*
* This software may be freely distributed and used according to the terms
* of the GNU Lesser General Public License.
- *
- *
- * FIXME:
- * - many possible optimization
- * - compare normalized pictures (brightness, ...)
- * - a blur should help to deal with scaling errors
- * - maybe better/slower last step
- * - different thresholds for various transformations
- * - do not test all transformations for symetric pictures
- * - allocated memory could be easily decreased to about 1/3
- * for aspect ratio threshold near one
*/
-#define LOCAL_DEBUG
+#undef LOCAL_DEBUG
-#include "sherlock/sherlock.h"
+#include "lib/lib.h"
#include "lib/mempool.h"
+#include "lib/fastbuf.h"
#include "images/images.h"
-#include "images/dup-cmp.h"
+#include "images/duplicates.h"
-#include "lib/mempool.h"
-#include "lib/fastbuf.h"
#include <fcntl.h>
-static uns image_dup_ratio_threshold = 140;
-static uns image_dup_error_threshold = 600;
-static uns image_dup_tab_limit = 8;
-
-static inline byte *
-image_dup_block(struct image_dup *dup, uns tab_col, uns tab_row)
-{
- return dup->tab_pixels + (dup->tab_row_size << tab_row) + (3 << (tab_row + tab_col));
-}
-
-static inline struct image *
-image_dup_subimage(struct image_thread *thread, struct image_dup *dup, struct image *block, uns tab_col, uns tab_row)
-{
- return image_init_matrix(thread, block, image_dup_block(dup, tab_col, tab_row),
- 1 << tab_col, 1 << tab_row, 3 << tab_col, COLOR_SPACE_RGB);
-}
-
-static inline void
-pixels_average(byte *dest, byte *src1, byte *src2)
-{
- dest[0] = ((uns)src1[0] + (uns)src2[0]) >> 1;
- dest[1] = ((uns)src1[1] + (uns)src2[1]) >> 1;
- dest[2] = ((uns)src1[2] + (uns)src2[2]) >> 1;
-}
-
-int
-image_dup_init(struct image_thread *thread, struct image_dup *dup, struct image *img, struct mempool *pool)
-{
- DBG("image_dup_init()");
-
- ASSERT((img->flags & IMAGE_PIXEL_FORMAT) == COLOR_SPACE_RGB);
-
- dup->image = img;
- 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++);
- dup->tab_pixels = mp_alloc(pool, dup->tab_size = (12 << (dup->tab_cols + dup->tab_rows)));
- dup->tab_row_size = 6 << dup->tab_cols;
-
- /* Scale original image to right bottom block */
- {
- struct image block;
- if (!image_dup_subimage(thread, dup, &block, dup->tab_cols, dup->tab_rows))
- return 0;
- if (!image_scale(thread, &block, img))
- return 0;
- }
-
- /* Complete bottom row */
- for (uns i = dup->tab_cols; i--; )
- {
- byte *d = image_dup_block(dup, i, dup->tab_rows);
- byte *s = image_dup_block(dup, i + 1, dup->tab_rows);
- for (uns y = 0; y < (uns)(1 << dup->tab_rows); y++)
- for (uns x = 0; x < (uns)(1 << i); x++)
- {
- pixels_average(d, s, s + 3);
- d += 3;
- s += 6;
- }
- }
-
- /* Complete remaining blocks */
- for (uns i = 0; i <= dup->tab_cols; i++)
- {
- uns line_size = (3 << i);
- for (uns j = dup->tab_rows; j--; )
- {
- byte *d = image_dup_block(dup, i, j);
- byte *s = image_dup_block(dup, i, j + 1);
- for (uns y = 0; y < (uns)(1 << j); y++)
- {
- for (uns x = 0; x < (uns)(1 << i); x++)
- {
- pixels_average(d, s, s + line_size);
- d += 3;
- s += 3;
- }
- s += line_size;
- }
- }
- }
-
- return 1;
-}
-
static inline uns
err (int a, int b)
{
}
static inline int
-aspect_ratio_test(uns cols1, uns rows1, uns cols2, uns rows2)
+aspect_ratio_test(struct image_dup_context *ctx, uns cols1, uns rows1, uns cols2, uns rows2)
{
DBG("aspect_ratio_test(cols1=%u rows1=%u cols2=%u rows2=%u)", cols1, rows1, cols2, rows2);
uns r1 = cols1 * rows2;
uns r2 = rows1 * cols2;
return
- r1 <= ((r2 * image_dup_ratio_threshold) >> 7) &&
- r2 <= ((r1 * image_dup_ratio_threshold) >> 7);
+ r1 <= ((r2 * ctx->ratio_threshold) >> 7) &&
+ r2 <= ((r1 * ctx->ratio_threshold) >> 7);
}
static inline int
-average_compare(struct image_dup *dup1, struct image_dup *dup2)
+average_compare(struct image_dup_context *ctx, struct image_dup *dup1, struct image_dup *dup2)
{
byte *block1 = image_dup_block(dup1, 0, 0);
byte *block2 = image_dup_block(dup2, 0, 0);
err(block1[0], block2[0]) +
err(block1[1], block2[1]) +
err(block1[2], block2[2]);
- return e <= image_dup_error_threshold;
+ return e <= ctx->error_threshold;
}
static int
-blocks_compare(struct image_dup *dup1, struct image_dup *dup2, uns tab_col, uns tab_row, uns trans)
+blocks_compare(struct image_dup_context *ctx, struct image_dup *dup1, struct image_dup *dup2, uns tab_col, uns tab_row, uns trans)
{
DBG("blocks_compare(tab_col=%d tab_row=%d trans=%d)", tab_col, tab_row, trans);
+ ctx->sum_pixels += 1 << (tab_col + tab_row);
byte *block1 = image_dup_block(dup1, tab_col, tab_row);
byte *block2;
int col_step, row_step;
case 0: ;
uns err = (err_sum(block1, block2, 1 << (tab_col + tab_row)) >> (tab_col + tab_row));
DBG("average error=%d", err);
- return err <= image_dup_error_threshold;
+ ctx->error = err;
+ return err <= ctx->error_threshold;
case 1:
col_step = -3;
row_step = (3 << tab_col);
}
uns err = (err_sum_transformed(block1, block2, (1 << tab_col), (1 << tab_row), (3 << tab_col), col_step, row_step) >> (tab_col + tab_row));
DBG("average error=%d", err);
- return err <= image_dup_error_threshold;
+ ctx->error = err;
+ return err <= ctx->error_threshold;
}
static int
-same_size_compare(struct image_dup *dup1, struct image_dup *dup2, uns trans)
+same_size_compare(struct image_dup_context *ctx, struct image_dup *dup1, struct image_dup *dup2, uns trans)
{
- struct image *img1 = dup1->image;
- struct image *img2 = dup2->image;
+ struct image *img1 = &dup1->image;
+ struct image *img2 = &dup2->image;
+ if (!img1->pixels || !img2->pixels)
+ return 1;
+ ctx->sum_pixels += img1->cols * img1->rows;
byte *block1 = img1->pixels;
byte *block2 = img2->pixels;
int col_step, row_step;
}
uns err = (err_sum_transformed(block1, block2, img1->cols, img1->rows, img1->row_size, col_step, row_step) / ((u64)img1->cols * img1->rows));
DBG("average error=%d", err);
- return err <= image_dup_error_threshold;
+ ctx->error = err;
+ return err <= ctx->error_threshold;
}
-int
-image_dup_compare(struct image_dup *dup1, struct image_dup *dup2, uns flags)
+uns
+image_dup_compare(struct image_dup_context *ctx, struct image_dup *dup1, struct image_dup *dup2)
{
- DBG("image_dup_compare()");
- if (!average_compare(dup1, dup2))
+ DBG("image_dup_compare(%p, %p)", dup1, dup2);
+ if (!average_compare(ctx, dup1, dup2))
return 0;
- struct image *img1 = dup1->image;
- struct image *img2 = dup2->image;
+ struct image *img1 = &dup1->image;
+ struct image *img2 = &dup2->image;
+ uns flags = ctx->flags;
if (flags & IMAGE_DUP_SCALE)
{
DBG("Scale support");
- if (!aspect_ratio_test(img1->cols, img1->rows, img2->cols, img2->rows))
+ if (!aspect_ratio_test(ctx, img1->cols, img1->rows, img2->cols, img2->rows))
flags &= ~0x0f;
- if (!aspect_ratio_test(img1->cols, img1->rows, img2->rows, img2->cols))
+ if (!aspect_ratio_test(ctx, img1->cols, img1->rows, img2->rows, img2->cols))
flags &= ~0xf0;
}
else
if (flags & (1 << t))
{
DBG("Testing trans %d", t);
- for (uns i = MAX(cols, rows); i--; )
+ uns i = MAX(cols, rows), depth = 1;
+ while (i--)
{
+ depth++;
uns col = MAX(0, (int)(cols - i));
uns row = MAX(0, (int)(rows - i));
- if (!blocks_compare(dup1, dup2, col, row, t))
+ if (!blocks_compare(ctx, dup1, dup2, col, row, t))
break;
if (!i &&
(img1->cols != img2->cols || img1->rows != img2->rows ||
- same_size_compare(dup1, dup2, t)))
+ same_size_compare(ctx, dup1, dup2, t)))
{
result |= 1 << t;
if (!(flags & IMAGE_DUP_WANT_ALL))
return result;
+ else
+ break;
}
}
+ ctx->sum_depth += depth;
}
}
if (flags & 0xf0)
if (flags & (1 << t))
{
DBG("Testing trans %d", t);
- for (uns i = MAX(cols, rows); i--; )
+ uns i = MAX(cols, rows), depth = 1;
+ while (i--)
{
+ depth++;
uns col = MAX(0, (int)(cols - i));
uns row = MAX(0, (int)(rows - i));
- if (!blocks_compare(dup1, dup2, col, row, t))
+ if (!blocks_compare(ctx, dup1, dup2, col, row, t))
break;
if (!i &&
(img1->cols != img2->rows || img1->rows != img2->cols ||
- same_size_compare(dup1, dup2, t)) )
+ same_size_compare(ctx, dup1, dup2, t)) )
{
result |= 1 << t;
if (!(flags & IMAGE_DUP_WANT_ALL))
return result;
+ else
+ break;
}
}
+ ctx->sum_depth += depth;
}
}
return result;