/// <summary>
/// Return a list of the monotone chains
/// for the given list of coordinates.
/// </summary>
/// <param name="pts"></param>
/// <returns></returns>
public static ArrayList GetChains(Coordinates pts)
{
ArrayList mcList = new ArrayList();
int[] startIndex = GetChainStartIndices( pts );
for ( int i = 0; i < startIndex.Length - 1; i++ )
{
MonotoneChain mc = new MonotoneChain( pts, startIndex[i], startIndex[i + 1] );
mcList.Add( mc );
} // for ( int i = 0; i < startIndex.Length - 1; i++ )
return mcList;
} // public static ArrayList GetChains(Coordinates pts)
/// <summary>
///
/// </summary>
/// <param name="mc"></param>
/// <param name="start"></param>
public void Select(MonotoneChain mc, int start)
{
mc.GetLineSegment(start, ref _seg);
Select(_seg); // this does nothing...
}
/// <summary>
///
/// </summary>
/// <param name="rayEnv"></param>
/// <param name="mcSelecter"></param>
/// <param name="mc"></param>
private void TestMonotoneChain(Envelope rayEnv, MCSelecter mcSelecter, MonotoneChain mc)
{
mc.Select(rayEnv, mcSelecter);
}
/// <summary>
/// This function can be overridden if the original chains are needed.
/// </summary>
/// <param name="mc1"></param>
/// <param name="start1"></param>
/// <param name="mc2"></param>
/// <param name="start2"></param>
public void Overlap(MonotoneChain mc1, int start1, MonotoneChain mc2, int start2)
{
mc1.GetLineSegment(start1, ref _seg1);
mc2.GetLineSegment(start2, ref _seg2);
Overlap(_seg1, _seg2); // This does nothing.
} // public void Overlap(MonotoneChain mc1, int start1, MonotoneChain mc2, int start2)
} // public void ComputeOverlaps( MonotoneChain mc, MonotoneChainOverlapAction mco )
private void ComputeOverlaps(
int start0, int end0,
MonotoneChain mc,
int start1, int end1,
MonotoneChainOverlapAction mco)
{
Coordinate p00 = _pts[start0];
Coordinate p01 = _pts[end0];
Coordinate p10 = mc.GetCoordinates()[start1];
Coordinate p11 = mc.GetCoordinates()[end1];
//Trace.WriteLine( "ComputeIntersectsForChain:" + p00.ToString() + p01.ToString() + p10.ToString() + p11.ToString() );
// terminating condition for the recursion
if ( end0 - start0 == 1 && end1 - start1 == 1 )
{
mco.Overlap( this, start0, mc, start1 );
return;
}
// nothing to do if the envelopes of these chains don't overlap
_env1.Initialize( p00, p01 );
_env2.Initialize( p10, p11 );
if ( !_env1.Intersects( _env2 ) ) return;
// the chains overlap, so split each in half and iterate (binary search)
int mid0 = ( start0 + end0 ) / 2;
int mid1 = ( start1 + end1 ) / 2;
// Assert: mid != start or end (since we checked above for end - start <= 1)
// check terminating conditions before recursing
if ( start0 < mid0 )
{
if ( start1 < mid1 )
{
ComputeOverlaps( start0, mid0, mc, start1, mid1, mco );
}
if (mid1 < end1)
{
ComputeOverlaps( start0, mid0, mc, mid1, end1, mco );
}
} // if ( start0 < mid0 )
if ( mid0 < end0 )
{
if ( start1 < mid1 )
{
ComputeOverlaps(mid0, end0, mc, start1, mid1, mco);
}
if ( mid1 < end1 )
{
ComputeOverlaps(mid0, end0, mc, mid1, end1, mco);
}
} // if ( mid0 < end0 )
} // private void ComputeOverlaps(...
} // private void ComputeSelect(...
/// <summary>
///
/// </summary>
/// <param name="mc"></param>
/// <param name="mco"></param>
public void ComputeOverlaps( MonotoneChain mc, MonotoneChainOverlapAction mco )
{
ComputeOverlaps( _start, _end, mc, mc.StartIndex, mc.EndIndex, mco );
} // public void ComputeOverlaps( MonotoneChain mc, MonotoneChainOverlapAction mco )
/// <summary>
///
/// </summary>
/// <param name="mc"></param>
/// <param name="start"></param>
public void Select( MonotoneChain mc, int start )
{
mc.GetLineSegment( start, ref _seg );
Select( _seg ); // this does nothing...
}
/// <summary>
/// This function can be overridden if the original chains are needed.
/// </summary>
/// <param name="mc1"></param>
/// <param name="start1"></param>
/// <param name="mc2"></param>
/// <param name="start2"></param>
public void Overlap(MonotoneChain mc1, int start1, MonotoneChain mc2, int start2)
{
mc1.GetLineSegment( start1, ref _seg1 );
mc2.GetLineSegment( start2, ref _seg2 );
Overlap( _seg1, _seg2 ); // This does nothing.
} // public void Overlap(MonotoneChain mc1, int start1, MonotoneChain mc2, int start2)
} // private void ComputeSelect(...
/// <summary>
///
/// </summary>
/// <param name="mc"></param>
/// <param name="mco"></param>
public void ComputeOverlaps(MonotoneChain mc, MonotoneChainOverlapAction mco)
{
ComputeOverlaps(_start, _end, mc, mc.StartIndex, mc.EndIndex, mco);
} // public void ComputeOverlaps( MonotoneChain mc, MonotoneChainOverlapAction mco )
