I'm throwin' some stuff 'round and wonder just like in title.
Let's say I throw a cube and it falls on ground with 45, 45, 0 rotations (on it's corner). Now in a 'perfect' world, the cube wouldn't consist of atoms, and it would be 'perfect', there would be no wind (or any lesser movement of air) etc. and in the end the cube would stay on it's corner. But we don't live in such a boring 'perfect' world, and the physics emulators should take this into account and they do quite nicely. So the cube falls on it's side.
Now my question is, how random is that? Does the cube always fall on it's left side? Or maybe it depends on Math.random()? Or maybe it depends on current time? Or maybe it depends on some custom random function, that takes not time, but parameters of objects on stage, as it's seed?
Why I am making this question is, that if the randomness wasn't based on time, I probably could cache results of collisions (when objects stop) for their particular initial position to optimize my animation. If I cached the whole animation, I wouldn't care, but If I only cached the end result, I could be surprised that two exactly same situations can evaluate to different results and then the other wouldn't fit my cached version.
I could just check the source for Math.random functions, but that would be a shallow method, as the code is surely optimized, and as such sophisticated randomization isn't needed there, I personally would use something like fallLeft = time % 2. Also, the code could change with time.
Couldn't find anything about AwayPhysics here, so probably it's something new for everyone - that's why I added the parentheses part; the world won't explode if I'll assume one thing and it happens that in AwayPhysics it's opposite, just what's the standard?
Thanks in advance, You're awesome.