checkasm/vvc_alf: only check the valid filter and classify sizes

release/7.1
Nuo Mi 8 months ago
parent 74035aaed7
commit b82ef7c0ba
  1. 61
      tests/checkasm/vvc_alf.c

@ -90,35 +90,41 @@ static void check_alf_filter(VVCDSPContext *c, const int bit_depth)
randomize_buffers2(filter, LUMA_PARAMS_SIZE, 1); randomize_buffers2(filter, LUMA_PARAMS_SIZE, 1);
randomize_buffers2(clip, LUMA_PARAMS_SIZE, 0); randomize_buffers2(clip, LUMA_PARAMS_SIZE, 0);
for (int h = 4; h <= MAX_CTU_SIZE; h += 8) { for (int h = 4; h <= MAX_CTU_SIZE; h += 4) {
for (int w = 4; w <= MAX_CTU_SIZE; w += 8) { for (int w = 4; w <= MAX_CTU_SIZE; w += 4) {
const int ctu_size = MAX_CTU_SIZE; const int ctu_size = MAX_CTU_SIZE;
if (check_func(c->alf.filter[LUMA], "vvc_alf_filter_luma_%dx%d_%d", w, h, bit_depth)) { //Both picture size and virtual boundaries are 8-aligned. For luma, we only need to check 8-aligned sizes.
const int vb_pos = ctu_size - ALF_VB_POS_ABOVE_LUMA; if (!(w % 8) && !(h % 8)) {
memset(dst0, 0, DST_BUF_SIZE); if (check_func(c->alf.filter[LUMA], "vvc_alf_filter_luma_%dx%d_%d", w, h, bit_depth)) {
memset(dst1, 0, DST_BUF_SIZE); const int vb_pos = ctu_size - ALF_VB_POS_ABOVE_LUMA;
call_ref(dst0, dst_stride, src0 + offset, src_stride, w, h, filter, clip, vb_pos); memset(dst0, 0, DST_BUF_SIZE);
call_new(dst1, dst_stride, src1 + offset, src_stride, w, h, filter, clip, vb_pos); memset(dst1, 0, DST_BUF_SIZE);
for (int i = 0; i < h; i++) { call_ref(dst0, dst_stride, src0 + offset, src_stride, w, h, filter, clip, vb_pos);
if (memcmp(dst0 + i * dst_stride, dst1 + i * dst_stride, w * SIZEOF_PIXEL)) call_new(dst1, dst_stride, src1 + offset, src_stride, w, h, filter, clip, vb_pos);
fail(); for (int i = 0; i < h; i++) {
if (memcmp(dst0 + i * dst_stride, dst1 + i * dst_stride, w * SIZEOF_PIXEL))
fail();
}
// Bench only square sizes, and ones with dimensions being a power of two.
if (w == h && (w & (w - 1)) == 0)
bench_new(dst1, dst_stride, src1 + offset, src_stride, w, h, filter, clip, vb_pos);
} }
// Bench only square sizes, and ones with dimensions being a power of two.
if (w == h && (w & (w - 1)) == 0)
bench_new(dst1, dst_stride, src1 + offset, src_stride, w, h, filter, clip, vb_pos);
} }
if (check_func(c->alf.filter[CHROMA], "vvc_alf_filter_chroma_%dx%d_%d", w, h, bit_depth)) { //For chroma, once it exceeds 64, it's not a 4:2:0 format, so we only need to check 8-aligned sizes as well.
const int vb_pos = ctu_size - ALF_VB_POS_ABOVE_CHROMA; if ((w <= 64 || !(w % 8)) && (h <= 64 || !(h % 8))) {
memset(dst0, 0, DST_BUF_SIZE); if (check_func(c->alf.filter[CHROMA], "vvc_alf_filter_chroma_%dx%d_%d", w, h, bit_depth)) {
memset(dst1, 0, DST_BUF_SIZE); const int vb_pos = ctu_size - ALF_VB_POS_ABOVE_CHROMA;
call_ref(dst0, dst_stride, src0 + offset, src_stride, w, h, filter, clip, vb_pos); memset(dst0, 0, DST_BUF_SIZE);
call_new(dst1, dst_stride, src1 + offset, src_stride, w, h, filter, clip, vb_pos); memset(dst1, 0, DST_BUF_SIZE);
for (int i = 0; i < h; i++) { call_ref(dst0, dst_stride, src0 + offset, src_stride, w, h, filter, clip, vb_pos);
if (memcmp(dst0 + i * dst_stride, dst1 + i * dst_stride, w * SIZEOF_PIXEL)) call_new(dst1, dst_stride, src1 + offset, src_stride, w, h, filter, clip, vb_pos);
fail(); for (int i = 0; i < h; i++) {
if (memcmp(dst0 + i * dst_stride, dst1 + i * dst_stride, w * SIZEOF_PIXEL))
fail();
}
if (w == h && (w & (w - 1)) == 0)
bench_new(dst1, dst_stride, src1 + offset, src_stride, w, h, filter, clip, vb_pos);
} }
if (w == h && (w & (w - 1)) == 0)
bench_new(dst1, dst_stride, src1 + offset, src_stride, w, h, filter, clip, vb_pos);
} }
} }
} }
@ -142,8 +148,9 @@ static void check_alf_classify(VVCDSPContext *c, const int bit_depth)
randomize_buffers(src0, src1, SRC_BUF_SIZE); randomize_buffers(src0, src1, SRC_BUF_SIZE);
for (int h = 4; h <= MAX_CTU_SIZE; h += 8) { //Both picture size and virtual boundaries are 8-aligned. Classify is luma only, we only need to check 8-aligned sizes.
for (int w = 4; w <= MAX_CTU_SIZE; w += 8) { for (int h = 8; h <= MAX_CTU_SIZE; h += 8) {
for (int w = 8; w <= MAX_CTU_SIZE; w += 8) {
const int id_size = w * h / ALF_BLOCK_SIZE / ALF_BLOCK_SIZE * sizeof(int); const int id_size = w * h / ALF_BLOCK_SIZE / ALF_BLOCK_SIZE * sizeof(int);
const int vb_pos = MAX_CTU_SIZE - ALF_BLOCK_SIZE; const int vb_pos = MAX_CTU_SIZE - ALF_BLOCK_SIZE;
if (check_func(c->alf.classify, "vvc_alf_classify_%dx%d_%d", w, h, bit_depth)) { if (check_func(c->alf.classify, "vvc_alf_classify_%dx%d_%d", w, h, bit_depth)) {

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