This includes the memory allocator and the morgue.
You can't actually write any data to the buffer yet, since we don't have
commands or temp buffers. Temp buffers (scratchpads) are coming soon.
- rm dynamicIndexing and nonUniformIndexing, for now (arrays aren't well
supported)
- rename compressed texture features
- move clip/cull distance to limit instead of feature (limit can be 0)
- Image supports loading files with multiple layers
- Image supports semantic flags like srgb, premultiplied, etc.
- Image:getPixel and :setPixel support more formats
- DDS loader supports BC4-BC7, DXT2/DXT4, uncompressed formats, etc.
We don't have a good way of returning filesystem error messages yet,
but it's still useful to return a boolean instead of a number to
detect failure of zero byte writes. Exposing the number of bytes
written is kind of weird since it's not very actionable.
There's a bug where arguments start at 0 instead of 1 in fused mode.
In fused mode, we aren't going to consume one of the command line
arguments for the project path like we normally do, so in order to
provide that argument to the lovr project at index 1, shift them all up
by one in boot.lua. We can only do this after the filesystem module is
loaded, so it can't go in main.c with all the other arg stuff.
The zero'th argument in fused mode is now the source path, just like how
it works in non-fused mode. This means the executable path is in the
arg table twice, which is sensible since in fused mode both the
interpreter and the interpreter's source are the same file.