// Initializes the various graphics resources found throughout the library
internal void InitializeResources()
{
// Scratch command pool
var pci = new Vk.CommandPoolCreateInfo(Queues.Graphics.FamilyIndex, Vk.CommandPoolCreateFlags.Transient | Vk.CommandPoolCreateFlags.ResetCommandBuffer);
_scratchPool = VkDevice.CreateCommandPool(pci);
_scratchAllocInfo = new Vk.CommandBufferAllocateInfo(Vk.CommandBufferLevel.Primary, 1);
_scratchBeginInfo = new Vk.CommandBufferBeginInfo(Vk.CommandBufferUsages.OneTimeSubmit, null);
_scratchFence = VkDevice.CreateFence();
// Resources throughout the library
TransferBuffer.CreateResources();
}
// Submits a one-time action that needs a graphics queue command buffer, will be synchronous
// The command buffer will already have Begin() called when it is passed to the action, and will automatically call End()
internal void SubmitScratchCommand(Action <Vk.CommandBuffer> action, Vk.Semaphore waitSem = null, Vk.PipelineStages waitStages = Vk.PipelineStages.AllGraphics,
Vk.Fence waitFence = null)
{
// Record the command
var cb = _scratchPool.AllocateBuffers(_scratchAllocInfo)[0];
cb.Begin(_scratchBeginInfo);
action(cb);
cb.End();
// Submit
if (waitFence != null)
{
waitFence.Wait();
waitFence.Reset();
}
Queues.Graphics.Submit(waitSem, waitStages, cb, null, _scratchFence);
_scratchFence.Wait();
_scratchFence.Reset();
cb.Dispose();
}
public Swapchain(GraphicsDevice gdevice, Vk.Instance instance, Vk.PhysicalDevice pDevice, Vk.Device device)
{
Device = gdevice;
_window = gdevice.Application.Window;
_vkInstance = instance;
_vkPhysicalDevice = pDevice;
_vkDevice = device;
// Create the surface
long surfHandle = Glfw.CreateWindowSurface(instance, _window.Handle);
Vk.AllocationCallbacks?acb = null;
Surface = new VkKhr.SurfaceKhr(instance, ref acb, surfHandle);
if (VkKhr.PhysicalDeviceExtensions.GetSurfaceSupportKhr(pDevice, gdevice.Queues.Graphics.FamilyIndex, Surface) == Vk.Constant.False)
{
LFATAL($"The physical device '{gdevice.Info.Name}' does not support surface presentation.");
throw new PlatformNotSupportedException("Physical device does not support surface presentation.");
}
LINFO("Created Vulkan presentation surface.");
// Check the surface for swapchain support levels
var sFmts = VkKhr.PhysicalDeviceExtensions.GetSurfaceFormatsKhr(pDevice, Surface);
var pModes = VkKhr.PhysicalDeviceExtensions.GetSurfacePresentModesKhr(pDevice, Surface);
if (sFmts.Length == 0)
{
throw new PlatformNotSupportedException("The chosen device does not support any presentation formats.");
}
if (pModes.Length == 0)
{
throw new PlatformNotSupportedException("The chosen device does not support any presentation modes.");
}
// Choose the best available surface format
if (sFmts.Length == 1 && sFmts[0].Format == Vk.Format.Undefined) // We are allowed to pick!
{
_surfaceFormat = PREFERRED_SURFACE_FORMATS[0];
}
else // Check if one of the preferred formats is available, otherwise just use the first format given
{
var sfmt = PREFERRED_SURFACE_FORMATS.FirstOrDefault(fmt => sFmts.Contains(fmt));
if (sfmt.Format == 0 && sfmt.ColorSpace == 0)
{
_surfaceFormat = sFmts[0];
}
else
{
_surfaceFormat = sfmt;
}
}
// Choose the presentation mode (prefer mailbox -> fifo -> imm)
_presentMode =
pModes.Contains(VkKhr.PresentModeKhr.Mailbox) ? VkKhr.PresentModeKhr.Mailbox :
pModes.Contains(VkKhr.PresentModeKhr.Fifo) ? VkKhr.PresentModeKhr.Fifo :
VkKhr.PresentModeKhr.Immediate;
// Prepare the synchronization objects
_syncObjects.ImageAvailable = new Vk.Semaphore[MAX_INFLIGHT_FRAMES];
_syncObjects.BlitComplete = new Vk.Semaphore[MAX_INFLIGHT_FRAMES];
for (int i = 0; i < MAX_INFLIGHT_FRAMES; ++i)
{
_syncObjects.ImageAvailable[i] = device.CreateSemaphore();
_syncObjects.BlitComplete[i] = device.CreateSemaphore();
}
// Setup the command buffers
var cpci = new Vk.CommandPoolCreateInfo(_presentQueue.FamilyIndex,
Vk.CommandPoolCreateFlags.Transient | Vk.CommandPoolCreateFlags.ResetCommandBuffer);
_commandPool = device.CreateCommandPool(cpci);
var cbai = new Vk.CommandBufferAllocateInfo(Vk.CommandBufferLevel.Primary, 1);
_commandBuffer = _commandPool.AllocateBuffers(cbai)[0];
_blitFence = device.CreateFence(); // Do NOT start this signalled, as it is needed in rebuildSwapchain() below
_rtTransferBarrier = new Vk.ImageMemoryBarrier(
null,
new Vk.ImageSubresourceRange(Vk.ImageAspects.Color, 0, 1, 0, 1),
Vk.Accesses.ColorAttachmentWrite,
Vk.Accesses.TransferRead,
Vk.ImageLayout.ColorAttachmentOptimal,
Vk.ImageLayout.TransferSrcOptimal
);
_rtAttachBarrier = new Vk.ImageMemoryBarrier(
null,
new Vk.ImageSubresourceRange(Vk.ImageAspects.Color, 0, 1, 0, 1),
Vk.Accesses.TransferRead,
Vk.Accesses.ColorAttachmentWrite,
Vk.ImageLayout.TransferSrcOptimal,
Vk.ImageLayout.ColorAttachmentOptimal
);
// Build the swapchain
rebuildSwapchain();
}
/// <summary>
/// Wait for one or more fences to become signaled.
/// <para>
/// If the condition is satisfied when the command is called, then the command returns
/// immediately. If the condition is not satisfied at the time the command is called, then
/// the command will block and wait up to timeout nanoseconds for the condition to become satisfied.
/// </para>
/// </summary>
/// <param name="fences">Fence handle.</param>
/// <param name="waitAll">
/// The condition that must be satisfied to successfully unblock the wait. If <c>true</c> ,
/// then the condition is that all fences in <paramref name="fences"/> are signaled.
/// Otherwise, the condition is that at least one fence in <paramref name="fences"/> is signaled.
/// </param>
/// <param name="timeout">
/// The timeout period in units of nanoseconds. Timeout is adjusted to the closest value
/// allowed by the implementation-dependent timeout accuracy, which may be substantially
/// longer than one nanosecond, and may be longer than the requested period.
/// <para>
/// If timeout is zero, then the command does not wait, but simply returns the current state
/// of the fences. The result <see cref="Result.Timeout"/> will be thrown in this case if the
/// condition is not satisfied, even though no actual wait was performed.
/// </para>
/// <para>
/// If the specified timeout period expires before the condition is satisfied, the command
/// throws with <see cref="Result.Timeout"/>. If the condition is satisfied before timeout
/// nanoseconds has expired, the command returns successfully.
/// </para>
/// </param>
/// <exception cref="VulkanException">Vulkan returns an error code.</exception>
public void WaitFences(Fence[] fences, bool waitAll, long timeout = ~0)
{
Fence.Wait(this, fences, waitAll, timeout);
}
/// <summary>
/// Resets one or more fence objects.
/// <para>
/// Defines a fence unsignal operation for each fence, which resets the fence to the
/// unsignaled state.
/// </para>
/// <para>
/// If any member of <paramref name="fences"/> is already in the unsignaled state, then the
/// command has no effect on that fence.
/// </para>
/// </summary>
/// <param name="fences">Fence handles to reset.</param>
/// <exception cref="VulkanException">Vulkan returns an error code.</exception>
public void ResetFences(params Fence[] fences)
{
Fence.Reset(this, fences);
}
