| /* |
| * Copyright (c) 2019, 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 <stdint.h> |
| |
| #include "av1/common/blockd.h" |
| #include "config/aom_config.h" |
| #include "config/aom_scale_rtcd.h" |
| |
| #include "aom/aom_codec.h" |
| #include "aom/aom_encoder.h" |
| |
| #include "av1/common/av1_common_int.h" |
| |
| #include "av1/encoder/encoder.h" |
| #include "av1/encoder/firstpass.h" |
| #include "av1/encoder/gop_structure.h" |
| #include "av1/encoder/pass2_strategy.h" |
| |
| // This function sets gf_group->frame_parallel_level for LF_UPDATE frames based |
| // on the value of parallel_frame_count. |
| static void set_frame_parallel_level(int *frame_parallel_level, |
| int *parallel_frame_count, |
| int max_parallel_frames) { |
| assert(*parallel_frame_count > 0); |
| // parallel_frame_count > 1 indicates subsequent frame(s) in the current |
| // parallel encode set. |
| *frame_parallel_level = 1 + (*parallel_frame_count > 1); |
| // Update the count of no. of parallel frames. |
| (*parallel_frame_count)++; |
| if (*parallel_frame_count > max_parallel_frames) *parallel_frame_count = 1; |
| } |
| |
| // This function sets gf_group->src_offset based on frame_parallel_level. |
| // Outputs are gf_group->src_offset and first_frame_index |
| static void set_src_offset(GF_GROUP *const gf_group, int *first_frame_index, |
| int cur_frame_idx, int frame_ind) { |
| if (gf_group->frame_parallel_level[frame_ind] > 0) { |
| if (gf_group->frame_parallel_level[frame_ind] == 1) { |
| *first_frame_index = cur_frame_idx; |
| } |
| |
| // Obtain the offset of the frame at frame_ind in the lookahead queue by |
| // subtracting the display order hints of the current frame from the display |
| // order hint of the first frame in parallel encoding set (at |
| // first_frame_index). |
| gf_group->src_offset[frame_ind] = |
| (cur_frame_idx + gf_group->arf_src_offset[frame_ind]) - |
| *first_frame_index; |
| } |
| } |
| |
| // Sets the GF_GROUP params for LF_UPDATE frames. |
| static AOM_INLINE void set_params_for_leaf_frames( |
| const TWO_PASS *twopass, const TWO_PASS_FRAME *twopass_frame, |
| const PRIMARY_RATE_CONTROL *p_rc, FRAME_INFO *frame_info, |
| GF_GROUP *const gf_group, int *cur_frame_idx, int *frame_ind, |
| int *parallel_frame_count, int max_parallel_frames, |
| int do_frame_parallel_encode, int *first_frame_index, int *cur_disp_index, |
| int layer_depth, int start, int end) { |
| gf_group->update_type[*frame_ind] = LF_UPDATE; |
| gf_group->arf_src_offset[*frame_ind] = 0; |
| gf_group->cur_frame_idx[*frame_ind] = *cur_frame_idx; |
| gf_group->layer_depth[*frame_ind] = MAX_ARF_LAYERS; |
| gf_group->frame_type[*frame_ind] = INTER_FRAME; |
| gf_group->refbuf_state[*frame_ind] = REFBUF_UPDATE; |
| gf_group->max_layer_depth = AOMMAX(gf_group->max_layer_depth, layer_depth); |
| gf_group->display_idx[*frame_ind] = (*cur_disp_index); |
| gf_group->arf_boost[*frame_ind] = |
| av1_calc_arf_boost(twopass, twopass_frame, p_rc, frame_info, start, |
| end - start, 0, NULL, NULL, 0); |
| ++(*cur_disp_index); |
| |
| // Set the level of parallelism for the LF_UPDATE frame. |
| if (do_frame_parallel_encode) { |
| set_frame_parallel_level(&gf_group->frame_parallel_level[*frame_ind], |
| parallel_frame_count, max_parallel_frames); |
| // Set LF_UPDATE frames as non-reference frames. |
| gf_group->is_frame_non_ref[*frame_ind] = 1; |
| } |
| set_src_offset(gf_group, first_frame_index, *cur_frame_idx, *frame_ind); |
| |
| ++(*frame_ind); |
| ++(*cur_frame_idx); |
| } |
| |
| // Sets the GF_GROUP params for INTNL_OVERLAY_UPDATE frames. |
| static AOM_INLINE void set_params_for_intnl_overlay_frames( |
| GF_GROUP *const gf_group, int *cur_frame_idx, int *frame_ind, |
| int *first_frame_index, int *cur_disp_index, int layer_depth) { |
| gf_group->update_type[*frame_ind] = INTNL_OVERLAY_UPDATE; |
| gf_group->arf_src_offset[*frame_ind] = 0; |
| gf_group->cur_frame_idx[*frame_ind] = *cur_frame_idx; |
| gf_group->layer_depth[*frame_ind] = layer_depth; |
| gf_group->frame_type[*frame_ind] = INTER_FRAME; |
| gf_group->refbuf_state[*frame_ind] = REFBUF_UPDATE; |
| gf_group->display_idx[*frame_ind] = (*cur_disp_index); |
| ++(*cur_disp_index); |
| |
| set_src_offset(gf_group, first_frame_index, *cur_frame_idx, *frame_ind); |
| ++(*frame_ind); |
| ++(*cur_frame_idx); |
| } |
| |
| // Sets the GF_GROUP params for INTNL_ARF_UPDATE frames. |
| static AOM_INLINE void set_params_for_internal_arfs( |
| const TWO_PASS *twopass, const TWO_PASS_FRAME *twopass_frame, |
| const PRIMARY_RATE_CONTROL *p_rc, FRAME_INFO *frame_info, |
| GF_GROUP *const gf_group, int *cur_frame_idx, int *frame_ind, |
| int *parallel_frame_count, int max_parallel_frames, |
| int do_frame_parallel_encode, int *first_frame_index, int depth_thr, |
| int *cur_disp_idx, int layer_depth, int arf_src_offset, int offset, |
| int f_frames, int b_frames) { |
| gf_group->update_type[*frame_ind] = INTNL_ARF_UPDATE; |
| gf_group->arf_src_offset[*frame_ind] = arf_src_offset; |
| gf_group->cur_frame_idx[*frame_ind] = *cur_frame_idx; |
| gf_group->layer_depth[*frame_ind] = layer_depth; |
| gf_group->frame_type[*frame_ind] = INTER_FRAME; |
| gf_group->refbuf_state[*frame_ind] = REFBUF_UPDATE; |
| gf_group->display_idx[*frame_ind] = |
| (*cur_disp_idx) + gf_group->arf_src_offset[*frame_ind]; |
| gf_group->arf_boost[*frame_ind] = |
| av1_calc_arf_boost(twopass, twopass_frame, p_rc, frame_info, offset, |
| f_frames, b_frames, NULL, NULL, 0); |
| |
| if (do_frame_parallel_encode) { |
| if (depth_thr != INT_MAX) { |
| assert(depth_thr == 3 || depth_thr == 4); |
| assert(IMPLIES(depth_thr == 3, layer_depth == 4)); |
| assert(IMPLIES(depth_thr == 4, layer_depth == 5)); |
| // Set frame_parallel_level of the first frame in the given layer to 1. |
| if (gf_group->layer_depth[(*frame_ind) - 1] != layer_depth) { |
| gf_group->frame_parallel_level[*frame_ind] = 1; |
| } else { |
| // Set frame_parallel_level of the consecutive frame in the same given |
| // layer to 2. |
| assert(gf_group->frame_parallel_level[(*frame_ind) - 1] == 1); |
| gf_group->frame_parallel_level[*frame_ind] = 2; |
| // Store the display order hints of the past 2 INTNL_ARF_UPDATE |
| // frames which would not have been displayed at the time of the encode |
| // of current frame. |
| gf_group->skip_frame_refresh[*frame_ind][0] = |
| gf_group->display_idx[(*frame_ind) - 1]; |
| gf_group->skip_frame_refresh[*frame_ind][1] = |
| gf_group->display_idx[(*frame_ind) - 2]; |
| // Set the display_idx of frame_parallel_level 1 frame in |
| // gf_group->skip_frame_as_ref. |
| gf_group->skip_frame_as_ref[*frame_ind] = |
| gf_group->display_idx[(*frame_ind) - 1]; |
| } |
| } |
| // If max_parallel_frames is not exceeded and if the frame will not be |
| // temporally filtered, encode the next internal ARF frame in parallel. |
| if (*parallel_frame_count > 1 && |
| *parallel_frame_count <= max_parallel_frames) { |
| if (gf_group->arf_src_offset[*frame_ind] < TF_LOOKAHEAD_IDX_THR) |
| gf_group->frame_parallel_level[*frame_ind] = 2; |
| *parallel_frame_count = 1; |
| } |
| } |
| set_src_offset(gf_group, first_frame_index, *cur_frame_idx, *frame_ind); |
| ++(*frame_ind); |
| } |
| |
| // Set parameters for frames between 'start' and 'end' (excluding both). |
| static void set_multi_layer_params_for_fp( |
| const TWO_PASS *twopass, const TWO_PASS_FRAME *twopass_frame, |
| GF_GROUP *const gf_group, const PRIMARY_RATE_CONTROL *p_rc, |
| RATE_CONTROL *rc, FRAME_INFO *frame_info, int start, int end, |
| int *cur_frame_idx, int *frame_ind, int *parallel_frame_count, |
| int max_parallel_frames, int do_frame_parallel_encode, |
| int *first_frame_index, int depth_thr, int *cur_disp_idx, int layer_depth) { |
| const int num_frames_to_process = end - start; |
| |
| // Either we are at the last level of the pyramid, or we don't have enough |
| // frames between 'l' and 'r' to create one more level. |
| if (layer_depth > gf_group->max_layer_depth_allowed || |
| num_frames_to_process < 3) { |
| // Leaf nodes. |
| while (start < end) { |
| set_params_for_leaf_frames(twopass, twopass_frame, p_rc, frame_info, |
| gf_group, cur_frame_idx, frame_ind, |
| parallel_frame_count, max_parallel_frames, |
| do_frame_parallel_encode, first_frame_index, |
| cur_disp_idx, layer_depth, start, end); |
| ++start; |
| } |
| } else { |
| const int m = (start + end - 1) / 2; |
| |
| // Internal ARF. |
| int arf_src_offset = m - start; |
| set_params_for_internal_arfs( |
| twopass, twopass_frame, p_rc, frame_info, gf_group, cur_frame_idx, |
| frame_ind, parallel_frame_count, max_parallel_frames, |
| do_frame_parallel_encode, first_frame_index, INT_MAX, cur_disp_idx, |
| layer_depth, arf_src_offset, m, end - m, m - start); |
| |
| // If encode reordering is enabled, configure the multi-layers accordingly |
| // and return. For e.g., the encode order for gf-interval 16 after |
| // reordering would be 0-> 16-> 8-> 4-> 2-> 6-> 1-> 3-> 5-> 7-> 12-> 10-> |
| // 14-> 9-> 11-> 13-> 15. |
| if (layer_depth >= depth_thr) { |
| int m1 = (m + start - 1) / 2; |
| int m2 = (m + 1 + end) / 2; |
| int arf_src_offsets[2] = { m1 - start, m2 - start }; |
| // Parameters to compute arf_boost. |
| int offset[2] = { m1, m2 }; |
| int f_frames[2] = { m - m1, end - m2 }; |
| int b_frames[2] = { m1 - start, m2 - (m + 1) }; |
| |
| // Set GF_GROUP params for INTNL_ARF_UPDATE frames which are reordered. |
| for (int i = 0; i < 2; i++) { |
| set_params_for_internal_arfs( |
| twopass, twopass_frame, p_rc, frame_info, gf_group, cur_frame_idx, |
| frame_ind, parallel_frame_count, max_parallel_frames, |
| do_frame_parallel_encode, first_frame_index, depth_thr, |
| cur_disp_idx, layer_depth + 1, arf_src_offsets[i], offset[i], |
| f_frames[i], b_frames[i]); |
| } |
| |
| // Initialize the start and end indices to configure LF_UPDATE frames. |
| int start_idx[4] = { start, m1 + 1, m + 1, end - 1 }; |
| int end_idx[4] = { m1, m, m2, end }; |
| int layer_depth_for_intnl_overlay[4] = { layer_depth + 1, layer_depth, |
| layer_depth + 1, INVALID_IDX }; |
| |
| // Set GF_GROUP params for the rest of LF_UPDATE and INTNL_OVERLAY_UPDATE |
| // frames after reordering. |
| for (int i = 0; i < 4; i++) { |
| set_multi_layer_params_for_fp( |
| twopass, twopass_frame, gf_group, p_rc, rc, frame_info, |
| start_idx[i], end_idx[i], cur_frame_idx, frame_ind, |
| parallel_frame_count, max_parallel_frames, do_frame_parallel_encode, |
| first_frame_index, depth_thr, cur_disp_idx, layer_depth + 2); |
| if (layer_depth_for_intnl_overlay[i] != INVALID_IDX) |
| set_params_for_intnl_overlay_frames( |
| gf_group, cur_frame_idx, frame_ind, first_frame_index, |
| cur_disp_idx, layer_depth_for_intnl_overlay[i]); |
| } |
| return; |
| } |
| |
| // Frames displayed before this internal ARF. |
| set_multi_layer_params_for_fp( |
| twopass, twopass_frame, gf_group, p_rc, rc, frame_info, start, m, |
| cur_frame_idx, frame_ind, parallel_frame_count, max_parallel_frames, |
| do_frame_parallel_encode, first_frame_index, depth_thr, cur_disp_idx, |
| layer_depth + 1); |
| |
| // Overlay for internal ARF. |
| set_params_for_intnl_overlay_frames(gf_group, cur_frame_idx, frame_ind, |
| first_frame_index, cur_disp_idx, |
| layer_depth); |
| |
| // Frames displayed after this internal ARF. |
| set_multi_layer_params_for_fp( |
| twopass, twopass_frame, gf_group, p_rc, rc, frame_info, m + 1, end, |
| cur_frame_idx, frame_ind, parallel_frame_count, max_parallel_frames, |
| do_frame_parallel_encode, first_frame_index, depth_thr, cur_disp_idx, |
| layer_depth + 1); |
| } |
| } |
| |
| // Structure for bookkeeping start, end and display indices to configure |
| // INTNL_ARF_UPDATE frames. |
| typedef struct { |
| int start; |
| int end; |
| int display_index; |
| } FRAME_REORDER_INFO; |
| |
| // Updates the stats required to configure the GF_GROUP. |
| static AOM_INLINE void fill_arf_frame_stats(FRAME_REORDER_INFO *arf_frame_stats, |
| int arf_frame_index, |
| int display_idx, int start, |
| int end) { |
| arf_frame_stats[arf_frame_index].start = start; |
| arf_frame_stats[arf_frame_index].end = end; |
| arf_frame_stats[arf_frame_index].display_index = display_idx; |
| } |
| |
| // Sets GF_GROUP params for INTNL_ARF_UPDATE frames. Also populates |
| // doh_gf_index_map and arf_frame_stats. |
| static AOM_INLINE void set_params_for_internal_arfs_in_gf14( |
| GF_GROUP *const gf_group, FRAME_REORDER_INFO *arf_frame_stats, |
| int *cur_frame_idx, int *cur_disp_idx, int *frame_ind, |
| int *count_arf_frames, int *doh_gf_index_map, int start, int end, |
| int layer_depth, int layer_with_parallel_encodes) { |
| int index = (start + end - 1) / 2; |
| gf_group->update_type[*frame_ind] = INTNL_ARF_UPDATE; |
| gf_group->arf_src_offset[*frame_ind] = index - 1; |
| gf_group->cur_frame_idx[*frame_ind] = *cur_frame_idx; |
| gf_group->layer_depth[*frame_ind] = layer_depth; |
| gf_group->frame_type[*frame_ind] = INTER_FRAME; |
| gf_group->refbuf_state[*frame_ind] = REFBUF_UPDATE; |
| gf_group->display_idx[*frame_ind] = |
| (*cur_disp_idx) + gf_group->arf_src_offset[*frame_ind]; |
| |
| // Update the display index of the current frame with its gf index. |
| doh_gf_index_map[index] = *frame_ind; |
| if (layer_with_parallel_encodes) { |
| assert(layer_depth == 4); |
| // Set frame_parallel_level of the first frame in the given layer depth |
| // to 1. |
| if (gf_group->layer_depth[(*frame_ind) - 1] != layer_depth) { |
| gf_group->frame_parallel_level[*frame_ind] = 1; |
| } else { |
| // Set frame_parallel_level of the consecutive frame in the same given |
| // layer depth to 2. |
| assert(gf_group->frame_parallel_level[(*frame_ind) - 1] == 1); |
| gf_group->frame_parallel_level[*frame_ind] = 2; |
| // Set the display_idx of frame_parallel_level 1 frame in |
| // gf_group->skip_frame_as_ref. |
| gf_group->skip_frame_as_ref[*frame_ind] = |
| gf_group->display_idx[(*frame_ind) - 1]; |
| } |
| } |
| ++(*frame_ind); |
| |
| // Update arf_frame_stats. |
| fill_arf_frame_stats(arf_frame_stats, *count_arf_frames, index, start, end); |
| ++(*count_arf_frames); |
| } |
| |
| // Sets GF_GROUP params for all INTNL_ARF_UPDATE frames in the given layer |
| // dpeth. |
| static AOM_INLINE void set_params_for_cur_layer_frames( |
| GF_GROUP *const gf_group, FRAME_REORDER_INFO *arf_frame_stats, |
| int *cur_frame_idx, int *cur_disp_idx, int *frame_ind, |
| int *count_arf_frames, int *doh_gf_index_map, int num_dir, int node_start, |
| int node_end, int layer_depth) { |
| assert(num_dir < 3); |
| int start, end; |
| // Iterate through the nodes in the previous layer depth. |
| for (int i = node_start; i < node_end; i++) { |
| // For each node, check if a frame can be coded as INTNL_ARF_UPDATE frame on |
| // either direction. |
| for (int dir = 0; dir < num_dir; dir++) { |
| // Checks for a frame to the left of current node. |
| if (dir == 0) { |
| start = arf_frame_stats[i].start; |
| end = arf_frame_stats[i].display_index; |
| } else { |
| // Checks for a frame to the right of current node. |
| start = arf_frame_stats[i].display_index + 1; |
| end = arf_frame_stats[i].end; |
| } |
| const int num_frames_to_process = end - start; |
| // Checks if a frame can be coded as INTNL_ARF_UPDATE frame. If |
| // num_frames_to_process is less than 3, then there are not enough frames |
| // between 'start' and 'end' to create another level. |
| if (num_frames_to_process >= 3) { |
| // Flag to indicate the lower layer depths for which parallel encoding |
| // is enabled. Currently enabled for layer 4 frames. |
| int layer_with_parallel_encodes = layer_depth == 4; |
| set_params_for_internal_arfs_in_gf14( |
| gf_group, arf_frame_stats, cur_frame_idx, cur_disp_idx, frame_ind, |
| count_arf_frames, doh_gf_index_map, start, end, layer_depth, |
| layer_with_parallel_encodes); |
| } |
| } |
| } |
| } |
| |
| // Configures multi-layers of the GF_GROUP when consecutive encode of frames in |
| // the same layer depth is enbaled. |
| static AOM_INLINE void set_multi_layer_params_for_gf14( |
| const TWO_PASS *twopass, const TWO_PASS_FRAME *twopass_frame, |
| const PRIMARY_RATE_CONTROL *p_rc, FRAME_INFO *frame_info, |
| GF_GROUP *const gf_group, FRAME_REORDER_INFO *arf_frame_stats, |
| int *cur_frame_idx, int *frame_ind, int *count_arf_frames, |
| int *doh_gf_index_map, int *parallel_frame_count, int *first_frame_index, |
| int *cur_disp_index, int gf_interval, int layer_depth, |
| int max_parallel_frames) { |
| assert(layer_depth == 2); |
| assert(gf_group->max_layer_depth_allowed >= 4); |
| int layer, node_start, node_end = 0; |
| // Maximum layer depth excluding LF_UPDATE frames is 4 since applicable only |
| // for gf-interval 14. |
| const int max_layer_depth = 4; |
| // Iterate through each layer depth starting from 2 till 'max_layer_depth'. |
| for (layer = layer_depth; layer <= max_layer_depth; layer++) { |
| // 'node_start' and 'node_end' indicate the number of nodes from the |
| // previous layer depth to be considered. It also corresponds to the indices |
| // of arf_frame_stats. |
| node_start = node_end; |
| node_end = (*count_arf_frames); |
| // 'num_dir' indicates the number of directions to traverse w.r.t. a given |
| // node in order to choose an INTNL_ARF_UPDATE frame. Layer depth 2 would |
| // have only one frame and hence needs to traverse only in the left |
| // direction w.r.t the node in the previous layer. |
| int num_dir = layer == 2 ? 1 : 2; |
| set_params_for_cur_layer_frames(gf_group, arf_frame_stats, cur_frame_idx, |
| cur_disp_index, frame_ind, count_arf_frames, |
| doh_gf_index_map, num_dir, node_start, |
| node_end, layer); |
| } |
| |
| for (int i = 1; i < gf_interval; i++) { |
| // Since doh_gf_index_map is already populated for all INTNL_ARF_UPDATE |
| // frames in the GF_GROUP, any frame with INVALID_IDX would correspond to an |
| // LF_UPDATE frame. |
| if (doh_gf_index_map[i] == INVALID_IDX) { |
| // LF_UPDATE frames. |
| // TODO(Remya): Correct start and end parameters passed to |
| // set_params_for_leaf_frames() once encode reordering for gf-interval 14 |
| // is enbaled for parallel encode of lower layer frames. |
| set_params_for_leaf_frames( |
| twopass, twopass_frame, p_rc, frame_info, gf_group, cur_frame_idx, |
| frame_ind, parallel_frame_count, max_parallel_frames, 1, |
| first_frame_index, cur_disp_index, layer, 0, 0); |
| } else { |
| // In order to obtain the layer depths of INTNL_OVERLAY_UPDATE frames, get |
| // the gf index of corresponding INTNL_ARF_UPDATE frames. |
| int intnl_arf_index = doh_gf_index_map[i]; |
| int ld = gf_group->layer_depth[intnl_arf_index]; |
| set_params_for_intnl_overlay_frames(gf_group, cur_frame_idx, frame_ind, |
| first_frame_index, cur_disp_index, |
| ld); |
| } |
| } |
| } |
| |
| // Set parameters for frames between 'start' and 'end' (excluding both). |
| static void set_multi_layer_params( |
| const TWO_PASS *twopass, const TWO_PASS_FRAME *twopass_frame, |
| GF_GROUP *const gf_group, const PRIMARY_RATE_CONTROL *p_rc, |
| RATE_CONTROL *rc, FRAME_INFO *frame_info, int start, int end, |
| int *cur_frame_idx, int *frame_ind, int *parallel_frame_count, |
| int max_parallel_frames, int do_frame_parallel_encode, |
| int *first_frame_index, int layer_depth) { |
| const int num_frames_to_process = end - start; |
| |
| // Either we are at the last level of the pyramid, or we don't have enough |
| // frames between 'l' and 'r' to create one more level. |
| if (layer_depth > gf_group->max_layer_depth_allowed || |
| num_frames_to_process < 3) { |
| // Leaf nodes. |
| while (start < end) { |
| gf_group->update_type[*frame_ind] = LF_UPDATE; |
| gf_group->arf_src_offset[*frame_ind] = 0; |
| gf_group->cur_frame_idx[*frame_ind] = *cur_frame_idx; |
| gf_group->layer_depth[*frame_ind] = MAX_ARF_LAYERS; |
| gf_group->arf_boost[*frame_ind] = |
| av1_calc_arf_boost(twopass, twopass_frame, p_rc, frame_info, start, |
| end - start, 0, NULL, NULL, 0); |
| gf_group->frame_type[*frame_ind] = INTER_FRAME; |
| gf_group->refbuf_state[*frame_ind] = REFBUF_UPDATE; |
| gf_group->max_layer_depth = |
| AOMMAX(gf_group->max_layer_depth, layer_depth); |
| // Set the level of parallelism for the LF_UPDATE frame. |
| if (do_frame_parallel_encode) { |
| set_frame_parallel_level(&gf_group->frame_parallel_level[*frame_ind], |
| parallel_frame_count, max_parallel_frames); |
| // Set LF_UPDATE frames as non-reference frames. |
| gf_group->is_frame_non_ref[*frame_ind] = 1; |
| } |
| set_src_offset(gf_group, first_frame_index, *cur_frame_idx, *frame_ind); |
| ++(*frame_ind); |
| ++(*cur_frame_idx); |
| ++start; |
| } |
| } else { |
| const int m = (start + end - 1) / 2; |
| |
| // Internal ARF. |
| gf_group->update_type[*frame_ind] = INTNL_ARF_UPDATE; |
| gf_group->arf_src_offset[*frame_ind] = m - start; |
| gf_group->cur_frame_idx[*frame_ind] = *cur_frame_idx; |
| gf_group->layer_depth[*frame_ind] = layer_depth; |
| gf_group->frame_type[*frame_ind] = INTER_FRAME; |
| gf_group->refbuf_state[*frame_ind] = REFBUF_UPDATE; |
| |
| if (do_frame_parallel_encode) { |
| // If max_parallel_frames is not exceeded and if the frame will not be |
| // temporally filtered, encode the next internal ARF frame in parallel. |
| if (*parallel_frame_count > 1 && |
| *parallel_frame_count <= max_parallel_frames) { |
| if (gf_group->arf_src_offset[*frame_ind] < TF_LOOKAHEAD_IDX_THR) |
| gf_group->frame_parallel_level[*frame_ind] = 2; |
| *parallel_frame_count = 1; |
| } |
| } |
| set_src_offset(gf_group, first_frame_index, *cur_frame_idx, *frame_ind); |
| |
| // Get the boost factor for intermediate ARF frames. |
| gf_group->arf_boost[*frame_ind] = |
| av1_calc_arf_boost(twopass, twopass_frame, p_rc, frame_info, m, end - m, |
| m - start, NULL, NULL, 0); |
| ++(*frame_ind); |
| |
| // Frames displayed before this internal ARF. |
| set_multi_layer_params( |
| twopass, twopass_frame, gf_group, p_rc, rc, frame_info, start, m, |
| cur_frame_idx, frame_ind, parallel_frame_count, max_parallel_frames, |
| do_frame_parallel_encode, first_frame_index, layer_depth + 1); |
| |
| // Overlay for internal ARF. |
| gf_group->update_type[*frame_ind] = INTNL_OVERLAY_UPDATE; |
| gf_group->arf_src_offset[*frame_ind] = 0; |
| gf_group->cur_frame_idx[*frame_ind] = *cur_frame_idx; |
| gf_group->arf_boost[*frame_ind] = 0; |
| gf_group->layer_depth[*frame_ind] = layer_depth; |
| gf_group->frame_type[*frame_ind] = INTER_FRAME; |
| gf_group->refbuf_state[*frame_ind] = REFBUF_UPDATE; |
| |
| set_src_offset(gf_group, first_frame_index, *cur_frame_idx, *frame_ind); |
| ++(*frame_ind); |
| ++(*cur_frame_idx); |
| |
| // Frames displayed after this internal ARF. |
| set_multi_layer_params( |
| twopass, twopass_frame, gf_group, p_rc, rc, frame_info, m + 1, end, |
| cur_frame_idx, frame_ind, parallel_frame_count, max_parallel_frames, |
| do_frame_parallel_encode, first_frame_index, layer_depth + 1); |
| } |
| } |
| |
| static int construct_multi_layer_gf_structure( |
| AV1_COMP *cpi, TWO_PASS *twopass, GF_GROUP *const gf_group, |
| RATE_CONTROL *rc, FRAME_INFO *const frame_info, int baseline_gf_interval, |
| FRAME_UPDATE_TYPE first_frame_update_type) { |
| PRIMARY_RATE_CONTROL *const p_rc = &cpi->ppi->p_rc; |
| // TODO(angiebird): Why do we need "-1" here? |
| const int gf_interval = baseline_gf_interval - 1; |
| int frame_index = 0; |
| int cur_frame_index = 0; |
| |
| // Set the display order hint for the first frame in the GF_GROUP. |
| int cur_disp_index = (first_frame_update_type == KF_UPDATE) |
| ? 0 |
| : cpi->common.current_frame.frame_number; |
| |
| // Initialize gf_group->frame_parallel_level and gf_group->is_frame_non_ref to |
| // 0. |
| memset( |
| gf_group->frame_parallel_level, 0, |
| sizeof(gf_group->frame_parallel_level[0]) * MAX_STATIC_GF_GROUP_LENGTH); |
| memset(gf_group->is_frame_non_ref, 0, |
| sizeof(gf_group->is_frame_non_ref[0]) * MAX_STATIC_GF_GROUP_LENGTH); |
| memset(gf_group->src_offset, 0, |
| sizeof(gf_group->src_offset[0]) * MAX_STATIC_GF_GROUP_LENGTH); |
| // Initialize gf_group->skip_frame_refresh and gf_group->skip_frame_as_ref |
| // with INVALID_IDX. |
| memset(gf_group->skip_frame_refresh, INVALID_IDX, |
| sizeof(gf_group->skip_frame_refresh[0][0]) * |
| MAX_STATIC_GF_GROUP_LENGTH * REF_FRAMES); |
| memset(gf_group->skip_frame_as_ref, INVALID_IDX, |
| sizeof(gf_group->skip_frame_as_ref[0]) * MAX_STATIC_GF_GROUP_LENGTH); |
| |
| int kf_decomp = cpi->oxcf.kf_cfg.enable_keyframe_filtering > 1; |
| // This is a patch that fixes https://crbug.com/aomedia/3163 |
| // enable_keyframe_filtering > 1 will introduce an extra overlay frame at |
| // key frame location. However when |
| // baseline_gf_interval == MAX_STATIC_GF_GROUP_LENGTH, we can't |
| // afford to have an extra overlay frame. Otherwise, the gf_group->size will |
| // become MAX_STATIC_GF_GROUP_LENGTH + 1, which causes memory error. |
| // A cheap solution is to turn of kf_decomp here. |
| // TODO(angiebird): Find a systematic way to solve this issue. |
| if (baseline_gf_interval == MAX_STATIC_GF_GROUP_LENGTH) { |
| kf_decomp = 0; |
| } |
| if (first_frame_update_type == KF_UPDATE) { |
| gf_group->update_type[frame_index] = kf_decomp ? ARF_UPDATE : KF_UPDATE; |
| gf_group->arf_src_offset[frame_index] = 0; |
| gf_group->cur_frame_idx[frame_index] = cur_frame_index; |
| gf_group->layer_depth[frame_index] = 0; |
| gf_group->frame_type[frame_index] = KEY_FRAME; |
| gf_group->refbuf_state[frame_index] = REFBUF_RESET; |
| gf_group->max_layer_depth = 0; |
| gf_group->display_idx[frame_index] = cur_disp_index; |
| if (!kf_decomp) cur_disp_index++; |
| ++frame_index; |
| |
| if (kf_decomp) { |
| gf_group->update_type[frame_index] = OVERLAY_UPDATE; |
| gf_group->arf_src_offset[frame_index] = 0; |
| gf_group->cur_frame_idx[frame_index] = cur_frame_index; |
| gf_group->layer_depth[frame_index] = 0; |
| gf_group->frame_type[frame_index] = INTER_FRAME; |
| gf_group->refbuf_state[frame_index] = REFBUF_UPDATE; |
| gf_group->max_layer_depth = 0; |
| gf_group->display_idx[frame_index] = cur_disp_index; |
| cur_disp_index++; |
| ++frame_index; |
| } |
| cur_frame_index++; |
| } |
| |
| if (first_frame_update_type == GF_UPDATE) { |
| gf_group->update_type[frame_index] = GF_UPDATE; |
| gf_group->arf_src_offset[frame_index] = 0; |
| gf_group->cur_frame_idx[frame_index] = cur_frame_index; |
| gf_group->layer_depth[frame_index] = 0; |
| gf_group->frame_type[frame_index] = INTER_FRAME; |
| gf_group->refbuf_state[frame_index] = REFBUF_UPDATE; |
| gf_group->max_layer_depth = 0; |
| gf_group->display_idx[frame_index] = cur_disp_index; |
| cur_disp_index++; |
| ++frame_index; |
| ++cur_frame_index; |
| } |
| |
| // ALTREF. |
| const int use_altref = gf_group->max_layer_depth_allowed > 0; |
| int is_fwd_kf = rc->frames_to_fwd_kf == gf_interval; |
| |
| if (use_altref) { |
| gf_group->update_type[frame_index] = ARF_UPDATE; |
| gf_group->arf_src_offset[frame_index] = gf_interval - cur_frame_index; |
| gf_group->cur_frame_idx[frame_index] = cur_frame_index; |
| gf_group->layer_depth[frame_index] = 1; |
| gf_group->arf_boost[frame_index] = cpi->ppi->p_rc.gfu_boost; |
| gf_group->frame_type[frame_index] = is_fwd_kf ? KEY_FRAME : INTER_FRAME; |
| gf_group->refbuf_state[frame_index] = REFBUF_UPDATE; |
| gf_group->max_layer_depth = 1; |
| gf_group->arf_index = frame_index; |
| gf_group->display_idx[frame_index] = |
| cur_disp_index + gf_group->arf_src_offset[frame_index]; |
| ++frame_index; |
| } else { |
| gf_group->arf_index = -1; |
| } |
| |
| // Flag to indicate if multi-layer configuration is complete. |
| int is_multi_layer_configured = 0; |
| |
| // Running count of no. of frames that is part of a given parallel |
| // encode set in a gf_group. Value of 1 indicates no parallel encode. |
| int parallel_frame_count = 1; |
| // Enable parallel encode of frames if gf_group has a multi-layer pyramid |
| // structure with minimum 4 layers. |
| int do_frame_parallel_encode = (cpi->ppi->num_fp_contexts > 1 && use_altref && |
| gf_group->max_layer_depth_allowed >= 4); |
| |
| int first_frame_index = cur_frame_index; |
| if (do_frame_parallel_encode) { |
| // construct_multi_layer_gf_structure() takes the input parameter |
| // 'gf_interval' as p_rc->baseline_gf_interval - 1 . Below code computes the |
| // actual GF_GROUP length by compensating for this offset. |
| int actual_gf_length = ((first_frame_update_type == KF_UPDATE) || |
| (first_frame_update_type == GF_UPDATE)) |
| ? gf_interval |
| : gf_interval + 1; |
| |
| // In order to facilitate parallel encoding of frames in lower layer depths, |
| // encode reordering is done. Currently encode reordering is enabled only |
| // for gf-intervals 16 and 32. NOTE: Since the buffer holding the |
| // reference frames is of size 8 (ref_frame_map[REF_FRAMES]), there is a |
| // limitation on the number of hidden frames possible at any given point and |
| // hence the reordering is enabled only for gf-intervals 16 and 32. |
| // Disabling encode reordering for gf-interval 14 since some cross-frame |
| // dependencies related to temporal filtering for FPMT is currently not |
| // handled. |
| int disable_gf14_reorder = 1; |
| if (actual_gf_length == 14 && !disable_gf14_reorder) { |
| // This array holds the gf index of INTNL_ARF_UPDATE frames in the slot |
| // corresponding to their display order hint. This is used while |
| // configuring the LF_UPDATE frames and INTNL_OVERLAY_UPDATE frames. |
| int doh_gf_index_map[FIXED_GF_INTERVAL]; |
| // Initialize doh_gf_index_map with INVALID_IDX. |
| memset(&doh_gf_index_map[0], INVALID_IDX, |
| (sizeof(doh_gf_index_map[0]) * FIXED_GF_INTERVAL)); |
| |
| FRAME_REORDER_INFO arf_frame_stats[REF_FRAMES - 1]; |
| // Store the stats corresponding to layer 1 frame. |
| fill_arf_frame_stats(arf_frame_stats, 0, actual_gf_length, 1, |
| actual_gf_length); |
| int count_arf_frames = 1; |
| |
| // Sets multi-layer params for gf-interval 14 to consecutively encode |
| // frames in the same layer depth, i.e., encode order would be 0-> 14-> |
| // 7-> 3-> 10-> 5-> 12-> 1-> 2-> 4-> 6-> 8-> 9-> 11-> 13. |
| // TODO(Remya): Set GF_GROUP param 'arf_boost' for all frames. |
| set_multi_layer_params_for_gf14( |
| twopass, &cpi->twopass_frame, p_rc, frame_info, gf_group, |
| arf_frame_stats, &cur_frame_index, &frame_index, &count_arf_frames, |
| doh_gf_index_map, ¶llel_frame_count, &first_frame_index, |
| &cur_disp_index, actual_gf_length, use_altref + 1, |
| cpi->ppi->num_fp_contexts); |
| |
| // Set gf_group->skip_frame_refresh. |
| for (int i = 0; i < actual_gf_length; i++) { |
| int count = 0; |
| if (gf_group->update_type[i] == INTNL_ARF_UPDATE) { |
| for (int j = 0; j < i; j++) { |
| // Store the display order hint of the frames which would not |
| // have been displayed at the encode call of frame 'i'. |
| if ((gf_group->display_idx[j] < gf_group->display_idx[i]) && |
| gf_group->update_type[j] == INTNL_ARF_UPDATE) { |
| gf_group->skip_frame_refresh[i][count++] = |
| gf_group->display_idx[j]; |
| } |
| } |
| } |
| } |
| } else { |
| // Set layer depth threshold for reordering as per the gf length. |
| int depth_thr = |
| (actual_gf_length == 16) ? 3 : (actual_gf_length == 32) ? 4 : INT_MAX; |
| |
| set_multi_layer_params_for_fp( |
| twopass, &cpi->twopass_frame, gf_group, p_rc, rc, frame_info, |
| cur_frame_index, gf_interval, &cur_frame_index, &frame_index, |
| ¶llel_frame_count, cpi->ppi->num_fp_contexts, |
| do_frame_parallel_encode, &first_frame_index, depth_thr, |
| &cur_disp_index, use_altref + 1); |
| } |
| is_multi_layer_configured = 1; |
| } |
| |
| // Rest of the frames. |
| if (!is_multi_layer_configured) |
| set_multi_layer_params( |
| twopass, &cpi->twopass_frame, gf_group, p_rc, rc, frame_info, |
| cur_frame_index, gf_interval, &cur_frame_index, &frame_index, |
| ¶llel_frame_count, cpi->ppi->num_fp_contexts, |
| do_frame_parallel_encode, &first_frame_index, use_altref + 1); |
| |
| if (use_altref) { |
| gf_group->update_type[frame_index] = OVERLAY_UPDATE; |
| gf_group->arf_src_offset[frame_index] = 0; |
| gf_group->cur_frame_idx[frame_index] = cur_frame_index; |
| gf_group->layer_depth[frame_index] = MAX_ARF_LAYERS; |
| gf_group->arf_boost[frame_index] = NORMAL_BOOST; |
| gf_group->frame_type[frame_index] = INTER_FRAME; |
| gf_group->refbuf_state[frame_index] = |
| is_fwd_kf ? REFBUF_RESET : REFBUF_UPDATE; |
| gf_group->display_idx[frame_index] = cur_disp_index; |
| ++frame_index; |
| } else { |
| for (; cur_frame_index <= gf_interval; ++cur_frame_index) { |
| gf_group->update_type[frame_index] = LF_UPDATE; |
| gf_group->arf_src_offset[frame_index] = 0; |
| gf_group->cur_frame_idx[frame_index] = cur_frame_index; |
| gf_group->layer_depth[frame_index] = MAX_ARF_LAYERS; |
| gf_group->arf_boost[frame_index] = NORMAL_BOOST; |
| gf_group->frame_type[frame_index] = INTER_FRAME; |
| gf_group->refbuf_state[frame_index] = REFBUF_UPDATE; |
| gf_group->max_layer_depth = AOMMAX(gf_group->max_layer_depth, 2); |
| set_src_offset(gf_group, &first_frame_index, cur_frame_index, |
| frame_index); |
| gf_group->display_idx[frame_index] = cur_disp_index; |
| cur_disp_index++; |
| ++frame_index; |
| } |
| } |
| if (do_frame_parallel_encode) { |
| // Iterate through the gf_group and reset frame_parallel_level to 0 in case |
| // a frame is marked as frame_parallel_level 1 with no subsequent |
| // frame_parallel_level 2 frame(s). |
| int level1_frame_idx = INT_MAX; |
| int level2_frame_count = 0; |
| for (int frame_idx = 0; frame_idx < frame_index; frame_idx++) { |
| if (gf_group->frame_parallel_level[frame_idx] == 1) { |
| // Set frame_parallel_level to 0 if only one frame is present in a |
| // parallel encode set. |
| if (level1_frame_idx != INT_MAX && !level2_frame_count) |
| gf_group->frame_parallel_level[level1_frame_idx] = 0; |
| // Book-keep frame_idx of frame_parallel_level 1 frame and reset the |
| // count of frame_parallel_level 2 frames in the corresponding parallel |
| // encode set. |
| level1_frame_idx = frame_idx; |
| level2_frame_count = 0; |
| } |
| if (gf_group->frame_parallel_level[frame_idx] == 2) level2_frame_count++; |
| } |
| // If frame_parallel_level is set to 1 for the last LF_UPDATE |
| // frame in the gf_group, reset it to zero since there are no subsequent |
| // frames in the gf_group. |
| if (gf_group->frame_parallel_level[frame_index - 2] == 1) { |
| assert(gf_group->update_type[frame_index - 2] == LF_UPDATE); |
| gf_group->frame_parallel_level[frame_index - 2] = 0; |
| } |
| } |
| |
| for (int gf_idx = frame_index; gf_idx < MAX_STATIC_GF_GROUP_LENGTH; |
| ++gf_idx) { |
| gf_group->update_type[gf_idx] = LF_UPDATE; |
| gf_group->arf_src_offset[gf_idx] = 0; |
| gf_group->cur_frame_idx[gf_idx] = gf_idx; |
| gf_group->layer_depth[gf_idx] = MAX_ARF_LAYERS; |
| gf_group->arf_boost[gf_idx] = NORMAL_BOOST; |
| gf_group->frame_type[gf_idx] = INTER_FRAME; |
| gf_group->refbuf_state[gf_idx] = REFBUF_UPDATE; |
| gf_group->max_layer_depth = AOMMAX(gf_group->max_layer_depth, 2); |
| } |
| |
| return frame_index; |
| } |
| |
| static void set_ld_layer_depth(GF_GROUP *gf_group, int gop_length) { |
| int log_gop_length = 0; |
| while ((1 << log_gop_length) < gop_length) { |
| ++log_gop_length; |
| } |
| |
| for (int gf_index = 0; gf_index < gf_group->size; ++gf_index) { |
| int count = 0; |
| // Find the trailing zeros |
| for (; count < MAX_ARF_LAYERS; ++count) { |
| if ((gf_index >> count) & 0x01) break; |
| } |
| gf_group->layer_depth[gf_index] = AOMMAX(log_gop_length - count, 0); |
| } |
| gf_group->max_layer_depth = log_gop_length; |
| } |
| |
| void av1_gop_setup_structure(AV1_COMP *cpi) { |
| RATE_CONTROL *const rc = &cpi->rc; |
| PRIMARY_RATE_CONTROL *const p_rc = &cpi->ppi->p_rc; |
| GF_GROUP *const gf_group = &cpi->ppi->gf_group; |
| TWO_PASS *const twopass = &cpi->ppi->twopass; |
| FRAME_INFO *const frame_info = &cpi->frame_info; |
| const int key_frame = rc->frames_since_key == 0; |
| FRAME_UPDATE_TYPE first_frame_update_type = ARF_UPDATE; |
| |
| if (key_frame) { |
| first_frame_update_type = KF_UPDATE; |
| if (cpi->oxcf.kf_max_pyr_height != -1) { |
| gf_group->max_layer_depth_allowed = AOMMIN( |
| cpi->oxcf.kf_max_pyr_height, gf_group->max_layer_depth_allowed); |
| } |
| } else if (!cpi->ppi->gf_state.arf_gf_boost_lst) { |
| first_frame_update_type = GF_UPDATE; |
| } |
| |
| gf_group->size = construct_multi_layer_gf_structure( |
| cpi, twopass, gf_group, rc, frame_info, p_rc->baseline_gf_interval, |
| first_frame_update_type); |
| |
| if (gf_group->max_layer_depth_allowed == 0) |
| set_ld_layer_depth(gf_group, p_rc->baseline_gf_interval); |
| } |
| |
| int av1_gop_check_forward_keyframe(const GF_GROUP *gf_group, |
| int gf_frame_index) { |
| return gf_group->frame_type[gf_frame_index] == KEY_FRAME && |
| gf_group->refbuf_state[gf_frame_index] == REFBUF_UPDATE; |
| } |
| |
| int av1_gop_is_second_arf(const GF_GROUP *gf_group, int gf_frame_index) { |
| const int arf_src_offset = gf_group->arf_src_offset[gf_frame_index]; |
| // TODO(angiebird): when gf_group->size == 32, it's possble to |
| // have "two" second arf. Check if this is acceptable. |
| if (gf_group->update_type[gf_frame_index] == INTNL_ARF_UPDATE && |
| arf_src_offset >= TF_LOOKAHEAD_IDX_THR) { |
| return 1; |
| } |
| return 0; |
| } |