Simplify Segment Coding
Remove top node optimization. The improvement this gives is not sufficient to justify the extra complexity. Change-Id: I2bb4a12a50ffd52cacfa4a3e8acbb2e522066905
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27bb4777cd
Коммит
c77aff1286
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@ -399,7 +399,6 @@ typedef struct macroblockd {
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// Probability Tree used to code Segment number
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vp9_prob mb_segment_tree_probs[MB_FEATURE_TREE_PROBS];
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vp9_prob mb_segment_mispred_tree_probs[MAX_MB_SEGMENTS];
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// Segment features
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signed char segment_feature_data[MAX_MB_SEGMENTS][SEG_LVL_MAX];
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@ -79,21 +79,6 @@ static int read_mb_segid(vp9_reader *r, MACROBLOCKD *xd) {
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: vp9_read(r, p[1]);
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}
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// This function reads the current macro block's segnent id from the bitstream
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// It should only be called if a segment map update is indicated.
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static int read_mb_segid_except(vp9_reader *r,
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VP9_COMMON *cm, MACROBLOCKD *xd,
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int mb_row, int mb_col) {
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const BLOCK_SIZE_TYPE sb_type = xd->mode_info_context->mbmi.sb_type;
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const int pred_seg_id = vp9_get_pred_mb_segid(cm, sb_type, mb_row, mb_col);
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const vp9_prob *const p = xd->mb_segment_tree_probs;
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const vp9_prob prob = xd->mb_segment_mispred_tree_probs[pred_seg_id];
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return vp9_read(r, prob)
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? 2 + (pred_seg_id < 2 ? vp9_read(r, p[2]) : (pred_seg_id == 2))
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: (pred_seg_id >= 2 ? vp9_read(r, p[1]) : (pred_seg_id == 0));
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}
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static void set_segment_id(VP9_COMMON *cm, MB_MODE_INFO *mbmi,
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int mb_row, int mb_col, int segment_id) {
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const int mb_index = mb_row * cm->mb_cols + mb_col;
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@ -551,7 +536,7 @@ static int read_mb_segment_id(VP9D_COMP *pbi, int mb_row, int mb_col,
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// then use the predicted value, otherwise decode it explicitly
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segment_id = pred_flag ? vp9_get_pred_mb_segid(cm, mbmi->sb_type,
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mb_row, mb_col)
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: read_mb_segid_except(r, cm, xd, mb_row, mb_col);
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: read_mb_segid(r, xd);
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} else {
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segment_id = read_mb_segid(r, xd); // Normal unpredicted coding mode
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}
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@ -1113,19 +1113,6 @@ static void setup_segmentation(VP9_COMMON *pc, MACROBLOCKD *xd, vp9_reader *r) {
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pc->temporal_update = vp9_read_bit(r);
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if (pc->temporal_update) {
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const vp9_prob *p = xd->mb_segment_tree_probs;
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vp9_prob *mispred_p = xd->mb_segment_mispred_tree_probs;
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const int c0 = p[0] * p[1];
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const int c1 = p[0] * (256 - p[1]);
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const int c2 = (256 - p[0]) * p[2];
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const int c3 = (256 - p[0]) * (256 - p[2]);
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mispred_p[0] = get_binary_prob(c1, c2 + c3);
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mispred_p[1] = get_binary_prob(c0, c2 + c3);
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mispred_p[2] = get_binary_prob(c0 + c1, c3);
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mispred_p[3] = get_binary_prob(c0 + c1, c2);
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for (i = 0; i < PREDICTION_PROBS; i++)
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pc->segment_pred_probs[i] = vp9_read_bit(r) ? vp9_read_prob(r)
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: MAX_PROB;
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@ -560,28 +560,6 @@ static void write_mb_segid(vp9_writer *bc,
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}
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}
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static void write_mb_segid_except(VP9_COMMON *cm,
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vp9_writer *bc,
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const MB_MODE_INFO *mi,
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const MACROBLOCKD *xd,
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int mb_row, int mb_col) {
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// Encode the MB segment id.
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const int seg_id = mi->segment_id;
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const BLOCK_SIZE_TYPE sb_type = xd->mode_info_context->mbmi.sb_type;
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const int pred_seg_id = vp9_get_pred_mb_segid(cm, sb_type, mb_row, mb_col);
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const vp9_prob *p = xd->mb_segment_tree_probs;
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const vp9_prob p1 = xd->mb_segment_mispred_tree_probs[pred_seg_id];
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if (xd->segmentation_enabled && xd->update_mb_segmentation_map) {
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vp9_write(bc, seg_id >= 2, p1);
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if (pred_seg_id >= 2 && seg_id < 2) {
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vp9_write(bc, seg_id == 1, p[1]);
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} else if (pred_seg_id < 2 && seg_id >= 2) {
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vp9_write(bc, seg_id == 3, p[2]);
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}
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}
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}
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// This function encodes the reference frame
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static void encode_ref_frame(vp9_writer *const bc,
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VP9_COMMON *const cm,
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@ -725,7 +703,7 @@ static void pack_inter_mode_mvs(VP9_COMP *cpi, MODE_INFO *m,
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// If the mb segment id wasn't predicted code explicitly
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if (!prediction_flag)
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write_mb_segid_except(pc, bc, mi, &cpi->mb.e_mbd, mb_row, mb_col);
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write_mb_segid(bc, mi, &cpi->mb.e_mbd);
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} else {
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// Normal unpredicted coding
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write_mb_segid(bc, mi, &cpi->mb.e_mbd);
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@ -103,8 +103,7 @@ static int cost_segmap(MACROBLOCKD *xd,
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// Based on set of segment counts calculate a probability tree
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static void calc_segtree_probs_pred(MACROBLOCKD *xd,
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int (*segcounts)[MAX_MB_SEGMENTS],
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vp9_prob *segment_tree_probs,
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vp9_prob *mod_probs) {
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vp9_prob *segment_tree_probs) {
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int count[4];
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assert(!segcounts[0][0] && !segcounts[1][1] &&
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@ -121,24 +120,12 @@ static void calc_segtree_probs_pred(MACROBLOCKD *xd,
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count[2] + count[3]);
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segment_tree_probs[1] = get_binary_prob(count[0], count[1]);
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segment_tree_probs[2] = get_binary_prob(count[2], count[3]);
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// now work out modified counts that the decoder would have
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count[0] = segment_tree_probs[0] * segment_tree_probs[1];
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count[1] = segment_tree_probs[0] * (256 - segment_tree_probs[1]);
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count[2] = (256 - segment_tree_probs[0]) * segment_tree_probs[2];
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count[3] = (256 - segment_tree_probs[0]) * (256 - segment_tree_probs[2]);
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// Work out modified probabilties depending on what segment was predicted
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mod_probs[0] = get_binary_prob(count[1], count[2] + count[3]);
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mod_probs[1] = get_binary_prob(count[0], count[2] + count[3]);
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mod_probs[2] = get_binary_prob(count[0] + count[1], count[3]);
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mod_probs[3] = get_binary_prob(count[0] + count[1], count[2]);
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}
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// Based on set of segment counts and probabilities calculate a cost estimate
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static int cost_segmap_pred(MACROBLOCKD *xd,
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int (*segcounts)[MAX_MB_SEGMENTS],
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vp9_prob *probs, vp9_prob *mod_probs) {
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vp9_prob *probs) {
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int pred_seg, cost = 0;
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for (pred_seg = 0; pred_seg < MAX_MB_SEGMENTS; pred_seg++) {
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@ -147,8 +134,8 @@ static int cost_segmap_pred(MACROBLOCKD *xd,
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// Cost the top node of the tree
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count1 = segcounts[pred_seg][0] + segcounts[pred_seg][1];
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count2 = segcounts[pred_seg][2] + segcounts[pred_seg][3];
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cost += count1 * vp9_cost_zero(mod_probs[pred_seg]) +
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count2 * vp9_cost_one(mod_probs[pred_seg]);
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cost += count1 * vp9_cost_zero(probs[0]) +
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count2 * vp9_cost_one(probs[0]);
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// Now add the cost of each individual segment branch
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if (pred_seg >= 2 && count1) {
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@ -217,7 +204,6 @@ void vp9_choose_segmap_coding_method(VP9_COMP *cpi) {
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vp9_prob no_pred_tree[MB_FEATURE_TREE_PROBS];
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vp9_prob t_pred_tree[MB_FEATURE_TREE_PROBS];
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vp9_prob t_pred_tree_mod[MAX_MB_SEGMENTS];
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vp9_prob t_nopred_prob[PREDICTION_PROBS];
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const int mis = cm->mode_info_stride;
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@ -332,10 +318,8 @@ void vp9_choose_segmap_coding_method(VP9_COMP *cpi) {
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if (cm->frame_type != KEY_FRAME) {
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// Work out probability tree for coding those segments not
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// predicted using the temporal method and the cost.
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calc_segtree_probs_pred(xd, t_unpred_seg_counts, t_pred_tree,
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t_pred_tree_mod);
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t_pred_cost = cost_segmap_pred(xd, t_unpred_seg_counts, t_pred_tree,
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t_pred_tree_mod);
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calc_segtree_probs_pred(xd, t_unpred_seg_counts, t_pred_tree);
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t_pred_cost = cost_segmap_pred(xd, t_unpred_seg_counts, t_pred_tree);
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// Add in the cost of the signalling for each prediction context
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for (i = 0; i < PREDICTION_PROBS; i++) {
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@ -355,8 +339,6 @@ void vp9_choose_segmap_coding_method(VP9_COMP *cpi) {
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cm->temporal_update = 1;
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vpx_memcpy(xd->mb_segment_tree_probs,
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t_pred_tree, sizeof(t_pred_tree));
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vpx_memcpy(xd->mb_segment_mispred_tree_probs,
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t_pred_tree_mod, sizeof(t_pred_tree_mod));
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vpx_memcpy(&cm->segment_pred_probs,
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t_nopred_prob, sizeof(t_nopred_prob));
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} else {
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