# How to buffer an IPoint or IGeometry? (How to do buffered intersection checks on an IPoint?)

How would I buffer an IPoint to do an intersection check using IRelationalOperator?

I have, for arguments sake:

``````IPoint p1 = xxx;
IPoint p2 = yyy;
IRelationalOperator rel1 = (IRelationalOperator)p1;
if (rel.Intersects (p2))
// Do something
``````

But now I want to add a tolerance to my check, so I assume the right way to do that is by either buffering p1 or p2. Right? How do I add such a buffer?

Note: the Intersects method I am using is an extension method I wrote to simplify my code. Here it is:

``````/// <summary>
/// Returns true if the IGeometry is intersected.
/// This method negates the Disjoint method.
/// </summary>
/// <param name="relOp">The rel op.</param>
/// <param name="other">The other.</param>
/// <returns></returns>
public static bool Intersects (
this IRelationalOperator relOp,
IGeometry other)
{
return (!relOp.Disjoint (other));
}
``````
-
Changed the c# tag. See: stackoverflow.com/questions/247621/… –  chilltemp May 11 '10 at 21:34

OK, I found the answer. Or an answer. Use the ITopologicalOperator interface.

``````IPoint p1 = xxx;
IPoint p2 = yyy;
ITopologicalOperator topoOp = (ITopologicalOperator)p2 ;
IGeometry p2Bufferd = topoOp.Buffer (bufferSize);

IRelationalOperator rel1 = (IRelationalOperator)p1;
if (rel.Intersects (p2Bufferd))
// Do something
``````
-
In my opinion using IEnvelope.Expand(x,y,false) on a search point's envelope is better in most cases. Yes, you can get a few extra hits near the corners, but I suspect envelope searches are faster than geometries containing circulararcs - which is what Buffer returns. –  Kirk Kuykendall May 10 '10 at 14:09
Thanx. I'll look into that. –  Jacques Bosch May 11 '10 at 11:50
As a side note, I see your name around, but how many active ArcObjects users are there here on stackoverflow? Seems quite quiet. –  Jacques Bosch May 11 '10 at 11:51