.flags = IMAGE_DUP_TRANS_ID,
.ratio_threshold = 140,
.error_threshold = 100,
+ .qtree_limit = 8,
};
}
{
}
-static uns image_dup_tab_limit = 8;
-
static inline struct image *
image_dup_subimage(struct image_context *ctx, struct image_dup *dup, struct image *block, uns tab_col, uns tab_row)
{
}
uns
-image_dup_estimate_size(uns cols, uns rows)
+image_dup_estimate_size(uns cols, uns rows, uns same_size_compare, uns qtree_limit)
{
uns tab_cols, tab_rows;
- for (tab_cols = 0; (uns)(2 << tab_cols) < cols && tab_cols < image_dup_tab_limit; tab_cols++);
- for (tab_rows = 0; (uns)(2 << tab_rows) < rows && tab_rows < image_dup_tab_limit; tab_rows++);
- uns size = sizeof(struct image_dup) + cols * rows * 3 + (12 << (tab_cols + tab_rows)) + 3 * CPU_STRUCT_ALIGN;
+ for (tab_cols = 0; (uns)(2 << tab_cols) < cols && tab_cols < qtree_limit; tab_cols++);
+ for (tab_rows = 0; (uns)(2 << tab_rows) < rows && tab_rows < qtree_limit; tab_rows++);
+ uns size = sizeof(struct image_dup) + (12 << (tab_cols + tab_rows)) + 2 * CPU_STRUCT_ALIGN;
+ if (same_size_compare)
+ size += cols * rows * 3 + CPU_STRUCT_ALIGN;
return ALIGN_TO(size, CPU_STRUCT_ALIGN);
}
uns
-image_dup_new(struct image_context *ctx, struct image *img, void *buffer)
+image_dup_new(struct image_dup_context *ctx, struct image *img, void *buffer, uns same_size_compare)
{
DBG("image_dup_init()");
ASSERT(!((uintptr_t)buffer & (CPU_STRUCT_ALIGN - 1)));
ASSERT((img->flags & IMAGE_PIXEL_FORMAT) == COLOR_SPACE_RGB);
/* Clone image */
- if (!image_init_matrix(ctx, &dup->image, ptr, img->cols, img->rows, img->cols * 3, COLOR_SPACE_RGB))
- return 0;
- uns size = img->rows * img->cols * 3;
- ptr += ALIGN_TO(size, CPU_STRUCT_ALIGN);
- byte *s = img->pixels;
- byte *d = dup->image.pixels;
- for (uns row = img->rows; row--; )
+ if (same_size_compare)
+ {
+ if (!image_init_matrix(ctx->ic, &dup->image, ptr, img->cols, img->rows, img->cols * 3, COLOR_SPACE_RGB))
+ return 0;
+ uns size = img->rows * img->cols * 3;
+ ptr += ALIGN_TO(size, CPU_STRUCT_ALIGN);
+ byte *s = img->pixels;
+ byte *d = dup->image.pixels;
+ for (uns row = img->rows; row--; )
+ {
+ memcpy(d, s, img->row_pixels_size);
+ d += dup->image.row_size;
+ s += img->row_size;
+ }
+ }
+ else
{
- memcpy(d, s, img->row_pixels_size);
- d += dup->image.row_size;
- s += img->row_size;
+ dup->image.cols = img->cols;
+ dup->image.rows = img->rows;
}
- for (dup->tab_cols = 0; (uns)(2 << dup->tab_cols) < img->cols && dup->tab_cols < image_dup_tab_limit; dup->tab_cols++);
- for (dup->tab_rows = 0; (uns)(2 << dup->tab_rows) < img->rows && dup->tab_rows < image_dup_tab_limit; dup->tab_rows++);
+ for (dup->tab_cols = 0; (uns)(2 << dup->tab_cols) < img->cols && dup->tab_cols < ctx->qtree_limit; dup->tab_cols++);
+ for (dup->tab_rows = 0; (uns)(2 << dup->tab_rows) < img->rows && dup->tab_rows < ctx->qtree_limit; dup->tab_rows++);
dup->tab_row_size = 6 << dup->tab_cols;
dup->tab_pixels = ptr;
- size = 12 << (dup->tab_cols + dup->tab_rows);
+ uns size = 12 << (dup->tab_cols + dup->tab_rows);
ptr += ALIGN_TO(size, CPU_STRUCT_ALIGN);
/* Scale original image to right bottom block */
{
struct image block;
- if (!image_dup_subimage(ctx, dup, &block, dup->tab_cols, dup->tab_rows))
+ if (!image_dup_subimage(ctx->ic, dup, &block, dup->tab_cols, dup->tab_rows))
return 0;
- if (!image_scale(ctx, &block, img))
+ if (!image_scale(ctx->ic, &block, img))
return 0;
}
struct image_dup *dup1, *dup2;
struct mempool *pool = mp_new(1 << 18);
MSG("Creating internal structures");
- dup1 = mp_start(pool, image_dup_estimate_size(img1->cols, img1->rows));
- uns size = image_dup_new(&ctx, img1, dup1);
+ dup1 = mp_start(pool, image_dup_estimate_size(img1->cols, img1->rows, 1, idc.qtree_limit));
+ uns size = image_dup_new(&idc, img1, dup1, 1);
TRY(size);
mp_end(pool, (void *)dup1 + size);
- dup2 = mp_start(pool, image_dup_estimate_size(img2->cols, img2->rows));
- size = image_dup_new(&ctx, img2, dup2);
+ dup2 = mp_start(pool, image_dup_estimate_size(img2->cols, img2->rows, 1, idc.qtree_limit));
+ size = image_dup_new(&idc, img2, dup2, 1);
TRY(size);
mp_end(pool, (void *)dup2 + size);
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