We'll need to revisit this as the current implementation is
not only inefficient but also wrong in quite a few ways.
Signed-off-by: Philip Rebohle <philip.rebohle@tu-dortmund.de>
We need access to the resource in order to perform render pass
layout transitions, just the view handle isn't enough.
Signed-off-by: Philip Rebohle <philip.rebohle@tu-dortmund.de>
Passing the main struct to the public functions allows us
to share common data between multiple types of operations.
Signed-off-by: Philip Rebohle <philip.rebohle@tu-dortmund.de>
Works around an app-bug in SotTR, where the command pool is reset before
the command buffer completes.
Signed-off-by: Hans-Kristian Arntzen <post@arntzen-software.no>
D3D12 supports out-of-order signal and wait. So does Vulkan timeline
semaphores. However, in Vulkan we don't have an infinite amount of
virtual queues. We must potentially map multiple D3D12 queues on top of
Vulkan, which might lead to a deadlock when app attempts to
wait-before-signal if the two queues are mapped to the same physical
Vulkan queue.
In order to solve this, we need to hold back submissions until we know
it is safe to do so. To make this work in practice as simply as possible, each
ID3D12CommandQueue has its own submission thread, which will block on an
ID3D12Fence's pending timeline value for a Wait command. The main reason to use a
submission thread is that resolving this directly in
ID3D12CommandQueue::Signal is extremely tricky and potentially
needs recursively locking queues and fences.
Note that we only block on the pending wait value, not the actual wait
value, so there is no real CPU <-> GPU synchronization here. In the
common case, no submission thread will block.
The added benefit is that submits are async now, so main thread CPU
overhead might slightly decrease.
To play nice with DXGI swapchain, the external entry point for acquiring
the Vulkan queue needs to drain the submission thread and lock it to ensure
submissions happen in order.
Fixes hangs in The Division 1, which makes use of this D3D12 feature.
Signed-off-by: Hans-Kristian Arntzen <post@arntzen-software.no>
The current code uses D3D12 abstractions to create pipelines but
issues raw Vulkan API calls to actually implement the functionality,
which means the code makes assumptions about the exact descriptor
set layout and push constant layout, which is generally a bad idea
now that we have multiple code paths for root constants etc.
Signed-off-by: Philip Rebohle <philip.rebohle@tu-dortmund.de>
Prepares for a rewrite of queue submission, the legacy path is never
run in practice and will likely break in subtle ways.
Signed-off-by: Hans-Kristian Arntzen <post@arntzen-software.no>
And add a function to (re-)apply dynamic state as necessary. This
will allow us to ignore dynamic state not needed by the pipeline,
and may become necessary if we implement shader-based copies etc.
Currently unused; the following commits will subsequently change
state setting methods over.
Signed-off-by: Philip Rebohle <philip.rebohle@tu-dortmund.de>
All attachments must be at least as large as the framebuffer, using a
max operator is not compliant with Vulkan.
Signed-off-by: Hans-Kristian Arntzen <post@arntzen-software.no>
Logically split up descriptor pool allocation in three types:
- STATIC: Root descriptors and internal allocation.
- VOLATILE: For packed descriptor set which comes from heaps.
- IMMUTABLE_SAMPLER: For immutable samplers. This should be removed once
we start allocating sampler sets at sampler creation time.
Signed-off-by: Hans-Kristian Arntzen <post@arntzen-software.no>