# how to sort objects for Guendelman shock propagation?

This is a question regarding forming a topographical tree in 3D. A bit of context: I have a physics engine where I have bodies and collision points and some constraints. This is not homework, but an experiment in a multi-threading.

I need to sort the bodies in a bottom-to-top fashion with groups of objects belonging to layers like in this document: See section on "shock-propagation" http://www2.imm.dtu.dk/visiondag/VD05/graphical/slides/kenny.pdf

the pseudocode he uses to describe how to iterate over the tree makes perfect sense:

``````shock-propagation(algorithm A)
compute contact graph
for each stack layer in bottom up order
fixate bottom-most objects of layer
apply algorithm A to layer
un-fixate bottom-most objects of layer
next layer
``````

I already have algorithm A figured out (my impulse code). What would the pseudocode look like for tree/layer sorting (topo sort?) with a list of 3D points?

I.E., I don't know where to stop/begin the next "rung" or "branch". I guess I could just chunk it up by y position, but that seems clunky and error prone. Do I look into topographical sorting? I don't really know how to go about this in 3D. How would I get "edges" for a topo sort, if that's the way to do it?

Am I over thinking this and I just "connect the dots" by finding point p1 then the least distant next point p2 where p2.y > p1.y ? I see a problem here where p1 distance from p0 could be greater than p2 using pure distances, which would lead to a bad sort.

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i just tackled this myself.

I found an example of how to accomplish this in the downloadable source code linked to this paper:

http://www-cs-students.stanford.edu/~eparker/files/PhysicsEngine/

Specifically the WorldState.cs file starting at line 221.

But the idea being that you assign all static objects with the level of -1 and each other object with a different default level of say -2. Then for each collision with the bodies at level -1 you add the body it collided with to a list and set its level to 0.

After that using a while loop while(list.Count > 0) check for the bodies that collide with it and set there levels to the body.level + 1.

After that, for each body in the simulation that still has the default level (i said -2 earlier) set its level to the highest level.

There are a few more fine details, but looking at the code in the example will explain it way better than i ever could.

Hope it helps!

Relevant Code from Evan Parker's code. [Stanford]

``````{{{

// topological sort (bfs)
// TODO check this
int max_level = -1;
while (queue.Count > 0)
{
RigidBody a = queue.Dequeue() as RigidBody;
//Console.Out.WriteLine("considering collisions with '{0}'", a.Name);
if (a.level > max_level) max_level = a.level;
foreach (CollisionPair cp in a.collisions)
{
RigidBody b = (cp.body[0] == a ? cp.body[1] : cp.body[0]);
//Console.Out.WriteLine("considering collision between '{0}' and '{1}'", a.Name, b.Name);
if (!b.levelSet)
{
b.level = a.level + 1;
b.levelSet = true;
queue.Enqueue(b);
//Console.Out.WriteLine("found body '{0}' in level {1}", b.Name, b.level);
}
}
}

int num_levels = max_level + 1;

//Console.WriteLine("num_levels = {0}", num_levels);

ArrayList[] bodiesAtLevel = new ArrayList[num_levels];
ArrayList[] collisionsAtLevel = new ArrayList[num_levels];
for (int i = 0; i < num_levels; i++)
{
bodiesAtLevel[i] = new ArrayList();
collisionsAtLevel[i] = new ArrayList();
}

for (int i = 0; i < bodies.GetNumBodies(); i++)
{
RigidBody a = bodies.GetBody(i);
if (!a.levelSet || a.level < 0) continue; // either a static body or no contacts

// add a to a's level

// add collisions involving a to a's level
foreach (CollisionPair cp in a.collisions)
{
RigidBody b = (cp.body[0] == a ? cp.body[1] : cp.body[0]);
if (b.level <= a.level) // contact with object at or below the same level as a
{
// make sure not to add duplicate collisions
bool found = false;
foreach (CollisionPair cp2 in collisionsAtLevel[a.level])
if (cp == cp2) found = true;

}
}
}

for (int step = 0; step < num_contact_steps; step++)
{
for (int level = 0; level < num_levels; level++)
{
// process all contacts
foreach (CollisionPair cp in collisionsAtLevel[level])
{
cp.ResolveContact(dt, (num_contact_steps - step - 1) * -1.0f/num_contact_steps);
}
}
}

}}}
``````
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I had actually come across this before, but was unable to compile and didn't have the time to debug the errors. I ended up kind of coming close with my algorithm in the end, enough to work. –  FlavorScape Jan 21 '13 at 18:01