// by mi_row, mi_col.
// TODO(JBB): This function only works for yv12.
void vp9_setup_mask(VP9_COMMON *const cm, const int mi_row, const int mi_col,
- MODE_INFO **mi, const int mode_info_stride,
+ MODE_INFO *mi, const int mode_info_stride,
LOOP_FILTER_MASK *lfm) {
int idx_32, idx_16, idx_8;
const loop_filter_info_n *const lfi_n = &cm->lf_info;
- MODE_INFO **mip = mi;
- MODE_INFO **mip2 = mi;
+ MODE_INFO *mip = mi;
+ MODE_INFO *mip2 = mi;
// These are offsets to the next mi in the 64x64 block. It is what gets
// added to the mi ptr as we go through each loop. It helps us to avoid
cm->mi_cols - mi_col : MI_BLOCK_SIZE);
vp9_zero(*lfm);
- assert(mip[0] != NULL);
+ assert(mip != NULL);
// TODO(jimbankoski): Try moving most of the following code into decode
// loop and storing lfm in the mbmi structure so that we don't have to go
// through the recursive loop structure multiple times.
- switch (mip[0]->mbmi.sb_type) {
+ switch (mip->mbmi.sb_type) {
case BLOCK_64X64:
- build_masks(lfi_n, mip[0] , 0, 0, lfm);
+ build_masks(lfi_n, mip , 0, 0, lfm);
break;
case BLOCK_64X32:
- build_masks(lfi_n, mip[0], 0, 0, lfm);
+ build_masks(lfi_n, mip, 0, 0, lfm);
mip2 = mip + mode_info_stride * 4;
if (4 >= max_rows)
break;
- build_masks(lfi_n, mip2[0], 32, 8, lfm);
+ build_masks(lfi_n, mip2, 32, 8, lfm);
break;
case BLOCK_32X64:
- build_masks(lfi_n, mip[0], 0, 0, lfm);
+ build_masks(lfi_n, mip, 0, 0, lfm);
mip2 = mip + 4;
if (4 >= max_cols)
break;
- build_masks(lfi_n, mip2[0], 4, 2, lfm);
+ build_masks(lfi_n, mip2, 4, 2, lfm);
break;
default:
for (idx_32 = 0; idx_32 < 4; mip += offset_32[idx_32], ++idx_32) {
const int mi_32_row_offset = ((idx_32 >> 1) << 2);
if (mi_32_col_offset >= max_cols || mi_32_row_offset >= max_rows)
continue;
- switch (mip[0]->mbmi.sb_type) {
+ switch (mip->mbmi.sb_type) {
case BLOCK_32X32:
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
+ build_masks(lfi_n, mip, shift_y, shift_uv, lfm);
break;
case BLOCK_32X16:
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
+ build_masks(lfi_n, mip, shift_y, shift_uv, lfm);
if (mi_32_row_offset + 2 >= max_rows)
continue;
mip2 = mip + mode_info_stride * 2;
- build_masks(lfi_n, mip2[0], shift_y + 16, shift_uv + 4, lfm);
+ build_masks(lfi_n, mip2, shift_y + 16, shift_uv + 4, lfm);
break;
case BLOCK_16X32:
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
+ build_masks(lfi_n, mip, shift_y, shift_uv, lfm);
if (mi_32_col_offset + 2 >= max_cols)
continue;
mip2 = mip + 2;
- build_masks(lfi_n, mip2[0], shift_y + 2, shift_uv + 1, lfm);
+ build_masks(lfi_n, mip2, shift_y + 2, shift_uv + 1, lfm);
break;
default:
for (idx_16 = 0; idx_16 < 4; mip += offset_16[idx_16], ++idx_16) {
if (mi_16_col_offset >= max_cols || mi_16_row_offset >= max_rows)
continue;
- switch (mip[0]->mbmi.sb_type) {
+ switch (mip->mbmi.sb_type) {
case BLOCK_16X16:
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
+ build_masks(lfi_n, mip, shift_y, shift_uv, lfm);
break;
case BLOCK_16X8:
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
+ build_masks(lfi_n, mip, shift_y, shift_uv, lfm);
if (mi_16_row_offset + 1 >= max_rows)
continue;
mip2 = mip + mode_info_stride;
- build_y_mask(lfi_n, mip2[0], shift_y+8, lfm);
+ build_y_mask(lfi_n, mip2, shift_y+8, lfm);
break;
case BLOCK_8X16:
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
+ build_masks(lfi_n, mip, shift_y, shift_uv, lfm);
if (mi_16_col_offset +1 >= max_cols)
continue;
mip2 = mip + 1;
- build_y_mask(lfi_n, mip2[0], shift_y+1, lfm);
+ build_y_mask(lfi_n, mip2, shift_y+1, lfm);
break;
default: {
const int shift_y = shift_32_y[idx_32] +
shift_16_y[idx_16] +
shift_8_y[0];
- build_masks(lfi_n, mip[0], shift_y, shift_uv, lfm);
+ build_masks(lfi_n, mip, shift_y, shift_uv, lfm);
mip += offset[0];
for (idx_8 = 1; idx_8 < 4; mip += offset[idx_8], ++idx_8) {
const int shift_y = shift_32_y[idx_32] +
if (mi_8_col_offset >= max_cols ||
mi_8_row_offset >= max_rows)
continue;
- build_y_mask(lfi_n, mip[0], shift_y, lfm);
+ build_y_mask(lfi_n, mip, shift_y, lfm);
}
break;
}
static void filter_block_plane_non420(VP9_COMMON *cm,
struct macroblockd_plane *plane,
- MODE_INFO **mi_8x8,
+ MODE_INFO *mi_8x8,
int mi_row, int mi_col) {
const int ss_x = plane->subsampling_x;
const int ss_y = plane->subsampling_y;
// Determine the vertical edges that need filtering
for (c = 0; c < MI_BLOCK_SIZE && mi_col + c < cm->mi_cols; c += col_step) {
- const MODE_INFO *mi = mi_8x8[c];
+ const MODE_INFO *mi = mi_8x8[c].src_mi;
const BLOCK_SIZE sb_type = mi[0].mbmi.sb_type;
const int skip_this = mi[0].mbmi.skip && is_inter_block(&mi[0].mbmi);
// left edge of current unit is block/partition edge -> no skip
}
}
-void vp9_loop_filter_rows(const YV12_BUFFER_CONFIG *frame_buffer,
+void vp9_loop_filter_rows(YV12_BUFFER_CONFIG *frame_buffer,
VP9_COMMON *cm,
struct macroblockd_plane planes[MAX_MB_PLANE],
int start, int stop, int y_only) {
int mi_row, mi_col;
for (mi_row = start; mi_row < stop; mi_row += MI_BLOCK_SIZE) {
- MODE_INFO **mi = cm->mi_grid_visible + mi_row * cm->mi_stride;
+ MODE_INFO *mi = cm->mi + mi_row * cm->mi_stride;
for (mi_col = 0; mi_col < cm->mi_cols; mi_col += MI_BLOCK_SIZE) {
int plane;
y_only);
}
-int vp9_loop_filter_worker(void *arg1, void *arg2) {
- LFWorkerData *const lf_data = (LFWorkerData*)arg1;
- (void)arg2;
+int vp9_loop_filter_worker(LFWorkerData *const lf_data, void *unused) {
+ (void)unused;
vp9_loop_filter_rows(lf_data->frame_buffer, lf_data->cm, lf_data->planes,
lf_data->start, lf_data->stop, lf_data->y_only);
return 1;
projects / platform / framework / web / crosswalk.git / blobdiff