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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-19 00:47:55 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-19 00:47:55 +0000 |
commit | 26a029d407be480d791972afb5975cf62c9360a6 (patch) | |
tree | f435a8308119effd964b339f76abb83a57c29483 /third_party/aom/av1/encoder/svc_layercontext.c | |
parent | Initial commit. (diff) | |
download | firefox-26a029d407be480d791972afb5975cf62c9360a6.tar.xz firefox-26a029d407be480d791972afb5975cf62c9360a6.zip |
Adding upstream version 124.0.1.upstream/124.0.1
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'third_party/aom/av1/encoder/svc_layercontext.c')
-rw-r--r-- | third_party/aom/av1/encoder/svc_layercontext.c | 701 |
1 files changed, 701 insertions, 0 deletions
diff --git a/third_party/aom/av1/encoder/svc_layercontext.c b/third_party/aom/av1/encoder/svc_layercontext.c new file mode 100644 index 0000000000..2c99cb89b8 --- /dev/null +++ b/third_party/aom/av1/encoder/svc_layercontext.c @@ -0,0 +1,701 @@ +/* + * Copyright (c) 2019, Alliance for Open Media. 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 <assert.h> +#include <math.h> + +#include "av1/encoder/encoder.h" +#include "av1/encoder/encoder_alloc.h" + +static void swap_ptr(void *a, void *b) { + void **a_p = (void **)a; + void **b_p = (void **)b; + void *c = *a_p; + *a_p = *b_p; + *b_p = c; +} + +void av1_init_layer_context(AV1_COMP *const cpi) { + AV1_COMMON *const cm = &cpi->common; + const AV1EncoderConfig *const oxcf = &cpi->oxcf; + SVC *const svc = &cpi->svc; + int mi_rows = cpi->common.mi_params.mi_rows; + int mi_cols = cpi->common.mi_params.mi_cols; + svc->base_framerate = 30.0; + svc->current_superframe = 0; + svc->force_zero_mode_spatial_ref = 1; + svc->num_encoded_top_layer = 0; + svc->use_flexible_mode = 0; + svc->has_lower_quality_layer = 0; + + for (int sl = 0; sl < svc->number_spatial_layers; ++sl) { + for (int tl = 0; tl < svc->number_temporal_layers; ++tl) { + int layer = LAYER_IDS_TO_IDX(sl, tl, svc->number_temporal_layers); + LAYER_CONTEXT *const lc = &svc->layer_context[layer]; + RATE_CONTROL *const lrc = &lc->rc; + PRIMARY_RATE_CONTROL *const lp_rc = &lc->p_rc; + lrc->ni_av_qi = oxcf->rc_cfg.worst_allowed_q; + lp_rc->total_actual_bits = 0; + lrc->ni_tot_qi = 0; + lp_rc->tot_q = 0.0; + lp_rc->avg_q = 0.0; + lp_rc->ni_frames = 0; + lrc->decimation_count = 0; + lrc->decimation_factor = 0; + lrc->worst_quality = av1_quantizer_to_qindex(lc->max_q); + lrc->best_quality = av1_quantizer_to_qindex(lc->min_q); + lrc->rtc_external_ratectrl = 0; + for (int i = 0; i < RATE_FACTOR_LEVELS; ++i) { + lp_rc->rate_correction_factors[i] = 1.0; + } + lc->target_bandwidth = lc->layer_target_bitrate; + lp_rc->last_q[INTER_FRAME] = lrc->worst_quality; + lp_rc->avg_frame_qindex[INTER_FRAME] = lrc->worst_quality; + lp_rc->avg_frame_qindex[KEY_FRAME] = lrc->worst_quality; + lp_rc->buffer_level = + oxcf->rc_cfg.starting_buffer_level_ms * lc->target_bandwidth / 1000; + lp_rc->bits_off_target = lp_rc->buffer_level; + // Initialize the cyclic refresh parameters. If spatial layers are used + // (i.e., ss_number_layers > 1), these need to be updated per spatial + // layer. Cyclic refresh is only applied on base temporal layer. + if (svc->number_spatial_layers > 1 && tl == 0) { + lc->sb_index = 0; + lc->actual_num_seg1_blocks = 0; + lc->actual_num_seg2_blocks = 0; + lc->counter_encode_maxq_scene_change = 0; + aom_free(lc->map); + CHECK_MEM_ERROR(cm, lc->map, + aom_calloc(mi_rows * mi_cols, sizeof(*lc->map))); + } + } + svc->downsample_filter_type[sl] = BILINEAR; + svc->downsample_filter_phase[sl] = 8; + svc->last_layer_dropped[sl] = false; + svc->drop_spatial_layer[sl] = false; + } + if (svc->number_spatial_layers == 3) { + svc->downsample_filter_type[0] = EIGHTTAP_SMOOTH; + } +} + +bool av1_alloc_layer_context(AV1_COMP *cpi, int num_layers) { + SVC *const svc = &cpi->svc; + if (svc->layer_context == NULL || svc->num_allocated_layers < num_layers) { + assert(num_layers > 1); + aom_free(svc->layer_context); + svc->num_allocated_layers = 0; + svc->layer_context = + (LAYER_CONTEXT *)aom_calloc(num_layers, sizeof(*svc->layer_context)); + if (svc->layer_context == NULL) return false; + svc->num_allocated_layers = num_layers; + } + return true; +} + +// Update the layer context from a change_config() call. +void av1_update_layer_context_change_config(AV1_COMP *const cpi, + const int64_t target_bandwidth) { + const RATE_CONTROL *const rc = &cpi->rc; + const PRIMARY_RATE_CONTROL *const p_rc = &cpi->ppi->p_rc; + AV1_COMMON *const cm = &cpi->common; + SVC *const svc = &cpi->svc; + int layer = 0; + int64_t spatial_layer_target = 0; + float bitrate_alloc = 1.0; + const int mi_rows = cm->mi_params.mi_rows; + const int mi_cols = cm->mi_params.mi_cols; + for (int sl = 0; sl < svc->number_spatial_layers; ++sl) { + for (int tl = 0; tl < svc->number_temporal_layers; ++tl) { + layer = LAYER_IDS_TO_IDX(sl, tl, svc->number_temporal_layers); + LAYER_CONTEXT *const lc = &svc->layer_context[layer]; + svc->layer_context[layer].target_bandwidth = lc->layer_target_bitrate; + } + spatial_layer_target = svc->layer_context[layer].target_bandwidth; + for (int tl = 0; tl < svc->number_temporal_layers; ++tl) { + LAYER_CONTEXT *const lc = + &svc->layer_context[sl * svc->number_temporal_layers + tl]; + RATE_CONTROL *const lrc = &lc->rc; + PRIMARY_RATE_CONTROL *const lp_rc = &lc->p_rc; + lc->spatial_layer_target_bandwidth = spatial_layer_target; + if (target_bandwidth != 0) { + bitrate_alloc = (float)lc->target_bandwidth / target_bandwidth; + } + lp_rc->starting_buffer_level = + (int64_t)(p_rc->starting_buffer_level * bitrate_alloc); + lp_rc->optimal_buffer_level = + (int64_t)(p_rc->optimal_buffer_level * bitrate_alloc); + lp_rc->maximum_buffer_size = + (int64_t)(p_rc->maximum_buffer_size * bitrate_alloc); + lp_rc->bits_off_target = + AOMMIN(lp_rc->bits_off_target, lp_rc->maximum_buffer_size); + lp_rc->buffer_level = + AOMMIN(lp_rc->buffer_level, lp_rc->maximum_buffer_size); + lc->framerate = cpi->framerate / lc->framerate_factor; + lrc->avg_frame_bandwidth = + (int)round(lc->target_bandwidth / lc->framerate); + lrc->max_frame_bandwidth = rc->max_frame_bandwidth; + lrc->rtc_external_ratectrl = rc->rtc_external_ratectrl; + lrc->worst_quality = av1_quantizer_to_qindex(lc->max_q); + lrc->best_quality = av1_quantizer_to_qindex(lc->min_q); + if (rc->use_external_qp_one_pass) { + lrc->worst_quality = rc->worst_quality; + lrc->best_quality = rc->best_quality; + } + // Reset the cyclic refresh parameters, if needed (map is NULL), + // or number of spatial layers has changed. + // Cyclic refresh is only applied on base temporal layer. + if (svc->number_spatial_layers > 1 && tl == 0 && + (lc->map == NULL || + svc->prev_number_spatial_layers != svc->number_spatial_layers)) { + lc->sb_index = 0; + lc->actual_num_seg1_blocks = 0; + lc->actual_num_seg2_blocks = 0; + lc->counter_encode_maxq_scene_change = 0; + aom_free(lc->map); + CHECK_MEM_ERROR(cm, lc->map, + aom_calloc(mi_rows * mi_cols, sizeof(*lc->map))); + } + } + } +} + +/*!\brief Return layer context for current layer. + * + * \ingroup rate_control + * \param[in] cpi Top level encoder structure + * + * \return LAYER_CONTEXT for current layer. + */ +static LAYER_CONTEXT *get_layer_context(AV1_COMP *const cpi) { + return &cpi->svc.layer_context[cpi->svc.spatial_layer_id * + cpi->svc.number_temporal_layers + + cpi->svc.temporal_layer_id]; +} + +void av1_update_temporal_layer_framerate(AV1_COMP *const cpi) { + SVC *const svc = &cpi->svc; + LAYER_CONTEXT *const lc = get_layer_context(cpi); + RATE_CONTROL *const lrc = &lc->rc; + const int tl = svc->temporal_layer_id; + lc->framerate = cpi->framerate / lc->framerate_factor; + lrc->avg_frame_bandwidth = (int)round(lc->target_bandwidth / lc->framerate); + lrc->max_frame_bandwidth = cpi->rc.max_frame_bandwidth; + // Update the average layer frame size (non-cumulative per-frame-bw). + if (tl == 0) { + lc->avg_frame_size = lrc->avg_frame_bandwidth; + } else { + int prev_layer = svc->spatial_layer_id * svc->number_temporal_layers + + svc->temporal_layer_id - 1; + LAYER_CONTEXT *const lcprev = &svc->layer_context[prev_layer]; + const double prev_layer_framerate = + cpi->framerate / lcprev->framerate_factor; + const int64_t prev_layer_target_bandwidth = lcprev->layer_target_bitrate; + lc->avg_frame_size = + (int)round((lc->target_bandwidth - prev_layer_target_bandwidth) / + (lc->framerate - prev_layer_framerate)); + } +} + +static AOM_INLINE bool check_ref_is_low_spatial_res_super_frame( + int ref_frame, const SVC *svc, const RTC_REF *rtc_ref) { + int ref_frame_idx = rtc_ref->ref_idx[ref_frame - 1]; + return rtc_ref->buffer_time_index[ref_frame_idx] == svc->current_superframe && + rtc_ref->buffer_spatial_layer[ref_frame_idx] <= + svc->spatial_layer_id - 1; +} + +void av1_restore_layer_context(AV1_COMP *const cpi) { + SVC *const svc = &cpi->svc; + RTC_REF *const rtc_ref = &cpi->ppi->rtc_ref; + const AV1_COMMON *const cm = &cpi->common; + LAYER_CONTEXT *const lc = get_layer_context(cpi); + const int old_frame_since_key = cpi->rc.frames_since_key; + const int old_frame_to_key = cpi->rc.frames_to_key; + const int max_consec_drop = cpi->rc.max_consec_drop; + // Restore layer rate control. + cpi->rc = lc->rc; + cpi->ppi->p_rc = lc->p_rc; + cpi->oxcf.rc_cfg.target_bandwidth = lc->target_bandwidth; + cpi->gf_frame_index = 0; + cpi->mv_search_params.max_mv_magnitude = lc->max_mv_magnitude; + if (cpi->mv_search_params.max_mv_magnitude == 0) + cpi->mv_search_params.max_mv_magnitude = AOMMAX(cm->width, cm->height); + // Reset the frames_since_key and frames_to_key counters to their values + // before the layer restore. Keep these defined for the stream (not layer). + cpi->rc.frames_since_key = old_frame_since_key; + cpi->rc.frames_to_key = old_frame_to_key; + // Reset to value before the layer restore. + cpi->rc.max_consec_drop = max_consec_drop; + // For spatial-svc, allow cyclic-refresh to be applied on the spatial layers, + // for the base temporal layer. + if (cpi->oxcf.q_cfg.aq_mode == CYCLIC_REFRESH_AQ && + svc->number_spatial_layers > 1 && svc->temporal_layer_id == 0) { + CYCLIC_REFRESH *const cr = cpi->cyclic_refresh; + swap_ptr(&cr->map, &lc->map); + cr->sb_index = lc->sb_index; + cr->actual_num_seg1_blocks = lc->actual_num_seg1_blocks; + cr->actual_num_seg2_blocks = lc->actual_num_seg2_blocks; + cr->counter_encode_maxq_scene_change = lc->counter_encode_maxq_scene_change; + } + svc->skip_mvsearch_last = 0; + svc->skip_mvsearch_gf = 0; + svc->skip_mvsearch_altref = 0; + // For each reference (LAST/GOLDEN) set the skip_mvsearch_last/gf frame flags. + // This is to skip searching mv for that reference if it was last + // refreshed (i.e., buffer slot holding that reference was refreshed) on the + // previous spatial layer(s) at the same time (current_superframe). + if (rtc_ref->set_ref_frame_config && svc->force_zero_mode_spatial_ref && + cpi->sf.rt_sf.use_nonrd_pick_mode) { + if (check_ref_is_low_spatial_res_super_frame(LAST_FRAME, svc, rtc_ref)) { + svc->skip_mvsearch_last = 1; + } + if (check_ref_is_low_spatial_res_super_frame(GOLDEN_FRAME, svc, rtc_ref)) { + svc->skip_mvsearch_gf = 1; + } + if (check_ref_is_low_spatial_res_super_frame(ALTREF_FRAME, svc, rtc_ref)) { + svc->skip_mvsearch_altref = 1; + } + } +} + +void av1_svc_update_buffer_slot_refreshed(AV1_COMP *const cpi) { + SVC *const svc = &cpi->svc; + RTC_REF *const rtc_ref = &cpi->ppi->rtc_ref; + const unsigned int current_frame = + cpi->ppi->use_svc ? svc->current_superframe + : cpi->common.current_frame.frame_number; + // For any buffer slot that is refreshed, update it with + // the spatial_layer_id and the current_superframe. + if (cpi->common.current_frame.frame_type == KEY_FRAME) { + // All slots are refreshed on KEY. + for (unsigned int i = 0; i < REF_FRAMES; i++) { + rtc_ref->buffer_time_index[i] = current_frame; + rtc_ref->buffer_spatial_layer[i] = svc->spatial_layer_id; + } + } else if (rtc_ref->set_ref_frame_config) { + for (unsigned int i = 0; i < INTER_REFS_PER_FRAME; i++) { + const int ref_frame_map_idx = rtc_ref->ref_idx[i]; + if (cpi->ppi->rtc_ref.refresh[ref_frame_map_idx]) { + rtc_ref->buffer_time_index[ref_frame_map_idx] = current_frame; + rtc_ref->buffer_spatial_layer[ref_frame_map_idx] = + svc->spatial_layer_id; + } + } + } +} + +void av1_save_layer_context(AV1_COMP *const cpi) { + SVC *const svc = &cpi->svc; + const AV1_COMMON *const cm = &cpi->common; + LAYER_CONTEXT *lc = get_layer_context(cpi); + lc->rc = cpi->rc; + lc->p_rc = cpi->ppi->p_rc; + lc->target_bandwidth = (int)cpi->oxcf.rc_cfg.target_bandwidth; + lc->group_index = cpi->gf_frame_index; + lc->max_mv_magnitude = cpi->mv_search_params.max_mv_magnitude; + if (svc->spatial_layer_id == 0) svc->base_framerate = cpi->framerate; + // For spatial-svc, allow cyclic-refresh to be applied on the spatial layers, + // for the base temporal layer. + if (cpi->oxcf.q_cfg.aq_mode == CYCLIC_REFRESH_AQ && + cpi->svc.number_spatial_layers > 1 && svc->temporal_layer_id == 0) { + CYCLIC_REFRESH *const cr = cpi->cyclic_refresh; + signed char *temp = lc->map; + lc->map = cr->map; + cr->map = temp; + lc->sb_index = cr->sb_index; + lc->actual_num_seg1_blocks = cr->actual_num_seg1_blocks; + lc->actual_num_seg2_blocks = cr->actual_num_seg2_blocks; + lc->counter_encode_maxq_scene_change = cr->counter_encode_maxq_scene_change; + } + av1_svc_update_buffer_slot_refreshed(cpi); + for (unsigned int i = 0; i < REF_FRAMES; i++) { + if (frame_is_intra_only(cm) || + cm->current_frame.refresh_frame_flags & (1 << i)) { + svc->spatial_layer_fb[i] = svc->spatial_layer_id; + svc->temporal_layer_fb[i] = svc->temporal_layer_id; + } + } + if (svc->spatial_layer_id == svc->number_spatial_layers - 1) { + svc->current_superframe++; + // Reset drop flag to false for next superframe. + for (int sl = 0; sl < svc->number_spatial_layers; sl++) + svc->drop_spatial_layer[sl] = false; + } +} + +int av1_svc_primary_ref_frame(const AV1_COMP *const cpi) { + const SVC *const svc = &cpi->svc; + const AV1_COMMON *const cm = &cpi->common; + int fb_idx = -1; + int primary_ref_frame = PRIMARY_REF_NONE; + if (cpi->svc.number_spatial_layers > 1 || + cpi->svc.number_temporal_layers > 1) { + // Set the primary_ref_frame to LAST_FRAME if that buffer slot for LAST + // was last updated on a lower temporal layer (or base TL0) and for the + // same spatial layer. For RTC patterns this allows for continued decoding + // when set of enhancement layers are dropped (continued decoding starting + // at next base TL0), so error_resilience can be off/0 for all layers. + fb_idx = get_ref_frame_map_idx(cm, LAST_FRAME); + if (svc->spatial_layer_fb[fb_idx] == svc->spatial_layer_id && + (svc->temporal_layer_fb[fb_idx] < svc->temporal_layer_id || + svc->temporal_layer_fb[fb_idx] == 0)) { + primary_ref_frame = 0; // LAST_FRAME: ref_frame - LAST_FRAME + } + } else if (cpi->ppi->rtc_ref.set_ref_frame_config) { + const ExternalFlags *const ext_flags = &cpi->ext_flags; + int flags = ext_flags->ref_frame_flags; + if (flags & AOM_LAST_FLAG) { + primary_ref_frame = 0; // LAST_FRAME: ref_frame - LAST_FRAME + } else if (flags & AOM_GOLD_FLAG) { + primary_ref_frame = GOLDEN_FRAME - LAST_FRAME; + } else if (flags & AOM_ALT_FLAG) { + primary_ref_frame = ALTREF_FRAME - LAST_FRAME; + } + } + return primary_ref_frame; +} + +void av1_free_svc_cyclic_refresh(AV1_COMP *const cpi) { + SVC *const svc = &cpi->svc; + for (int sl = 0; sl < svc->number_spatial_layers; ++sl) { + for (int tl = 0; tl < svc->number_temporal_layers; ++tl) { + int layer = LAYER_IDS_TO_IDX(sl, tl, svc->number_temporal_layers); + LAYER_CONTEXT *const lc = &svc->layer_context[layer]; + aom_free(lc->map); + lc->map = NULL; + } + } +} + +void av1_svc_reset_temporal_layers(AV1_COMP *const cpi, int is_key) { + SVC *const svc = &cpi->svc; + LAYER_CONTEXT *lc = NULL; + for (int sl = 0; sl < svc->number_spatial_layers; ++sl) { + for (int tl = 0; tl < svc->number_temporal_layers; ++tl) { + lc = &cpi->svc.layer_context[sl * svc->number_temporal_layers + tl]; + if (is_key) lc->frames_from_key_frame = 0; + } + } + av1_update_temporal_layer_framerate(cpi); + av1_restore_layer_context(cpi); +} + +void av1_get_layer_resolution(const int width_org, const int height_org, + const int num, const int den, int *width_out, + int *height_out) { + int w, h; + if (width_out == NULL || height_out == NULL || den == 0) return; + if (den == 1 && num == 1) { + *width_out = width_org; + *height_out = height_org; + return; + } + w = width_org * num / den; + h = height_org * num / den; + // Make height and width even. + w += w % 2; + h += h % 2; + *width_out = w; + *height_out = h; +} + +void av1_one_pass_cbr_svc_start_layer(AV1_COMP *const cpi) { + SVC *const svc = &cpi->svc; + AV1_COMMON *const cm = &cpi->common; + LAYER_CONTEXT *lc = NULL; + int width = 0, height = 0; + lc = &svc->layer_context[svc->spatial_layer_id * svc->number_temporal_layers + + svc->temporal_layer_id]; + // Set the lower quality layer flag. + svc->has_lower_quality_layer = 0; + if (cpi->svc.spatial_layer_id > 0) { + const LAYER_CONTEXT *lc_prev = + &svc->layer_context[(svc->spatial_layer_id - 1) * + svc->number_temporal_layers + + svc->temporal_layer_id]; + if (lc_prev->scaling_factor_den == 1 && lc_prev->scaling_factor_num == 1) + svc->has_lower_quality_layer = 1; + } + av1_get_layer_resolution(cpi->oxcf.frm_dim_cfg.width, + cpi->oxcf.frm_dim_cfg.height, lc->scaling_factor_num, + lc->scaling_factor_den, &width, &height); + // Use Eightap_smooth for low resolutions. + if (width * height <= 320 * 240) + svc->downsample_filter_type[svc->spatial_layer_id] = EIGHTTAP_SMOOTH; + + cm->width = width; + cm->height = height; + alloc_mb_mode_info_buffers(cpi); + av1_update_frame_size(cpi); + if (svc->spatial_layer_id == svc->number_spatial_layers - 1) { + svc->mi_cols_full_resoln = cm->mi_params.mi_cols; + svc->mi_rows_full_resoln = cm->mi_params.mi_rows; + } +} + +enum { + SVC_LAST_FRAME = 0, + SVC_LAST2_FRAME, + SVC_LAST3_FRAME, + SVC_GOLDEN_FRAME, + SVC_BWDREF_FRAME, + SVC_ALTREF2_FRAME, + SVC_ALTREF_FRAME +}; + +// For fixed svc mode: fixed pattern is set based on the number of +// spatial and temporal layers, and the ksvc_fixed_mode. +void av1_set_svc_fixed_mode(AV1_COMP *const cpi) { + SVC *const svc = &cpi->svc; + RTC_REF *const rtc_ref = &cpi->ppi->rtc_ref; + int i; + assert(svc->use_flexible_mode == 0); + // Fixed SVC mode only supports at most 3 spatial or temporal layers. + assert(svc->number_spatial_layers >= 1 && svc->number_spatial_layers <= 3 && + svc->number_temporal_layers >= 1 && svc->number_temporal_layers <= 3); + rtc_ref->set_ref_frame_config = 1; + int superframe_cnt = svc->current_superframe; + // Set the reference map buffer idx for the 7 references: + // LAST_FRAME (0), LAST2_FRAME(1), LAST3_FRAME(2), GOLDEN_FRAME(3), + // BWDREF_FRAME(4), ALTREF2_FRAME(5), ALTREF_FRAME(6). + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = i; + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->reference[i] = 0; + for (i = 0; i < REF_FRAMES; i++) rtc_ref->refresh[i] = 0; + // Always reference LAST, and reference GOLDEN on SL > 0. + // For KSVC: GOLDEN reference will be removed on INTER_FRAMES later + // when frame_type is set. + rtc_ref->reference[SVC_LAST_FRAME] = 1; + if (svc->spatial_layer_id > 0) rtc_ref->reference[SVC_GOLDEN_FRAME] = 1; + if (svc->temporal_layer_id == 0) { + // Base temporal layer. + if (svc->spatial_layer_id == 0) { + // Set all buffer_idx to 0. Update slot 0 (LAST). + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = 0; + rtc_ref->refresh[0] = 1; + } else if (svc->spatial_layer_id == 1) { + // Set buffer_idx for LAST to slot 1, GOLDEN (and all other refs) to + // slot 0. Update slot 1 (LAST). + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = 0; + rtc_ref->ref_idx[SVC_LAST_FRAME] = 1; + rtc_ref->refresh[1] = 1; + } else if (svc->spatial_layer_id == 2) { + // Set buffer_idx for LAST to slot 2, GOLDEN (and all other refs) to + // slot 1. Update slot 2 (LAST). + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = 1; + rtc_ref->ref_idx[SVC_LAST_FRAME] = 2; + rtc_ref->refresh[2] = 1; + } + } else if (svc->temporal_layer_id == 2 && (superframe_cnt - 1) % 4 == 0) { + // First top temporal enhancement layer. + if (svc->spatial_layer_id == 0) { + // Reference LAST (slot 0). + // Set GOLDEN to slot 3 and update slot 3. + // Set all other buffer_idx to slot 0. + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = 0; + if (svc->spatial_layer_id < svc->number_spatial_layers - 1) { + rtc_ref->ref_idx[SVC_GOLDEN_FRAME] = 3; + rtc_ref->refresh[3] = 1; + } + } else if (svc->spatial_layer_id == 1) { + // Reference LAST and GOLDEN. Set buffer_idx for LAST to slot 1, + // GOLDEN (and all other refs) to slot 3. + // Set LAST2 to slot 4 and Update slot 4. + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = 3; + rtc_ref->ref_idx[SVC_LAST_FRAME] = 1; + if (svc->spatial_layer_id < svc->number_spatial_layers - 1) { + rtc_ref->ref_idx[SVC_LAST2_FRAME] = 4; + rtc_ref->refresh[4] = 1; + } + } else if (svc->spatial_layer_id == 2) { + // Reference LAST and GOLDEN. Set buffer_idx for LAST to slot 2, + // GOLDEN (and all other refs) to slot 4. + // No update. + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = 4; + rtc_ref->ref_idx[SVC_LAST_FRAME] = 2; + } + } else if (svc->temporal_layer_id == 1) { + // Middle temporal enhancement layer. + if (svc->spatial_layer_id == 0) { + // Reference LAST. + // Set all buffer_idx to 0. + // Set GOLDEN to slot 5 and update slot 5. + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = 0; + if (svc->temporal_layer_id < svc->number_temporal_layers - 1 || + svc->spatial_layer_id < svc->number_spatial_layers - 1) { + rtc_ref->ref_idx[SVC_GOLDEN_FRAME] = 5; + rtc_ref->refresh[5] = 1; + } + } else if (svc->spatial_layer_id == 1) { + // Reference LAST and GOLDEN. Set buffer_idx for LAST to slot 1, + // GOLDEN (and all other refs) to slot 5. + // Set LAST3 to slot 6 and update slot 6. + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = 5; + rtc_ref->ref_idx[SVC_LAST_FRAME] = 1; + if (svc->temporal_layer_id < svc->number_temporal_layers - 1 || + svc->spatial_layer_id < svc->number_spatial_layers - 1) { + rtc_ref->ref_idx[SVC_LAST3_FRAME] = 6; + rtc_ref->refresh[6] = 1; + } + } else if (svc->spatial_layer_id == 2) { + // Reference LAST and GOLDEN. Set buffer_idx for LAST to slot 2, + // GOLDEN (and all other refs) to slot 6. + // Set LAST3 to slot 7 and update slot 7. + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = 6; + rtc_ref->ref_idx[SVC_LAST_FRAME] = 2; + if (svc->temporal_layer_id < svc->number_temporal_layers - 1) { + rtc_ref->ref_idx[SVC_LAST3_FRAME] = 7; + rtc_ref->refresh[7] = 1; + } + } + } else if (svc->temporal_layer_id == 2 && (superframe_cnt - 3) % 4 == 0) { + // Second top temporal enhancement layer. + if (svc->spatial_layer_id == 0) { + // Set LAST to slot 5 and reference LAST. + // Set GOLDEN to slot 3 and update slot 3. + // Set all other buffer_idx to 0. + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = 0; + rtc_ref->ref_idx[SVC_LAST_FRAME] = 5; + if (svc->spatial_layer_id < svc->number_spatial_layers - 1) { + rtc_ref->ref_idx[SVC_GOLDEN_FRAME] = 3; + rtc_ref->refresh[3] = 1; + } + } else if (svc->spatial_layer_id == 1) { + // Reference LAST and GOLDEN. Set buffer_idx for LAST to slot 6, + // GOLDEN to slot 3. Set LAST2 to slot 4 and update slot 4. + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = 0; + rtc_ref->ref_idx[SVC_LAST_FRAME] = 6; + rtc_ref->ref_idx[SVC_GOLDEN_FRAME] = 3; + if (svc->spatial_layer_id < svc->number_spatial_layers - 1) { + rtc_ref->ref_idx[SVC_LAST2_FRAME] = 4; + rtc_ref->refresh[4] = 1; + } + } else if (svc->spatial_layer_id == 2) { + // Reference LAST and GOLDEN. Set buffer_idx for LAST to slot 7, + // GOLDEN to slot 4. No update. + for (i = 0; i < INTER_REFS_PER_FRAME; i++) rtc_ref->ref_idx[i] = 0; + rtc_ref->ref_idx[SVC_LAST_FRAME] = 7; + rtc_ref->ref_idx[SVC_GOLDEN_FRAME] = 4; + } + } +} + +void av1_svc_check_reset_layer_rc_flag(AV1_COMP *const cpi) { + SVC *const svc = &cpi->svc; + for (int sl = 0; sl < svc->number_spatial_layers; ++sl) { + // Check for reset based on avg_frame_bandwidth for spatial layer sl. + // If avg_frame_bandwidth for top temporal layer is not set + // (because enhancement layer was inactive), use the base TL0 + int layer = LAYER_IDS_TO_IDX(sl, svc->number_temporal_layers - 1, + svc->number_temporal_layers); + LAYER_CONTEXT *lc = &svc->layer_context[layer]; + RATE_CONTROL *lrc = &lc->rc; + int avg_frame_bandwidth = lrc->avg_frame_bandwidth; + int prev_avg_frame_bandwidth = lrc->prev_avg_frame_bandwidth; + if (avg_frame_bandwidth == 0 || prev_avg_frame_bandwidth == 0) { + // Use base TL0. + layer = LAYER_IDS_TO_IDX(sl, 0, svc->number_temporal_layers); + lc = &svc->layer_context[layer]; + lrc = &lc->rc; + avg_frame_bandwidth = lrc->avg_frame_bandwidth; + prev_avg_frame_bandwidth = lrc->prev_avg_frame_bandwidth; + } + if (avg_frame_bandwidth > (3 * prev_avg_frame_bandwidth >> 1) || + avg_frame_bandwidth < (prev_avg_frame_bandwidth >> 1)) { + // Reset for all temporal layers with spatial layer sl. + for (int tl = 0; tl < svc->number_temporal_layers; ++tl) { + int layer2 = LAYER_IDS_TO_IDX(sl, tl, svc->number_temporal_layers); + LAYER_CONTEXT *lc2 = &svc->layer_context[layer2]; + RATE_CONTROL *lrc2 = &lc2->rc; + PRIMARY_RATE_CONTROL *lp_rc2 = &lc2->p_rc; + PRIMARY_RATE_CONTROL *const lp_rc = &lc2->p_rc; + lrc2->rc_1_frame = 0; + lrc2->rc_2_frame = 0; + lp_rc2->bits_off_target = lp_rc->optimal_buffer_level; + lp_rc2->buffer_level = lp_rc->optimal_buffer_level; + } + } + } +} + +void av1_svc_set_last_source(AV1_COMP *const cpi, EncodeFrameInput *frame_input, + YV12_BUFFER_CONFIG *prev_source) { + frame_input->last_source = prev_source != NULL ? prev_source : NULL; + if (!cpi->ppi->use_svc && cpi->rc.prev_frame_is_dropped && + cpi->rc.frame_number_encoded > 0) { + frame_input->last_source = &cpi->svc.source_last_TL0; + } else { + RTC_REF *const rtc_ref = &cpi->ppi->rtc_ref; + if (cpi->svc.spatial_layer_id == 0) { + // For base spatial layer: if the LAST reference (index 0) is not + // the previous (super)frame set the last_source to the source + // corresponding to the last TL0, otherwise keep it at prev_source. + // Always use source_last_TL0 if previous base TL0 was dropped. + if (cpi->svc.current_superframe > 0) { + const int buffslot_last = rtc_ref->ref_idx[0]; + // Check if previous frame was dropped on base TL0 layer. + const int layer = + LAYER_IDS_TO_IDX(0, 0, cpi->svc.number_temporal_layers); + LAYER_CONTEXT *lc = &cpi->svc.layer_context[layer]; + RATE_CONTROL *lrc = &lc->rc; + if (lrc->prev_frame_is_dropped || + rtc_ref->buffer_time_index[buffslot_last] < + cpi->svc.current_superframe - 1) { + frame_input->last_source = &cpi->svc.source_last_TL0; + } + } + } else if (cpi->svc.spatial_layer_id > 0) { + // For spatial enhancement layers: the previous source (prev_source) + // corresponds to the lower spatial layer (which is the same source so + // we can't use that), so always set the last_source to the source of the + // last TL0. + if (cpi->svc.current_superframe > 0) + frame_input->last_source = &cpi->svc.source_last_TL0; + else + frame_input->last_source = NULL; + } + } +} + +int av1_svc_get_min_ref_dist(const AV1_COMP *cpi) { + RTC_REF *const rtc_ref = &cpi->ppi->rtc_ref; + int min_dist = INT_MAX; + const unsigned int current_frame_num = + cpi->ppi->use_svc ? cpi->svc.current_superframe + : cpi->common.current_frame.frame_number; + for (unsigned int i = 0; i < INTER_REFS_PER_FRAME; i++) { + if (cpi->ppi->rtc_ref.reference[i]) { + const int ref_frame_map_idx = rtc_ref->ref_idx[i]; + const int dist = + current_frame_num - rtc_ref->buffer_time_index[ref_frame_map_idx]; + if (dist < min_dist) min_dist = dist; + } + } + return min_dist; +} + +void av1_svc_set_reference_was_previous(AV1_COMP *cpi) { + RTC_REF *const rtc_ref = &cpi->ppi->rtc_ref; + // Check if the encoded frame had some reference that was the + // previous frame. + const unsigned int current_frame = + cpi->ppi->use_svc ? cpi->svc.current_superframe + : cpi->common.current_frame.frame_number; + rtc_ref->reference_was_previous_frame = true; + if (current_frame > 0) { + rtc_ref->reference_was_previous_frame = false; + for (unsigned int i = 0; i < INTER_REFS_PER_FRAME; i++) { + if (rtc_ref->reference[i]) { + const int ref_frame_map_idx = rtc_ref->ref_idx[i]; + if (rtc_ref->buffer_time_index[ref_frame_map_idx] == current_frame - 1) + rtc_ref->reference_was_previous_frame = true; + } + } + } +} |