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I'm working on determining relationships (boundary/interior intersections) between two 3D objects (triangular faces) and stumbled on shapely, which I am interested in using instead of implementing my own point/segment/ray/triangle intersection functions.

However, I'm running into the following problem:

    >>> from shapely.geometry import Polygon
    >>> poly = Polygon([(0,1,1),(1,-1,1),(-1,-1,1)])
    >>> poly2 = Polygon([(0,1,0),(1,-1,0),(-1,-1,0)])
    >>> poly.intersects(poly2)
    True
    >>> poly.equals(poly2)
    True

The problem I seem to be running into is that the two polygons are equal in their 2D orthogonal projections (same triangle), but in different planes (one's at Z=1, other at Z=0), but shapely is saying they're equal and intersect.

Is there some magic I'm missing to make shapely think in 3 dimensions? I've been googling, but every example I've seen so far is only in two dimensions.

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1 Answer

up vote 3 down vote accepted

According to the Shapely manual, it states that the following for the z coordinate plane for geometric objects:

A third z coordinate value may be used when constructing instances, but has no effect on geometric analysis. All operations are performed in the x-y plane.

If your calculations require the z coordinate plane, then Shapely might not be for you. Of course, you could try to get the points of the polygon as a list and compare it to other polygons. However, if you want to have a Python geometric library that can handle the z dimension, you can find some here.

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Wow, I can't believe I missed that. I was staring at the documentation for a few hours this morning and just glossed over it. Thanks for pointing that out. –  squishy Feb 27 '12 at 21:03
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