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[mtt] Remove depth from cu_info_t

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Joose Sainio 2022-09-15 15:13:48 +03:00 committed by Marko Viitanen
parent b14f6f98ec
commit cfc6aebe3c
12 changed files with 71 additions and 125 deletions
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2
src/cli.c
View file

@ -76,7 +76,6 @@ static const struct option long_options[] = {
{ "tr-skip-max-size", required_argument, NULL, 0 }, { "tr-skip-max-size", required_argument, NULL, 0 },
{ "mts", required_argument, NULL, 0 }, { "mts", required_argument, NULL, 0 },
{ "no-mts", no_argument, NULL, 0 }, { "no-mts", no_argument, NULL, 0 },
{ "tr-depth-intra", required_argument, NULL, 0 },
{ "me", required_argument, NULL, 0 }, { "me", required_argument, NULL, 0 },
{ "subme", required_argument, NULL, 0 }, { "subme", required_argument, NULL, 0 },
{ "source-scan-type", required_argument, NULL, 0 }, { "source-scan-type", required_argument, NULL, 0 },
@ -636,7 +635,6 @@ void print_help(void)
" This is mostly for debugging and is not\n" " This is mostly for debugging and is not\n"
" guaranteed to produce sensible bitstream or\n" " guaranteed to produce sensible bitstream or\n"
" work at all. [disabled]\n" " work at all. [disabled]\n"
" --tr-depth-intra <int> : Transform split depth for intra blocks [0]\n"
" --(no-)bipred : Bi-prediction [disabled]\n" " --(no-)bipred : Bi-prediction [disabled]\n"
" --cu-split-termination <string> : CU split search termination [zero]\n" " --cu-split-termination <string> : CU split search termination [zero]\n"
" - off: Don't terminate early.\n" " - off: Don't terminate early.\n"

8
src/cu.h
View file

@ -118,7 +118,6 @@ typedef struct {
typedef struct typedef struct
{ {
uint8_t type : 3; //!< \brief block type, one of cu_type_t values uint8_t type : 3; //!< \brief block type, one of cu_type_t values
uint8_t depth : 3; //!< \brief depth / size of this block
uint8_t skipped : 1; //!< \brief flag to indicate this block is skipped uint8_t skipped : 1; //!< \brief flag to indicate this block is skipped
uint8_t merged : 1; //!< \brief flag to indicate this block is merged uint8_t merged : 1; //!< \brief flag to indicate this block is merged
uint8_t merge_idx : 3; //!< \brief merge index uint8_t merge_idx : 3; //!< \brief merge index
@ -199,7 +198,7 @@ void uvg_cu_loc_ctor(cu_loc_t *loc, int x, int y, int width, int height);
} \ } \
} while (0) } while (0)
#define CHECKPOINT_CU(prefix_str, cu) CHECKPOINT(prefix_str " type=%d depth=%d part_size=%d coded=%d " \ #define CHECKPOINT_CU(prefix_str, cu) CHECKPOINT(prefix_str " type=%d part_size=%d coded=%d " \
"skipped=%d merged=%d merge_idx=%d cbf.y=%d cbf.u=%d cbf.v=%d " \ "skipped=%d merged=%d merge_idx=%d cbf.y=%d cbf.u=%d cbf.v=%d " \
"intra[0].cost=%u intra[0].bitcost=%u intra[0].mode=%d intra[0].mode_chroma=%d intra[0].tr_skip=%d " \ "intra[0].cost=%u intra[0].bitcost=%u intra[0].mode=%d intra[0].mode_chroma=%d intra[0].tr_skip=%d " \
"intra[1].cost=%u intra[1].bitcost=%u intra[1].mode=%d intra[1].mode_chroma=%d intra[1].tr_skip=%d " \ "intra[1].cost=%u intra[1].bitcost=%u intra[1].mode=%d intra[1].mode_chroma=%d intra[1].tr_skip=%d " \
@ -207,7 +206,7 @@ void uvg_cu_loc_ctor(cu_loc_t *loc, int x, int y, int width, int height);
"intra[3].cost=%u intra[3].bitcost=%u intra[3].mode=%d intra[3].mode_chroma=%d intra[3].tr_skip=%d " \ "intra[3].cost=%u intra[3].bitcost=%u intra[3].mode=%d intra[3].mode_chroma=%d intra[3].tr_skip=%d " \
"inter.cost=%u inter.bitcost=%u inter.mv[0]=%d inter.mv[1]=%d inter.mvd[0]=%d inter.mvd[1]=%d " \ "inter.cost=%u inter.bitcost=%u inter.mv[0]=%d inter.mv[1]=%d inter.mvd[0]=%d inter.mvd[1]=%d " \
"inter.mv_cand=%d inter.mv_ref=%d inter.mv_dir=%d inter.mode=%d" \ "inter.mv_cand=%d inter.mv_ref=%d inter.mv_dir=%d inter.mode=%d" \
, (cu).type, (cu).depth, (cu).part_size, (cu).coded, \ , (cu).type, (cu).part_size, (cu).coded, \
(cu).skipped, (cu).merged, (cu).merge_idx, (cu).cbf.y, (cu).cbf.u, (cu).cbf.v, \ (cu).skipped, (cu).merged, (cu).merge_idx, (cu).cbf.y, (cu).cbf.u, (cu).cbf.v, \
(cu).intra[0].cost, (cu).intra[0].bitcost, (cu).intra[0].mode, (cu).intra[0].mode_chroma, (cu).intra[0].tr_skip, \ (cu).intra[0].cost, (cu).intra[0].bitcost, (cu).intra[0].mode, (cu).intra[0].mode_chroma, (cu).intra[0].tr_skip, \
(cu).intra[1].cost, (cu).intra[1].bitcost, (cu).intra[1].mode, (cu).intra[1].mode_chroma, (cu).intra[1].tr_skip, \ (cu).intra[1].cost, (cu).intra[1].bitcost, (cu).intra[1].mode, (cu).intra[1].mode_chroma, (cu).intra[1].tr_skip, \
@ -568,7 +567,7 @@ static INLINE void cbf_set(uint16_t *cbf, color_t plane)
* Set CBF in a level to true if it is set at a lower level in any of * Set CBF in a level to true if it is set at a lower level in any of
* the child_cbfs. * the child_cbfs.
*/ */
static INLINE void cbf_set_conditionally(uint16_t *cbf, uint16_t child_cbfs[3], int depth, color_t plane) static INLINE void cbf_set_conditionally(uint16_t *cbf, uint16_t child_cbfs[3], color_t plane)
{ {
bool child_cbf_set = cbf_is_set(child_cbfs[0], plane) || bool child_cbf_set = cbf_is_set(child_cbfs[0], plane) ||
cbf_is_set(child_cbfs[1], plane) || cbf_is_set(child_cbfs[1], plane) ||
@ -579,7 +578,6 @@ static INLINE void cbf_set_conditionally(uint16_t *cbf, uint16_t child_cbfs[3],
} }
/** /**
* Set CBF in a levels <= depth to false.
*/ */
static INLINE void cbf_clear(uint16_t *cbf, color_t plane) static INLINE void cbf_clear(uint16_t *cbf, color_t plane)
{ {

61
src/encode_coding_tree.c
View file

@ -444,7 +444,6 @@ void uvg_encode_last_significant_xy(cabac_data_t * const cabac,
static void encode_chroma_tu( static void encode_chroma_tu(
encoder_state_t* const state, encoder_state_t* const state,
const cu_loc_t * const cu_loc, const cu_loc_t * const cu_loc,
int depth,
cu_info_t* cur_pu, cu_info_t* cur_pu,
int8_t* scan_idx, int8_t* scan_idx,
lcu_coeff_t* coeff, lcu_coeff_t* coeff,
@ -453,11 +452,11 @@ static void encode_chroma_tu(
uvg_tree_type tree_type) uvg_tree_type tree_type)
{ {
int width_c = cu_loc->chroma_width; int width_c = cu_loc->chroma_width;
//int height_c = cu_loc->chroma_height; int height_c = cu_loc->chroma_height;
int x_local = ((cu_loc->x >> (tree_type != UVG_CHROMA_T)) & ~3) % LCU_WIDTH_C; int x_local = ((cu_loc->x >> (tree_type != UVG_CHROMA_T)) & ~3) % LCU_WIDTH_C;
int y_local = ((cu_loc->y >> (tree_type != UVG_CHROMA_T)) & ~3) % LCU_WIDTH_C; int y_local = ((cu_loc->y >> (tree_type != UVG_CHROMA_T)) & ~3) % LCU_WIDTH_C;
cabac_data_t* const cabac = &state->cabac; cabac_data_t* const cabac = &state->cabac;
*scan_idx = uvg_get_scan_order(cur_pu->type, cur_pu->intra.mode_chroma, depth); *scan_idx = SCAN_DIAG;
if(!joint_chroma){ if(!joint_chroma){
// const coeff_t *coeff_u = &coeff->u[xy_to_zorder(LCU_WIDTH_C, x_local, y_local)]; // const coeff_t *coeff_u = &coeff->u[xy_to_zorder(LCU_WIDTH_C, x_local, y_local)];
// const coeff_t *coeff_v = &coeff->v[xy_to_zorder(LCU_WIDTH_C, x_local, y_local)]; // const coeff_t *coeff_v = &coeff->v[xy_to_zorder(LCU_WIDTH_C, x_local, y_local)];
@ -468,7 +467,9 @@ static void encode_chroma_tu(
if (cbf_is_set(cur_pu->cbf, COLOR_U)) { if (cbf_is_set(cur_pu->cbf, COLOR_U)) {
// TODO: height for this check and the others below // TODO: height for this check and the others below
if(state->encoder_control->cfg.trskip_enable && width_c <= (1 << state->encoder_control->cfg.trskip_max_size)){ if(state->encoder_control->cfg.trskip_enable
&& width_c <= (1 << state->encoder_control->cfg.trskip_max_size)
&& height_c <= (1 << state->encoder_control->cfg.trskip_max_size)){
cabac->cur_ctx = &cabac->ctx.transform_skip_model_chroma; cabac->cur_ctx = &cabac->ctx.transform_skip_model_chroma;
// HEVC only supports transform_skip for Luma // HEVC only supports transform_skip for Luma
// TODO: transform skip for chroma blocks // TODO: transform skip for chroma blocks
@ -478,7 +479,9 @@ static void encode_chroma_tu(
} }
if (cbf_is_set(cur_pu->cbf, COLOR_V)) { if (cbf_is_set(cur_pu->cbf, COLOR_V)) {
if (state->encoder_control->cfg.trskip_enable && width_c <= (1 << state->encoder_control->cfg.trskip_max_size)) { if (state->encoder_control->cfg.trskip_enable
&& width_c <= (1 << state->encoder_control->cfg.trskip_max_size)
&& height_c <= (1 << state->encoder_control->cfg.trskip_max_size)) {
cabac->cur_ctx = &cabac->ctx.transform_skip_model_chroma; cabac->cur_ctx = &cabac->ctx.transform_skip_model_chroma;
CABAC_BIN(cabac, (cur_pu->tr_skip >> COLOR_V) & 1, "transform_skip_flag"); CABAC_BIN(cabac, (cur_pu->tr_skip >> COLOR_V) & 1, "transform_skip_flag");
} }
@ -488,7 +491,9 @@ static void encode_chroma_tu(
else { else {
coeff_t coeff_uv[TR_MAX_WIDTH * TR_MAX_WIDTH]; coeff_t coeff_uv[TR_MAX_WIDTH * TR_MAX_WIDTH];
uvg_get_sub_coeff(coeff_uv, coeff->joint_uv, x_local, y_local, cu_loc->chroma_width, cu_loc->chroma_height, LCU_WIDTH_C); uvg_get_sub_coeff(coeff_uv, coeff->joint_uv, x_local, y_local, cu_loc->chroma_width, cu_loc->chroma_height, LCU_WIDTH_C);
if (state->encoder_control->cfg.trskip_enable && width_c <= (1 << state->encoder_control->cfg.trskip_max_size)) { if (state->encoder_control->cfg.trskip_enable
&& width_c <= (1 << state->encoder_control->cfg.trskip_max_size)
&& height_c <= (1 << state->encoder_control->cfg.trskip_max_size)) {
cabac->cur_ctx = &cabac->ctx.transform_skip_model_chroma; cabac->cur_ctx = &cabac->ctx.transform_skip_model_chroma;
CABAC_BIN(cabac, 0, "transform_skip_flag"); CABAC_BIN(cabac, 0, "transform_skip_flag");
} }
@ -500,15 +505,12 @@ static void encode_chroma_tu(
static void encode_transform_unit( static void encode_transform_unit(
encoder_state_t * const state, encoder_state_t * const state,
const cu_loc_t *cu_loc, const cu_loc_t *cu_loc,
int depth,
bool only_chroma, bool only_chroma,
lcu_coeff_t* coeff, lcu_coeff_t* coeff,
enum uvg_tree_type tree_type, enum uvg_tree_type tree_type,
bool last_split, bool last_split,
const cu_loc_t *original_loc) // Original cu dimensions, before CU split const cu_loc_t *original_loc) // Original cu dimensions, before CU split
{ {
assert(depth >= 1 && depth <= MAX_PU_DEPTH);
const videoframe_t * const frame = state->tile->frame; const videoframe_t * const frame = state->tile->frame;
cabac_data_t* const cabac = &state->cabac; cabac_data_t* const cabac = &state->cabac;
const int x = cu_loc->x; const int x = cu_loc->x;
@ -524,7 +526,7 @@ static void encode_transform_unit(
uvg_get_isp_cu_arr_coords(&isp_x, &isp_y); uvg_get_isp_cu_arr_coords(&isp_x, &isp_y);
const cu_info_t *cur_pu = uvg_cu_array_at_const(used_cu_array, isp_x, isp_y); const cu_info_t *cur_pu = uvg_cu_array_at_const(used_cu_array, isp_x, isp_y);
int8_t scan_idx = uvg_get_scan_order(cur_pu->type, cur_pu->intra.mode, depth); int8_t scan_idx = SCAN_DIAG;
int cbf_y = cbf_is_set(cur_pu->cbf, COLOR_Y); int cbf_y = cbf_is_set(cur_pu->cbf, COLOR_Y);
@ -559,7 +561,7 @@ static void encode_transform_unit(
} }
bool joint_chroma = cur_pu->joint_cb_cr != 0; bool joint_chroma = cur_pu->joint_cb_cr != 0;
if (depth == MAX_DEPTH) { if (cur_pu->log2_height + cur_pu->log2_width < 6) {
// For size 4x4 luma transform the corresponding chroma transforms are // For size 4x4 luma transform the corresponding chroma transforms are
// also of size 4x4 covering 8x8 luma pixels. The residual is coded in // also of size 4x4 covering 8x8 luma pixels. The residual is coded in
// the last transform unit. // the last transform unit.
@ -578,7 +580,7 @@ static void encode_transform_unit(
if ((chroma_cbf_set || joint_chroma) && last_split) { if ((chroma_cbf_set || joint_chroma) && last_split) {
//Need to drop const to get lfnst constraints //Need to drop const to get lfnst constraints
// Use original dimensions instead of ISP split dimensions // Use original dimensions instead of ISP split dimensions
encode_chroma_tu(state, original_loc, depth, (cu_info_t*)cur_pu, &scan_idx, coeff, joint_chroma, tree_type); encode_chroma_tu(state, original_loc, (cu_info_t*)cur_pu, &scan_idx, coeff, joint_chroma, tree_type);
} }
} }
@ -593,7 +595,6 @@ static void encode_transform_unit(
static void encode_transform_coeff( static void encode_transform_coeff(
encoder_state_t * const state, encoder_state_t * const state,
const cu_loc_t * cu_loc, const cu_loc_t * cu_loc,
int8_t depth,
bool only_chroma, bool only_chroma,
lcu_coeff_t* coeff, lcu_coeff_t* coeff,
enum uvg_tree_type tree_type, enum uvg_tree_type tree_type,
@ -641,7 +642,7 @@ static void encode_transform_coeff(
cu_loc_t loc; cu_loc_t loc;
uvg_cu_loc_ctor(&loc, (x + i * split_width), (y + j * split_height), width >> 1, height >> 1); uvg_cu_loc_ctor(&loc, (x + i * split_width), (y + j * split_height), width >> 1, height >> 1);
encode_transform_coeff(state, &loc, depth + 1, only_chroma, coeff, tree_type, true, luma_cbf_ctx, &loc); encode_transform_coeff(state, &loc, only_chroma, coeff, tree_type, true, luma_cbf_ctx, &loc);
} }
} }
return; return;
@ -650,7 +651,10 @@ static void encode_transform_coeff(
// No chroma. // No chroma.
// Not the last CU for area of 64 pixels cowered by more than one luma CU. // Not the last CU for area of 64 pixels cowered by more than one luma CU.
// Not the last ISP Split // Not the last ISP Split
if (state->encoder_control->chroma_format != UVG_CSP_400 && (depth != 4 || only_chroma) && tree_type != UVG_LUMA_T && last_split) { if (state->encoder_control->chroma_format != UVG_CSP_400
&& (cur_pu->log2_height + cur_pu->log2_width >= 6 || only_chroma)
&& tree_type != UVG_LUMA_T
&& last_split) {
cabac->cur_ctx = &(cabac->ctx.qt_cbf_model_cb[0]); cabac->cur_ctx = &(cabac->ctx.qt_cbf_model_cb[0]);
CABAC_BIN(cabac, cb_flag_u, "cbf_cb"); CABAC_BIN(cabac, cb_flag_u, "cbf_cb");
cabac->cur_ctx = &(cabac->ctx.qt_cbf_model_cr[cb_flag_u ? 1 : 0]); cabac->cur_ctx = &(cabac->ctx.qt_cbf_model_cr[cb_flag_u ? 1 : 0]);
@ -687,7 +691,7 @@ static void encode_transform_coeff(
} }
if (cb_flag_y | cb_flag_u | cb_flag_v) { if (cb_flag_y | cb_flag_u | cb_flag_v) {
if (state->must_code_qp_delta && (only_chroma || cb_flag_y || depth != 4) ) { if (state->must_code_qp_delta && (only_chroma || cb_flag_y || cur_pu->log2_height + cur_pu->log2_width >= 6) ) {
const int qp_pred = uvg_get_cu_ref_qp(state, x_cu, y_cu, state->last_qp); const int qp_pred = uvg_get_cu_ref_qp(state, x_cu, y_cu, state->last_qp);
const int qp_delta = cur_cu->qp - qp_pred; const int qp_delta = cur_cu->qp - qp_pred;
// Possible deltaQP range depends on bit depth as stated in HEVC specification. // Possible deltaQP range depends on bit depth as stated in HEVC specification.
@ -714,7 +718,7 @@ static void encode_transform_coeff(
((cb_flag_u || cb_flag_v ) ((cb_flag_u || cb_flag_v )
&& cur_cu->type == CU_INTRA) && cur_cu->type == CU_INTRA)
|| (cb_flag_u && cb_flag_v)) || (cb_flag_u && cb_flag_v))
&& (depth != 4 || only_chroma || tree_type == UVG_CHROMA_T) && (cur_pu->log2_height + cur_pu->log2_width >= 6 || only_chroma || tree_type == UVG_CHROMA_T)
&& state->encoder_control->cfg.jccr && state->encoder_control->cfg.jccr
&& last_split && last_split
) { ) {
@ -723,7 +727,7 @@ static void encode_transform_coeff(
CABAC_BIN(cabac, cur_pu->joint_cb_cr != 0, "tu_joint_cbcr_residual_flag"); CABAC_BIN(cabac, cur_pu->joint_cb_cr != 0, "tu_joint_cbcr_residual_flag");
} }
encode_transform_unit(state, cu_loc, depth, only_chroma, coeff, tree_type, last_split, original_loc); encode_transform_unit(state, cu_loc, only_chroma, coeff, tree_type, last_split, original_loc);
} }
} }
@ -1194,6 +1198,7 @@ void uvg_encode_intra_luma_coding_unit(
if (cabac->only_count && bits_out) *bits_out += bits; if (cabac->only_count && bits_out) *bits_out += bits;
} }
bool uvg_write_split_flag( bool uvg_write_split_flag(
const encoder_state_t * const state, const encoder_state_t * const state,
cabac_data_t* cabac, cabac_data_t* cabac,
@ -1362,7 +1367,7 @@ void uvg_encode_coding_tree(
} }
// When not in MAX_DEPTH, insert split flag and split the blocks if needed // When not in MAX_DEPTH, insert split flag and split the blocks if needed
if (depth != MAX_DEPTH && !(tree_type == UVG_CHROMA_T && depth == MAX_DEPTH -1)) { if (cu_width + cu_height > 8) {
const int split_flag = uvg_write_split_flag( const int split_flag = uvg_write_split_flag(
state, state,
@ -1490,11 +1495,7 @@ void uvg_encode_coding_tree(
CABAC_BIN(cabac, (cur_cu->type == CU_IBC), "IBCFlag"); CABAC_BIN(cabac, (cur_cu->type == CU_IBC), "IBCFlag");
} }
} }
// part_mode
//encode_part_mode(state, cabac, cur_cu, depth);
#if ENABLE_PCM #if ENABLE_PCM
// Code IPCM block // Code IPCM block
@ -1577,7 +1578,7 @@ void uvg_encode_coding_tree(
// Code (possible) coeffs to bitstream // Code (possible) coeffs to bitstream
if (has_coeffs) { if (has_coeffs) {
int luma_cbf_ctx = 0; int luma_cbf_ctx = 0;
encode_transform_coeff(state, cu_loc, depth, 0, coeff, tree_type, true, false, &luma_cbf_ctx, cu_loc); encode_transform_coeff(state, cu_loc, 0, coeff, tree_type, true, false, &luma_cbf_ctx, cu_loc);
} }
encode_mts_idx(state, cabac, cur_cu, cu_loc); encode_mts_idx(state, cabac, cur_cu, cu_loc);
@ -1591,7 +1592,7 @@ void uvg_encode_coding_tree(
const bool is_local_dual_tree = cu_height * cu_width < 64 && tree_type == UVG_BOTH_T; const bool is_local_dual_tree = cu_height * cu_width < 64 && tree_type == UVG_BOTH_T;
// Code chroma prediction mode. // Code chroma prediction mode.
if (state->encoder_control->chroma_format != UVG_CSP_400 && depth != 4 && tree_type == UVG_BOTH_T) { if (state->encoder_control->chroma_format != UVG_CSP_400 && cur_cu->log2_height + cur_cu->log2_width >= 6 && tree_type == UVG_BOTH_T) {
encode_chroma_intra_cu(cabac, cur_cu, state->encoder_control->cfg.cclm, NULL); encode_chroma_intra_cu(cabac, cur_cu, state->encoder_control->cfg.cclm, NULL);
} }
int luma_cbf_ctx = 0; int luma_cbf_ctx = 0;
@ -1611,7 +1612,7 @@ void uvg_encode_coding_tree(
// Check if last split to write chroma // Check if last split to write chroma
bool last_split = (i + 1) == split_limit; bool last_split = (i + 1) == split_limit;
encode_transform_coeff(state, &split_loc, depth, 0, coeff, tree_type, last_split, can_skip_last_cbf, &luma_cbf_ctx, cu_loc); encode_transform_coeff(state, &split_loc, 0, coeff, tree_type, last_split, can_skip_last_cbf, &luma_cbf_ctx, cu_loc);
can_skip_last_cbf &= luma_cbf_ctx == 2; can_skip_last_cbf &= luma_cbf_ctx == 2;
} }
} }
@ -1631,7 +1632,7 @@ void uvg_encode_coding_tree(
tmp->violates_lfnst_constrained_luma = false; tmp->violates_lfnst_constrained_luma = false;
tmp->violates_lfnst_constrained_chroma = false; tmp->violates_lfnst_constrained_chroma = false;
tmp->lfnst_last_scan_pos = false; tmp->lfnst_last_scan_pos = false;
encode_transform_coeff(state, cu_loc, depth, 1, coeff, tree_type, true, false, &luma_cbf_ctx, cu_loc); encode_transform_coeff(state, cu_loc, 1, coeff, tree_type, true, false, &luma_cbf_ctx, cu_loc);
// Write LFNST only once for single tree structure // Write LFNST only once for single tree structure
encode_lfnst_idx(state, cabac, tmp, is_local_dual_tree ? UVG_CHROMA_T : tree_type, COLOR_UV, cu_loc); encode_lfnst_idx(state, cabac, tmp, is_local_dual_tree ? UVG_CHROMA_T : tree_type, COLOR_UV, cu_loc);
} }
@ -1696,7 +1697,7 @@ double uvg_mock_encode_coding_unit(
} }
// When not in MAX_DEPTH, insert split flag and split the blocks if needed // When not in MAX_DEPTH, insert split flag and split the blocks if needed
if (tree_type != UVG_CHROMA_T ? depth != MAX_DEPTH : depth != MAX_DEPTH - 1) { if (cur_cu->log2_height + cur_cu->log2_width > 4) {
uvg_write_split_flag( uvg_write_split_flag(
state, state,
cabac, cabac,
@ -1771,7 +1772,7 @@ double uvg_mock_encode_coding_unit(
if(tree_type != UVG_CHROMA_T) { if(tree_type != UVG_CHROMA_T) {
uvg_encode_intra_luma_coding_unit(state, cabac, cur_cu, cu_loc, lcu, &bits); uvg_encode_intra_luma_coding_unit(state, cabac, cur_cu, cu_loc, lcu, &bits);
} }
if((depth != 4 || (x % 8 != 0 && y % 8 != 0)) && state->encoder_control->chroma_format != UVG_CSP_400 && tree_type != UVG_LUMA_T) { if((cur_cu->log2_height + cur_cu->log2_width >= 6 || (x % 8 != 0 && y % 8 != 0)) && state->encoder_control->chroma_format != UVG_CSP_400 && tree_type != UVG_LUMA_T) {
encode_chroma_intra_cu(cabac, cur_cu, state->encoder_control->cfg.cclm, &bits); encode_chroma_intra_cu(cabac, cur_cu, state->encoder_control->cfg.cclm, &bits);
} }
} }

5
src/encoderstate.c
View file

@ -2209,11 +2209,12 @@ int uvg_get_cu_ref_qp(const encoder_state_t *state, int x, int y, int last_qp)
{ {
const cu_array_t *cua = state->tile->frame->cu_array; const cu_array_t *cua = state->tile->frame->cu_array;
// Quantization group width // Quantization group width
const int qg_width = LCU_WIDTH >> MIN(state->frame->max_qp_delta_depth, uvg_cu_array_at_const(cua, x, y)->depth); const int qg_width = 1 << MAX(6 - state->frame->max_qp_delta_depth, uvg_cu_array_at_const(cua, x, y)->log2_width);
const int qg_height = 1 << MAX(6 - state->frame->max_qp_delta_depth, uvg_cu_array_at_const(cua, x, y)->log2_height);
// Coordinates of the top-left corner of the quantization group // Coordinates of the top-left corner of the quantization group
const int x_qg = x & ~(qg_width - 1); const int x_qg = x & ~(qg_width - 1);
const int y_qg = y & ~(qg_width - 1); const int y_qg = y & ~(qg_height - 1);
if(x_qg == 0 && y_qg > 0 && y_qg % LCU_WIDTH == 0) { if(x_qg == 0 && y_qg > 0 && y_qg % LCU_WIDTH == 0) {
return uvg_cu_array_at_const(cua, x_qg, y_qg - 1)->qp; return uvg_cu_array_at_const(cua, x_qg, y_qg - 1)->qp;
} }

26
src/filter.c
View file

@ -307,32 +307,6 @@ static bool is_pu_boundary(const encoder_state_t *const state,
it for now, in case some other tool requires it. it for now, in case some other tool requires it.
*/ */
return false; return false;
//const cu_info_t *const scu =
// uvg_cu_array_at_const(state->tile->frame->cu_array, x, y);
//// Get the containing CU.
//const int32_t cu_width = LCU_WIDTH >> scu->depth;
//const int32_t x_cu = x & ~(cu_width - 1);
//const int32_t y_cu = y & ~(cu_width - 1);
//const cu_info_t *const cu =
// uvg_cu_array_at_const(state->tile->frame->cu_array, x_cu, y_cu);
//const int num_pu = uvg_part_mode_num_parts[cu->part_size];
//for (int i = 0; i < num_pu; i++) {
// if (dir == EDGE_HOR) {
// int y_pu = PU_GET_Y(cu->part_size, cu_width, y_cu, i);
// if (y_pu == y) {
// return true;
// }
// } else {
// int x_pu = PU_GET_X(cu->part_size, cu_width, x_cu, i);
// if (x_pu == x) {
// return true;
// }
// }
//}
//return false;
} }

7
src/intra.c
View file

@ -565,7 +565,7 @@ static void predict_cclm(
y_extension >>= tree_type == UVG_CHROMA_T; y_extension >>= tree_type == UVG_CHROMA_T;
const cu_info_t* pu = LCU_GET_CU_AT_PX(lcu, (x_scu >> (tree_type == UVG_CHROMA_T)) - 4, y_extension); const cu_info_t* pu = LCU_GET_CU_AT_PX(lcu, (x_scu >> (tree_type == UVG_CHROMA_T)) - 4, y_extension);
if (y_extension >= ctu_size || pu->type == CU_NOTSET || (pu->type == CU_INTRA && pu->intra.mode_chroma == -1)) break; if (y_extension >= ctu_size || pu->type == CU_NOTSET || (pu->type == CU_INTRA && pu->intra.mode_chroma == -1)) break;
if(x_scu == 32 && y_scu == 0 && pu->depth == 0) break; if(x_scu == 32 && y_scu == 0 && pu->log2_width == 6) break;
} }
for(int i = 0; i < height + available_left_below * 2; i++) { for(int i = 0; i < height + available_left_below * 2; i++) {
sampled_luma_ref.left[i] = state->tile->frame->cclm_luma_rec[(y0/2 + i) * (stride2/2) + x0 / 2 - 1]; sampled_luma_ref.left[i] = state->tile->frame->cclm_luma_rec[(y0/2 + i) * (stride2/2) + x0 / 2 - 1];
@ -1866,8 +1866,9 @@ void uvg_intra_recon_cu(
// TODO: not necessary to call if only luma and ISP is on // TODO: not necessary to call if only luma and ISP is on
uvg_quantize_lcu_residual(state, has_luma, has_chroma && !(search_data->pred_cu.joint_cb_cr & 3), uvg_quantize_lcu_residual(state, has_luma, has_chroma && !(search_data->pred_cu.joint_cb_cr & 3),
search_data->pred_cu.joint_cb_cr & 3 && state->encoder_control->cfg.jccr && has_chroma, search_data->pred_cu.joint_cb_cr & 3 && state->encoder_control->cfg.jccr && has_chroma,
cu_loc, depth, cur_cu, lcu, cu_loc, cur_cu, lcu,
false, tree_type); false,
tree_type);
} }

19
src/search.c
View file

@ -165,7 +165,6 @@ static void lcu_fill_cu_info(lcu_t *lcu, int x_local, int y_local, int width, in
for (int x = x_local; x < x_local + width; x += SCU_WIDTH) { for (int x = x_local; x < x_local + width; x += SCU_WIDTH) {
cu_info_t *to = LCU_GET_CU_AT_PX(lcu, x, y); cu_info_t *to = LCU_GET_CU_AT_PX(lcu, x, y);
to->type = cu->type; to->type = cu->type;
to->depth = cu->depth;
to->qp = cu->qp; to->qp = cu->qp;
to->split_tree = cu->split_tree; to->split_tree = cu->split_tree;
//to->tr_idx = cu->tr_idx; //to->tr_idx = cu->tr_idx;
@ -457,7 +456,6 @@ double uvg_cu_rd_cost_chroma(
} }
if (!skip_residual_coding) { if (!skip_residual_coding) {
const int tr_depth = depth - pred_cu->depth;
cabac_data_t* cabac = (cabac_data_t*)&state->search_cabac; cabac_data_t* cabac = (cabac_data_t*)&state->search_cabac;
cabac_ctx_t* ctx = &(cabac->ctx.qt_cbf_model_cb[0]); cabac_ctx_t* ctx = &(cabac->ctx.qt_cbf_model_cb[0]);
cabac->cur_ctx = ctx; cabac->cur_ctx = ctx;
@ -945,7 +943,6 @@ static double search_cu(
cur_cu = LCU_GET_CU_AT_PX(lcu, x_local, y_local); cur_cu = LCU_GET_CU_AT_PX(lcu, x_local, y_local);
// Assign correct depth // Assign correct depth
cur_cu->depth = (split_tree.current_depth > MAX_DEPTH) ? MAX_DEPTH : split_tree.current_depth;
cur_cu->type = CU_NOTSET; cur_cu->type = CU_NOTSET;
cur_cu->qp = state->qp; cur_cu->qp = state->qp;
cur_cu->bdpcmMode = 0; cur_cu->bdpcmMode = 0;
@ -1045,7 +1042,8 @@ static double search_cu(
int8_t intra_mode = intra_search.pred_cu.intra.mode; int8_t intra_mode = intra_search.pred_cu.intra.mode;
// TODO: This heavily relies to square CUs // TODO: This heavily relies to square CUs
if ((split_tree.current_depth != 4 || (x % 8 && y % 8)) && state->encoder_control->chroma_format != UVG_CSP_400 && tree_type != UVG_LUMA_T) { if ((cur_cu->log2_height + cur_cu->log2_width >= 6 || (x % 8 && y % 8))
&& state->encoder_control->chroma_format != UVG_CSP_400 && tree_type != UVG_LUMA_T) {
intra_search.pred_cu.joint_cb_cr = 0; intra_search.pred_cu.joint_cb_cr = 0;
if(tree_type == UVG_CHROMA_T) { if(tree_type == UVG_CHROMA_T) {
@ -1129,7 +1127,7 @@ static double search_cu(
bool recon_chroma = true; bool recon_chroma = true;
bool recon_luma = tree_type != UVG_CHROMA_T; bool recon_luma = tree_type != UVG_CHROMA_T;
if ((split_tree.current_depth == 4) || state->encoder_control->chroma_format == UVG_CSP_400 || tree_type == UVG_LUMA_T) { if ((cur_cu->log2_height + cur_cu->log2_width < 6) || state->encoder_control->chroma_format == UVG_CSP_400 || tree_type == UVG_LUMA_T) {
recon_chroma = false; recon_chroma = false;
} }
lcu_fill_cu_info(lcu, x_local, y_local, cu_width, cu_width, cur_cu); lcu_fill_cu_info(lcu, x_local, y_local, cu_width, cu_width, cur_cu);
@ -1140,7 +1138,7 @@ static double search_cu(
recon_luma, recon_chroma); recon_luma, recon_chroma);
if(split_tree.current_depth == 4 && x % 8 && y % 8 && tree_type != UVG_LUMA_T && state->encoder_control->chroma_format != UVG_CSP_400) { if(cur_cu->log2_height + cur_cu->log2_width < 6 && x % 8 && y % 8 && tree_type != UVG_LUMA_T && state->encoder_control->chroma_format != UVG_CSP_400) {
intra_search.pred_cu.intra.mode_chroma = cur_cu->intra.mode_chroma; intra_search.pred_cu.intra.mode_chroma = cur_cu->intra.mode_chroma;
uvg_intra_recon_cu(state, uvg_intra_recon_cu(state,
&intra_search, cu_loc, &intra_search, cu_loc,
@ -1203,11 +1201,10 @@ static double search_cu(
uvg_quantize_lcu_residual(state, uvg_quantize_lcu_residual(state,
true, has_chroma && !cur_cu->joint_cb_cr, true, has_chroma && !cur_cu->joint_cb_cr,
cur_cu->joint_cb_cr, &loc, cur_cu->joint_cb_cr, &loc,
depth,
NULL, NULL,
lcu, lcu,
false, false,
tree_type); tree_type);
int cbf = cbf_is_set_any(cur_cu->cbf); int cbf = cbf_is_set_any(cur_cu->cbf);
@ -1297,7 +1294,7 @@ static double search_cu(
double split_bits = 0; double split_bits = 0;
if (split_tree.current_depth < MAX_DEPTH) { if (cur_cu->log2_height + cur_cu->log2_width > 4) {
state->search_cabac.update = 1; state->search_cabac.update = 1;
// Add cost of cu_split_flag. // Add cost of cu_split_flag.
@ -1375,7 +1372,7 @@ static double search_cu(
cu_info_t *cu_d1 = LCU_GET_CU_AT_PX(&work_tree[depth + 1], x_local, y_local); cu_info_t *cu_d1 = LCU_GET_CU_AT_PX(&work_tree[depth + 1], x_local, y_local);
// If the best CU in depth+1 is intra and the biggest it can be, try it. // If the best CU in depth+1 is intra and the biggest it can be, try it.
if (cu_d1->type == CU_INTRA && cu_d1->depth == depth + 1) { if (cu_d1->type == CU_INTRA && (cu_d1->log2_height + 1 == cur_cu->log2_height || cu_d1->log2_width + 1 == cur_cu->log2_width)) {
cabac_data_t temp_cabac; cabac_data_t temp_cabac;
memcpy(&temp_cabac, &state->search_cabac, sizeof(temp_cabac)); memcpy(&temp_cabac, &state->search_cabac, sizeof(temp_cabac));
memcpy(&state->search_cabac, &pre_search_cabac, sizeof(pre_search_cabac)); memcpy(&state->search_cabac, &pre_search_cabac, sizeof(pre_search_cabac));
@ -1452,7 +1449,7 @@ static double search_cu(
state, x, y, cu_width / 2, cu_width / 2, lcu->rec.y, lcu->left_ref.y[64] state, x, y, cu_width / 2, cu_width / 2, lcu->rec.y, lcu->left_ref.y[64]
); );
} }
} else if (depth >= 0 && depth < MAX_PU_DEPTH) { } else if (cur_cu->log2_height + cur_cu->log2_width > 4) {
// Need to copy modes down since the lower level of the work tree is used // Need to copy modes down since the lower level of the work tree is used
// when searching SMP and AMP blocks. // when searching SMP and AMP blocks.
work_tree_copy_down(depth, work_tree, tree_type, cu_loc); work_tree_copy_down(depth, work_tree, tree_type, cu_loc);

2
src/search.h
View file

@ -96,7 +96,5 @@ double uvg_cu_rd_cost_chroma(
lcu_t *const lcu, lcu_t *const lcu,
const cu_loc_t * const); const cu_loc_t * const);
void uvg_intra_recon_lcu_luma(encoder_state_t * const state, int x, int y, int depth, int8_t intra_mode, cu_info_t *cur_cu, lcu_t *lcu);
void uvg_intra_recon_lcu_chroma(encoder_state_t * const state, int x, int y, int depth, int8_t intra_mode, cu_info_t *cur_cu, lcu_t *lcu);
#endif #endif

16
src/search_inter.c
View file

@ -1813,7 +1813,7 @@ static void search_pu_inter(
cur_pu->inter.mv[1][1] = info->merge_cand[merge_idx].mv[1][1]; cur_pu->inter.mv[1][1] = info->merge_cand[merge_idx].mv[1][1];
uvg_inter_recon_cu(state, lcu, true, false, cu_loc); uvg_inter_recon_cu(state, lcu, true, false, cu_loc);
uvg_quantize_lcu_residual(state, true, false, false, cu_loc, depth, cur_pu, lcu, true, UVG_BOTH_T); uvg_quantize_lcu_residual(state, true, false, false, cu_loc, cur_pu, lcu, true, UVG_BOTH_T);
if (cbf_is_set(cur_pu->cbf, COLOR_Y)) { if (cbf_is_set(cur_pu->cbf, COLOR_Y)) {
continue; continue;
@ -1823,9 +1823,9 @@ static void search_pu_inter(
uvg_quantize_lcu_residual(state, uvg_quantize_lcu_residual(state,
false, has_chroma, false, has_chroma,
false, /*we are only checking for lack of coeffs so no need to check jccr*/ false, /*we are only checking for lack of coeffs so no need to check jccr*/
cu_loc, depth, cur_pu, lcu, cu_loc, cur_pu, lcu,
true, true,
UVG_BOTH_T); UVG_BOTH_T);
if (!cbf_is_set_any(cur_pu->cbf)) { if (!cbf_is_set_any(cur_pu->cbf)) {
cur_pu->type = CU_INTER; cur_pu->type = CU_INTER;
cur_pu->merge_idx = merge_idx; cur_pu->merge_idx = merge_idx;
@ -2181,11 +2181,10 @@ void uvg_cu_cost_inter_rd2(
false, false,
false, false,
cu_loc, cu_loc,
depth,
cur_cu, cur_cu,
lcu, lcu,
false, false,
UVG_BOTH_T); UVG_BOTH_T);
ALIGNED(64) uvg_pixel u_pred[LCU_WIDTH_C * LCU_WIDTH_C]; ALIGNED(64) uvg_pixel u_pred[LCU_WIDTH_C * LCU_WIDTH_C];
ALIGNED(64) uvg_pixel v_pred[LCU_WIDTH_C * LCU_WIDTH_C]; ALIGNED(64) uvg_pixel v_pred[LCU_WIDTH_C * LCU_WIDTH_C];
uvg_pixels_blit(&lcu->ref.u[index], u_pred, width, width, LCU_WIDTH_C, width); uvg_pixels_blit(&lcu->ref.u[index], u_pred, width, width, LCU_WIDTH_C, width);
@ -2246,11 +2245,10 @@ void uvg_cu_cost_inter_rd2(
true, reconstruct_chroma, true, reconstruct_chroma,
reconstruct_chroma && state->encoder_control->cfg.jccr, reconstruct_chroma && state->encoder_control->cfg.jccr,
cu_loc, cu_loc,
depth,
cur_cu, cur_cu,
lcu, lcu,
false, false,
UVG_BOTH_T); UVG_BOTH_T);
} }
int cbf = cbf_is_set_any(cur_cu->cbf); int cbf = cbf_is_set_any(cur_cu->cbf);

5
src/search_intra.c
View file

@ -271,8 +271,6 @@ static double search_intra_trdepth(
lcu_t *const lcu, lcu_t *const lcu,
enum uvg_tree_type tree_type) enum uvg_tree_type tree_type)
{ {
const uint8_t depth = 6 - uvg_g_convert_to_log2[cu_loc->width];
const uint8_t width = cu_loc->width; const uint8_t width = cu_loc->width;
const uint8_t height = cu_loc->height; // TODO: height for non-square blocks const uint8_t height = cu_loc->height; // TODO: height for non-square blocks
const uint8_t width_c = cu_loc->chroma_width; const uint8_t width_c = cu_loc->chroma_width;
@ -595,7 +593,7 @@ static double search_intra_trdepth(
} }
} }
if (depth == 0 || split_cost < nosplit_cost) { if (!PU_IS_TU(pred_cu) || split_cost < nosplit_cost) {
return split_cost; return split_cost;
} else { } else {
return nosplit_cost; return nosplit_cost;
@ -1306,7 +1304,6 @@ static int8_t search_intra_rdo(
enum uvg_tree_type tree_type, enum uvg_tree_type tree_type,
const cu_loc_t* const cu_loc) const cu_loc_t* const cu_loc)
{ {
const int8_t depth = 6 - uvg_g_convert_to_log2[cu_loc->width];
const int width = cu_loc->width; const int width = cu_loc->width;
const int height = cu_loc->height; // TODO: height for non-square blocks const int height = cu_loc->height; // TODO: height for non-square blocks

44
src/transform.c
View file

@ -844,16 +844,13 @@ void uvg_fwd_lfnst(
const uint16_t lfnst_index = lfnst_idx; const uint16_t lfnst_index = lfnst_idx;
int8_t intra_mode = (color == COLOR_Y) ? cur_cu->intra.mode : cur_cu->intra.mode_chroma; int8_t intra_mode = (color == COLOR_Y) ? cur_cu->intra.mode : cur_cu->intra.mode_chroma;
bool mts_skip = cur_cu->tr_idx == MTS_SKIP; bool mts_skip = cur_cu->tr_idx == MTS_SKIP;
const int depth = cur_cu->depth; bool is_separate_tree = cur_cu->log2_height + cur_cu->log2_width < 6 || tree_type != UVG_BOTH_T;
bool is_separate_tree = depth == 4 || tree_type != UVG_BOTH_T;
bool is_cclm_mode = (intra_mode >= 81 && intra_mode <= 83); // CCLM modes are in [81, 83] bool is_cclm_mode = (intra_mode >= 81 && intra_mode <= 83); // CCLM modes are in [81, 83]
bool is_mip = block_is_mip(cur_cu, color, is_separate_tree); bool is_mip = block_is_mip(cur_cu, color, is_separate_tree);
bool is_wide_angle = false; // TODO: get wide angle mode when implemented bool is_wide_angle = false; // TODO: get wide angle mode when implemented
const int cu_type = cur_cu->type; const int scan_order = SCAN_DIAG;
const int scan_order = uvg_get_scan_order(cu_type, intra_mode, depth);
if (lfnst_index && !mts_skip && (is_separate_tree || color == COLOR_Y)) if (lfnst_index && !mts_skip && (is_separate_tree || color == COLOR_Y))
{ {
@ -981,16 +978,13 @@ void uvg_inv_lfnst(
const uint32_t lfnst_index = lfnst_idx; const uint32_t lfnst_index = lfnst_idx;
int8_t intra_mode = (color == COLOR_Y) ? cur_cu->intra.mode : cur_cu->intra.mode_chroma; int8_t intra_mode = (color == COLOR_Y) ? cur_cu->intra.mode : cur_cu->intra.mode_chroma;
bool mts_skip = cur_cu->tr_idx == MTS_SKIP; bool mts_skip = cur_cu->tr_idx == MTS_SKIP;
const int depth = cur_cu->depth; bool is_separate_tree = cur_cu->log2_height + cur_cu->log2_width < 6 || tree_type != UVG_BOTH_T;
bool is_separate_tree = depth == 4 || tree_type != UVG_BOTH_T;
bool is_cclm_mode = (intra_mode >= 81 && intra_mode <= 83); // CCLM modes are in [81, 83] bool is_cclm_mode = (intra_mode >= 81 && intra_mode <= 83); // CCLM modes are in [81, 83]
bool is_mip = block_is_mip(cur_cu, color, is_separate_tree); bool is_mip = block_is_mip(cur_cu, color, is_separate_tree);
bool is_wide_angle = false; // TODO: get wide angle mode when implemented bool is_wide_angle = false; // TODO: get wide angle mode when implemented
const int cu_type = cur_cu->type; const int scan_order = SCAN_DIAG;
const int scan_order = uvg_get_scan_order(cu_type, intra_mode, depth);
if (lfnst_index && !mts_skip && (is_separate_tree || color == COLOR_Y)) { if (lfnst_index && !mts_skip && (is_separate_tree || color == COLOR_Y)) {
const uint32_t log2_block_size = uvg_g_convert_to_log2[width]; const uint32_t log2_block_size = uvg_g_convert_to_log2[width];
@ -1148,7 +1142,6 @@ static void quantize_tr_residual(
encoder_state_t * const state, encoder_state_t * const state,
const color_t color, const color_t color,
const cu_loc_t *cu_loc, const cu_loc_t *cu_loc,
const uint8_t depth,
cu_info_t *cur_pu, cu_info_t *cur_pu,
lcu_t* lcu, lcu_t* lcu,
bool early_skip, bool early_skip,
@ -1164,7 +1157,7 @@ static void quantize_tr_residual(
// If luma is 4x4, do chroma for the 8x8 luma area when handling the top // If luma is 4x4, do chroma for the 8x8 luma area when handling the top
// left PU because the coordinates are correct. // left PU because the coordinates are correct.
bool handled_elsewhere = color != COLOR_Y && bool handled_elsewhere = color != COLOR_Y &&
depth == MAX_DEPTH && cur_pu->log2_width + cur_pu-> log2_height < 6&&
(x % 4 != 0 || y % 4 != 0); (x % 4 != 0 || y % 4 != 0);
if (handled_elsewhere) { if (handled_elsewhere) {
return; return;
@ -1181,8 +1174,7 @@ static void quantize_tr_residual(
const int8_t mode = const int8_t mode =
(color == COLOR_Y) ? cur_pu->intra.mode : cur_pu->intra.mode_chroma; (color == COLOR_Y) ? cur_pu->intra.mode : cur_pu->intra.mode_chroma;
const coeff_scan_order_t scan_idx = const coeff_scan_order_t scan_idx = SCAN_DIAG;
uvg_get_scan_order(cur_pu->type, mode, depth); // Height does not affect this
const int offset = lcu_px.x + lcu_px.y * lcu_width; const int offset = lcu_px.x + lcu_px.y * lcu_width;
//const int z_index = xy_to_zorder(lcu_width, lcu_px.x, lcu_px.y); //const int z_index = xy_to_zorder(lcu_width, lcu_px.x, lcu_px.y);
@ -1355,7 +1347,6 @@ void uvg_quantize_lcu_residual(
const bool chroma, const bool chroma,
const bool jccr, const bool jccr,
const cu_loc_t * cu_loc, const cu_loc_t * cu_loc,
const uint8_t depth,
cu_info_t *cur_pu, cu_info_t *cur_pu,
lcu_t* lcu, lcu_t* lcu,
bool early_skip, bool early_skip,
@ -1402,17 +1393,10 @@ void uvg_quantize_lcu_residual(
cu_loc_t loc; cu_loc_t loc;
uvg_cu_loc_ctor(&loc, (x + i * offset), (y + j * offset), width >> 1, height >> 1); uvg_cu_loc_ctor(&loc, (x + i * offset), (y + j * offset), width >> 1, height >> 1);
// jccr is currently not supported if transform is split // jccr is currently not supported if transform is split
uvg_quantize_lcu_residual(state, luma, chroma, 0, &loc, depth + 1, NULL, lcu, early_skip, tree_type); uvg_quantize_lcu_residual(state, luma, chroma, 0, &loc, NULL, lcu, early_skip, tree_type);
} }
} }
//const int32_t x2 = x + offset;
//const int32_t y2 = y + offset;
//uvg_quantize_lcu_residual(state, luma, chroma, 0, x, y, depth + 1, NULL, lcu, early_skip, tree_type);
//uvg_quantize_lcu_residual(state, luma, chroma, 0, x2, y, depth + 1, NULL, lcu, early_skip, tree_type);
//uvg_quantize_lcu_residual(state, luma, chroma, 0, x, y2, depth + 1, NULL, lcu, early_skip, tree_type);
//uvg_quantize_lcu_residual(state, luma, chroma, 0, x2, y2, depth + 1, NULL, lcu, early_skip, tree_type);
// Propagate coded block flags from child CUs to parent CU. // Propagate coded block flags from child CUs to parent CU.
uint16_t child_cbfs[3] = { uint16_t child_cbfs[3] = {
@ -1433,14 +1417,14 @@ void uvg_quantize_lcu_residual(
uvg_cu_loc_ctor(&loc, x, y, width, height); uvg_cu_loc_ctor(&loc, x, y, width, height);
if (luma) { if (luma) {
quantize_tr_residual(state, COLOR_Y, &loc, depth, cur_pu, lcu, early_skip, tree_type); quantize_tr_residual(state, COLOR_Y, &loc, cur_pu, lcu, early_skip, tree_type);
} }
if (chroma) { if (chroma) {
quantize_tr_residual(state, COLOR_U, &loc, depth, cur_pu, lcu, early_skip, tree_type); quantize_tr_residual(state, COLOR_U, &loc, cur_pu, lcu, early_skip, tree_type);
quantize_tr_residual(state, COLOR_V, &loc, depth, cur_pu, lcu, early_skip, tree_type); quantize_tr_residual(state, COLOR_V, &loc, cur_pu, lcu, early_skip, tree_type);
} }
if (jccr && PU_IS_TU(cur_pu)) { if (jccr && PU_IS_TU(cur_pu)) {
quantize_tr_residual(state, COLOR_UV, &loc, depth, cur_pu, lcu, early_skip, tree_type); quantize_tr_residual(state, COLOR_UV, &loc, cur_pu, lcu, early_skip, tree_type);
} }
if(chroma && jccr && PU_IS_TU(cur_pu)) { if(chroma && jccr && PU_IS_TU(cur_pu)) {
assert( 0 && "Trying to quantize both jccr and regular at the same time.\n"); assert( 0 && "Trying to quantize both jccr and regular at the same time.\n");

1
src/transform.h
View file

@ -96,7 +96,6 @@ void uvg_quantize_lcu_residual(
bool chroma, bool chroma,
const bool jccr, const bool jccr,
const cu_loc_t* cu_loc, const cu_loc_t* cu_loc,
uint8_t depth,
cu_info_t *cur_cu, cu_info_t *cur_cu,
lcu_t* lcu, lcu_t* lcu,
bool early_skip, bool early_skip,