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Switch to new intra pred in kvz_search_cu_intra
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@ -343,41 +343,25 @@ static void search_intra_chroma_rough(encoder_state_t * const state,
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*/
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static int8_t search_intra_rough(encoder_state_t * const state,
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kvz_pixel *orig, int32_t origstride,
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kvz_pixel *rec, int16_t recstride,
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int width, int8_t *intra_preds,
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kvz_intra_references *refs,
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int log2_width, int8_t *intra_preds,
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int8_t modes[35], double costs[35])
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{
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assert(log2_width >= 2 && log2_width <= 5);
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int_fast8_t width = 1 << log2_width;
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cost_pixel_nxn_func *satd_func = kvz_pixels_get_satd_func(width);
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cost_pixel_nxn_func *sad_func = kvz_pixels_get_sad_func(width);
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// Temporary block arrays
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kvz_pixel _pred[LCU_WIDTH * LCU_WIDTH + 1 + SIMD_ALIGNMENT];
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kvz_pixel _pred[32 * 32 + SIMD_ALIGNMENT];
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kvz_pixel *pred = ALIGNED_POINTER(_pred, SIMD_ALIGNMENT);
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kvz_pixel _orig_block[LCU_WIDTH * LCU_WIDTH + 1 + SIMD_ALIGNMENT];
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kvz_pixel _orig_block[32 * 32 + SIMD_ALIGNMENT];
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kvz_pixel *orig_block = ALIGNED_POINTER(_orig_block, SIMD_ALIGNMENT);
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kvz_pixel rec_filtered_temp[(LCU_WIDTH * 2 + 8) * (LCU_WIDTH * 2 + 8) + 1];
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kvz_pixel *recf = &rec_filtered_temp[recstride + 1];
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assert(width == 4 || width == 8 || width == 16 || width == 32);
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// Store original block for SAD computation
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kvz_pixels_blit(orig, orig_block, width, width, origstride, width);
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// Generate filtered reference pixels.
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{
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int16_t x, y;
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for (y = -1; y < recstride; y++) {
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recf[y*recstride - 1] = rec[y*recstride - 1];
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}
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for (x = 0; x < recstride; x++) {
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recf[x - recstride] = rec[x - recstride];
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}
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kvz_intra_filter(recf, recstride, width, 0);
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}
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int8_t modes_selected = 0;
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unsigned min_cost = UINT_MAX;
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unsigned max_cost = 0;
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@ -387,18 +371,15 @@ static int8_t search_intra_rough(encoder_state_t * const state,
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int offset;
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if (state->encoder_control->full_intra_search) {
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offset = 1;
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} else if (width == 4) {
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offset = 2;
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} else if (width == 8) {
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offset = 4;
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} else {
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offset = 8;
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static const int8_t offsets[4] = { 2, 4, 8, 8 };
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offset = offsets[log2_width - 2];
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}
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// Calculate SAD for evenly spaced modes to select the starting point for
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// the recursive search.
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for (int mode = 2; mode <= 34; mode += offset) {
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kvz_intra_get_pred(state->encoder_control, rec, recf, recstride, pred, width, mode, 0);
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kvz_intra_get_pred_new(refs, log2_width, mode, COLOR_Y, pred);
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costs[modes_selected] = get_cost(state, pred, orig_block, satd_func, sad_func, width);
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modes[modes_selected] = mode;
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@ -421,7 +402,7 @@ static int8_t search_intra_rough(encoder_state_t * const state,
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int8_t center_node = best_mode;
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int8_t mode = center_node - offset;
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if (mode >= 2) {
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kvz_intra_get_pred(state->encoder_control, rec, recf, recstride, pred, width, mode, 0);
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kvz_intra_get_pred_new(refs, log2_width, mode, COLOR_Y, pred);
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costs[modes_selected] = get_cost(state, pred, orig_block, satd_func, sad_func, width);
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modes[modes_selected] = mode;
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if (costs[modes_selected] < best_cost) {
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@ -433,7 +414,7 @@ static int8_t search_intra_rough(encoder_state_t * const state,
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mode = center_node + offset;
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if (mode <= 34) {
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kvz_intra_get_pred(state->encoder_control, rec, recf, recstride, pred, width, mode, 0);
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kvz_intra_get_pred_new(refs, log2_width, mode, COLOR_Y, pred);
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costs[modes_selected] = get_cost(state, pred, orig_block, satd_func, sad_func, width);
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modes[modes_selected] = mode;
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if (costs[modes_selected] < best_cost) {
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@ -460,7 +441,7 @@ static int8_t search_intra_rough(encoder_state_t * const state,
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}
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if (!has_mode) {
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kvz_intra_get_pred(state->encoder_control, rec, recf, recstride, pred, width, mode, 0);
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kvz_intra_get_pred_new(refs, log2_width, mode, COLOR_Y, pred);
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costs[modes_selected] = get_cost(state, pred, orig_block, satd_func, sad_func, width);
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modes[modes_selected] = mode;
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++modes_selected;
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@ -776,12 +757,15 @@ double kvz_search_cu_intra(encoder_state_t * const state,
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const vector2d_t lcu_cu = { lcu_px.x >> 3, lcu_px.y >> 3 };
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const int8_t cu_width = (LCU_WIDTH >> (depth));
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const int cu_index = LCU_CU_OFFSET + lcu_cu.x + lcu_cu.y * LCU_T_CU_WIDTH;
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const int_fast8_t log2_width = LOG2_LCU_WIDTH - depth;
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cu_info_t *cur_cu = &lcu->cu[cu_index];
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kvz_pixel rec_buffer[(LCU_WIDTH * 2 + 1) * (LCU_WIDTH * 2 + 1)];
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kvz_pixel *cu_in_rec_buffer = &rec_buffer[cu_width * 2 + 8 + 1];
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kvz_intra_references refs;
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int8_t candidate_modes[3];
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cu_info_t *left_cu = 0;
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@ -804,6 +788,10 @@ double kvz_search_cu_intra(encoder_state_t * const state,
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frame->width,
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frame->height,
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lcu);
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const vector2d_t luma_px = { x_px, y_px };
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const vector2d_t pic_px = { state->tile->frame->width, state->tile->frame->height };
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kvz_intra_build_reference(log2_width, COLOR_Y, &luma_px, &pic_px, lcu, &refs);
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}
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int8_t modes[35];
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@ -818,8 +806,8 @@ double kvz_search_cu_intra(encoder_state_t * const state,
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if (!skip_rough_search) {
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number_of_modes = search_intra_rough(state,
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ref_pixels, LCU_WIDTH,
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cu_in_rec_buffer, cu_width * 2 + 8,
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cu_width, candidate_modes,
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&refs,
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log2_width, candidate_modes,
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modes, costs);
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} else {
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number_of_modes = 35;
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