Labeling.h

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/* Labeling.h
 *
 * Copyright (c) 2010, IMURA Masataka.
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
 * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
 * PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 * HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

#ifndef __LABELING_H__
#define __LABELING_H__

#include        <iostream>

#include        <algorithm>
#include        <list>
#include        <queue>

#define CLEAR_DST_BUFFER                1
#define CLEAR_ALL_DST_BUFFER    0
#define CALC_CENTER_OF_GRAVITY  1

template<class SrcT, class DstT>
class Labeling {
public:

        // raster segment /////////////////////////////////////////////////////////

        class RasterSegment {
        private:
                int     left_x;
                int     right_x;
                int     y;
                SrcT    source_value;
        public:
                RasterSegment( const int n_left_x, const int n_right_x,
                                           const int n_y, const SrcT n_source_value )
                        : left_x( n_left_x ), right_x( n_right_x ), y( n_y ),
                          source_value( n_source_value )
                {
                }
        
                ~RasterSegment()
                {
                }

                // get

                inline  int
                GetLeftX( void )        const
                {
                        return left_x;
                }

                inline  int
                GetRightX( void )       const
                {
                        return right_x;
                }
        
                inline  int
                GetY( void )    const
                {
                        return y;
                }

                inline  SrcT
                GetSourceValue( void )  const
                {
                        return source_value;
                }

                // get (short version)

                inline  int
                LeftX( void )   const
                {
                        return left_x;
                }

                inline  int
                RightX( void )  const
                {
                        return right_x;
                }
        
                inline  int
                Y( void )       const
                {
                        return y;
                }

                inline  SrcT
                SourceValue( void )     const
                {
                        return source_value;
                }

                friend  std::ostream&
                operator<<( std::ostream& s, RasterSegment& rs )
                {
                        s << rs.LeftX() << " "
                          << rs.RightX() << " "
                          << rs.Y() << " "
                          << rs.SourceValue() << std::endl;

                        return s;
                }
        };

        typedef std::list<RasterSegment *>              RSPList;
        typedef typename std::list<RasterSegment *>::iterator   RSPIterator;

        typedef std::queue<RasterSegment *>     RSPQueue;

        // information about region ///////////////////////////////////////////////
        
        class   RegionInfo {
        
        private:
                int             num_of_pixels;
                float   center_x, center_y;
                int             size_x, size_y;
                int             min_x, min_y;
                int             max_x, max_y;
                SrcT    source_value;
                DstT    result;
                RSPList raster_segment_list;
#if CALC_CENTER_OF_GRAVITY
                float   gravity_x, gravity_y;
#endif          
        public:
                // constructor and destructor
        
                RegionInfo()
                {
                        raster_segment_list.clear();
                }
                
                ~RegionInfo()
                {
                        RSPIterator     rspi;
                        for ( rspi = raster_segment_list.begin();
                                  rspi != raster_segment_list.end(); rspi++ ) {
                                RasterSegment   *rs = *rspi;
                                delete rs;
                        }
                        raster_segment_list.erase( raster_segment_list.begin(),
                                                                           raster_segment_list.end());
                }

                // a default copy constucter and an assignment operator
                // are suitable for this class.

                // declaration of functions

                // inline functions

                // set

                inline  void
                SetNumOfPixels( const int n_num_of_pixels )
                {
                        num_of_pixels = n_num_of_pixels;
                }

                inline  void
                SetCenter( const float x, const float y )
                {
                        center_x = x;
                        center_y = y;
                }

                inline  void
                SetSize( const int x, const int y )
                {
                        size_x = x;
                        size_y = y;
                }

                inline  void
                SetMin( const int x, const int y )
                {
                        min_x = x;
                        min_y = y;
                }

                inline  void
                SetMax( const int x, const int y )
                {
                        max_x = x;
                        max_y = y;
                }

                inline  void
                SetMinMax( const int n_min_x, const int n_min_y,
                                   const int n_max_x, const int n_max_y )
                {
                        SetMin( n_min_x, n_min_y );
                        SetMax( n_max_x, n_max_y );
                        SetCenter(( n_min_x + n_max_x ) / 2.0f,
                                          ( n_min_y + n_max_y ) / 2.0f );
                        SetSize( n_max_x - n_min_x + 1, n_max_y - n_min_y + 1 );
                }

                inline  void
                SetCenterOfGravity( const float x, const float y )
                {
                        gravity_x = x;
                        gravity_y = y;
                }

                inline  void
                SetSourceValue( const SrcT n_source_value )
                {
                        source_value = n_source_value;
                }

                inline  void
                SetResult( const DstT n_result )
                {               
                        result = n_result;
                }

                // get

                inline  int
                GetNumOfPixels( void )  const
                {
                        return num_of_pixels;
                }

                inline  void
                GetCenter( float& x, float& y ) const
                {
                        x = center_x;
                        y = center_y;
                }

                inline  void
                GetSize( int& x, int& y )       const
                {
                        x = size_x;
                        y = size_y;
                }

                inline  void
                GetMin( int& x, int& y )        const
                {
                        x = min_x;
                        y = min_y;
                }

                inline  void
                GetMax( int& x, int& y )        const
                {
                        x = max_x;
                        y = max_y;
                }

                inline  void
                GetCenterOfGravity( float& x, float& y )        const
                {
                        x = gravity_x;
                        y = gravity_y;
                }

                inline  SrcT
                GetSourceValue( void )  const
                {
                        return source_value;
                }

                inline  DstT
                GetResult( void )       const
                {
                        return result;
                }

                // list

                inline  RSPList&
                GetRasterSegmentList( void )
                {
                        return raster_segment_list;
                }

                inline  void
                Push( RasterSegment *rs )
                {
                        raster_segment_list.push_front( rs );
                }

                inline  void
                Pop( RasterSegment * & rs )
                {
                        RSPIterator     rspi = raster_segment_list.begin();
                        rs = *rspi;
                        raster_segment_list.erase( rspi );
                }

                inline  int
                GetNumOfRasterSegments( void )
                {
                        return raster_segment_list.size();
                }

                // operators

                friend  bool
                operator<( const RegionInfo& l, const RegionInfo& r )
                {
                        bool    b = ( l.GetNumOfPixels() < r.GetNumOfPixels());
                        return b;
                }

                friend  std::ostream&
                operator<<( std::ostream& s, RegionInfo& ri )
                {
                        int     x, y;
                        float   cx, cy;
                        
                        s << "num_of_pixels: " << ri.GetNumOfPixels() << std::endl;

                        ri.GetCenter( cx, cy );
                        s << "center: "        << cx << "," << cy << std::endl;

                        ri.GetSize( x, y );
                        s << "size:   "        << x << "," << y << std::endl;

                        ri.GetMin( x, y );
                        s << "min:    "        << x << "," << y << std::endl;

                        ri.GetMax( x, y );
                        s << "max:    "        << x << "," << y << std::endl;

#if CALC_CENTER_OF_GRAVITY
                        ri.GetCenterOfGravity( cx, cy );
                        s << "center_of_graivty: " << cx << "," << cy << std::endl;
#endif                  
                        
                        s << "source_value: "  
                          << static_cast<int>( ri.GetSourceValue()) << std::endl
                          << "result: "
                          << static_cast<int>( ri.GetResult())      << std::endl;

                        return s;
                }
        };

        typedef std::list<RegionInfo *>         RIPList;
        typedef typename std::list<RegionInfo *>::iterator      RIPIterator;

        typedef std::vector<RegionInfo *>       RIPVector;

private:
        static  const   int     DEFAULT_REGION_SIZE_MIN = 10;
        
        SrcT    *src_frame;
        DstT    *dst_frame;
        int     width;
        int     height;
        int     total_num;

        RSPList *raster_segment_list;
        int     num_of_raster_segments;

        RSPQueue        seed_queue;

        RIPList         region_info_list;
        int     num_of_regions;

        RIPVector       result_region_info;
        int     num_of_result_regions;

        // private functions

        void
        RegisterSegment( const int lx, const int rx,
                                         const int y, const SrcT src_value )
        {
                RasterSegment   *rs = new RasterSegment( lx, rx, y, src_value );

                raster_segment_list[ y ].push_back( rs );
                num_of_raster_segments++;
        }

        void
        SearchNeighboringSegment( RasterSegment *rs_seed, const int dy )
        {
                RSPList *rspl_p = &raster_segment_list[ rs_seed->Y() + dy ];
                RSPIterator     rspi;

                int     rs_seed_lx = rs_seed->LeftX();
                int     rs_seed_rx = rs_seed->RightX();
                int     rs_seed_source_value = rs_seed->SourceValue();

                rspi = rspl_p->begin();

#if 1
                if ( rspi == rspl_p->end()) {
                        return;
                }

                while (( *rspi )->RightX() < rs_seed_lx ) {
                        rspi++;
                        if ( rspi == rspl_p->end()) {
                                return;
                        }
                }
                RasterSegment   *rs;
                while (( rs = *rspi )->LeftX() <= rs_seed_rx ) {
                        if ( rs_seed_source_value == rs->SourceValue()) {
                                rspi = rspl_p->erase( rspi );
                                seed_queue.push( rs );
                        } else {
                                rspi++;
                        }
                        if ( rspi == rspl_p->end()) {
                                return;
                        }
                }

                return;
#endif
#if 0
                while ( rspi != rspl_p->end()) {
                        RasterSegment   *rs = *rspi;
                        if ( rs_seed_source_value == rs->SourceValue() 
                                 && rs_seed_lx <= rs->RightX()
                                 && rs_seed_rx >= rs->LeftX()) {
                                rspi = rspl_p->erase( rspi );
                                seed_queue.push( rs );
                        } else {
                                rspi++;
                        }
                }
#endif  
        }

        RegionInfo *
        ConnectRasterSegment( RasterSegment *rs_seed,
                                                  const DstT region_num )
        {
                RegionInfo      *ri = new RegionInfo;

                int     num_of_pixels = 0;
                int     min_x, min_y;
                int     max_x, max_y;
                SrcT    source_value;

                min_x = rs_seed->LeftX();
                max_x = rs_seed->RightX();
                min_y = max_y = rs_seed->Y();
                source_value = rs_seed->SourceValue();

#if CALC_CENTER_OF_GRAVITY
                int     sum_x = 0;
                int     sum_y = 0;
#endif
        
                seed_queue.push( rs_seed );

                while ( seed_queue.size() > 0 ) {
                        RasterSegment   *rs = seed_queue.front();
                        seed_queue.pop();
                        ri->Push( rs );

                        int     n = rs->RightX() - rs->LeftX() + 1;
                        num_of_pixels += n;
                        if ( rs->LeftX() < min_x ) {
                                min_x = rs->LeftX();
                        }
                        if ( rs->RightX() > max_x ) {
                                max_x = rs->RightX();
                        }
                        if ( rs->Y() < min_y ) {
                                min_y = rs->Y();
                        } else if ( rs->Y() > max_y ) {
                                max_y = rs->Y();
                        }
#if CALC_CENTER_OF_GRAVITY
                        sum_x += ( rs->LeftX() + rs->RightX()) * n;
                        sum_y += rs->Y() * n;
#endif                  

                        if ( rs->Y() > 0 ) {
                                SearchNeighboringSegment( rs, -1 );
                        }
                        if ( rs->Y() < height - 1 ) {
                                SearchNeighboringSegment( rs, 1 );
                        }
                }

                ri->SetNumOfPixels( num_of_pixels );
                ri->SetMinMax( min_x, min_y, max_x, max_y );
                ri->SetSourceValue( source_value );
                ri->SetResult( region_num );
#if CALC_CENTER_OF_GRAVITY
                float   gx = static_cast<float>( sum_x ) / ( 2 * num_of_pixels );
                float   gy = static_cast<float>( sum_y ) / num_of_pixels;
                ri->SetCenterOfGravity( gx, gy );
#endif
                return ri;
        }

        static  bool
        RevCompRegionInfoPointer( const RegionInfo * const &l,
                                                          const RegionInfo * const &r )
        {
                bool    b = ( l->GetNumOfPixels() > r->GetNumOfPixels());
                if ( l->GetNumOfPixels() == r->GetNumOfPixels()) {
                        int     lx, ly, rx, ry;
                        l->GetMin( lx, ly );
                        r->GetMin( rx, ry );
                        b = ( ly > ry );
                }
                return b;
        }

        void
        FillFrame( RegionInfo *ri, const DstT fill_value )
        {
#if 0
                while ( ri->GetNumOfRasterSegments() > 0 ) {
                        RasterSegment   *rs;
                        ri->Pop( rs );
                        DstT    *sp = dst_frame + rs->LeftX() + rs->Y() * width;
                        for ( int i = 0; i < rs->RightX() - rs->LeftX() + 1; i++ ) {
                                *sp++ = fill_value;
                        }
                }
#endif
                RSPList rspl = ri->GetRasterSegmentList();
                for ( RSPIterator rspi = rspl.begin(); rspi != rspl.end(); rspi++ ) {
                        RasterSegment   *rs = *rspi;
                        int     lx = rs->LeftX();
                        int     rx = rs->RightX();
                        int     y = rs->Y();
                        DstT    *sp = dst_frame + lx + y * width;
                        for ( int i = 0; i < ( rx - lx + 1 ); i++ ) {
                                *sp++ = fill_value;
                        }
                }
        }

public:

        inline  int
        GetNumOfRegions( void ) const
        {
                return num_of_regions;
        }
        
        inline  int
        GetNumOfResultRegions( void )   const
        {
                return num_of_result_regions;
        }

        inline  RegionInfo *
        GetResultRegionInfo( const int num )    const
        {
                return result_region_info[ num ];
        }

        Labeling()
        {
                raster_segment_list = 0;
                region_info_list.clear();
                result_region_info.clear();
        }

        virtual ~Labeling()
        {
                for ( RIPIterator ripi = region_info_list.begin();
                          ripi != region_info_list.end(); ripi++ ) {
                        RegionInfo      *ri = *ripi;
                        delete ri;
                }
                region_info_list.erase( region_info_list.begin(),
                                                                region_info_list.end());
                result_region_info.clear();
        }

#define CHECK_FOR_PHASE1        0
#define CHECK_FOR_PHASE2        0

        int
        Exec( SrcT *target, DstT *result,
                  int target_width, int target_height,
                  const bool is_sort_region,
                  const int region_size_min )
        {
                src_frame = target;
                dst_frame = result;

                width     = target_width;
                height    = target_height;
                total_num = width * height;

                // phase pre1

                for ( RIPIterator ripi = region_info_list.begin();
                          ripi != region_info_list.end(); ripi++ ) {
                        RegionInfo      *ri = *ripi;
                        delete ri;
                }
                region_info_list.erase( region_info_list.begin(),
                                                                region_info_list.end());
                result_region_info.clear();

                raster_segment_list = new RSPList[ height ];
                num_of_raster_segments = 0;

                // phase 1

                SrcT    *p = src_frame;

#if ( CLEAR_DST_BUFFER || CLEAR_ALL_DST_BUFFER )
                DstT    *q = dst_frame;
#endif
                if ( src_frame != reinterpret_cast<SrcT *>( dst_frame )) {
#if CLEAR_ALL_DST_BUFFER
                        for ( int i = 0; i < width * height; i++ ) {
                                *q++ = 0;
                        }
#endif          
                        for ( int y = 0; y < height; y++ ) {
                                int     lx = 0;
                                int     current_src_value = 0;
                                for ( int x = 0; x < width; x++ ) {
                                        if ( *p != current_src_value ) {
                                                if ( current_src_value != 0 ) { // raster segment
                                                        RegisterSegment( lx, x - 1, y, current_src_value );
                                                }
                                                current_src_value = *p;
                                                lx = x;
                                        }
#if ( CLEAR_DST_BUFFER && !CLEAR_ALL_DST_BUFFER )
                                        if ( *p == 0 ) {        // if src = 0
                                                *q = 0;                 // clear destination buffer
                                        }
                                        q++;
#endif                          
                                        p++;
                                }
                                if ( current_src_value != 0 ) {
                                        RegisterSegment( lx, width - 1, y, current_src_value );
                                }
                        }
                } else {        // no need to clear dst_frame if src_frame = dst_frame
                        for ( int y = 0; y < height; y++ ) {
                                int     lx = 0;
                                int     current_src_value = 0;
                                for ( int x = 0; x < width; x++ ) {
                                        if ( *p != current_src_value ) {
                                                if ( current_src_value != 0 ) { // raster segment
                                                        RegisterSegment( lx, x - 1, y, current_src_value );
                                                }
                                                current_src_value = *p;
                                                lx = x;
                                        }
                                        p++;
                                }
                                if ( current_src_value != 0 ) {
                                        RegisterSegment( lx, width - 1, y, current_src_value );
                                }
                        }
                }

#if     CHECK_FOR_PHASE1
                for ( int y = 0; y < height; y++ ) {
                        cout << y << ":" << raster_segment_list[ y ].size() << endl;
                        RSPList *rspl_p = &raster_segment_list[ y ];
                        RSPIterator     i;
                        for ( i = rspl_p->begin(); i != rspl_p->end(); i++ ) {
                                RasterSegment   *rs = *i;
                                cout << *rs;
                        }
                }
                cout << "num_of_raster_segments: " << num_of_raster_segments << endl;
#endif

                // phase pre2

                region_info_list.clear();
                num_of_regions = 0;

                // phase 2: connect

                for ( int y = 0; y < height; y++ ) {
                        RSPList *rspl_p = &raster_segment_list[ y ];
                        while ( rspl_p->size() > 0 ) {
                                RSPIterator     rspi = rspl_p->begin();
                                RasterSegment   *rs = *rspi;    // get 1 raster segment
                                rspl_p->erase( rspi );                  // remove from list

                                RegionInfo      *rip = ConnectRasterSegment( rs,
                                                                                                                 num_of_regions + 1 );
                                region_info_list.push_back( rip );
                                num_of_regions++;
                        }
                }

#if     CHECK_FOR_PHASE2
                for ( int y = 0; y < height; y++ ) {
                        if ( !raster_segment_list[ y ].empty()) {
                                cout << "mmmm" << y << endl;
                        }
                }

                int     n_p = 0;
                for ( RIPIterator ripi = region_info_list.begin();
                          ripi != region_info_list.end(); ripi++ ) {
                        RegionInfo      *ri = *ripi;
                        n_p += ri->GetNumOfPixels();
                        while ( ri->GetNumOfRasterSegments() > 0 ) {
                                RasterSegment   *rs;
                                ri->Pop( rs );
                                cout << *rs;
                        }
                }
                cout << "num_of_pixels: " << n_p << endl;
                cout << "num_of_regions: " << num_of_regions << endl;
#endif

                // phase 3
                // reorder by size

                result_region_info.resize( num_of_regions );
                int     n = 0;
                for ( RIPIterator ripi = region_info_list.begin();
                          ripi != region_info_list.end(); ripi++ ) {
                        result_region_info[ n ] = *ripi;
                        n++;
                }

                if ( is_sort_region ) {
                        // sort result_region_info by size

                        sort( result_region_info.begin(), result_region_info.end(),
                                  RevCompRegionInfoPointer );
                }

                // renumber IDs of RegionInfo

                if ( is_sort_region && region_size_min > 0 ) {
                        int     n = 0;
                        while ( n < num_of_regions
                                        && result_region_info[ n ]->GetNumOfPixels()
                                        >= region_size_min ) {
                                result_region_info[ n ]->SetResult( n + 1 );
                                n++;
                        }
                        num_of_result_regions = n;
                        for ( int i = n; i < num_of_regions; i++ ) {
                                result_region_info[ i ]->SetResult( 0 );
                        }
                } else {
                        for ( int i = 0; i < num_of_regions; i++ ) {
                                result_region_info[ i ]->SetResult( i + 1 );
                        }
                        num_of_result_regions = num_of_regions;
                }

                // phase 4
                // put label number for pixels

                for ( int i = 0; i < num_of_regions; i++ ) {
                        RegionInfo      *ri = result_region_info[ i ];
                        FillFrame( ri, ri->GetResult());
                }

                // clear

                delete [] raster_segment_list;

                return 0;
        }
};

typedef Labeling<unsigned char,short> LabelingBS;
typedef Labeling<short,short> LabelingSS;
typedef Labeling<unsigned char,short>::RegionInfo RegionInfoBS;
typedef Labeling<short,short>::RegionInfo RegionInfoSS;

#endif  // __LABELING_H__