tesseract/cube/con_comp.h

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/**********************************************************************
* File: con_comp.h
* Description: Declaration of a Connected Component class
* Author: Ahmad Abdulkader
* Created: 2007
*
* (C) Copyright 2008, Google Inc.
** 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.
*
**********************************************************************/
#ifndef CONCOMP_H
#define CONCOMP_H
// The ConComp class implements the functionality needed for a
// Connected Component object and Connected Component (ConComp) points.
// The points consituting a connected component are kept in a linked-list
// The Concomp class provided methods to:
// 1- Compare components in L2R and R2L reading orders.
// 2- Merge ConComps
// 3- Compute the windowed vertical pixel density histogram for a specific
// windows size
// 4- Segment a ConComp based on the local windowed vertical pixel
// density histogram local minima
namespace tesseract {
// Implments a ConComp point in a linked list of points
class ConCompPt {
public:
ConCompPt(int x, int y) {
x_ = x;
y_ = y;
next_pt_ = NULL;
}
inline int x() { return x_; }
inline int y() { return y_; }
inline void Shift(int dx, int dy) {
x_ += dx;
y_ += dy;
}
inline ConCompPt * Next() { return next_pt_; }
inline void SetNext(ConCompPt *pt) { next_pt_ = pt; }
private:
int x_;
int y_;
ConCompPt *next_pt_;
};
class ConComp {
public:
ConComp();
virtual ~ConComp();
// accessors
inline ConCompPt *Head() { return head_; }
inline int Left() const { return left_; }
inline int Top() const { return top_; }
inline int Right() const { return right_; }
inline int Bottom() const { return bottom_; }
inline int Width() const { return right_ - left_ + 1; }
inline int Height() const { return bottom_ - top_ + 1; }
// Comparer used for sorting L2R reading order
inline static int Left2RightComparer(const void *comp1,
const void *comp2) {
return (*(reinterpret_cast<ConComp * const *>(comp1)))->left_ +
(*(reinterpret_cast<ConComp * const *>(comp1)))->right_ -
(*(reinterpret_cast<ConComp * const *>(comp2)))->left_ -
(*(reinterpret_cast<ConComp * const *>(comp2)))->right_;
}
// Comparer used for sorting R2L reading order
inline static int Right2LeftComparer(const void *comp1,
const void *comp2) {
return (*(reinterpret_cast<ConComp * const *>(comp2)))->right_ -
(*(reinterpret_cast<ConComp * const *>(comp1)))->right_;
}
// accessors for attribues of a ConComp
inline bool LeftMost() const { return left_most_; }
inline bool RightMost() const { return right_most_; }
inline void SetLeftMost(bool left_most) { left_most_ = left_most; }
inline void SetRightMost(bool right_most) { right_most_ = right_most;
}
inline int ID () const { return id_; }
inline void SetID(int id) { id_ = id; }
inline int PtCnt () const { return pt_cnt_; }
// Add a new pt
bool Add(int x, int y);
// Merge two connected components in-place
bool Merge(ConComp *con_comp);
// Shifts the co-ordinates of all points by the specified x & y deltas
void Shift(int dx, int dy);
// segments a concomp based on pixel density histogram local minima
ConComp **Segment(int max_hist_wnd, int *concomp_cnt);
// creates the vertical pixel density histogram of the concomp
int *CreateHistogram(int max_hist_wnd);
// find out the seg pts by looking for local minima in the histogram
int *SegmentHistogram(int *hist_array, int *seg_pt_cnt);
private:
int id_;
bool left_most_;
bool right_most_;
int left_;
int top_;
int right_;
int bottom_;
ConCompPt *head_;
ConCompPt *tail_;
int pt_cnt_;
};
}
#endif // CONCOMP_H