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[mrl] Simplify and fix kvz_intra_build_reference_inner() for mrl cases

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This commit is contained in:
Marko Viitanen 2021-12-08 14:17:41 +02:00
parent 04cb32be91
commit 05e55f7fea
1 changed files with 43 additions and 90 deletions
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133
src/intra.c
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@ -839,6 +839,7 @@ void kvz_intra_build_reference_inner(
// Get multiRefIdx from CU under prediction. Do not use MRL if not luma
const uint8_t multi_ref_index = !is_chroma ? multi_ref_idx : 0;
assert(multi_ref_index < MAX_REF_LINE_IDX);
// Convert luma coordinates to chroma coordinates for chroma.
const vector2d_t lcu_px = {
@ -855,7 +856,7 @@ void kvz_intra_build_reference_inner(
bool extra_ref = false;
// On the left LCU edge, if left neighboring LCU is available,
// left_ref needs to point to correct extra reference line if MRL is used.
if (luma_px->x > 0 && lcu_px.x == 0 && multi_ref_index != 0) {
if (lcu_px.x == 0 && multi_ref_index != 0) {
left_ref = &extra_ref_lines[multi_ref_index * 128];
extra_ref = true;
}
@ -872,7 +873,6 @@ void kvz_intra_build_reference_inner(
top_border = &rec_ref[px.x + (px.y - 1 - multi_ref_index) * (LCU_WIDTH >> is_chroma)];
} else {
top_border = &top_ref[px.x]; // At the top line. No need for multi_ref_index
}
// Init left borders pointer to point to the correct place in the correct reference array.
@ -881,8 +881,7 @@ void kvz_intra_build_reference_inner(
if (px.x) {
left_border = &rec_ref[px.x - 1 - multi_ref_index + px.y * (LCU_WIDTH >> is_chroma)];
left_stride = LCU_WIDTH >> is_chroma;
}
else {
} else {
if (extra_ref) {
left_border = &left_ref[MAX_REF_LINE_IDX];
}
@ -895,82 +894,48 @@ void kvz_intra_build_reference_inner(
// Generate top-left reference
if (multi_ref_index)
{
if (luma_px->x > 0 && luma_px->y > 0) {
// If the block is at an LCU border, the top-left must be copied from
// the border that points to the LCUs 1D reference buffer.
// Inner picture cases
if (px.x == 0 && px.y == 0) {
// LCU top left corner case. Multi ref will be 0.
out_left_ref[0] = out_left_ref[1];
out_top_ref[0] = out_left_ref[1];
}
else if (px.x == 0) {
// LCU left border case
kvz_pixel* top_left_corner = &extra_ref_lines[multi_ref_index * 128];
for (int i = 0; i <= multi_ref_index; ++i) {
out_left_ref[i] = left_border[(i - 1 - multi_ref_index) * left_stride];
out_top_ref[i] = top_left_corner[(128 * -i) + MAX_REF_LINE_IDX - 1 - multi_ref_index];
}
}
else if (px.y == 0) {
// LCU top border case. Multi ref will be 0.
out_left_ref[0] = top_border[-1];
out_top_ref[0] = top_border[-1];
}
else {
// Inner case
for (int i = 0; i <= multi_ref_index; ++i) {
out_left_ref[i] = left_border[(i - 1 - multi_ref_index) * left_stride];
out_top_ref[i] = top_border[i - 1 - multi_ref_index];
}
// Inner picture cases
if (px.x == 0 && px.y == 0) {
// LCU top left corner case. Multi ref will be 0.
out_left_ref[0] = out_left_ref[1];
out_top_ref[0] = out_left_ref[1];
}
else if (px.x == 0) {
// LCU left border case
kvz_pixel* top_left_corner = &extra_ref_lines[multi_ref_index * 128];
for (int i = 0; i <= multi_ref_index; ++i) {
out_left_ref[i] = left_border[(i - 1 - multi_ref_index) * left_stride];
out_top_ref[i] = top_left_corner[(128 * -i) + MAX_REF_LINE_IDX - 1 - multi_ref_index];
}
}
else if (px.y == 0) {
// LCU top border case. Multi ref will be 0.
out_left_ref[0] = top_border[-1];
out_top_ref[0] = top_border[-1];
}
else {
// Picture border cases
if (px.x == 0 && px.y == 0) {
// Top left picture corner case. Multi ref will be 0.
out_left_ref[0] = out_left_ref[1];
out_top_ref[0] = out_left_ref[1];
}
else if (px.x == 0) {
// Picture left border case. Reference pixel cannot be taken from outside LCU border
kvz_pixel nearest = out_left_ref[1 + multi_ref_index];
for (int i = 0; i <= multi_ref_index; ++i) {
out_left_ref[i] = nearest;
out_top_ref[i] = nearest;
}
}
else {
// Picture top border case. Multi ref will be 0.
out_left_ref[0] = top_border[-1];
out_top_ref[0] = top_border[-1];
// Inner case
for (int i = 0; i <= multi_ref_index; ++i) {
out_left_ref[i] = left_border[(i - 1 - multi_ref_index) * left_stride];
out_top_ref[i] = top_border[i - 1 - multi_ref_index];
}
}
}
else {
if (luma_px->x > 0 && luma_px->y > 0) {
// If the block is at an LCU border, the top-left must be copied from
// the border that points to the LCUs 1D reference buffer.
if (px.x == 0) {
out_left_ref[0] = left_border[-1 * left_stride];
out_top_ref[0] = left_border[-1 * left_stride];
}
else {
out_left_ref[0] = top_border[-1];
out_top_ref[0] = top_border[-1];
}
// If the block is at an LCU border, the top-left must be copied from
// the border that points to the LCUs 1D reference buffer.
if (px.x == 0) {
out_left_ref[0] = left_border[-1 * left_stride];
out_top_ref[0] = left_border[-1 * left_stride];
}
else {
// Copy reference clockwise.
out_left_ref[0] = out_left_ref[1];
out_top_ref[0] = out_left_ref[1];
out_left_ref[0] = top_border[-1];
out_top_ref[0] = top_border[-1];
}
}
// Generate left reference.
// Get the number of reference pixels based on the PU coordinate within the LCU.
// Get the number of reference pixels based on the PU coordinate within the LCU.
int px_available_left = num_ref_pixels_left[lcu_px.y / 4][lcu_px.x / 4] >> is_chroma;
// Limit the number of available pixels based on block size and dimensions
@ -981,10 +946,10 @@ void kvz_intra_build_reference_inner(
// Copy pixels from coded CUs.
int i = multi_ref_index; // Offset by multi_ref_index
do {
out_left_ref[i + 1] = left_border[(i + 0) * left_stride];
out_left_ref[i + 2] = left_border[(i + 1) * left_stride];
out_left_ref[i + 3] = left_border[(i + 2) * left_stride];
out_left_ref[i + 4] = left_border[(i + 3) * left_stride];
out_left_ref[i + 1] = left_border[(i + 0 - multi_ref_index) * left_stride];
out_left_ref[i + 2] = left_border[(i + 1 - multi_ref_index) * left_stride];
out_left_ref[i + 3] = left_border[(i + 2 - multi_ref_index) * left_stride];
out_left_ref[i + 4] = left_border[(i + 3 - multi_ref_index) * left_stride];
i += 4;
} while (i < px_available_left);
@ -1011,32 +976,20 @@ void kvz_intra_build_reference_inner(
// Limit the number of available pixels based on block size and dimensions
// of the picture.
px_available_top = MIN(px_available_top, width * 2);
px_available_top = MIN(px_available_top, width * 2 + multi_ref_index);
px_available_top = MIN(px_available_top, (pic_px->x - luma_px->x) >> is_chroma);
if (entropy_sync && px.y == 0) px_available_top = MIN(px_available_top, ((LCU_WIDTH >> is_chroma) - px.x) -1);
// Copy all the pixels we can.
i = multi_ref_index; // Offset by multi_ref_index
do {
memcpy(out_top_ref + i + 1, top_border + i, 4 * sizeof(kvz_pixel));
i += 4;
} while (i < px_available_top);
// Extend the last pixel for the rest of the reference values.
nearest_pixel = out_top_ref[i];
for (; i < width * 2; i += 4) {
out_top_ref[i + 1] = nearest_pixel;
out_top_ref[i + 2] = nearest_pixel;
out_top_ref[i + 3] = nearest_pixel;
out_top_ref[i + 4] = nearest_pixel;
for (int i = 0; i < px_available_top; ++i) {
out_top_ref[i + 1 + multi_ref_index] = top_border[i];
}
// Extend for MRL
if (multi_ref_index) {
for (; i < width * 2 + multi_ref_index; ++i) {
out_top_ref[i + 1] = nearest_pixel;
}
// Extend the last pixel for the rest of the reference values.
nearest_pixel = out_top_ref[px_available_top + multi_ref_index];
for (int i = px_available_top; i < (width + multi_ref_index) * 2; i++) {
out_top_ref[i + 1 + multi_ref_index] = nearest_pixel;
}
}