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zalzane

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About zalzane

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  1. I know you've put a lot of thought into your way of avoiding globals, but your editor example is a good example for passing references. At first many may think, I have this model editor and it can only do one model at a time. I've made a model editor and made the same assumption. Sure if that's true, just use a global or singleton rather than a more complex organization just to avoid using globals. But really, will an editor only store ONE model? Maybe this editor allows you to load a character model, but it can also load attachments like weapons. The editor can manipulate the character and the attachments. It seemed like only one model was needed, but after adding more functionality, now you need more than one. So when you open a dialog or tool in the editor, the dialog or tool will need to be passed a reference of what it will manipulate. I'll admit my example really wasn't that great, but inheritance based global access isn't around to replace something like a class full of references.   An infinitely better example would be an static-inheritance class giving access to something like the graphics device. On one of my older projects, the "sprite" class is typically accessed very far down the call stack. From the entrypoint of the program, you have to go through a few layers of gamestate logic, then UI logic, then all the way at the bottom is the sprite class. The sprite class needs access the graphics device, or whatever class is handling the graphics device. Instead of passing down a reference to the graphics device down a dozen layers of call stack, the Sprite class would inherit from a static class that contains the graphics device.   This way, access to the graphics device has to be explicitly defined through the use of inheritance, and any usage of the graphics device can be found by just looking at all the child classes that inherit from it. In addition, it's one less piece of trash floating around the global namespace.   I'll admit it's hacky as hell, but I'd rather have an ugly hack than restructure 10k lines of UI logic.
  2. One of the clever, but more contraversial alternatives I've found for sharing data between classes is to use inheritance/static fields. Let's say you're programming a 3D editor of some sort, and a list of vertexes in your model has to be shared between many classes. The options in this thread include simply passing the list as a parameter, setting up a singleton, or setting up a container class that gets passed at runtime.   With my inheritance method, you set up an abstract class that contains protected static fields for shared information - such as the list of vertexes that has to be shared. Any class that needs access to those vertexes would inherit the abstract class.   This can be extended into a tree of inheritance to allow different child classes to have different read/write permissions on the abstract class' fields, but I would restrain myself from doing this too much at risk of ending up with 3-4 depth inheritance trees.   The most significant issue with this model is that without the proper visualization tools, maintaining code that runs under this system can be very complicated, especially if you have poor docs.  In addition, if someone else was to read your code without knowing what you're doing - it's likely they would get very confused very fast. If you use this system extensively, I suggest writing an addon/macro for your development environment that lets you inspect what kind of inherited fields each class has without actually opening up the abstract class.
  3. Triangle strips are a major pain in the ass, especially when you're programatically generating geometry. Don't use them.   Depending on how you generate the terrain, it may be faster to just generate it each time the game loads rather than loading it from a file. I have a demo that uses opencl to generate terrain, and it can generate terrain an order of magnitude faster than it would take to load said terrain from disk.   For figuring out which triangle the mouse is mousing over, check this out.  http://xbox.create.msdn.com/en-US/education/catalog/sample/picking_triangle   You can basically copypaste their code for it.
  4. You could construct a linked list to represent the planet's mesh.     enum Direction{ Above, Below, Left, Right }; struct Vertex{ float phi; float theta; float r;  float cost; Vertex *neighbors; };   Using this method, the only real effort required is in the initial assembly of the linked list. For pathfinding you would just iterate through the linked list like you would for a normal array.
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