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I've worked on a variety of demo projects with OpenGL and C++, but they've all involved simply rendering a single cube (or similarly simple mesh) with some interesting effects. For a simple scene like this, the vertex data for the cube could be stored in an inelegant global array. I'm now looking into rendering more complex scenes, with multiple objects of different types.

I think it makes sense to have different classes for different types of objects (Rock, Tree, Character, etc), but I'm wondering how to cleanly break up the data and rendering functionality for objects in the scene. Each class will store its own array of vertex positions, texture coordinates, normals, etc. However I'm not sure where to put the OpenGL calls. I'm thinking that I will have a loop (in a World or Scene class) that iterates over all the objects in the scene and renders them.

Should rendering them involve calling a render method in each object (Rock::render(), Tree::render(),...) or a single render method that takes in an object as a parameter (render(Rock), render(Tree),...)? The latter seems cleaner, since I won't have duplicate code in each class (although that could be mitigated by inheriting from a single RenderableObject class), and it allows the render() method to be easily replaced if I want to later port to DirectX. On the other hand, I'm not sure if I can keep them separate, since I might need OpenGL specific types stored in the objects anyway (vertex buffers, for example). In addition, it seems a bit cumbersome to have the render functionality separate from the object, since it will have to call lots of Get() methods to get the data from the objects. Finally, I'm not sure how this system would handle objects that have to be drawn in different ways (different shaders, different variables to pass in to the shaders, etc).

Is one of these designs clearly better than the other? In what ways can I improve upon them to keep my code well-organised and efficient?

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2 Answers 2

up vote 14 down vote accepted

Firstly, dont even bother with platform independence right now. wait until you have a much better idea of your architecture.

Doing a lot of draw calls/state changes is slow. The way that you do it in an engine is you generally will want to have a renderable class that can draw itself. This renderable will associated to whatever buffers it needs (e.g. vertex buffers) and other information (like vertex format, topology, index buffers etc). Shader input layouts can be associated to vertex formats.

You will want to have some primitive geo classes, but defer anything complex to some type of mesh class which handles indexed tris. For a performant app, you will want to batch up calls for similar input types in your shading pipeline to minimise unneccesary state changes and pipeline flushes.

Shaders parameters and textures are generally controlled via some material class that is associated to the renderable.

Each renderable in a scene itself is usually a component of a node in a hierarchical scene graph, where each node usually inherits the transform of its ancestors through some mechanism. You will probably want a scene culler that uses a spatial partitioning scheme to do fast visibility determination and avoid draw call overhead for things out of view.

The scripting/behaviour part of most interactive 3d apps is tightly connected or hooked into its scene graph node framework and an event/messaging system.

This all fits together in a high level loop where you update each subsystem based on time and draw the scene at current frame.

Obviously there are tonnes of little details left out but it can become very complex depending on how generalised and performant you want to be and what kind of visual complexity you are aiming for.

Your question of draw(renderable), vs renderable.draw() is more or less irrelevant until you determine how all the parts fit together.

[Update] After working in this space a bit more, some added insight:

Having said that, in commercial engines, its usually more like draw(renderBatch) where each render batch is an aggregation of objects that are homogenous in some meaningful way to the GPU, since iterating over heterogeneous objects (in a "pure" OOP scene graph via polymorphism) and calling obj.draw() one-by-one has horrible cache locality and is generally an inefficient use of GPU resources.

A practical suggestion is to write a first engine using a naive/"pure" approach to get really familiar with the domain space. Then on a second pass (or probably rewrite), focus on the hardware: things like memory representation, cache locality, pipeline state, and parallelism. Once you really start considering these things, you will realise that most of your initial design goes out the window. Good fun.

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Thanks, that gives me a few ideas to work with. One thing I don't quite understand is the distinction between the renderable class and the mesh class you mentioned. Wouldn't I want the mesh class to be a renderable that can draw itself? At a higher level, I think the design is going to be more complicated than I anticipated. Do you know of any online resources that provide a good introduction to designing a rendering system? Most OpenGL tutorials I've found introduce the process of drawing, texturing, and lighting a few triangles, without much discussion of bigger picture architecture. –  Jeff Mar 26 '12 at 20:00
    
@Jeff: No. A mesh is just a collection of vertex data. A mesh alone is not enough. To render something, you need a mesh, the shader you want to render with it, and the other assorted state (textures, etc). –  Nicol Bolas Mar 27 '12 at 0:37
    
@Jeff what Nicol said is correct. Not everything that you draw would be a mesh (e.g. you may also want to draw lines or some other primitive like quads where a mesh may be overkill). A mesh class should describe geometry (and sometimes material index per tri, and grouping/hierarchy) but not much else. Look into books that talk about game engine development (even if you arent making a game). A good one is "Game Engine Architecture", also the "Game Programming Gems" and "Game Engine Gems" have a lot of good info. You may also want to lurk the gamedev.net forums –  Preet Kukreti Mar 27 '12 at 1:26

I think OpenSceneGraph is kind of an answer. Take a look at it and its implementation. It should provide you with some interesting insights on how to use OpenGL, C++ and OOP.

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Thanks for the suggestion; I'll check it out and see if I can get something out of it. I think what I really need, though, is something a bit smaller in scale, a stepping stone somewhere between the typical OpenGL tutorials of rendering a lit, textured, spinning cube (for example) and a full graphics library. –  Jeff Mar 26 '12 at 20:07

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