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https://github.com/tesseract-ocr/tesseract.git
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4d514d5a60
git-svn-id: https://tesseract-ocr.googlecode.com/svn/trunk@878 d0cd1f9f-072b-0410-8dd7-cf729c803f20
174 lines
5.8 KiB
C++
174 lines
5.8 KiB
C++
#include "statistc.h"
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#include "gap_map.h"
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#define EXTERN
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EXTERN BOOL_VAR (gapmap_debug, FALSE, "Say which blocks have tables");
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EXTERN BOOL_VAR (gapmap_use_ends, FALSE,
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"Use large space at start and end of rows");
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EXTERN BOOL_VAR (gapmap_no_isolated_quanta, FALSE,
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"Ensure gaps not less than 2quanta wide");
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EXTERN double_VAR (gapmap_big_gaps, 1.75, "xht multiplier");
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/*************************************************************************
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* A block gap map is a quantised histogram of whitespace regions in the
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* block. It is a vertical projection of wide gaps WITHIN lines
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*
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* The map is held as an array of counts of rows which have a wide gap
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* covering that region of the row. Each bucket in the map represents a width
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* of about half an xheight - (The median of the xhts in the rows is used.)
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*
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* The block is considered RECTANGULAR - delimited by the left and right
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* extremes of the rows in the block. However, ONLY wide gaps WITHIN a row are
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* counted.
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*
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*************************************************************************/
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GAPMAP::GAPMAP( //Constructor
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TO_BLOCK *block //block
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) {
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TO_ROW_IT row_it; //row iterator
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TO_ROW *row; //current row
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BLOBNBOX_IT blob_it; //iterator
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TBOX blob_box;
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TBOX prev_blob_box;
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inT16 gap_width;
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inT16 start_of_row;
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inT16 end_of_row;
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STATS xht_stats (0, 128);
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inT16 min_quantum;
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inT16 max_quantum;
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inT16 i;
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row_it.set_to_list (block->get_rows ());
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/*
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Find left and right extremes and bucket size
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*/
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map = NULL;
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min_left = MAX_INT16;
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max_right = -MAX_INT16;
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total_rows = 0;
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any_tabs = FALSE;
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for (row_it.mark_cycle_pt (); !row_it.cycled_list (); row_it.forward ()) {
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row = row_it.data ();
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if (!row->blob_list ()->empty ()) {
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total_rows++;
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xht_stats.add ((inT16) floor (row->xheight + 0.5), 1);
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blob_it.set_to_list (row->blob_list ());
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start_of_row = blob_it.data ()->bounding_box ().left ();
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end_of_row = blob_it.data_relative (-1)->bounding_box ().right ();
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if (min_left > start_of_row)
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min_left = start_of_row;
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if (max_right < end_of_row)
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max_right = end_of_row;
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}
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}
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if ((total_rows < 3) || (min_left >= max_right)) {
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total_rows = 0;
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min_left = max_right = 0;
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return;
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}
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bucket_size = (inT16) floor (xht_stats.median () + 0.5) / 2;
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map_max = (max_right - min_left) / bucket_size;
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map = (inT16 *) alloc_mem ((map_max + 1) * sizeof (inT16));
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for (i = 0; i <= map_max; i++)
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map[i] = 0;
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for (row_it.mark_cycle_pt (); !row_it.cycled_list (); row_it.forward ()) {
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row = row_it.data ();
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if (!row->blob_list ()->empty ()) {
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blob_it.set_to_list (row->blob_list ());
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blob_it.mark_cycle_pt ();
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blob_box = box_next (&blob_it);
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prev_blob_box = blob_box;
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if (gapmap_use_ends) {
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/* Leading space */
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gap_width = blob_box.left () - min_left;
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if ((gap_width > gapmap_big_gaps * row->xheight)
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&& gap_width > 2) {
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max_quantum = (blob_box.left () - min_left) / bucket_size;
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if (max_quantum > map_max) max_quantum = map_max;
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for (i = 0; i <= max_quantum; i++)
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map[i]++;
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}
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}
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while (!blob_it.cycled_list ()) {
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blob_box = box_next (&blob_it);
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gap_width = blob_box.left () - prev_blob_box.right ();
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if ((gap_width > gapmap_big_gaps * row->xheight)
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&& gap_width > 2) {
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min_quantum =
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(prev_blob_box.right () - min_left) / bucket_size;
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max_quantum = (blob_box.left () - min_left) / bucket_size;
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if (max_quantum > map_max) max_quantum = map_max;
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for (i = min_quantum; i <= max_quantum; i++)
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map[i]++;
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}
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prev_blob_box = blob_box;
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}
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if (gapmap_use_ends) {
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/* Trailing space */
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gap_width = max_right - prev_blob_box.right ();
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if ((gap_width > gapmap_big_gaps * row->xheight)
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&& gap_width > 2) {
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min_quantum =
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(prev_blob_box.right () - min_left) / bucket_size;
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if (min_quantum < 0) min_quantum = 0;
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for (i = min_quantum; i <= map_max; i++)
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map[i]++;
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}
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}
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}
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}
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for (i = 0; i <= map_max; i++) {
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if (map[i] > total_rows / 2) {
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if (gapmap_no_isolated_quanta &&
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(((i == 0) &&
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(map[i + 1] <= total_rows / 2)) ||
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((i == map_max) &&
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(map[i - 1] <= total_rows / 2)) ||
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((i > 0) &&
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(i < map_max) &&
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(map[i - 1] <= total_rows / 2) &&
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(map[i + 1] <= total_rows / 2)))) {
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map[i] = 0; //prevent isolated quantum
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}
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else
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any_tabs = TRUE;
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}
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}
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if (gapmap_debug && any_tabs)
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tprintf ("Table found\n");
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}
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/*************************************************************************
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* GAPMAP::table_gap()
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* Is there a bucket in the specified range where more than half the rows in the
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* block have a wide gap?
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*************************************************************************/
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BOOL8 GAPMAP::table_gap( //Is gap a table?
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inT16 left, //From here
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inT16 right //To here
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) {
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inT16 min_quantum;
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inT16 max_quantum;
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inT16 i;
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BOOL8 tab_found = FALSE;
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if (!any_tabs)
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return FALSE;
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min_quantum = (left - min_left) / bucket_size;
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max_quantum = (right - min_left) / bucket_size;
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// Clip to the bounds of the array. In some circumstances (big blob followed
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// by small blob) max_quantum can exceed the map_max bounds, but we clip
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// here instead, as it provides better long-term safety.
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if (min_quantum < 0) min_quantum = 0;
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if (max_quantum > map_max) max_quantum = map_max;
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for (i = min_quantum; (!tab_found && (i <= max_quantum)); i++)
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if (map[i] > total_rows / 2)
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tab_found = TRUE;
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return tab_found;
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}
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