After I implemented the render pass wrapper, seeing how the
RenderPassCreateInfo structure and its dependencies were HUGE compared
to the actual tiny and lean RenderPass, I felt uneasy dragging their
definition along to every place where a RenderPass gets used. It's not
as bad with the others, but as new extensions are implemented I expect
that to get the same.
This change makes it easier for me to accept that Image.h / Buffer.h
depends on Memory.h. There isn't a real measurable difference when
building Magnum itself (50 ms out of 7 seconds for the Vk library
alone), but that's because most of the code (and tests) needs the
CreateInfo structures anyway.
Although the APIs don't look like that right now, in many cases creation
of a particular Vulkan object isn't all that's there for it. So change
the section names from a generic "Usage" to "Creation".
Quite a big chunk of work, further expanded due to how
VK_KHR_create_renderpass2 is designed -- basically, due to the
tightly-packed nested structures that got replaced with their "version
2", we can no longer just extract the previous structure for backwards
compatibility, but instead have to deep-copy everything to a newly
allocated memory.
Thanks to the the new ArrayTuple structure and a few design iterations I
managed to kick the backwards-compatiblity code into just a single
allocation, while still keeping it possible for the "version 2" code
path to be fully allocation-free (if one passes a completely filled
VkRenderPassCreateInfo2 structure there).
Thus it has no place in the general overview docs of Vk::Instance and
Vk::Device. Better to put it into the VUlkan wrapping docs, where it
also makes sense to have both the device and instance side together.
Makes it possible to write Vk::Instance instance{{argc, argv}} which is
a good tradeoff between passing no arguments at all and doing the fully
verbose thing.
More convenient to use since one doesn't have to explicitly store a
DeviceProperties instance to call pickQueueFamily() on it and then move
it to DeviceCreateInfo to keep it efficient.
This required a slight redesign of how DeviceProperties are stored in
DeviceCreateInfo, now we need the instance to be always valid (but it
can get never used). The wrap() API isn't doing any extra work so this
won't add any inefficiency.
I have more and more cases where I need to query device properties later
down the road (memory capabilities, device name, ...) and leaving all
this up to the user / making this impossible to do in the library
internals is complicating everything too much.
Since there's a shitton of device properties with a new bag of props
coming with every other new extension, I expect the queries to get quite
involved / complicated over time (chaining 100s structs and such), so
let's design this upfront in a way that can avoid reqpeatedly querying
the same thing just because we needlessly discarded a fully populated
instance before.
It also means the users don't need to drag their own DeviceProperties
instance along anymore and can just let the Device take care of that.
Unfortunately the only nice way to make this work with DeviceCreateInfo
method chaining is to add & and && overloads for each. But it's quite
easy to test that all of them work and properly return a r-value
reference so it shouldn't be too much of a maintenance nightmare.
First of all, it's quite unusual to have an array of const chars. Then,
it was not really handling file opening errors, which is actually a VERY
BAD THING when you are wondering why your include isn't parsed.
This is a -- long overdue -- breaking change to the rendering output of
this shader, finally adding support for lights that get darker over
distance. The attenuation equation is basically what's documented in
LightData, and the distinction between directional and point lights is
made using a newly added the fourth component of position (which means
the old three-component setters are all deprecated). This allows the
shader code to be practically branchless, which I find to be nice.
This breaks basically all rendering output so all existing Phong and
MeshTools::compile() test outputs had to be regenerated.
There's actually a lot of code involved in checking if all textures use
the same transform or coordinate set, especially when considering all
fallback variants and potential future expansion with separate texture
offset/scale/rotation attributes.
A lot of the complexity was thus hidden in plugin implementations, which
were each trying to find a common value for all textures to save the
user from doing the same. All that code can now be removed and left up
to the material APIs themselves -- now it's just about checking
hasCommonTextureTransformation() and then retrieving that one common
transformation, independently on how the material actually defines it.
Turns out glTF doesn't actually put metalness into R and roughness into
G, even though the naming suggests that. This was done originally, but
then they changed that in order to be compatible with UE4 and allow for
a more efficient storage of an occlusion map.
Because this feels extremely arbitrary, the docs have added rationale
for each of the packing variants, and I'm also renaming the packed
attribute and checks to imply the red channel isn't used.
The plugin interface version got bumped to avoid ABI issues when loading
plugins that weren't updated for the change, but apart from that this
shouldn't be a breaking change, as the API returns a type that can be
both an Optional and a Pointer.
AbstractMaterialData is now just a typedef to MaterialData, with all
existing public APIs moved to (and marked as deprecated, if they don't
make sense anymore). The new class doesn't have a virtual destructor as
that's not the desired use anymore -- and AbstractImporter::material()
APIs will be returning an Optional instead of a Pointer, which means any
potential subclasses will be sliced away.
PhongMaterialData is reimplemented using the new key/value store,
with no own members anymore -- thus having the same size as
MaterialData, and safe to be casted from it to access the helper APIs.
This is a breaking change that changes the signature, sorry -- if you
were using concatenate() for mesh concatenation before, enjoy the new
less strange signature, if you were using it for making the mesh owned
before (which was a strange and not very well thought out use case),
please use the recently added owned() instead. I thought about adding an
overload for backwards compatibility, but it would need to allocate to
work. This way with the breakage it's ensured you actually change to the
right API.
This also cleans up a lot of ugly code in the internals and resolves one
XFAIL in removeDuplicates().
The old one is deprecated, and will be removed in a future release.
Unfortunately, to avoid deprecation warnings, all use of NoInit in the
Math library temporarily have to be Magnum::NoInit This will be cleaned
up when the deprecated alias is removed.
Originally, \def_vk was used for enum values (equivalently to how
\def_gl is used for "enum" values in GL), but I also need to reference
actual defines such as VK_VERSION_MINOR(), so renamed it to \val_vk and
reused \def_vk for actual defines.
Basically using the same idea as with the discrete version -- having the
second dimension dynamic, together with restricting the implementation to
just Float and Double.
According to the SubdivideRemoveDuplicatesBenchmark, this makes the
implementation slightly slower. I presume this is due to how minmax and
offsets are calculated which is quite cache-inefficient as it goes over
the same memory block multiple times. Added a TODO for later.
And the Vector3 version 5% slower in Release, on GCC at least. FFS,
what was I thinking with the gather() things. Nice in user code,
extremely bad in library code.
Instead of first entering the main loop, processing events etc. This
also makes it finally possible to exit the application cleanly, with all
non-global destructors executed as well.
Vladimír Vondruš