They are used to remove the flush amounts, but as we don't
flush anymore on vertex loader changes (only on native
vertex format right now), this optimization is now unneeded.
This will allow us to hard code the frac factors within the
vertex loaders.
This fixes running Dolphin on the Nexus 9.
Android's EGL stack has internal arrays that they use for tracking OpenGL function usage. Probably has something to do with their OpenGL profiling
garbage that used to be in ADT.
Android has three of these arrays, each statically allocated.
One array is for all GLES 1.x functions
One array is for all GLES 2.0/3.0/3.1 and a couple of extensions they deem worthy of being in this array.
The last array is for all function pointers grabbed via eglGetProcAddress that isn't in the other two arrays.
The last array is the issue that we are having problems with. This array is 256 members in length.
So if you are pulling more than 256 function pointers that Google doesn't track in their internal array, the function will return NULL and yell at you
in logcat.
The Nvidia Shield Tablet gets around this by replacing part of the EGL stack with their own implementation that doesn't have this garbage.
The Nexus 9 on the other hand doesn't get away with this. So we pull >100 more function pointers than the array can handle, and some of those we need
to use.
The workaround for this is to grab OpenGL 1.1 functions last because we won't actually be using those functions, so we get away with not grabbing the
function pointers.
Fixes a typo where the official IMGTec drivers were said to be the OSS driver support.
Removes Mali GPU family detection just like I removed the Adreno family detection.
We don't support Mali Utgard anyway.
If we need family detection we can properly add it, right now it isn't needed.
Adreno 300 and 400 have the same video driver performance issues because they are very similar architectures which use basically the same thing with
everything.
There isn't any need to detect the family of the driver with Qualcomm anyway. If we ever need family specific bugs then we can implement real support
for that.
Performance issue on Adreno 400 series was due to us only detecting Adreno 300 series, and with Adreno 400 it wouldn't use the bugs, which would cause
it to use glBufferSubData, causing the huge performance hit.