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33b346991a
git-svn-id: https://tesseract-ocr.googlecode.com/svn/trunk@562 d0cd1f9f-072b-0410-8dd7-cf729c803f20
290 lines
11 KiB
C++
290 lines
11 KiB
C++
/**********************************************************************
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* File: underlin.cpp (Formerly undrline.c)
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* Description: Code to chop blobs apart from underlines.
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* Author: Ray Smith
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* Created: Mon Aug 8 11:14:00 BST 1994
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*
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* (C) Copyright 1994, Hewlett-Packard Ltd.
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** Licensed under the Apache License, Version 2.0 (the "License");
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** you may not use this file except in compliance with the License.
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** You may obtain a copy of the License at
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** http://www.apache.org/licenses/LICENSE-2.0
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** Unless required by applicable law or agreed to in writing, software
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** distributed under the License is distributed on an "AS IS" BASIS,
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** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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** See the License for the specific language governing permissions and
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** limitations under the License.
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*
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**********************************************************************/
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#include "mfcpch.h"
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#ifdef __UNIX__
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#include <assert.h>
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#endif
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#include "underlin.h"
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#define PROJECTION_MARGIN 10 //arbitrary
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#define EXTERN
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EXTERN double_VAR (textord_underline_offset, 0.1, "Fraction of x to ignore");
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EXTERN BOOL_VAR (textord_restore_underlines, TRUE,
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"Chop underlines & put back");
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/**********************************************************************
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* restore_underlined_blobs
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*
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* Find underlined blobs and put them back in the row.
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**********************************************************************/
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void restore_underlined_blobs( //get chop points
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TO_BLOCK *block //block to do
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) {
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inT16 chop_coord; //chop boundary
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TBOX blob_box; //of underline
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BLOBNBOX *u_line; //underline bit
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TO_ROW *row; //best row for blob
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ICOORDELT_LIST chop_cells; //blobs to cut out
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//real underlines
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BLOBNBOX_LIST residual_underlines;
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C_OUTLINE_LIST left_coutlines;
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C_OUTLINE_LIST right_coutlines;
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ICOORDELT_IT cell_it = &chop_cells;
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//under lines
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BLOBNBOX_IT under_it = &block->underlines;
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BLOBNBOX_IT ru_it = &residual_underlines;
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if (block->get_rows()->empty())
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return; // Don't crash if there are no rows.
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for (under_it.mark_cycle_pt (); !under_it.cycled_list ();
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under_it.forward ()) {
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u_line = under_it.extract ();
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blob_box = u_line->bounding_box ();
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row = most_overlapping_row (block->get_rows (), u_line);
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find_underlined_blobs (u_line, &row->baseline, row->xheight,
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row->xheight * textord_underline_offset,
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&chop_cells);
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cell_it.set_to_list (&chop_cells);
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for (cell_it.mark_cycle_pt (); !cell_it.cycled_list ();
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cell_it.forward ()) {
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chop_coord = cell_it.data ()->x ();
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if (cell_it.data ()->y () - chop_coord > textord_fp_chop_error + 1) {
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split_to_blob (u_line, chop_coord,
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textord_fp_chop_error + 0.5,
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&left_coutlines,
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&right_coutlines);
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if (!left_coutlines.empty()) {
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ru_it.add_after_then_move(new BLOBNBOX(new C_BLOB(&left_coutlines)));
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}
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chop_coord = cell_it.data ()->y ();
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split_to_blob(NULL, chop_coord, textord_fp_chop_error + 0.5,
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&left_coutlines, &right_coutlines);
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if (!left_coutlines.empty()) {
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row->insert_blob(new BLOBNBOX(new C_BLOB(&left_coutlines)));
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} else {
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fprintf(stderr,
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"Error:no outlines after chopping from %d to %d from (%d,%d)->(%d,%d)\n",
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cell_it.data ()->x (), cell_it.data ()->y (),
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blob_box.left (), blob_box.bottom (),
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blob_box.right (), blob_box.top ());
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ASSERT_HOST(FALSE);
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}
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u_line = NULL; //no more blobs to add
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}
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delete cell_it.extract();
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}
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if (!right_coutlines.empty ()) {
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split_to_blob(NULL, blob_box.right(), textord_fp_chop_error + 0.5,
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&left_coutlines, &right_coutlines);
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if (!left_coutlines.empty())
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ru_it.add_after_then_move(new BLOBNBOX(new C_BLOB(&left_coutlines)));
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}
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if (u_line != NULL) {
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if (u_line->cblob() != NULL)
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delete u_line->cblob();
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delete u_line;
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}
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}
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if (!ru_it.empty()) {
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ru_it.move_to_first();
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for (ru_it.mark_cycle_pt(); !ru_it.cycled_list(); ru_it.forward()) {
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under_it.add_after_then_move(ru_it.extract());
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}
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}
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}
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/**********************************************************************
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* most_overlapping_row
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*
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* Return the row which most overlaps the blob.
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**********************************************************************/
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TO_ROW *most_overlapping_row( //find best row
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TO_ROW_LIST *rows, //list of rows
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BLOBNBOX *blob //blob to place
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) {
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inT16 x = (blob->bounding_box ().left ()
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+ blob->bounding_box ().right ()) / 2;
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TO_ROW_IT row_it = rows; //row iterator
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TO_ROW *row; //current row
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TO_ROW *best_row; //output row
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float overlap; //of blob & row
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float bestover; //best overlap
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best_row = NULL;
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bestover = (float) -MAX_INT32;
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if (row_it.empty ())
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return NULL;
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row = row_it.data ();
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row_it.mark_cycle_pt ();
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while (row->baseline.y (x) + row->descdrop > blob->bounding_box ().top ()
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&& !row_it.cycled_list ()) {
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best_row = row;
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bestover =
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blob->bounding_box ().top () - row->baseline.y (x) + row->descdrop;
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row_it.forward ();
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row = row_it.data ();
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}
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while (row->baseline.y (x) + row->xheight + row->ascrise
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>= blob->bounding_box ().bottom () && !row_it.cycled_list ()) {
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overlap = row->baseline.y (x) + row->xheight + row->ascrise;
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if (blob->bounding_box ().top () < overlap)
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overlap = blob->bounding_box ().top ();
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if (blob->bounding_box ().bottom () >
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row->baseline.y (x) + row->descdrop)
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overlap -= blob->bounding_box ().bottom ();
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else
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overlap -= row->baseline.y (x) + row->descdrop;
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if (overlap > bestover) {
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bestover = overlap;
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best_row = row;
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}
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row_it.forward ();
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row = row_it.data ();
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}
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if (bestover < 0
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&& row->baseline.y (x) + row->xheight + row->ascrise
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- blob->bounding_box ().bottom () > bestover)
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best_row = row;
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return best_row;
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}
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/**********************************************************************
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* find_underlined_blobs
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*
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* Find the start and end coords of blobs in the underline.
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**********************************************************************/
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void find_underlined_blobs( //get chop points
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BLOBNBOX *u_line, //underlined unit
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QSPLINE *baseline, //actual baseline
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float xheight, //height of line
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float baseline_offset, //amount to shrinke it
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ICOORDELT_LIST *chop_cells //places to chop
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) {
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inT16 x, y; //sides of blob
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ICOORD blob_chop; //sides of blob
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TBOX blob_box = u_line->bounding_box ();
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//cell iterator
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ICOORDELT_IT cell_it = chop_cells;
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STATS upper_proj (blob_box.left (), blob_box.right () + 1);
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STATS middle_proj (blob_box.left (), blob_box.right () + 1);
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STATS lower_proj (blob_box.left (), blob_box.right () + 1);
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C_OUTLINE_IT out_it; //outlines of blob
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ASSERT_HOST (u_line->cblob () != NULL);
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out_it.set_to_list (u_line->cblob ()->out_list ());
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for (out_it.mark_cycle_pt (); !out_it.cycled_list (); out_it.forward ()) {
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vertical_cunderline_projection (out_it.data (),
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baseline, xheight, baseline_offset,
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&lower_proj, &middle_proj, &upper_proj);
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}
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for (x = blob_box.left (); x < blob_box.right (); x++) {
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if (middle_proj.pile_count (x) > 0) {
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for (y = x + 1;
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y < blob_box.right () && middle_proj.pile_count (y) > 0; y++);
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blob_chop = ICOORD (x, y);
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cell_it.add_after_then_move (new ICOORDELT (blob_chop));
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x = y;
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}
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}
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}
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/**********************************************************************
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* vertical_cunderline_projection
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*
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* Compute the vertical projection of a outline from its outlines
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* and add to the given STATS.
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**********************************************************************/
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void vertical_cunderline_projection( //project outlines
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C_OUTLINE *outline, //outline to project
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QSPLINE *baseline, //actual baseline
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float xheight, //height of line
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float baseline_offset, //amount to shrinke it
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STATS *lower_proj, //below baseline
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STATS *middle_proj, //centre region
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STATS *upper_proj //top region
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) {
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ICOORD pos; //current point
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ICOORD step; //edge step
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inT16 lower_y, upper_y; //region limits
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inT32 length; //of outline
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inT16 stepindex; //current step
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C_OUTLINE_IT out_it = outline->child ();
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pos = outline->start_pos ();
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length = outline->pathlength ();
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for (stepindex = 0; stepindex < length; stepindex++) {
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step = outline->step (stepindex);
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if (step.x () > 0) {
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lower_y =
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(inT16) floor (baseline->y (pos.x ()) + baseline_offset + 0.5);
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upper_y =
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(inT16) floor (baseline->y (pos.x ()) + baseline_offset +
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xheight + 0.5);
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if (pos.y () >= lower_y) {
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lower_proj->add (pos.x (), -lower_y);
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if (pos.y () >= upper_y) {
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middle_proj->add (pos.x (), lower_y - upper_y);
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upper_proj->add (pos.x (), upper_y - pos.y ());
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}
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else
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middle_proj->add (pos.x (), lower_y - pos.y ());
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}
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else
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lower_proj->add (pos.x (), -pos.y ());
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}
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else if (step.x () < 0) {
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lower_y =
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(inT16) floor (baseline->y (pos.x () - 1) + baseline_offset +
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0.5);
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upper_y =
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(inT16) floor (baseline->y (pos.x () - 1) + baseline_offset +
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xheight + 0.5);
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if (pos.y () >= lower_y) {
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lower_proj->add (pos.x () - 1, lower_y);
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if (pos.y () >= upper_y) {
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middle_proj->add (pos.x () - 1, upper_y - lower_y);
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upper_proj->add (pos.x () - 1, pos.y () - upper_y);
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}
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else
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middle_proj->add (pos.x () - 1, pos.y () - lower_y);
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}
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else
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lower_proj->add (pos.x () - 1, pos.y ());
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}
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pos += step;
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}
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for (out_it.mark_cycle_pt (); !out_it.cycled_list (); out_it.forward ()) {
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vertical_cunderline_projection (out_it.data (),
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baseline, xheight, baseline_offset,
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lower_proj, middle_proj, upper_proj);
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}
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}
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