/* * Copyright (c) 2021, Alliance for Open Media. All rights reserved. * * This source code is subject to the terms of the BSD 2 Clause License and * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License * was not distributed with this source code in the LICENSE file, you can * obtain it at www.aomedia.org/license/software. If the Alliance for Open * Media Patent License 1.0 was not distributed with this source code in the * PATENTS file, you can obtain it at www.aomedia.org/license/patent. */ #include "av1/ratectrl_rtc.h" #include #include #include "aom/aomcx.h" #include "aom/aom_encoder.h" #include "aom_mem/aom_mem.h" #include "aom_dsp/aom_dsp_common.h" #include "av1/encoder/encoder.h" #include "av1/encoder/encoder_utils.h" #include "av1/encoder/pickcdef.h" #include "av1/encoder/picklpf.h" #include "av1/encoder/ratectrl.h" #include "av1/encoder/rc_utils.h" #include "av1/encoder/svc_layercontext.h" namespace aom { AV1RateControlRtcConfig::AV1RateControlRtcConfig() { width = 1280; height = 720; max_quantizer = 63; min_quantizer = 2; target_bandwidth = 1000; buf_initial_sz = 600; buf_optimal_sz = 600; buf_sz = 1000; undershoot_pct = overshoot_pct = 50; max_intra_bitrate_pct = 50; max_inter_bitrate_pct = 0; frame_drop_thresh = 0; max_consec_drop_ms = 0; framerate = 30.0; ss_number_layers = 1; ts_number_layers = 1; aq_mode = 0; layer_target_bitrate[0] = static_cast(target_bandwidth); ts_rate_decimator[0] = 1; av1_zero(max_quantizers); av1_zero(min_quantizers); av1_zero(scaling_factor_den); av1_zero(scaling_factor_num); av1_zero(layer_target_bitrate); av1_zero(ts_rate_decimator); scaling_factor_num[0] = 1; scaling_factor_den[0] = 1; max_quantizers[0] = max_quantizer; min_quantizers[0] = min_quantizer; } std::unique_ptr AV1RateControlRTC::Create( const AV1RateControlRtcConfig &cfg) { std::unique_ptr rc_api(new (std::nothrow) AV1RateControlRTC()); if (!rc_api) return nullptr; rc_api->cpi_ = static_cast(aom_memalign(32, sizeof(*cpi_))); if (!rc_api->cpi_) return nullptr; av1_zero(*rc_api->cpi_); rc_api->cpi_->ppi = static_cast(aom_memalign(32, sizeof(AV1_PRIMARY))); if (!rc_api->cpi_->ppi) return nullptr; av1_zero(*rc_api->cpi_->ppi); rc_api->cpi_->common.seq_params = &rc_api->cpi_->ppi->seq_params; av1_zero(*rc_api->cpi_->common.seq_params); if (!rc_api->InitRateControl(cfg)) return nullptr; if (cfg.aq_mode) { AV1_COMP *const cpi = rc_api->cpi_; cpi->enc_seg.map = static_cast(aom_calloc( cpi->common.mi_params.mi_rows * cpi->common.mi_params.mi_cols, sizeof(*cpi->enc_seg.map))); if (!cpi->enc_seg.map) return nullptr; cpi->cyclic_refresh = av1_cyclic_refresh_alloc( cpi->common.mi_params.mi_rows, cpi->common.mi_params.mi_cols); if (!cpi->cyclic_refresh) return nullptr; } return rc_api; } AV1RateControlRTC::~AV1RateControlRTC() { if (cpi_) { if (cpi_->svc.number_spatial_layers > 1 || cpi_->svc.number_temporal_layers > 1) { for (int sl = 0; sl < cpi_->svc.number_spatial_layers; sl++) { for (int tl = 0; tl < cpi_->svc.number_temporal_layers; tl++) { int layer = LAYER_IDS_TO_IDX(sl, tl, cpi_->svc.number_temporal_layers); LAYER_CONTEXT *const lc = &cpi_->svc.layer_context[layer]; aom_free(lc->map); } } } aom_free(cpi_->svc.layer_context); cpi_->svc.layer_context = nullptr; if (cpi_->oxcf.q_cfg.aq_mode == CYCLIC_REFRESH_AQ) { aom_free(cpi_->enc_seg.map); cpi_->enc_seg.map = nullptr; av1_cyclic_refresh_free(cpi_->cyclic_refresh); } aom_free(cpi_->ppi); aom_free(cpi_); } } bool AV1RateControlRTC::InitRateControl(const AV1RateControlRtcConfig &rc_cfg) { AV1_COMMON *cm = &cpi_->common; AV1EncoderConfig *oxcf = &cpi_->oxcf; RATE_CONTROL *const rc = &cpi_->rc; cm->seq_params->profile = PROFILE_0; cm->seq_params->bit_depth = AOM_BITS_8; cm->show_frame = 1; oxcf->profile = cm->seq_params->profile; oxcf->mode = REALTIME; oxcf->rc_cfg.mode = AOM_CBR; oxcf->pass = AOM_RC_ONE_PASS; oxcf->q_cfg.aq_mode = rc_cfg.aq_mode ? CYCLIC_REFRESH_AQ : NO_AQ; oxcf->tune_cfg.content = AOM_CONTENT_DEFAULT; oxcf->rc_cfg.drop_frames_water_mark = rc_cfg.frame_drop_thresh; if (rc_cfg.max_consec_drop_ms > 0) { rc->max_consec_drop = saturate_cast_double_to_int( ceil(cpi_->framerate * rc_cfg.max_consec_drop_ms / 1000)); } cpi_->svc.framedrop_mode = AOM_FULL_SUPERFRAME_DROP; oxcf->tool_cfg.bit_depth = AOM_BITS_8; oxcf->tool_cfg.superblock_size = AOM_SUPERBLOCK_SIZE_DYNAMIC; oxcf->algo_cfg.loopfilter_control = LOOPFILTER_ALL; cm->current_frame.frame_number = 0; cpi_->ppi->p_rc.kf_boost = DEFAULT_KF_BOOST_RT; for (auto &lvl_idx : oxcf->target_seq_level_idx) lvl_idx = SEQ_LEVEL_MAX; memcpy(cpi_->ppi->level_params.target_seq_level_idx, oxcf->target_seq_level_idx, sizeof(oxcf->target_seq_level_idx)); if (!UpdateRateControl(rc_cfg)) return false; set_sb_size(cm->seq_params, av1_select_sb_size(oxcf, cm->width, cm->height, cpi_->svc.number_spatial_layers)); cpi_->ppi->use_svc = cpi_->svc.number_spatial_layers > 1 || cpi_->svc.number_temporal_layers > 1; av1_primary_rc_init(oxcf, &cpi_->ppi->p_rc); rc->rc_1_frame = 0; rc->rc_2_frame = 0; av1_rc_init_minq_luts(); av1_rc_init(oxcf, rc); // Enable external rate control. cpi_->rc.rtc_external_ratectrl = 1; cpi_->sf.rt_sf.use_nonrd_pick_mode = 1; return true; } bool AV1RateControlRTC::UpdateRateControl( const AV1RateControlRtcConfig &rc_cfg) { if (rc_cfg.ss_number_layers < 1 || rc_cfg.ss_number_layers > AOM_MAX_SS_LAYERS || rc_cfg.ts_number_layers < 1 || rc_cfg.ts_number_layers > AOM_MAX_TS_LAYERS) { return false; } const int num_layers = rc_cfg.ss_number_layers * rc_cfg.ts_number_layers; if (num_layers > 1 && !av1_alloc_layer_context(cpi_, num_layers)) { return false; } AV1_COMMON *cm = &cpi_->common; AV1EncoderConfig *oxcf = &cpi_->oxcf; RATE_CONTROL *const rc = &cpi_->rc; initial_width_ = rc_cfg.width; initial_height_ = rc_cfg.height; cm->width = rc_cfg.width; cm->height = rc_cfg.height; oxcf->frm_dim_cfg.width = rc_cfg.width; oxcf->frm_dim_cfg.height = rc_cfg.height; oxcf->rc_cfg.worst_allowed_q = av1_quantizer_to_qindex(rc_cfg.max_quantizer); oxcf->rc_cfg.best_allowed_q = av1_quantizer_to_qindex(rc_cfg.min_quantizer); rc->worst_quality = oxcf->rc_cfg.worst_allowed_q; rc->best_quality = oxcf->rc_cfg.best_allowed_q; oxcf->input_cfg.init_framerate = rc_cfg.framerate; oxcf->rc_cfg.target_bandwidth = rc_cfg.target_bandwidth > INT64_MAX / 1000 ? INT64_MAX : 1000 * rc_cfg.target_bandwidth; oxcf->rc_cfg.starting_buffer_level_ms = rc_cfg.buf_initial_sz; oxcf->rc_cfg.optimal_buffer_level_ms = rc_cfg.buf_optimal_sz; oxcf->rc_cfg.maximum_buffer_size_ms = rc_cfg.buf_sz; oxcf->rc_cfg.under_shoot_pct = rc_cfg.undershoot_pct; oxcf->rc_cfg.over_shoot_pct = rc_cfg.overshoot_pct; oxcf->rc_cfg.drop_frames_water_mark = rc_cfg.frame_drop_thresh; if (rc_cfg.max_consec_drop_ms > 0) { rc->max_consec_drop = saturate_cast_double_to_int( ceil(cpi_->framerate * rc_cfg.max_consec_drop_ms / 1000)); } oxcf->rc_cfg.max_intra_bitrate_pct = rc_cfg.max_intra_bitrate_pct; oxcf->rc_cfg.max_inter_bitrate_pct = rc_cfg.max_inter_bitrate_pct; cpi_->framerate = rc_cfg.framerate; if (rc_cfg.is_screen) { cpi_->oxcf.tune_cfg.content = AOM_CONTENT_SCREEN; cpi_->is_screen_content_type = 1; } cpi_->svc.number_spatial_layers = rc_cfg.ss_number_layers; cpi_->svc.number_temporal_layers = rc_cfg.ts_number_layers; set_primary_rc_buffer_sizes(oxcf, cpi_->ppi); enc_set_mb_mi(&cm->mi_params, cm->width, cm->height, BLOCK_8X8); av1_new_framerate(cpi_, cpi_->framerate); if (cpi_->svc.number_temporal_layers > 1 || cpi_->svc.number_spatial_layers > 1) { int64_t target_bandwidth_svc = 0; for (int sl = 0; sl < cpi_->svc.number_spatial_layers; ++sl) { for (int tl = 0; tl < cpi_->svc.number_temporal_layers; ++tl) { const int layer = LAYER_IDS_TO_IDX(sl, tl, cpi_->svc.number_temporal_layers); LAYER_CONTEXT *lc = &cpi_->svc.layer_context[layer]; RATE_CONTROL *const lrc = &lc->rc; lc->layer_target_bitrate = 1000 * rc_cfg.layer_target_bitrate[layer]; lc->max_q = rc_cfg.max_quantizers[layer]; lc->min_q = rc_cfg.min_quantizers[layer]; lrc->worst_quality = av1_quantizer_to_qindex(rc_cfg.max_quantizers[layer]); lrc->best_quality = av1_quantizer_to_qindex(rc_cfg.min_quantizers[layer]); lc->scaling_factor_num = rc_cfg.scaling_factor_num[sl]; lc->scaling_factor_den = rc_cfg.scaling_factor_den[sl]; lc->framerate_factor = rc_cfg.ts_rate_decimator[tl]; if (tl == cpi_->svc.number_temporal_layers - 1) target_bandwidth_svc += lc->layer_target_bitrate; } } if (cm->current_frame.frame_number == 0) av1_init_layer_context(cpi_); // This is needed to initialize external RC flag in layer context structure. cpi_->rc.rtc_external_ratectrl = 1; av1_update_layer_context_change_config(cpi_, target_bandwidth_svc); } check_reset_rc_flag(cpi_); return true; } FrameDropDecision AV1RateControlRTC::ComputeQP( const AV1FrameParamsRTC &frame_params) { AV1_COMMON *const cm = &cpi_->common; int width, height; GF_GROUP *const gf_group = &cpi_->ppi->gf_group; cpi_->svc.spatial_layer_id = frame_params.spatial_layer_id; cpi_->svc.temporal_layer_id = frame_params.temporal_layer_id; if (cpi_->svc.number_spatial_layers > 1) { const int layer = LAYER_IDS_TO_IDX(cpi_->svc.spatial_layer_id, cpi_->svc.temporal_layer_id, cpi_->svc.number_temporal_layers); LAYER_CONTEXT *lc = &cpi_->svc.layer_context[layer]; av1_get_layer_resolution(initial_width_, initial_height_, lc->scaling_factor_num, lc->scaling_factor_den, &width, &height); cm->width = width; cm->height = height; } enc_set_mb_mi(&cm->mi_params, cm->width, cm->height, BLOCK_8X8); cm->current_frame.frame_type = frame_params.frame_type; cpi_->refresh_frame.golden_frame = (cm->current_frame.frame_type == KEY_FRAME) ? 1 : 0; cpi_->sf.rt_sf.use_nonrd_pick_mode = 1; if (frame_params.frame_type == kKeyFrame) { gf_group->update_type[cpi_->gf_frame_index] = KF_UPDATE; gf_group->frame_type[cpi_->gf_frame_index] = KEY_FRAME; gf_group->refbuf_state[cpi_->gf_frame_index] = REFBUF_RESET; if (cpi_->ppi->use_svc) { const int layer = LAYER_IDS_TO_IDX(cpi_->svc.spatial_layer_id, cpi_->svc.temporal_layer_id, cpi_->svc.number_temporal_layers); if (cm->current_frame.frame_number > 0) av1_svc_reset_temporal_layers(cpi_, 1); cpi_->svc.layer_context[layer].is_key_frame = 1; } } else { gf_group->update_type[cpi_->gf_frame_index] = LF_UPDATE; gf_group->frame_type[cpi_->gf_frame_index] = INTER_FRAME; gf_group->refbuf_state[cpi_->gf_frame_index] = REFBUF_UPDATE; if (cpi_->ppi->use_svc) { const int layer = LAYER_IDS_TO_IDX(cpi_->svc.spatial_layer_id, cpi_->svc.temporal_layer_id, cpi_->svc.number_temporal_layers); cpi_->svc.layer_context[layer].is_key_frame = 0; } } if (cpi_->svc.number_spatial_layers > 1 || cpi_->svc.number_temporal_layers > 1) { av1_update_temporal_layer_framerate(cpi_); av1_restore_layer_context(cpi_); } int target = 0; if (cpi_->oxcf.rc_cfg.mode == AOM_CBR) { if (cpi_->oxcf.q_cfg.aq_mode == CYCLIC_REFRESH_AQ) av1_cyclic_refresh_update_parameters(cpi_); if (frame_is_intra_only(cm)) { target = av1_calc_iframe_target_size_one_pass_cbr(cpi_); cpi_->common.current_frame.frame_number = 0; } else { target = av1_calc_pframe_target_size_one_pass_cbr( cpi_, gf_group->update_type[cpi_->gf_frame_index]); } } av1_rc_set_frame_target(cpi_, target, cm->width, cm->height); // Always drop for spatial enhancement layer if layer bandwidth is 0. // Otherwise check for frame-dropping based on buffer level in // av1_rc_drop_frame(). if ((cpi_->svc.spatial_layer_id > 0 && cpi_->oxcf.rc_cfg.target_bandwidth == 0) || av1_rc_drop_frame(cpi_)) { cpi_->is_dropped_frame = true; av1_rc_postencode_update_drop_frame(cpi_); if (cpi_->svc.spatial_layer_id == cpi_->svc.number_spatial_layers - 1) cpi_->rc.frames_since_key++; cpi_->frame_index_set.show_frame_count++; cpi_->common.current_frame.frame_number++; return FrameDropDecision::kDrop; } int bottom_index = 0, top_index = 0; cpi_->common.quant_params.base_qindex = av1_rc_pick_q_and_bounds(cpi_, cm->width, cm->height, cpi_->gf_frame_index, &bottom_index, &top_index); if (cpi_->oxcf.q_cfg.aq_mode == CYCLIC_REFRESH_AQ) av1_cyclic_refresh_setup(cpi_); return FrameDropDecision::kOk; } int AV1RateControlRTC::GetQP() const { return cpi_->common.quant_params.base_qindex; } AV1LoopfilterLevel AV1RateControlRTC::GetLoopfilterLevel() const { av1_pick_filter_level(nullptr, cpi_, LPF_PICK_FROM_Q); AV1LoopfilterLevel lpf_level; lpf_level.filter_level[0] = cpi_->common.lf.filter_level[0]; lpf_level.filter_level[1] = cpi_->common.lf.filter_level[1]; lpf_level.filter_level_u = cpi_->common.lf.filter_level_u; lpf_level.filter_level_v = cpi_->common.lf.filter_level_v; return lpf_level; } AV1CdefInfo AV1RateControlRTC::GetCdefInfo() const { av1_pick_cdef_from_qp(&cpi_->common, 0, 0); AV1CdefInfo cdef_level; cdef_level.cdef_strength_y = cpi_->common.cdef_info.cdef_strengths[0]; cdef_level.cdef_strength_uv = cpi_->common.cdef_info.cdef_uv_strengths[0]; cdef_level.damping = cpi_->common.cdef_info.cdef_damping; return cdef_level; } bool AV1RateControlRTC::GetSegmentationData( AV1SegmentationData *segmentation_data) const { if (cpi_->oxcf.q_cfg.aq_mode == 0) { return false; } segmentation_data->segmentation_map = cpi_->enc_seg.map; segmentation_data->segmentation_map_size = cpi_->common.mi_params.mi_rows * cpi_->common.mi_params.mi_cols; segmentation_data->delta_q = cpi_->cyclic_refresh->qindex_delta; segmentation_data->delta_q_size = 3u; return true; } void AV1RateControlRTC::PostEncodeUpdate(uint64_t encoded_frame_size) { cpi_->common.current_frame.frame_number++; av1_rc_postencode_update(cpi_, encoded_frame_size); if (cpi_->svc.spatial_layer_id == cpi_->svc.number_spatial_layers - 1) { cpi_->svc.prev_number_spatial_layers = cpi_->svc.number_spatial_layers; cpi_->rc.frames_since_key++; } if (cpi_->svc.number_spatial_layers > 1 || cpi_->svc.number_temporal_layers > 1) av1_save_layer_context(cpi_); } } // namespace aom