To expand upon what Frogblast said, the template code defines two classes:
EAGLView class first tries to create an
ES2Renderer instance, but if that fails it creates an
ES1Renderer. The failure comes about if the
ES2Renderer is unable to set up an OpenGL ES 2.0 context using the following code:
context = [[EAGLContext alloc] initWithAPI:kEAGLRenderingAPIOpenGLES2];
if (!context || ![EAGLContext setCurrentContext:context] || ![self loadShaders])
If a device supports OpenGL ES 2.0, this should succeed. If not, the application falls back to the
ES1Renderer OpenGL ES 1.1 renderer.
The reason the application has two different rendering classes is that OpenGL ES 1.1 and 2.0 have different and incompatible rendering pipelines. OpenGL ES 2.0 lets you create programmable shaders for some stunning effects, but it can be more difficult to use for simple tasks than OpenGL ES 1.1.
Many people add fallbacks to their application if they use OpenGL ES 2.0, because only the iPhone 3G S and later devices have support for this never API. However, if you are developing an iPad-only application, you can assume it will have 2.0 support. You could also restrict your application to running on devices with this capability by adding the
opengles-2 key to the
UIRequiredDeviceCapabilities in your Info.plist.
You can use OpenGL ES 1.1 just fine on the newer devices, so if you want to disable the 2.0 rendering path you can have the EAGLView in the template ignore the
ES2Renderer class and just work with the
ES1Renderer. You could also take the OpenGL ES code from the
ES1Renderer and just place it within the EAGLView.