Algorithmic and Architectural Gaming Design: Implementation and Development

Algorithmic and Architectural Gaming Design: Implementation and Development covers a myriad of game development topics. But what sets this book apart, in my opinion, is the focus on actual implementation. Of course I’m a bit biased since I was privileged to write the chapter Collision Detection Using the GJK Algorithm (chapter 11). The chapter is Read more about Algorithmic and Architectural Gaming Design: Implementation and Development[…]

Contact Points Using Clipping

Many have asked “How do I get the contact points from GJK?” or similar on the SAT, GJK, and EPA posts. I’ve finally got around to creating a post on this topic. Contact point generation is a vital piece of many applications and is usually the next step after collision detection. Generating good contact points is crucial to predictable and life-like iteractions between bodies. In this post I plan to cover a clipping method that is used in Box2d and dyn4j. This is not the only method available and I plan to comment about the other methods near the end of the post.

Prismatic Constraint

The next equality constraint we will derive is the prismatic constraint. A prismatic constraint is like the line constraint except it does not allow rotation about the anchor point. A prismatic constraint constraints the linear motion of the bodies along a line. An example of a prismatic joint is the slide of a semi-automatic pistol. The slide is moved back to charge the weapon, then released to its original position. The slide cannot rotate about the pistol, nor can it move up/down or left/right only along one axis.
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The dyn4j TestBed Now Uses JOGL

I recently released a new version of the TestBed application (which is used to test the dyn4j project. In this new version I decided to move from Java2D to OpenGL. There is a great open source project called JOGL that makes the OpenGL API available to Java. You can test out the new TestBed here. Read more about The dyn4j TestBed Now Uses JOGL[…]

Line Constraint

The next equality constraint we will derive is the line constraint. A line constraint is like a prismatic constraint (which will most likely be the next post) except allows rotation about the anchor point. A prismatic constraint constraints the linear motion of the bodies along a line. An example of a prismatic joint might be a roller coaster on the track. The cars cannot translate or rotate except along the track. For simplicity the prismatic constraint we will define is only for straight lines.
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Weld Constraint

The next equality constraint we will derive is the weld constraint. A weld constraint can be used to join two bodies at an anchor point in which the bodies must move and rotate together (all DOF are constrained).

This post will differ slightly from the previous posts. A weld joint is basically a revolute joint + an angle joint. In that case we can use the resulting Jacobians from those posts to skip a bit of the work.