Space operator()( int color )
{
Space base, sub, margin;
for ( typename Space::const_iterator it = base_.begin()
; it != base_.end(); ++it
)
{
typename Space::const_point pt( it );
if ( color_[ pt.index ] == color ) base.join( pt.element );
}
for ( typename Space::const_iterator it = base.begin()
; it != base.end(); ++it
)
{
typename Space::const_point pt0( it );
#ifdef ELAI_USE_C11
const Space&& adj = std::move( adjacent_( pt0.element ) );
#else
const Space adj = adjacent_( pt0.element );
#endif
sub.join( Element( pt0.element, color ) );
for ( typename Space::const_iterator jt = adj.begin()
; jt != adj.end(); ++jt
)
{
typename Space::const_point pt( jt );
if ( base.contain( pt.element ) || margin.contain( Element( pt.element, color ) ) ) continue;
int c = color_[ base_.index( pt.element ) ];
margin.join( Element( pt.element, color ), Element( pt.element, c ) );
}
}
return sub | margin;
}
Family operator()( int color, const Space& sub )
{
Space base, margin;
Family adjs;
for ( typename Space::const_iterator it = base_.begin()
; it != base_.end(); ++it
)
{
typename Space::const_point pt( it );
if ( color_[ pt.index ] == color ) base.join( pt.element );
}
for ( typename Space::const_iterator it = base.begin()
; it != base.end(); ++it
)
{
typename Space::const_point pt0( it );
#ifdef ELAI_USE_C11
const Space&& adj = std::move( adjacent_( pt0.element ) );
#else
const Space adj = adjacent_( pt0.element );
#endif
Neighbour neigh( Element( pt0.element, color ) );
for ( typename Space::const_iterator jt = adj.begin()
; jt != adj.end(); ++jt
)
{
typename Space::const_point pt( jt );
const Element pt1( pt.element, color );
if ( !base.contain( pt.element ) && !margin.contain( pt.element ) )
margin.join( pt.element, Element( pt.element, color ) ); // ( BASE, RECOLORED )
if ( !sub.contain( pt1 ) ) continue;
neigh.join( pt1 );
}
adjs.join( neigh );
}
for ( typename Space::const_marginal_iterator it = margin.internal_begin()
; it != margin.internal_end(); ++it
)
{
typename Space::const_internal_point pt0( it );
#ifdef ELAI_USE_C11
const Space&& adj = std::move( adjacent_( pt0.element ) );
#else
const Space adj = adjacent_( pt0.internal ); // BASE ELEMENT
#endif
Neighbour neigh( pt0.external ); // RECOLORED ELEMENT
for ( typename Space::const_iterator jt = adj.begin(); jt != adj.end(); ++jt )
{
typename Space::const_point pt( jt );
const Element pt1( pt.element, color );
if ( !sub.contain( pt1 ) ) continue;
neigh.join( pt1 );
}
adjs.join( neigh );
}
return adjs;
}
