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I'm not sure if this is the correct term for it, but what I believe I'm trying to do is write a "pipe" of sorts for GLSL shaders on OpenGL ES 2.0. The idea is that this will be a handy component, if you will, which will go into the graphics pipe of my engine. My target platform is Android. I'd like some criticism regarding my design methodology behind this. In a nutshell, it seems like I'm faced with either creating a dynamic processing pipe which I'm just able to simply specify some settings and add values to, or having a minimal amount of automation and still keeping things relatively low level in terms of how much code is being written, and what the code is doing.

The Details

So far, my design methodology is as follows:

  • Shader files are stored in the assets folder
  • Java acts as a frontend, gets all shader files, and stores each one in a Shader object which contains information about the type of shader and the original shader source.
  • Java then sends shader data to C++ in an array of these custom shader objects (i.e., not the OpenGL shader objects - yet), which are then parsed by the JNI.
  • Afterward, the JNI sends the shader sources obtained via Java to a ShaderHandler class singleton, which holds a multidimensional std::vector< std::vector< GLuint > > for each type of shader (one for vertex, one for fragment, one for texture, etc.).
    • The ShaderHandler class does the compiling and linking of the shader objects into a programmable interface, once this has been accomplished, it channels much of the heavy lifting by extending its functionality to component classes which act as ShaderVariable handlers, via assigning values to them dynamically. For instance, once could simply specify a value/vector/matrix/whatever and the number of indices to modify, and pass that into the ShaderVariable handler. As soon as that SVH gets, it it stores it in a std::map, using the name of the variable as its identifier.
  • When prompted to, these SVH objects (which are stored in a vector that resides in the ShaderHandler class) essentially bind the attributes and uniforms of whatever values exist in their std::maps, dynamically.

Some of the memory allocated is done through pointers, but, admittedly, most of this consists of the stack. I'm wondering if I should look into more dynamic memory allocation for this, as on an Android phone I would imagine a stack overflow could be very, very achievable with a methodology like this for a somewhat ambitious game with good graphics and the like.

Thoughts?

share|improve this question
    
Exactly what problem do you aim to solve with this? – Michael Slade May 5 '12 at 8:03
    
I aim to basically create a higher level abstraction interface which will save me lots of code in the future. The idea is that I'd like to be able to use the components I've created to simply specify a few arguments, and let the rest be done by the parser. If I wanted to render 3 spheres and have them collide with each other, for example, a system such as this would mitigate the required code for that. This is meant to be a graphics engine for the Android NDK, primarily. – zeboidlund May 5 '12 at 8:16

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