+// =========================================================================
+// @author Leonardo Florez Valencia
+// @email florez-l@javeriana.edu.co
+// =========================================================================
+
#ifndef __fpa__Base__MinimumSpanningTree__hxx__
#define __fpa__Base__MinimumSpanningTree__hxx__
-#include <limits>
-
// -------------------------------------------------------------------------
-template< class _TVertex, class _TSuperclass >
-const typename fpa::Base::MinimumSpanningTree< _TVertex, _TSuperclass >::
-TCollisions& fpa::Base::MinimumSpanningTree< _TVertex, _TSuperclass >::
+template< class _TVertex, class _Superclass >
+const typename fpa::Base::MinimumSpanningTree< _TVertex, _Superclass >::
+TCollisions& fpa::Base::MinimumSpanningTree< _TVertex, _Superclass >::
GetCollisions( ) const
{
return( this->m_Collisions );
}
// -------------------------------------------------------------------------
-template< class _TVertex, class _TSuperclass >
-void fpa::Base::MinimumSpanningTree< _TVertex, _TSuperclass >::
+template< class _TVertex, class _Superclass >
+void fpa::Base::MinimumSpanningTree< _TVertex, _Superclass >::
SetCollisions( const TCollisions& collisions )
{
static const unsigned long _inf =
}
// -------------------------------------------------------------------------
-template< class _TVertex, class _TSuperclass >
-void fpa::Base::MinimumSpanningTree< _TVertex, _TSuperclass >::
+template< class _TVertex, class _Superclass >
+void fpa::Base::MinimumSpanningTree< _TVertex, _Superclass >::
ClearSeeds( )
{
this->m_Seeds.clear( );
}
// -------------------------------------------------------------------------
-template< class _TVertex, class _TSuperclass >
-void fpa::Base::MinimumSpanningTree< _TVertex, _TSuperclass >::
+template< class _TVertex, class _Superclass >
+void fpa::Base::MinimumSpanningTree< _TVertex, _Superclass >::
AddSeed( const _TVertex& seed )
{
this->m_Seeds.push_back( seed );
}
// -------------------------------------------------------------------------
-template< class _TVertex, class _TSuperclass >
-typename fpa::Base::MinimumSpanningTree< _TVertex, _TSuperclass >::
-TVertices fpa::Base::MinimumSpanningTree< _TVertex, _TSuperclass >::
+template< class _TVertex, class _Superclass >
+typename fpa::Base::MinimumSpanningTree< _TVertex, _Superclass >::
+TVertices fpa::Base::MinimumSpanningTree< _TVertex, _Superclass >::
GetPath( const _TVertex& a ) const
{
- TVertices path;
+ TVertices vertices;
_TVertex it = a;
_TVertex p = this->GetParent( it );
while( it != p )
{
- path.push_front( it );
+ vertices.push_back( it );
it = p;
p = this->GetParent( it );
} // elihw
- path.push_front( it );
- return( path );
+ vertices.push_back( it );
+ return( vertices );
}
// -------------------------------------------------------------------------
-template< class _TVertex, class _TSuperclass >
-typename fpa::Base::MinimumSpanningTree< _TVertex, _TSuperclass >::
-TVertices fpa::Base::MinimumSpanningTree< _TVertex, _TSuperclass >::
+template< class _TVertex, class _Superclass >
+typename fpa::Base::MinimumSpanningTree< _TVertex, _Superclass >::
+TVertices fpa::Base::MinimumSpanningTree< _TVertex, _Superclass >::
GetPath( const _TVertex& a, const _TVertex& b ) const
{
static const unsigned long _inf =
std::numeric_limits< unsigned long >::max( );
- TVertices path;
+ TVertices vertices;
TVertices pa = this->GetPath( a );
TVertices pb = this->GetPath( b );
if( pa.size( ) > 0 && pb.size( ) > 0 )
unsigned long N = this->m_Seeds.size( );
for( unsigned long i = 0; i < N; ++i )
{
- if( this->m_Seeds[ i ] == pa.front( ) )
+ if( this->m_Seeds[ i ] == pa[ pa.size( ) - 1 ] )
ia = i;
- if( this->m_Seeds[ i ] == pb.front( ) )
+ if( this->m_Seeds[ i ] == pb[ pb.size( ) - 1 ] )
ib = i;
} // rof
+ // Check if there is a front-jump between given seeds
if( ia != ib )
{
- // Use this->m_FrontPaths from Floyd-Warshall
- if( this->m_FrontPaths[ ia ][ ib ] < _inf )
+ // Compute front path
+ std::vector< long > fpath;
+ fpath.push_back( ia );
+ while( ia != ib )
{
- // Compute front path
- std::vector< long > fpath;
+ ia = this->m_FrontPaths[ ia ][ ib ];
fpath.push_back( ia );
- while( ia != ib )
- {
- ia = this->m_FrontPaths[ ia ][ ib ];
- fpath.push_back( ia );
-
- } // elihw
-
- // Continue only if both fronts are connected
- unsigned int N = fpath.size( );
- if( N > 0 )
- {
- // First path: from start vertex to first collision
- path = this->GetPath(
- a, this->m_Collisions[ fpath[ 0 ] ][ fpath[ 1 ] ].first
- );
- // Intermediary paths
- for( unsigned int i = 1; i < N - 1; ++i )
- {
- TVertices ipath =
- this->GetPath(
- this->m_Collisions[ fpath[ i ] ][ fpath[ i - 1 ] ].first,
- this->m_Collisions[ fpath[ i ] ][ fpath[ i + 1 ] ].first
- );
- path.insert( path.end( ), ipath.begin( ), ipath.end( ) );
+ } // elihw
- } // rof
+ // Continue only if both fronts are connected
+ unsigned int N = fpath.size( );
+ if( N > 0 )
+ {
+ // First path: from start vertex to first collision
+ vertices = this->GetPath(
+ a, this->m_Collisions[ fpath[ 1 ] ][ fpath[ 0 ] ].first
+ );
- // Final path: from last collision to end point
- TVertices lpath =
+ // Intermediary paths
+ for( unsigned int i = 1; i < N - 1; ++i )
+ {
+ TVertices ipath =
this->GetPath(
- this->m_Collisions[ fpath[ N - 1 ] ][ fpath[ N - 2 ] ].first, b
+ this->m_Collisions[ fpath[ i ] ][ fpath[ i - 1 ] ].first,
+ this->m_Collisions[ fpath[ i ] ][ fpath[ i + 1 ] ].first
);
- path.insert( path.end( ), lpath.begin( ), lpath.end( ) );
+ for( long id = 0; id < ipath.size( ); ++id )
+ vertices.push_back( ipath[ id ] );
- } // fi
+ } // rof
+
+ // Final path: from last collision to end point
+ TVertices lpath =
+ this->GetPath(
+ this->m_Collisions[ fpath[ N - 2 ] ][ fpath[ N - 1 ] ].first, b
+ );
+ for( long id = 0; id < lpath.size( ); ++id )
+ vertices.push_back( lpath[ id ] );
} // fi
}
else
{
// Ignore common part: find common ancestor
- auto aIt = pa.begin( );
- auto bIt = pb.begin( );
- while( *aIt == *bIt && aIt != pa.end( ) && bIt != pb.end( ) )
+ long aIt = pa.size( ) - 1;
+ long bIt = pb.size( ) - 1;
+ bool cont = true;
+ while( aIt >= 0 && bIt >= 0 && cont )
{
- ++aIt;
- ++bIt;
+ cont = ( pa[ aIt ] == pb[ bIt ] );
+ aIt--;
+ bIt--;
} // elihw
+ aIt++;
+ bIt++;
// Glue both parts
- for( --aIt; aIt != pa.end( ); ++aIt )
- path.push_front( *aIt );
- for( ; bIt != pb.end( ); ++bIt )
- path.push_back( *bIt );
+ for( long cIt = 0; cIt <= aIt; ++cIt )
+ vertices.push_back( pa[ cIt ] );
+ for( ; bIt >= 0; --bIt )
+ vertices.push_back( pb[ bIt ] );
} // fi
} // fi
- return( path );
+ return( vertices );
}
// -------------------------------------------------------------------------
-template< class _TVertex, class _TSuperclass >
-fpa::Base::MinimumSpanningTree< _TVertex, _TSuperclass >::
+template< class _TVertex, class _Superclass >
+fpa::Base::MinimumSpanningTree< _TVertex, _Superclass >::
MinimumSpanningTree( )
: Superclass( )
{
}
// -------------------------------------------------------------------------
-template< class _TVertex, class _TSuperclass >
-fpa::Base::MinimumSpanningTree< _TVertex, _TSuperclass >::
+template< class _TVertex, class _Superclass >
+fpa::Base::MinimumSpanningTree< _TVertex, _Superclass >::
~MinimumSpanningTree( )
{
}