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I have 2 layers. A lines layer and a points layer.

For any given line, how can I find the points that intersect the envelope of the line, but not the line itself, or more specifically, not the to point or from point of the line.

I can obviously find all the points that intersect the line's envelope, and then do 1 by 1 tests on the found points to see if they intersect the to or from points of the line, but I was hoping there is an easier, faster way to do something of this nature.


An envelope or extent of a geometry is the smallest rectangle (polygon with 4 points) in which the geometry (polygon, polyline, line, etc.) will fit. The below diagram illustrates the envelope for a polygon, but a polyline will work similarly. Envelope

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What is "the envelope of the line"? How can a point intersect it? For that matter, how can a point intersect anything? –  user151323 Jun 10 '10 at 12:40
Correct me if I'm wrong, but it is the smallest "rectangle" (polygon with 4 points) in which a geometry will fit. Any point within that envelope will be returned by an intersection query. –  Jacques Bosch Jun 10 '10 at 13:15
@Jacques Bosch: Thanks. I didn't learn math and geometry in English. –  user151323 Jun 10 '10 at 14:17
@Developer Art: I'm not sure I under stand what you are getting at, nor why you commented in the first place if you are not familiar with Arc Objects. :) –  Jacques Bosch Jun 10 '10 at 15:42
Because I was genuinely interested in the question. I understood your explanation but I had no idea what these English terms referred to. Never mind. –  user151323 Jun 10 '10 at 15:59

1 Answer 1

up vote 1 down vote accepted

To find all points in the points layer that do not intersect an endpoint of a line in the lines layer, I would do this:

  1. Create a Dictionary<string,IPoint> of points in the points layer.
  2. Create a Dictionary<string,IPoint> of endpoints in the lines layer.
  3. Loop through each key in the first dictionary and check to see if the key exists in the second dictionary.

The string key is based on a concatenation of X, comma, and Y.

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Such a simple and obvious solution. Thanx. :) –  Jacques Bosch Jun 10 '10 at 18:34

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