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Nevermind that I'm the one who created the texture in the first place and I should know perfectly well how many mipmaps I loaded/generated for it. I'm doing this for a unit test. There doesn't seem to be a glGetTexParameter parameter to find this out. The closest I've come is something like this:

int max_level;
glGetTexParameter( GL_TEXTURE_2D, GL_TEXTURE_MAX_LEVEL, &max_level );
int max_mipmap = -1;
for ( int i = 0; i < max_level; ++i )
{
    int width;
    glGetTexLevelParameter( GL_TEXTURE_2D, i, GL_TEXTURE_WIDTH, &width );
    if ( 0 == width )
    {
        max_mipmap = i-1;
        break;
    }
)

Anyhow, glGetTexLevelParameter() will return 0 width for a nonexistent mipmap if I'm using an NVidia GPU, but with Mesa, it returns GL_INVALID_VALUE, which leads me to believe that this is very much the Wrong Thing To Do.

How do I find out which mipmap levels I've populated a texture with?

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2 Answers

up vote 5 down vote accepted

The spec is kinda fuzzy on this. It says that you will get GL_INVALID_VALUE if the level parameter is "larger than the maximum allowable level-of-detail". Exactly how this is defined is not stated.

The documentation for the function clears it up a bit, saying that it is the maximum possible number of LODs for the largest possible texture (GL_MAX_TEXTURE_SIZE). Other similar functions like the glFramebufferTexture family explicitly state this as the limit for GL_INVALID_VALUE. So I would expect that.

Therefore, Mesa has a bug. However, you could work around this by assuming that either 0 or a GL_INVALID_VALUE error means you've walked off the end of the mipmap array.

That being said, I would suggest employing glTexStorage and never having to even ask the question again. This will forcibly prevent someone from setting MAX_LEVEL to a value that's too large. It's pretty new, from GL 4.2, but it's implemented (or will be very soon) across all non-Intel hardware that's still being supported.

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Assuming you're building mipmaps in a standard way, the number of unique images will be something like ceil(log_2(max(width,height)))+1. This can be easily derived by noticing that mipmaps reduce image size by a factor of two each time until there is a single pixel.

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"something like"? Raahhh... –  Thomas Oct 5 '13 at 8:43
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