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I'm writing a physics engine that uses Verlet integration, and i can't get some constraints to work right. Some (like a bond/weld constraint) are extra "soggy" and aren't stiff enough, while others (like an area constraint) are extra bouncy and send atoms flying. The code for my update ethod in my physics simulator is like this:

    ProcessRemovedItems();
    ProcessAddedItems();
    _colliderManager.Update(timestepSize);
    foreach (Atom atom in _atomList)
    {
        atom.Update(timestepSize);
    }
    for (int i = 0; i < _iterations; i++)
    {
        foreach (IConstraint constraint in _constraintList)
        {
            constraint.Update();
        }
    }

I've tried all idfferent combinations of update orders and none help. I have a vague idea of something about using iterations but have no clue what else would help. Any suggestions?

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Well, what exactly are you trying to achieve? Can't really relate your code to your problem description. What are the output you expecting from your codes? –  o.k.w Oct 21 '09 at 11:21
    
I'm trying to make the constraints behave how i want them to. –  RCIX Oct 21 '09 at 22:50

1 Answer 1

up vote 3 down vote accepted

You are correct in your assumptions of iterations.

By running the verlet integrator part multiple times in a frame, the stiffer and better the simulation works).

This is due to the following: say you have 5 atoms next to each other, and when the last atom gets integrated, it is moved a bit. unfortunately it is moved i to the atom next to it. It takes a complete frame, before the integration is done again and this is fixed (due to the constraints). How ever, chances are, the atoms again are placed inside the others.

so to counter this effect, the more iterations you do (so the more times per frame you call the integrator), the better the simulation will work and conform to your constraints,

however, you'll notice that the more you run the integrator per frame, the more processor power it will use. So there is a sweet spot somewhere which you have to find manually

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if i call each atom's update method 5 times with 1/5th the timestep each frame then it will feel much stiffer? –  RCIX Oct 21 '09 at 22:09
    
I've updated my code but now it didnt really help and blows up after a couple of seconds. No clue why... –  RCIX Oct 21 '09 at 22:47
    
Everywhere there's an update method (constraints, the collider manager) i've added the timestep as a factor which i multiply the force by before applying any forces to atoms, and i get the problem above. :confused: –  RCIX Oct 21 '09 at 22:52
    
you are right....my bad. I checked my sources, and it is ONLY the constraints which have to be done with multiple iterations. Running the integrator multiple times would make the simulation go way too fast of course. –  Toad Oct 22 '09 at 7:16
    
The idea is still the same as I described.... you run the constraints multiple times, since resolving one constraint might cause another to go wrong... so you have to recheck again. –  Toad Oct 22 '09 at 7:16

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