1)) {
- const int vbr_group_bits_per_frame =
- (int)(gf_group_bits / rc->baseline_gf_interval);
- const double group_av_err = gf_group_raw_error / rc->baseline_gf_interval;
- const double group_av_noise = gf_group_noise / rc->baseline_gf_interval;
- const double group_av_skip_pct =
- gf_group_skip_pct / rc->baseline_gf_interval;
- const double group_av_inactive_zone =
- ((gf_group_inactive_zone_rows * 2) /
- (rc->baseline_gf_interval * (double)cm->mb_rows));
- int tmp_q = get_twopass_worst_quality(
- cpi, group_av_err, (group_av_skip_pct + group_av_inactive_zone),
- group_av_noise, vbr_group_bits_per_frame);
- twopass->active_worst_quality =
- (tmp_q + (twopass->active_worst_quality * 3)) >> 2;
- }
- // Context Adjustment of ARNR filter strength
- if (rc->baseline_gf_interval > 1) {
- adjust_group_arnr_filter(cpi, (gf_group_noise / rc->baseline_gf_interval),
- (gf_group_inter / rc->baseline_gf_interval),
- (gf_group_motion / rc->baseline_gf_interval));
- } else {
- twopass->arnr_strength_adjustment = 0;
- }
- // Calculate the extra bits to be used for boosted frame(s)
- gf_arf_bits = calculate_boost_bits(rc->baseline_gf_interval, rc->gfu_boost,
- gf_group_bits);
- // Adjust KF group bits and error remaining.
- twopass->kf_group_error_left -= (int64_t)gf_group_err;
- // Allocate bits to each of the frames in the GF group.
- allocate_gf_group_bits(cpi, gf_group_bits, gf_arf_bits);
- // Reset the file position.
- reset_fpf_position(twopass, start_pos);
- // Calculate a section intra ratio used in setting max loop filter.
- if (cpi->common.frame_type != KEY_FRAME) {
- twopass->section_intra_rating = calculate_section_intra_ratio(
- start_pos, twopass->stats_in_end, rc->baseline_gf_interval);
- }
- if (oxcf->resize_mode == RESIZE_DYNAMIC) {
- // Default to starting GF groups at normal frame size.
- cpi->rc.next_frame_size_selector = UNSCALED;
- }
- // Reset rolling actual and target bits counters for ARF groups.
- twopass->rolling_arf_group_target_bits = 0;
- twopass->rolling_arf_group_actual_bits = 0;
- }
- // Threshold for use of the lagging second reference frame. High second ref
- // usage may point to a transient event like a flash or occlusion rather than
- // a real scene cut.
- #define SECOND_REF_USEAGE_THRESH 0.1
- // Minimum % intra coding observed in first pass (1.0 = 100%)
- #define MIN_INTRA_LEVEL 0.25
- // Minimum ratio between the % of intra coding and inter coding in the first
- // pass after discounting neutral blocks (discounting neutral blocks in this
- // way helps catch scene cuts in clips with very flat areas or letter box
- // format clips with image padding.
- #define INTRA_VS_INTER_THRESH 2.0
- // Hard threshold where the first pass chooses intra for almost all blocks.
- // In such a case even if the frame is not a scene cut coding a key frame
- // may be a good option.
- #define VERY_LOW_INTER_THRESH 0.05
- // Maximum threshold for the relative ratio of intra error score vs best
- // inter error score.
- #define KF_II_ERR_THRESHOLD 2.5
- // In real scene cuts there is almost always a sharp change in the intra
- // or inter error score.
- #define ERR_CHANGE_THRESHOLD 0.4
- // For real scene cuts we expect an improvment in the intra inter error
- // ratio in the next frame.
- #define II_IMPROVEMENT_THRESHOLD 3.5
- #define KF_II_MAX 128.0
- static int test_candidate_kf(TWO_PASS *twopass,
- const FIRSTPASS_STATS *last_frame,
- const FIRSTPASS_STATS *this_frame,
- const FIRSTPASS_STATS *next_frame) {
- int is_viable_kf = 0;
- double pcnt_intra = 1.0 - this_frame->pcnt_inter;
- double modified_pcnt_inter =
- this_frame->pcnt_inter - this_frame->pcnt_neutral;
- // Does the frame satisfy the primary criteria of a key frame?
- // See above for an explanation of the test criteria.
- // If so, then examine how well it predicts subsequent frames.
- if ((this_frame->pcnt_second_ref < SECOND_REF_USEAGE_THRESH) &&
- (next_frame->pcnt_second_ref < SECOND_REF_USEAGE_THRESH) &&
- ((this_frame->pcnt_inter < VERY_LOW_INTER_THRESH) ||
- ((pcnt_intra > MIN_INTRA_LEVEL) &&
- (pcnt_intra > (INTRA_VS_INTER_THRESH * modified_pcnt_inter)) &&
- ((this_frame->intra_error /
- DOUBLE_DIVIDE_CHECK(this_frame->coded_error)) <
- KF_II_ERR_THRESHOLD) &&
- ((fabs(last_frame->coded_error - this_frame->coded_error) /
- DOUBLE_DIVIDE_CHECK(this_frame->coded_error) >
- ERR_CHANGE_THRESHOLD) ||
- (fabs(last_frame->intra_error - this_frame->intra_error) /
- DOUBLE_DIVIDE_CHECK(this_frame->intra_error) >
- ERR_CHANGE_THRESHOLD) ||
- ((next_frame->intra_error /
- DOUBLE_DIVIDE_CHECK(next_frame->coded_error)) >
- II_IMPROVEMENT_THRESHOLD))))) {
- int i;
- const FIRSTPASS_STATS *start_pos = twopass->stats_in;
- FIRSTPASS_STATS local_next_frame = *next_frame;
- double boost_score = 0.0;
- double old_boost_score = 0.0;
- double decay_accumulator = 1.0;
- // Examine how well the key frame predicts subsequent frames.
- for (i = 0; i < 16; ++i) {
- double next_iiratio = (BOOST_FACTOR * local_next_frame.intra_error /
- DOUBLE_DIVIDE_CHECK(local_next_frame.coded_error));
- if (next_iiratio > KF_II_MAX) next_iiratio = KF_II_MAX;
- // Cumulative effect of decay in prediction quality.
- if (local_next_frame.pcnt_inter > 0.85)
- decay_accumulator *= local_next_frame.pcnt_inter;
- else
- decay_accumulator *= (0.85 + local_next_frame.pcnt_inter) / 2.0;
- // Keep a running total.
- boost_score += (decay_accumulator * next_iiratio);
- // Test various breakout clauses.
- if ((local_next_frame.pcnt_inter < 0.05) || (next_iiratio < 1.5) ||
- (((local_next_frame.pcnt_inter - local_next_frame.pcnt_neutral) <
- 0.20) &&
- (next_iiratio < 3.0)) ||
- ((boost_score - old_boost_score) < 3.0) ||
- (local_next_frame.intra_error < 200)) {
- break;
- }
- old_boost_score = boost_score;
- // Get the next frame details
- if (EOF == input_stats(twopass, &local_next_frame)) break;
- }
- // If there is tolerable prediction for at least the next 3 frames then
- // break out else discard this potential key frame and move on
- if (boost_score > 30.0 && (i > 3)) {
- is_viable_kf = 1;
- } else {
- // Reset the file position
- reset_fpf_position(twopass, start_pos);
- is_viable_kf = 0;
- }
- }
- return is_viable_kf;
- }
- #define FRAMES_TO_CHECK_DECAY 8
- static void find_next_key_frame(VP9_COMP *cpi, FIRSTPASS_STATS *this_frame) {
- int i, j;
- RATE_CONTROL *const rc = &cpi->rc;
- TWO_PASS *const twopass = &cpi->twopass;
- GF_GROUP *const gf_group = &twopass->gf_group;
- const VP9EncoderConfig *const oxcf = &cpi->oxcf;
- const FIRSTPASS_STATS first_frame = *this_frame;
- const FIRSTPASS_STATS *const start_position = twopass->stats_in;
- FIRSTPASS_STATS next_frame;
- FIRSTPASS_STATS last_frame;
- int kf_bits = 0;
- int loop_decay_counter = 0;
- double decay_accumulator = 1.0;
- double av_decay_accumulator = 0.0;
- double zero_motion_accumulator = 1.0;
- double boost_score = 0.0;
- double kf_mod_err = 0.0;
- double kf_group_err = 0.0;
- double recent_loop_decay[FRAMES_TO_CHECK_DECAY];
- vp9_zero(next_frame);
- cpi->common.frame_type = KEY_FRAME;
- // Reset the GF group data structures.
- vp9_zero(*gf_group);
- // Is this a forced key frame by interval.
- rc->this_key_frame_forced = rc->next_key_frame_forced;
- // Clear the alt ref active flag and last group multi arf flags as they
- // can never be set for a key frame.
- rc->source_alt_ref_active = 0;
- cpi->multi_arf_last_grp_enabled = 0;
- // KF is always a GF so clear frames till next gf counter.
- rc->frames_till_gf_update_due = 0;
- rc->frames_to_key = 1;
- twopass->kf_group_bits = 0; // Total bits available to kf group
- twopass->kf_group_error_left = 0; // Group modified error score.
- kf_mod_err = calculate_modified_err(cpi, twopass, oxcf, this_frame);
- // Initialize the decay rates for the recent frames to check
- for (j = 0; j < FRAMES_TO_CHECK_DECAY; ++j) recent_loop_decay[j] = 1.0;
- // Find the next keyframe.
- i = 0;
- while (twopass->stats_in < twopass->stats_in_end &&
- rc->frames_to_key < cpi->oxcf.key_freq) {
- // Accumulate kf group error.
- kf_group_err += calculate_modified_err(cpi, twopass, oxcf, this_frame);
- // Load the next frame's stats.
- last_frame = *this_frame;
- input_stats(twopass, this_frame);
- // Provided that we are not at the end of the file...
- if (cpi->oxcf.auto_key && twopass->stats_in < twopass->stats_in_end) {
- double loop_decay_rate;
- // Check for a scene cut.
- if (test_candidate_kf(twopass, &last_frame, this_frame,
- twopass->stats_in))
- break;
- // How fast is the prediction quality decaying?
- loop_decay_rate = get_prediction_decay_rate(cpi, twopass->stats_in);
- // We want to know something about the recent past... rather than
- // as used elsewhere where we are concerned with decay in prediction
- // quality since the last GF or KF.
- recent_loop_decay[i % FRAMES_TO_CHECK_DECAY] = loop_decay_rate;
- decay_accumulator = 1.0;
- for (j = 0; j < FRAMES_TO_CHECK_DECAY; ++j)
- decay_accumulator *= recent_loop_decay[j];
- // Special check for transition or high motion followed by a
- // static scene.
- if (detect_transition_to_still(cpi, i, cpi->oxcf.key_freq - i,
- loop_decay_rate, decay_accumulator))
- break;
- // Step on to the next frame.
- ++rc->frames_to_key;
- // If we don't have a real key frame within the next two
- // key_freq intervals then break out of the loop.
- if (rc->frames_to_key >= 2 * cpi->oxcf.key_freq) break;
- } else {
- ++rc->frames_to_key;
- }
- ++i;
- }
- // If there is a max kf interval set by the user we must obey it.
- // We already breakout of the loop above at 2x max.
- // This code centers the extra kf if the actual natural interval
- // is between 1x and 2x.
- if (cpi->oxcf.auto_key && rc->frames_to_key > cpi->oxcf.key_freq) {
- FIRSTPASS_STATS tmp_frame = first_frame;
- rc->frames_to_key /= 2;
- // Reset to the start of the group.
- reset_fpf_position(twopass, start_position);
- kf_group_err = 0.0;
- // Rescan to get the correct error data for the forced kf group.
- for (i = 0; i < rc->frames_to_key; ++i) {
- kf_group_err += calculate_modified_err(cpi, twopass, oxcf, &tmp_frame);
- input_stats(twopass, &tmp_frame);
- }
- rc->next_key_frame_forced = 1;
- } else if (twopass->stats_in == twopass->stats_in_end ||
- rc->frames_to_key >= cpi->oxcf.key_freq) {
- rc->next_key_frame_forced = 1;
- } else {
- rc->next_key_frame_forced = 0;
- }
- if (is_two_pass_svc(cpi) && cpi->svc.number_temporal_layers > 1) {
- int count = (1 << (cpi->svc.number_temporal_layers - 1)) - 1;
- int new_frame_to_key = (rc->frames_to_key + count) & (~count);
- int j;
- for (j = 0; j < new_frame_to_key - rc->frames_to_key; ++j) {
- if (EOF == input_stats(twopass, this_frame)) break;
- kf_group_err += calculate_modified_err(cpi, twopass, oxcf, this_frame);
- }
- rc->frames_to_key = new_frame_to_key;
- }
- // Special case for the last key frame of the file.
- if (twopass->stats_in >= twopass->stats_in_end) {
- // Accumulate kf group error.
- kf_group_err += calculate_modified_err(cpi, twopass, oxcf, this_frame);
- }
- // Calculate the number of bits that should be assigned to the kf group.
- if (twopass->bits_left > 0 && twopass->modified_error_left > 0.0) {
- // Maximum number of bits for a single normal frame (not key frame).
- const int max_bits = frame_max_bits(rc, &cpi->oxcf);
- // Maximum number of bits allocated to the key frame group.
- int64_t max_grp_bits;
- // Default allocation based on bits left and relative
- // complexity of the section.
- twopass->kf_group_bits = (int64_t)(
- twopass->bits_left * (kf_group_err / twopass->modified_error_left));
- // Clip based on maximum per frame rate defined by the user.
- max_grp_bits = (int64_t)max_bits * (int64_t)rc->frames_to_key;
- if (twopass->kf_group_bits > max_grp_bits)
- twopass->kf_group_bits = max_grp_bits;
- } else {
- twopass->kf_group_bits = 0;
- }
- twopass->kf_group_bits = VPXMAX(0, twopass->kf_group_bits);
- // Reset the first pass file position.
- reset_fpf_position(twopass, start_position);
- // Scan through the kf group collating various stats used to determine
- // how many bits to spend on it.
- decay_accumulator = 1.0;
- boost_score = 0.0;
- for (i = 0; i < (rc->frames_to_key - 1); ++i) {
- if (EOF == input_stats(twopass, &next_frame)) break;
- // Monitor for static sections.
- zero_motion_accumulator = VPXMIN(zero_motion_accumulator,
- get_zero_motion_factor(cpi, &next_frame));
- // Not all frames in the group are necessarily used in calculating boost.
- if ((i <= rc->max_gf_interval) ||
- ((i <= (rc->max_gf_interval * 4)) && (decay_accumulator > 0.5))) {
- const double frame_boost =
- calc_frame_boost(cpi, &next_frame, 0, KF_MAX_BOOST);
- // How fast is prediction quality decaying.
- if (!detect_flash(twopass, 0)) {
- const double loop_decay_rate =
- get_prediction_decay_rate(cpi, &next_frame);
- decay_accumulator *= loop_decay_rate;
- decay_accumulator = VPXMAX(decay_accumulator, MIN_DECAY_FACTOR);
- av_decay_accumulator += decay_accumulator;
- ++loop_decay_counter;
- }
- boost_score += (decay_accumulator * frame_boost);
- }
- }
- av_decay_accumulator /= (double)loop_decay_counter;
- reset_fpf_position(twopass, start_position);
- // Store the zero motion percentage
- twopass->kf_zeromotion_pct = (int)(zero_motion_accumulator * 100.0);
- // Calculate a section intra ratio used in setting max loop filter.
- twopass->section_intra_rating = calculate_section_intra_ratio(
- start_position, twopass->stats_in_end, rc->frames_to_key);
- // Apply various clamps for min and max boost
- rc->kf_boost = (int)(av_decay_accumulator * boost_score);
- rc->kf_boost = VPXMAX(rc->kf_boost, (rc->frames_to_key * 3));
- rc->kf_boost = VPXMAX(rc->kf_boost, MIN_KF_BOOST);
- // Work out how many bits to allocate for the key frame itself.
- kf_bits = calculate_boost_bits((rc->frames_to_key - 1), rc->kf_boost,
- twopass->kf_group_bits);
- twopass->kf_group_bits -= kf_bits;
- // Save the bits to spend on the key frame.
- gf_group->bit_allocation[0] = kf_bits;
- gf_group->update_type[0] = KF_UPDATE;
- gf_group->rf_level[0] = KF_STD;
- // Note the total error score of the kf group minus the key frame itself.
- twopass->kf_group_error_left = (int)(kf_group_err - kf_mod_err);
- // Adjust the count of total modified error left.
- // The count of bits left is adjusted elsewhere based on real coded frame
- // sizes.
- twopass->modified_error_left -= kf_group_err;
- if (oxcf->resize_mode == RESIZE_DYNAMIC) {
- // Default to normal-sized frame on keyframes.
- cpi->rc.next_frame_size_selector = UNSCALED;
- }
- }
- // Define the reference buffers that will be updated post encode.
- static void configure_buffer_updates(VP9_COMP *cpi) {
- TWO_PASS *const twopass = &cpi->twopass;
- cpi->rc.is_src_frame_alt_ref = 0;
- switch (twopass->gf_group.update_type[twopass->gf_group.index]) {
- case KF_UPDATE:
- cpi->refresh_last_frame = 1;
- cpi->refresh_golden_frame = 1;
- cpi->refresh_alt_ref_frame = 1;
- break;
- case LF_UPDATE:
- cpi->refresh_last_frame = 1;
- cpi->refresh_golden_frame = 0;
- cpi->refresh_alt_ref_frame = 0;
- break;
- case GF_UPDATE:
- cpi->refresh_last_frame = 1;
- cpi->refresh_golden_frame = 1;
- cpi->refresh_alt_ref_frame = 0;
- break;
- case OVERLAY_UPDATE:
- cpi->refresh_last_frame = 0;
- cpi->refresh_golden_frame = 1;
- cpi->refresh_alt_ref_frame = 0;
- cpi->rc.is_src_frame_alt_ref = 1;
- break;
- case ARF_UPDATE:
- cpi->refresh_last_frame = 0;
- cpi->refresh_golden_frame = 0;
- cpi->refresh_alt_ref_frame = 1;
- break;
- default: assert(0); break;
- }
- if (is_two_pass_svc(cpi)) {
- if (cpi->svc.temporal_layer_id > 0) {
- cpi->refresh_last_frame = 0;
- cpi->refresh_golden_frame = 0;
- }
- if (cpi->svc.layer_context[cpi->svc.spatial_layer_id].gold_ref_idx < 0)
- cpi->refresh_golden_frame = 0;
- if (cpi->alt_ref_source == NULL) cpi->refresh_alt_ref_frame = 0;
- }
- }
- static int is_skippable_frame(const VP9_COMP *cpi) {
- // If the current frame does not have non-zero motion vector detected in the
- // first pass, and so do its previous and forward frames, then this frame
- // can be skipped for partition check, and the partition size is assigned
- // according to the variance
- const SVC *const svc = &cpi->svc;
- const TWO_PASS *const twopass =
- is_two_pass_svc(cpi) ? &svc->layer_context[svc->spatial_layer_id].twopass
- : &cpi->twopass;
- return (!frame_is_intra_only(&cpi->common) &&
- twopass->stats_in - 2 > twopass->stats_in_start &&
- twopass->stats_in < twopass->stats_in_end &&
- (twopass->stats_in - 1)->pcnt_inter -
- (twopass->stats_in - 1)->pcnt_motion ==
- 1 &&
- (twopass->stats_in - 2)->pcnt_inter -
- (twopass->stats_in - 2)->pcnt_motion ==
- 1 &&
- twopass->stats_in->pcnt_inter - twopass->stats_in->pcnt_motion == 1);
- }
- void vp9_rc_get_second_pass_params(VP9_COMP *cpi) {
- VP9_COMMON *const cm = &cpi->common;
- RATE_CONTROL *const rc = &cpi->rc;
- TWO_PASS *const twopass = &cpi->twopass;
- GF_GROUP *const gf_group = &twopass->gf_group;
- FIRSTPASS_STATS this_frame;
- int target_rate;
- LAYER_CONTEXT *const lc =
- is_two_pass_svc(cpi) ? &cpi->svc.layer_context[cpi->svc.spatial_layer_id]
- : 0;
- if (!twopass->stats_in) return;
- // If this is an arf frame then we dont want to read the stats file or
- // advance the input pointer as we already have what we need.
- if (gf_group->update_type[gf_group->index] == ARF_UPDATE) {
- int target_rate;
- configure_buffer_updates(cpi);
- target_rate = gf_group->bit_allocation[gf_group->index];
- target_rate = vp9_rc_clamp_pframe_target_size(cpi, target_rate);
- rc->base_frame_target = target_rate;
- cm->frame_type = INTER_FRAME;
- if (lc != NULL) {
- if (cpi->svc.spatial_layer_id == 0) {
- lc->is_key_frame = 0;
- } else {
- lc->is_key_frame = cpi->svc.layer_context[0].is_key_frame;
- if (lc->is_key_frame) cpi->ref_frame_flags &= (~VP9_LAST_FLAG);
- }
- }
- // Do the firstpass stats indicate that this frame is skippable for the
- // partition search?
- if (cpi->sf.allow_partition_search_skip && cpi->oxcf.pass == 2 &&
- (!cpi->use_svc || is_two_pass_svc(cpi))) {
- cpi->partition_search_skippable_frame = is_skippable_frame(cpi);
- }
- return;
- }
- vpx_clear_system_state();
- if (cpi->oxcf.rc_mode == VPX_Q) {
- twopass->active_worst_quality = cpi->oxcf.cq_level;
- } else if (cm->current_video_frame == 0 ||
- (lc != NULL && lc->current_video_frame_in_layer == 0)) {
- const int frames_left =
- (int)(twopass->total_stats.count -
- ((lc != NULL) ? lc->current_video_frame_in_layer
- : cm->current_video_frame));
- // Special case code for first frame.
- const int section_target_bandwidth =
- (int)(twopass->bits_left / frames_left);
- const double section_length = twopass->total_left_stats.count;
- const double section_error =
- twopass->total_left_stats.coded_error / section_length;
- const double section_intra_skip =
- twopass->total_left_stats.intra_skip_pct / section_length;
- const double section_inactive_zone =
- (twopass->total_left_stats.inactive_zone_rows * 2) /
- ((double)cm->mb_rows * section_length);
- const double section_noise =
- twopass->total_left_stats.frame_noise_energy / section_length;
- int tmp_q;
- tmp_q = get_twopass_worst_quality(
- cpi, section_error, section_intra_skip + section_inactive_zone,
- section_noise, section_target_bandwidth);
- twopass->active_worst_quality = tmp_q;
- twopass->baseline_active_worst_quality = tmp_q;
- rc->ni_av_qi = tmp_q;
- rc->last_q[INTER_FRAME] = tmp_q;
- rc->avg_q = vp9_convert_qindex_to_q(tmp_q, cm->bit_depth);
- rc->avg_frame_qindex[INTER_FRAME] = tmp_q;
- rc->last_q[KEY_FRAME] = (tmp_q + cpi->oxcf.best_allowed_q) / 2;
- rc->avg_frame_qindex[KEY_FRAME] = rc->last_q[KEY_FRAME];
- }
- vp9_zero(this_frame);
- if (EOF == input_stats(twopass, &this_frame)) return;
- // Set the frame content type flag.
- if (this_frame.intra_skip_pct >= FC_ANIMATION_THRESH)
- twopass->fr_content_type = FC_GRAPHICS_ANIMATION;
- else
- twopass->fr_content_type = FC_NORMAL;
- // Keyframe and section processing.
- if (rc->frames_to_key == 0 || (cpi->frame_flags & FRAMEFLAGS_KEY)) {
- FIRSTPASS_STATS this_frame_copy;
- this_frame_copy = this_frame;
- // Define next KF group and assign bits to it.
- find_next_key_frame(cpi, &this_frame);
- this_frame = this_frame_copy;
- } else {
- cm->frame_type = INTER_FRAME;
- }
- if (lc != NULL) {
- if (cpi->svc.spatial_layer_id == 0) {
- lc->is_key_frame = (cm->frame_type == KEY_FRAME);
- if (lc->is_key_frame) {
- cpi->ref_frame_flags &=
- (~VP9_LAST_FLAG & ~VP9_GOLD_FLAG & ~VP9_ALT_FLAG);
- lc->frames_from_key_frame = 0;
- // Encode an intra only empty frame since we have a key frame.
- cpi->svc.encode_intra_empty_frame = 1;
- }
- } else {
- cm->frame_type = INTER_FRAME;
- lc->is_key_frame = cpi->svc.layer_context[0].is_key_frame;
- if (lc->is_key_frame) {
- cpi->ref_frame_flags &= (~VP9_LAST_FLAG);
- lc->frames_from_key_frame = 0;
- }
- }
- }
- // Define a new GF/ARF group. (Should always enter here for key frames).
- if (rc->frames_till_gf_update_due == 0) {
- define_gf_group(cpi, &this_frame);
- rc->frames_till_gf_update_due = rc->baseline_gf_interval;
- if (lc != NULL) cpi->refresh_golden_frame = 1;
- #if ARF_STATS_OUTPUT
- {
- FILE *fpfile;
- fpfile = fopen("arf.stt", "a");
- ++arf_count;
- fprintf(fpfile, "%10d %10ld %10d %10d %10ld\n", cm->current_video_frame,
- rc->frames_till_gf_update_due, rc->kf_boost, arf_count,
- rc->gfu_boost);
- fclose(fpfile);
- }
- #endif
- }
- configure_buffer_updates(cpi);
- // Do the firstpass stats indicate that this frame is skippable for the
- // partition search?
- if (cpi->sf.allow_partition_search_skip && cpi->oxcf.pass == 2 &&
- (!cpi->use_svc || is_two_pass_svc(cpi))) {
- cpi->partition_search_skippable_frame = is_skippable_frame(cpi);
- }
- target_rate = gf_group->bit_allocation[gf_group->index];
- rc->base_frame_target = target_rate;
- {
- const int num_mbs = (cpi->oxcf.resize_mode != RESIZE_NONE)
- ? cpi->initial_mbs
- : cpi->common.MBs;
- // The multiplication by 256 reverses a scaling factor of (>> 8)
- // applied when combining MB error values for the frame.
- twopass->mb_av_energy =
- log(((this_frame.intra_error * 256.0) / num_mbs) + 1.0);
- twopass->mb_smooth_pct = this_frame.intra_smooth_pct;
- }
- // Update the total stats remaining structure.
- subtract_stats(&twopass->total_left_stats, &this_frame);
- }
- #define MINQ_ADJ_LIMIT 48
- #define MINQ_ADJ_LIMIT_CQ 20
- #define HIGH_UNDERSHOOT_RATIO 2
- void vp9_twopass_postencode_update(VP9_COMP *cpi) {
- TWO_PASS *const twopass = &cpi->twopass;
- RATE_CONTROL *const rc = &cpi->rc;
- VP9_COMMON *const cm = &cpi->common;
- const int bits_used = rc->base_frame_target;
- // VBR correction is done through rc->vbr_bits_off_target. Based on the
- // sign of this value, a limited % adjustment is made to the target rate
- // of subsequent frames, to try and push it back towards 0. This method
- // is designed to prevent extreme behaviour at the end of a clip
- // or group of frames.
- rc->vbr_bits_off_target += rc->base_frame_target - rc->projected_frame_size;
- twopass->bits_left = VPXMAX(twopass->bits_left - bits_used, 0);
- // Target vs actual bits for this arf group.
- twopass->rolling_arf_group_target_bits += rc->this_frame_target;
- twopass->rolling_arf_group_actual_bits += rc->projected_frame_size;
- // Calculate the pct rc error.
- if (rc->total_actual_bits) {
- rc->rate_error_estimate =
- (int)((rc->vbr_bits_off_target * 100) / rc->total_actual_bits);
- rc->rate_error_estimate = clamp(rc->rate_error_estimate, -100, 100);
- } else {
- rc->rate_error_estimate = 0;
- }
- if (cpi->common.frame_type != KEY_FRAME &&
- !vp9_is_upper_layer_key_frame(cpi)) {
- twopass->kf_group_bits -= bits_used;
- twopass->last_kfgroup_zeromotion_pct = twopass->kf_zeromotion_pct;
- }
- twopass->kf_group_bits = VPXMAX(twopass->kf_group_bits, 0);
- // Increment the gf group index ready for the next frame.
- ++twopass->gf_group.index;
- // If the rate control is drifting consider adjustment to min or maxq.
- if ((cpi->oxcf.rc_mode != VPX_Q) && !cpi->rc.is_src_frame_alt_ref) {
- const int maxq_adj_limit =
- rc->worst_quality - twopass->active_worst_quality;
- const int minq_adj_limit =
- (cpi->oxcf.rc_mode == VPX_CQ ? MINQ_ADJ_LIMIT_CQ : MINQ_ADJ_LIMIT);
- int aq_extend_min = 0;
- int aq_extend_max = 0;
- // Extend min or Max Q range to account for imbalance from the base
- // value when using AQ.
- if (cpi->oxcf.aq_mode != NO_AQ) {
- if (cm->seg.aq_av_offset < 0) {
- // The balance of the AQ map tends towarda lowering the average Q.
- aq_extend_min = 0;
- aq_extend_max = VPXMIN(maxq_adj_limit, -cm->seg.aq_av_offset);
- } else {
- // The balance of the AQ map tends towards raising the average Q.
- aq_extend_min = VPXMIN(minq_adj_limit, cm->seg.aq_av_offset);
- aq_extend_max = 0;
- }
- }
- // Undershoot.
- if (rc->rate_error_estimate > cpi->oxcf.under_shoot_pct) {
- --twopass->extend_maxq;
- if (rc->rolling_target_bits >= rc->rolling_actual_bits)
- ++twopass->extend_minq;
- // Overshoot.
- } else if (rc->rate_error_estimate < -cpi->oxcf.over_shoot_pct) {
- --twopass->extend_minq;
- if (rc->rolling_target_bits < rc->rolling_actual_bits)
- ++twopass->extend_maxq;
- } else {
- // Adjustment for extreme local overshoot.
- if (rc->projected_frame_size > (2 * rc->base_frame_target) &&
- rc->projected_frame_size > (2 * rc->avg_frame_bandwidth))
- ++twopass->extend_maxq;
- // Unwind undershoot or overshoot adjustment.
- if (rc->rolling_target_bits < rc->rolling_actual_bits)
- --twopass->extend_minq;
- else if (rc->rolling_target_bits > rc->rolling_actual_bits)
- --twopass->extend_maxq;
- }
- twopass->extend_minq =
- clamp(twopass->extend_minq, aq_extend_min, minq_adj_limit);
- twopass->extend_maxq =
- clamp(twopass->extend_maxq, aq_extend_max, maxq_adj_limit);
- // If there is a big and undexpected undershoot then feed the extra
- // bits back in quickly. One situation where this may happen is if a
- // frame is unexpectedly almost perfectly predicted by the ARF or GF
- // but not very well predcited by the previous frame.
- if (!frame_is_kf_gf_arf(cpi) && !cpi->rc.is_src_frame_alt_ref) {
- int fast_extra_thresh = rc->base_frame_target / HIGH_UNDERSHOOT_RATIO;
- if (rc->projected_frame_size < fast_extra_thresh) {
- rc->vbr_bits_off_target_fast +=
- fast_extra_thresh - rc->projected_frame_size;
- rc->vbr_bits_off_target_fast =
- VPXMIN(rc->vbr_bits_off_target_fast, (4 * rc->avg_frame_bandwidth));
- // Fast adaptation of minQ if necessary to use up the extra bits.
- if (rc->avg_frame_bandwidth) {
- twopass->extend_minq_fast =
- (int)(rc->vbr_bits_off_target_fast * 8 / rc->avg_frame_bandwidth);
- }
- twopass->extend_minq_fast = VPXMIN(
- twopass->extend_minq_fast, minq_adj_limit - twopass->extend_minq);
- } else if (rc->vbr_bits_off_target_fast) {
- twopass->extend_minq_fast = VPXMIN(
- twopass->extend_minq_fast, minq_adj_limit - twopass->extend_minq);
- } else {
- twopass->extend_minq_fast = 0;
- }
- }
- }
- }
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