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I Am working on a 2D game in XNA that needs some physics. I have found that physics engines such as Farseer will not cut it due to some of the ways they work. (thats a long story involving rewriting the code 3 times to finally figure out that I needed to write the physics myself.) So according to the reference material I'm using, the only data that I need now is a normal for the surface of collision.

This is using per-pixel collision detection using sprites. I currently have an array of all the overlapping pixels and their locations. I would like to use that data to some how average the locations of the overlapping pixels to figure out the normal for that surface. this should then allow me to have collisions with objects of irregular shape but still retain realistic physics interaction.

If anyone has a suggestion on how I could use this pixel info to figure out the surface normal or something close enough, that would be great.


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up vote 2 down vote accepted

Considered storing normals for each point in your sprites (i.e. in separate texture) instead trying to compute them. This way you'll be able to adjust normals so your collisions look "natural" (in a sense of your game, not necessary correct from physics point of view).

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Your suggestion is intriguing. However, Could you please explain how one would store the normals in, and access them from, a texture?. I am not clear on this detail. – Corndog May 17 '11 at 1:56
Normal is jsut one or two (in 2D space) or 2/3 Float numbers. So it can be easily stored in a texture (see… for possible texture formats). Search for "normal mapping" samples to see how it commonly used (i.e. Pixel shader can access multiple textures at the same time so merging data from several textures is reasonably easy. – Alexei Levenkov May 17 '11 at 4:18

[Edited] - I like Alexei's sprite normals idea better than my table-driven approach, but still would add ...

You may want to consider just having the ability to attach a 2D geometry to each sprite. It will give you the ability to do real polygon collision. When you determine a sprite collision, look at the polygon of the two sprites and apply standard collision physics to them.

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This might work: Find your two worst offending pixels (one for each body) and apply a temporary spring between them to drive them apart. Basically whichever pixel combo has the largest overlap (opposite of separation) and apply a force proportional to the overlap amount. This will add energy to your system so consider adding a damper (force proportional to relative velocity) also. The equations I use often are:

(reduced mass) = 1/( 1/(mass 1) + 1/(mass 2) )
(stiffness) = (reduced mass) * (response freq)^2
(damping) = (ratio)*(reduced mass) * (response freq)

and I control the (response freq) and (ratio) amount to get the desired effect. Response frequency is how fast you want the overlap to correct itself, and "damping ratio" is a positive number than can be less or more than one that will let you fine tune your damping response.

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