Why are triangles always used for drawing surfaces in 3D? Why not a square or some other shape?

1Just to quickly add a bit, polygons (and more precisely triangles) is not the only way to render 3D surfaces: check out surfels (http://www.filipvanbouwel.be/master_thesis.php), voxels, etc.– Alexandre AbreuMay 23, 2011 at 17:28

@AlexandreAbreu Your link is dead.– Refael SheinkerJun 6, 2022 at 8:27

Bilinear patches (shaunramsey.com/research/bp/ramseybilinear.pdf) and Bezier surfaces (en.wikipedia.org/wiki/B%C3%A9zier_surface) types of splines are also sometimes used in drawing 3D surfaces.– Shaun RamseyMar 2, 2023 at 17:42

Nvidia has a nice update to my bilinear patch work in 2019 too: (research.nvidia.com/publication/…)– Shaun RamseyMar 2, 2023 at 17:43
3 Answers
Triangles can never be nonplanar; anything with more than 3 points can be nonplanar and thus unrenderable unless converted to triangles.
For example: A square is two triangles that are on the same plane, if all the points that make up the square are coplanar. It takes a lot of calculations to make sure all the points are coplanar, thus all polygons that are greater than 3 points are precalculated by decimating them into triangles and tested to make sure all the points are coplanar once, instead of on every frame that gets rendered.
Here is good reference about polygon meshes.
Planar Mesh
NonPlanar Mesh
and one more example that might make it clearer
The nonplanar mesh is degenerate and can't be sorted or rendered correctly in any sane manner. Triangles don't have this problem.
Efficiency
Triangles also are very memory efficient and can be sorted, and rendered extremely fast when using Triangle Strips which only need 1 point to be stored for each additional triangle after the first.
http://upload.wikimedia.org/wikipedia/en/0/03/Triangle_Strip.png
and Triangle Fans which is a special case of a Triangle Strip.

One more point to be made is that is relatively easy to establish when a ray of light hits a triangle and where the intersection lies. Moreover, the interpolation of color attributes between nodes is relatively easy to do. Aug 10, 2019 at 22:17

3Can you please explain why non planar surfaces are unrenderable? And can you please explain what you mean by unrenderable? Feb 9, 2022 at 0:50

Most of what is said above can be accomplished with planar convex poly meshes except for fans. There's no reason other polys/items can't be rendered and some do. But, if they are not rendered directly in hardware, they are slow. The reality is that hardware acceleration for rasterization was done for triangles and it was a sane choice (more in a second), so we use triangles. Early meshes were literally all over the place in terms of number of edges of a polygon. But, it is easy to turn any convex polygon into triangles, and so as a base primitive, triangles make sense. Compact, planar, simple. Mar 2, 2023 at 17:49
Since 3 points are the minimum necessary to define a planar surface any shape can be simulated using many triangles, and efficient algorithms exist to rapidly paint triangles onto the screen.
Basically any complex (surface) structure can be represented as a bunch of triangles. The triangle is the most atomic and primitive geometry. Hence it is used as base for almost anything. Nevertheless most 3D engines provide you with more complex primitives like spheres, cones, cylinders, donuts, whatnot. Check your libraries documentation.