tesseract/wordrec/chop.cpp

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/* -*-C-*-
********************************************************************************
*
* File: chop.c (Formerly chop.c)
* Description:
* Author: Mark Seaman, OCR Technology
* Created: Fri Oct 16 14:37:00 1987
* Modified: Tue Jul 30 16:41:11 1991 (Mark Seaman) marks@hpgrlt
* Language: C
* Package: N/A
* Status: Reusable Software Component
*
* (c) Copyright 1987, Hewlett-Packard Company.
** Licensed under the Apache License, Version 2.0 (the "License");
** you may not use this file except in compliance with the License.
** You may obtain a copy of the License at
** http://www.apache.org/licenses/LICENSE-2.0
** Unless required by applicable law or agreed to in writing, software
** distributed under the License is distributed on an "AS IS" BASIS,
** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
** See the License for the specific language governing permissions and
** limitations under the License.
*
*********************************************************************************/
/*----------------------------------------------------------------------
I n c l u d e s
----------------------------------------------------------------------*/
#include "chop.h"
#include "outlines.h"
#include "callcpp.h"
#include "plotedges.h"
#include "const.h"
#include "wordrec.h"
#include <math.h>
// Include automatically generated configuration file if running autoconf.
#ifdef HAVE_CONFIG_H
#include "config_auto.h"
#endif
namespace tesseract {
/*----------------------------------------------------------------------
F u n c t i o n s
----------------------------------------------------------------------*/
/**
* @name point_priority
*
* Assign a priority to and edge point that might be used as part of a
* split. The argument should be of type EDGEPT.
*/
PRIORITY Wordrec::point_priority(EDGEPT *point) {
return (PRIORITY)angle_change(point->prev, point, point->next);
}
/**
* @name add_point_to_list
*
* Add an edge point to a POINT_GROUP containg a list of other points.
*/
void Wordrec::add_point_to_list(PointHeap* point_heap, EDGEPT *point) {
if (point_heap->size() < MAX_NUM_POINTS - 2) {
PointPair pair(point_priority(point), point);
point_heap->Push(&pair);
}
#ifndef GRAPHICS_DISABLED
if (chop_debug > 2)
mark_outline(point);
#endif
}
// Returns true if the edgept supplied as input is an inside angle. This
// is determined by the angular change of the vectors from point to point.
bool Wordrec::is_inside_angle(EDGEPT *pt) {
return angle_change(pt->prev, pt, pt->next) < chop_inside_angle;
}
/**
* @name angle_change
*
* Return the change in angle (degrees) of the line segments between
* points one and two, and two and three.
*/
int Wordrec::angle_change(EDGEPT *point1, EDGEPT *point2, EDGEPT *point3) {
VECTOR vector1;
VECTOR vector2;
int angle;
float length;
/* Compute angle */
vector1.x = point2->pos.x - point1->pos.x;
vector1.y = point2->pos.y - point1->pos.y;
vector2.x = point3->pos.x - point2->pos.x;
vector2.y = point3->pos.y - point2->pos.y;
/* Use cross product */
length = (float)sqrt((float)LENGTH(vector1) * LENGTH(vector2));
if ((int) length == 0)
return (0);
angle = static_cast<int>(floor(asin(CROSS (vector1, vector2) /
length) / PI * 180.0 + 0.5));
/* Use dot product */
if (SCALAR (vector1, vector2) < 0)
angle = 180 - angle;
/* Adjust angle */
if (angle > 180)
angle -= 360;
if (angle <= -180)
angle += 360;
return (angle);
}
/**
* @name pick_close_point
*
* Choose the edge point that is closest to the critical point. This
* point may not be exactly vertical from the critical point.
*/
EDGEPT *Wordrec::pick_close_point(EDGEPT *critical_point,
EDGEPT *vertical_point,
int *best_dist) {
EDGEPT *best_point = NULL;
int this_distance;
int found_better;
do {
found_better = FALSE;
this_distance = edgept_dist (critical_point, vertical_point);
if (this_distance <= *best_dist) {
if (!(same_point (critical_point->pos, vertical_point->pos) ||
same_point (critical_point->pos, vertical_point->next->pos) ||
(best_point && same_point (best_point->pos, vertical_point->pos)) ||
is_exterior_point (critical_point, vertical_point))) {
*best_dist = this_distance;
best_point = vertical_point;
if (chop_vertical_creep)
found_better = TRUE;
}
}
vertical_point = vertical_point->next;
}
while (found_better == TRUE);
return (best_point);
}
/**
* @name prioritize_points
*
* Find a list of edge points from the outer outline of this blob. For
* each of these points assign a priority. Sort these points using a
* heap structure so that they can be visited in order.
*/
void Wordrec::prioritize_points(TESSLINE *outline, PointHeap* points) {
EDGEPT *this_point;
EDGEPT *local_min = NULL;
EDGEPT *local_max = NULL;
this_point = outline->loop;
local_min = this_point;
local_max = this_point;
do {
if (this_point->vec.y < 0) {
/* Look for minima */
if (local_max != NULL)
new_max_point(local_max, points);
else if (is_inside_angle (this_point))
add_point_to_list(points, this_point);
local_max = NULL;
local_min = this_point->next;
}
else if (this_point->vec.y > 0) {
/* Look for maxima */
if (local_min != NULL)
new_min_point(local_min, points);
else if (is_inside_angle (this_point))
add_point_to_list(points, this_point);
local_min = NULL;
local_max = this_point->next;
}
else {
/* Flat area */
if (local_max != NULL) {
if (local_max->prev->vec.y != 0) {
new_max_point(local_max, points);
}
local_max = this_point->next;
local_min = NULL;
}
else {
if (local_min->prev->vec.y != 0) {
new_min_point(local_min, points);
}
local_min = this_point->next;
local_max = NULL;
}
}
/* Next point */
this_point = this_point->next;
}
while (this_point != outline->loop);
}
/**
* @name new_min_point
*
* Found a new minimum point try to decide whether to save it or not.
* Return the new value for the local minimum. If a point is saved then
* the local minimum is reset to NULL.
*/
void Wordrec::new_min_point(EDGEPT *local_min, PointHeap* points) {
inT16 dir;
dir = direction (local_min);
if (dir < 0) {
add_point_to_list(points, local_min);
return;
}
if (dir == 0 && point_priority (local_min) < 0) {
add_point_to_list(points, local_min);
return;
}
}
/**
* @name new_max_point
*
* Found a new minimum point try to decide whether to save it or not.
* Return the new value for the local minimum. If a point is saved then
* the local minimum is reset to NULL.
*/
void Wordrec::new_max_point(EDGEPT *local_max, PointHeap* points) {
inT16 dir;
dir = direction (local_max);
if (dir > 0) {
add_point_to_list(points, local_max);
return;
}
if (dir == 0 && point_priority (local_max) < 0) {
add_point_to_list(points, local_max);
return;
}
}
/**
* @name vertical_projection_point
*
* For one point on the outline, find the corresponding point on the
* other side of the outline that is a likely projection for a split
* point. This is done by iterating through the edge points until the
* X value of the point being looked at is greater than the X value of
* the split point. Ensure that the point being returned is not right
* next to the split point. Return the edge point in *best_point as
* a result, and any points that were newly created are also saved on
* the new_points list.
*/
void Wordrec::vertical_projection_point(EDGEPT *split_point, EDGEPT *target_point,
EDGEPT** best_point,
EDGEPT_CLIST *new_points) {
EDGEPT *p; /* Iterator */
EDGEPT *this_edgept; /* Iterator */
EDGEPT_C_IT new_point_it(new_points);
int x = split_point->pos.x; /* X value of vertical */
int best_dist = LARGE_DISTANCE;/* Best point found */
if (*best_point != NULL)
best_dist = edgept_dist(split_point, *best_point);
p = target_point;
/* Look at each edge point */
do {
if (((p->pos.x <= x && x <= p->next->pos.x) ||
(p->next->pos.x <= x && x <= p->pos.x)) &&
!same_point(split_point->pos, p->pos) &&
!same_point(split_point->pos, p->next->pos) &&
!p->IsChopPt() &&
(*best_point == NULL || !same_point((*best_point)->pos, p->pos))) {
if (near_point(split_point, p, p->next, &this_edgept)) {
new_point_it.add_before_then_move(this_edgept);
}
if (*best_point == NULL)
best_dist = edgept_dist (split_point, this_edgept);
this_edgept =
pick_close_point(split_point, this_edgept, &best_dist);
if (this_edgept)
*best_point = this_edgept;
}
p = p->next;
}
while (p != target_point);
}
} // namespace tesseract