[whatwg] Endianness of typed arrays

Benoit Jacob bjacob at mozilla.com
Wed Mar 28 12:34:04 PDT 2012


Before I joined this mailign list, Boris Zbarsky wrote:
> C)  Try to guess based on where the array buffer came from and have 
> different behavior for different array buffers.  With enough luck (or 
> good enough heuristics), would make at least some WebGL work, while also 
> making non-WebGL things loaded over XHR work.

FWIW, here is a way to do this that will always work and won't rely on "luck". The key idea is that by the time one draws stuff, all the information about how vertex attributes use buffer data must be known.

1. In webgl.bufferData implementation, don't call glBufferData, instead just cache the buffer data. 

2. In webgl.vertexAttribPointer, record the attributes structure (their types, how they use buffer data). Do not convert/upload buffers yet.

3. In the first WebGL draw call (like webgl.drawArrays) since the last bufferData/vertexAttribPointer call, do the conversion of buffers and the glBufferData calls. Use some heuristics to drop the buffer data cache, as most WebGL apps will not have a use for it anymore.

> In practice, if forced to implement a UA on a big-endian system today, I 
> would likely pick option (C)....  I wouldn't classify that as a victory 
> for standardization, but I'm also not sure what we can do at this point 
> to fix the brokenness.

I agree that seems to be the only way to support universal webgl content on big-endian UAs. It's not great due to the memory overhead, but at least it shouldn't incur a significant performance overhead, and it typically only incurs a temporary memory overhead as we should be able to drop the buffer data caches quickly in most cases. Also, buffers are typically 10x smaller than textures, so the memory overhead would typically be ~ 10% in corner cases where we couldn't drop the caches.

In conclusion: WebGL is not the worst here, there is a pretty reasonable avenue for big-endian UAs to implement it in a way that allows running the same unmodified content as little-endian UAs.

Benoit


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