public unsafe BufferHolder Create(VulkanGraphicsDevice gd, int size, bool forConditionalRendering = false)
{
var usage = DefaultBufferUsageFlags;
if (forConditionalRendering && gd.Capabilities.SupportsConditionalRendering)
{
usage |= BufferUsageFlags.BufferUsageConditionalRenderingBitExt;
}
var bufferCreateInfo = new BufferCreateInfo()
{
SType = StructureType.BufferCreateInfo,
Size = (ulong)size,
Usage = usage,
SharingMode = SharingMode.Exclusive
};
gd.Api.CreateBuffer(_device, in bufferCreateInfo, null, out var buffer).ThrowOnError();
gd.Api.GetBufferMemoryRequirements(_device, buffer, out var requirements);
var allocation = gd.MemoryAllocator.AllocateDeviceMemory(_physicalDevice, requirements, DefaultBufferMemoryFlags);
if (allocation.Memory.Handle == 0UL)
{
gd.Api.DestroyBuffer(_device, buffer, null);
return(null);
}
gd.Api.BindBufferMemory(_device, buffer, allocation.Memory, allocation.Offset);
return(new BufferHolder(gd, _device, buffer, allocation, size));
}
public void CreateBuffer()
{
var createInfo = new BufferCreateInfo(32, BufferUsages.VertexBuffer);
using (Device.CreateBuffer(createInfo)) { }
using (Device.CreateBuffer(createInfo, CustomAllocator)) { }
}
private unsafe void CreateBuffer()
{
var createInfo = new BufferCreateInfo
{
StructureType = StructureType.BufferCreateInfo,
Flags = BufferCreateFlags.None
};
for (int i = 0; i < MipLevels; i++)
{
var mipmap = GetMipMapDescription(i);
createInfo.Size += (uint)(mipmap.DepthStride * mipmap.Depth * ArraySize);
}
createInfo.Usage = BufferUsageFlags.TransferSource | BufferUsageFlags.TransferDestination;
// Create buffer
NativeBuffer = GraphicsDevice.NativeDevice.CreateBuffer(ref createInfo);
// Allocate and bind memory
MemoryRequirements memoryRequirements;
GraphicsDevice.NativeDevice.GetBufferMemoryRequirements(NativeBuffer, out memoryRequirements);
AllocateMemory(MemoryPropertyFlags.HostVisible | MemoryPropertyFlags.HostCoherent, memoryRequirements);
if (NativeMemory != DeviceMemory.Null)
{
GraphicsDevice.NativeDevice.BindBufferMemory(NativeBuffer, NativeMemory, 0);
}
}
public UniformBuffer()
{
int mySize = Marshal.SizeOf(typeof(T));
BufferCreateInfo myBuffer = new BufferCreateInfo {
Size = mySize, Usage = BufferUsageFlags.UniformBuffer, SharingMode = SharingMode.Exclusive, QueueFamilyIndices = new uint[] { VulkanRenderer.ActiveGraphicsFamilyQueueIndex }
}; //TODO: Fix this in the buffers -_-
CreateBuffer(VulkanRenderer.SelectedPhysicalDevice, myBuffer, null);
}
Buffer CreateBuffer(PhysicalDevice physicalDevice, object values, BufferUsageFlags usageFlags, System.Type type)
{
var array = values as System.Array;
var length = (array != null) ? array.Length : 1;
var size = System.Runtime.InteropServices.Marshal.SizeOf(type) * length;
var createBufferInfo = new BufferCreateInfo {
Size = size,
Usage = usageFlags,
SharingMode = SharingMode.Exclusive,
QueueFamilyIndices = new uint [] { 0 }
};
var buffer = device.CreateBuffer(createBufferInfo);
var memoryReq = device.GetBufferMemoryRequirements(buffer);
var allocInfo = new MemoryAllocateInfo {
AllocationSize = memoryReq.Size
};
var memoryProperties = physicalDevice.GetMemoryProperties();
bool heapIndexSet = false;
var memoryTypes = memoryProperties.MemoryTypes;
for (uint i = 0; i < memoryProperties.MemoryTypeCount; i++)
{
if (((memoryReq.MemoryTypeBits >> (int)i) & 1) == 1 &&
(memoryTypes [i].PropertyFlags & MemoryPropertyFlags.HostVisible) == MemoryPropertyFlags.HostVisible)
{
allocInfo.MemoryTypeIndex = i;
heapIndexSet = true;
}
}
if (!heapIndexSet)
{
allocInfo.MemoryTypeIndex = memoryProperties.MemoryTypes [0].HeapIndex;
}
var deviceMemory = device.AllocateMemory(allocInfo);
var memPtr = device.MapMemory(deviceMemory, 0, size, 0);
if (type == typeof(float))
{
System.Runtime.InteropServices.Marshal.Copy(values as float [], 0, memPtr, length);
}
else if (type == typeof(short))
{
System.Runtime.InteropServices.Marshal.Copy(values as short [], 0, memPtr, length);
}
else if (type == typeof(AreaUniformBuffer))
{
System.Runtime.InteropServices.Marshal.StructureToPtr(values, memPtr, false);
}
device.UnmapMemory(deviceMemory);
device.BindBufferMemory(buffer, deviceMemory, 0);
return(buffer);
}
/* public Vulkan.Buffer CreateUniformBuffer()
* {
* var uniformBufferData = new AreaUniformBuffer
* {
* width = SurfaceCapabilities.CurrentExtent.Width,
* height = SurfaceCapabilities.CurrentExtent.Height
* };
*
* return CreateBuffer(uniformBufferData, BufferUsageFlags.UniformBuffer, typeof(AreaUniformBuffer));
* }
* private Vulkan.Buffer CreateBuffer( object values, BufferUsageFlags usageFlags, System.Type type)
* {
* var array = values as System.Array;
* var length = (array != null) ? array.Length : 1;
* var size = System.Runtime.InteropServices.Marshal.SizeOf(type) * length;
* var createBufferInfo = new BufferCreateInfo
* {
* Size = size,
* Usage = usageFlags,
* SharingMode = SharingMode.Exclusive,
* QueueFamilyIndices = new uint[] { 0 }
* };
* return CreateBufferBufferCreateInfoCanBeSet(values, type, length, size, createBufferInfo);
* }
*
* private Vulkan.Buffer CreateBufferBufferCreateInfoCanBeSet(object values, Type type, int length, int size, BufferCreateInfo createBufferInfo)
* {
* var buffer = LogicalDevice.CreateBuffer(createBufferInfo);
* var memoryReq = LogicalDevice.GetBufferMemoryRequirements(buffer);
* var allocInfo = new MemoryAllocateInfo { AllocationSize = memoryReq.Size };
* var memoryProperties = myPhysicalDevice.GetMemoryProperties();
* bool heapIndexSet = false;
* var memoryTypes = memoryProperties.MemoryTypes;
*
* for (uint i = 0; i < memoryProperties.MemoryTypeCount; i++)
* {
* if (((memoryReq.MemoryTypeBits >> (int)i) & 1) == 1 &&
* (memoryTypes[i].PropertyFlags & MemoryPropertyFlags.HostVisible) == MemoryPropertyFlags.HostVisible)
* {
* allocInfo.MemoryTypeIndex = i;
* heapIndexSet = true;
* }
* }
*
* if (!heapIndexSet)
* allocInfo.MemoryTypeIndex = memoryProperties.MemoryTypes[0].HeapIndex;
*
* var deviceMemory = LogicalDevice.AllocateMemory(allocInfo);
* var memPtr = LogicalDevice.MapMemory(deviceMemory, 0, size, 0);
*
* if (type == typeof(float))
* System.Runtime.InteropServices.Marshal.Copy(values as float[], 0, memPtr, length);
* else if (type == typeof(short))
* System.Runtime.InteropServices.Marshal.Copy(values as short[], 0, memPtr, length);
* else if (type == typeof(AreaUniformBuffer))
* System.Runtime.InteropServices.Marshal.StructureToPtr(values, memPtr, false);
*
* LogicalDevice.UnmapMemory(deviceMemory);
* LogicalDevice.BindBufferMemory(buffer, deviceMemory, 0);
*
* return buffer;
* }
* VertextBuffer VertBuffer =
*/
public unsafe VulkanBuffer(VulkanPhysicalDevice myDevice, BufferCreateInfo createBufferInfo, AllocationCallbacks pAllocator = null) //Tested
{
if (myDevice == null)
{
throw new VULKANDEVICE_NO_ACTIVE_DEVICE();
}
this.Allocator = pAllocator;
this.myActiveDevice = myDevice;
CreateBuffer(myDevice, createBufferInfo, pAllocator);
}
public unsafe VertexBuffer(T[] myManagedArray, uint[] QueueFamilyIndices, SharingMode myMode = SharingMode.Exclusive, AllocationCallbacks pAllocator = null)
{
int mySize = Marshal.SizeOf(typeof(T));
BufferCreateInfo myBuffer = new BufferCreateInfo {
Size = myManagedArray.Length * mySize, Usage = BufferUsageFlags.VertexBuffer, SharingMode = myMode, QueueFamilyIndices = QueueFamilyIndices
};
CreateBuffer(VulkanRenderer.SelectedPhysicalDevice, myBuffer, pAllocator);
CopyFromMemory <T>(myManagedArray);
}
public unsafe UniformBuffer(T myManagedArray, SharingMode myMode = SharingMode.Exclusive, AllocationCallbacks pAllocator = null)
{
int mySize = Marshal.SizeOf(typeof(T));
BufferCreateInfo myBuffer = new BufferCreateInfo {
Size = mySize, Usage = BufferUsageFlags.UniformBuffer, SharingMode = myMode, QueueFamilyIndices = new uint[] { VulkanRenderer.ActiveGraphicsFamilyQueueIndex }
};
CreateBuffer(VulkanRenderer.SelectedPhysicalDevice, myBuffer, pAllocator);
CopyFromMemory <T>(myManagedArray);
}
public unsafe StagingBuffer(T[] myManagedArray, VulkanPhysicalDevice myDevice, uint[] VisibleToQueueFamilyIndices, SharingMode myMode = SharingMode.Exclusive, AllocationCallbacks pAllocator = null)
{
int mySize = Marshal.SizeOf(typeof(T));
BufferCreateInfo myBuffer = new BufferCreateInfo {
Size = myManagedArray.Length * mySize, Usage = BufferUsageFlags.TransferSrc, SharingMode = myMode, QueueFamilyIndices = VisibleToQueueFamilyIndices
};
CreateBuffer(myDevice, myBuffer, pAllocator);
CopyFromMemory <T>(myManagedArray);
}
public unsafe UniformBuffer(T myManagedArray, VulkanPhysicalDevice myDevice, uint[] QueueFamilyIndices, SharingMode myMode = SharingMode.Exclusive, AllocationCallbacks pAllocator = null)
{
int mySize = Marshal.SizeOf(typeof(T));
BufferCreateInfo myBuffer = new BufferCreateInfo {
Size = mySize, Usage = BufferUsageFlags.UniformBuffer, SharingMode = myMode, QueueFamilyIndices = QueueFamilyIndices
};
CreateBuffer(myDevice, myBuffer, pAllocator);
CopyFromMemory <T>(myManagedArray);
}
public void CreateBuffer(int sizeInBytes, string name,
BufferUsages usage, SharingMode sm, int [] famIndexes = null)
{
BufferCreateInfo bci = new BufferCreateInfo(sizeInBytes,
usage, BufferCreateFlags.None,
sm, famIndexes);
Buffer buf = mLogical.CreateBuffer(bci);
mBuffers.Add(name, buf);
}
void CreateBuffer()
{
/*
* We will now create a buffer. We will render the mandelbrot set into this buffer
* in a computer shade later.
*/
BufferCreateInfo bufferCreateInfo = new BufferCreateInfo()
{
Size = bufferSize, // buffer size in bytes.
Usage = BufferUsages.StorageBuffer, // VK_BUFFER_USAGE_STORAGE_BUFFER_BIT; // buffer is used as a storage buffer.
SharingMode = SharingMode.Exclusive // VK_SHARING_MODE_EXCLUSIVE; // buffer is exclusive to a single queue family at a time.
};
buffer = device.CreateBuffer(bufferCreateInfo);
/*
* But the buffer doesn't allocate memory for itself, so we must do that manually.
*/
/*
* First, we find the memory requirements for the buffer.
*/
MemoryRequirements memoryRequirements = buffer.GetMemoryRequirements();
/*
* Now use obtained memory requirements info to allocate the memory for the buffer.
*/
MemoryAllocateInfo allocateInfo = new MemoryAllocateInfo()
{
AllocationSize = memoryRequirements.Size, // specify required memory.
/*
* There are several types of memory that can be allocated, and we must choose a memory type that:
* 1) Satisfies the memory requirements(memoryRequirements.memoryTypeBits).
* 2) Satifies our own usage requirements. We want to be able to read the buffer memory from the GPU to the CPU
* with vkMapMemory, so we set VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT.
* Also, by setting VK_MEMORY_PROPERTY_HOST_COHERENT_BIT, memory written by the device(GPU) will be easily
* visible to the host(CPU), without having to call any extra flushing commands. So mainly for convenience, we set
* this flag.
*/
MemoryTypeIndex = FindMemoryType(
memoryRequirements.MemoryTypeBits, MemoryProperties.HostCoherent | MemoryProperties.HostVisible)// VK_MEMORY_PROPERTY_HOST_COHERENT_BIT | VK_MEMORY_PROPERTY_HOST_VISIBLE_BIT);
};
bufferMemory = device.AllocateMemory(allocateInfo); // allocate memory on device.
// Now associate that allocated memory with the buffer. With that, the buffer is backed by actual memory.
buffer.BindMemory(bufferMemory);
}
private unsafe void CreateUniformBuffer() //Simpler setup from the Vertex buffer because there is no staging or device copying
{
BufferCreateInfo bufferInfo = new BufferCreateInfo
{
SType = StructureType.BufferCreateInfo,
Size = this.UniformBufferSize,
Usage = BufferUsageFlags.BufferUsageUniformBufferBit,
SharingMode = SharingMode.Exclusive
};
// Allow this to be updated every frame
var allocInfo = new AllocationCreateInfo(
usage: MemoryUsage.CPU_To_GPU,
requiredFlags: MemoryPropertyFlags.MemoryPropertyHostVisibleBit);
// Binds buffer to allocation for you
var buffer = this.Allocator.CreateBuffer(in bufferInfo, in allocInfo, out var allocation);
// Camera/MVP Matrix calculation
Camera.LookAt(new Vector3(2f, 2f, -5f), new Vector3(0, 0, 0), new Vector3(0, 1, 0));
var radFov = MathF.PI / 180f * 45f;
var aspect = (float)this.SwapchainExtent.Width / this.SwapchainExtent.Height;
Camera.Perspective(radFov, aspect, 0.5f, 100f);
Camera.UpdateMVP();
allocation.Map();
Matrix4x4 *ptr = (Matrix4x4 *)allocation.MappedData;
ptr[0] = Camera.MVPMatrix; // Camera Matrix
ptr[1] = Matrix4x4.Identity; // Model Matrix
allocation.Unmap();
this.UniformBuffer = buffer;
this.UniformAllocation = allocation;
}
protected unsafe void CreateBuffer(VulkanPhysicalDevice myDevice, BufferCreateInfo createBufferInfo, AllocationCallbacks pAllocator = null)
{
if (myDevice == null)
{
throw new VULKANDEVICE_NO_ACTIVE_DEVICE();
}
this.Allocator = pAllocator;
this.myActiveDevice = myDevice;
SizeOfInternalStructure = createBufferInfo.Size;
Result result;
fixed(UInt64 *ptrpBuffer = &this.m)
{
result = Interop.NativeMethods.vkCreateBuffer(myDevice.LogicalDevice.m, createBufferInfo != null ? createBufferInfo.m : (Interop.BufferCreateInfo *) default(IntPtr), pAllocator != null ? pAllocator.m : null, ptrpBuffer);
}
if (result != Result.Success)
{
throw new ResultException(result);
}
}
private void CreateBuffer(DeviceSize size, BufferUsageFlags usageFlags, MemoryPropertyFlags properties, out Vulkan.Buffer buffer, out DeviceMemory bufferMemory)
{
var bufferInfo = new BufferCreateInfo()
{
Size = size,
Usage = usageFlags,
SharingMode = SharingMode.Exclusive,
};
buffer = vkDevice.CreateBuffer(bufferInfo);
var memRequirements = vkDevice.GetBufferMemoryRequirements(buffer);
var allocInfo = new MemoryAllocateInfo()
{
AllocationSize = memRequirements.Size,
MemoryTypeIndex = FindMemoryType(memRequirements.MemoryTypeBits, properties),
};
bufferMemory = vkDevice.AllocateMemory(allocInfo);
vkDevice.BindBufferMemory(buffer, bufferMemory, 0);
}
internal unsafe IntPtr AllocateUploadBuffer(int size, out SharpVulkan.Buffer resource, out int offset)
{
// TODO D3D12 thread safety, should we simply use locks?
if (nativeUploadBuffer == SharpVulkan.Buffer.Null || nativeUploadBufferOffset + size > nativeUploadBufferSize)
{
if (nativeUploadBuffer != SharpVulkan.Buffer.Null)
{
NativeDevice.UnmapMemory(nativeUploadBufferMemory);
Collect(nativeUploadBuffer);
Collect(nativeUploadBufferMemory);
}
// Allocate new buffer
// TODO D3D12 recycle old ones (using fences to know when GPU is done with them)
// TODO D3D12 ResourceStates.CopySource not working?
nativeUploadBufferSize = Math.Max(4 * 1024 * 1024, size);
var bufferCreateInfo = new BufferCreateInfo
{
StructureType = StructureType.BufferCreateInfo,
Size = (ulong)nativeUploadBufferSize,
Flags = BufferCreateFlags.None,
Usage = BufferUsageFlags.TransferSource,
};
nativeUploadBuffer = NativeDevice.CreateBuffer(ref bufferCreateInfo);
AllocateMemory(MemoryPropertyFlags.HostVisible | MemoryPropertyFlags.HostCoherent);
nativeUploadBufferStart = NativeDevice.MapMemory(nativeUploadBufferMemory, 0, (ulong)nativeUploadBufferSize, MemoryMapFlags.None);
nativeUploadBufferOffset = 0;
}
// Bump allocate
resource = nativeUploadBuffer;
offset = nativeUploadBufferOffset;
nativeUploadBufferOffset += size;
return(nativeUploadBufferStart + offset);
}
Buffer CreateBuffer(DeviceSize size, BufferUsageFlags flags)
{
var bufferCreateInfo = new BufferCreateInfo(size, flags, SharingMode.Exclusive, null);
return(device.CreateBuffer(bufferCreateInfo));
}
private void CreateVertexBuffer()
{
var vertices = new[,]
{
{ 0.0f, -0.5f, 0.5f, 1.0f, 0.0f, 0.0f },
{ 0.5f, 0.5f, 0.5f, 0.0f, 1.0f, 0.0f },
{ -0.5f, 0.5f, 0.5f, 0.0f, 0.0f, 1.0f },
};
var createInfo = new BufferCreateInfo
{
StructureType = StructureType.BufferCreateInfo,
Usage = BufferUsageFlags.VertexBuffer,
Size = (ulong)(sizeof(float) * vertices.Length)
};
vertexBuffer = device.CreateBuffer(ref createInfo);
MemoryRequirements memoryRequirements;
device.GetBufferMemoryRequirements(vertexBuffer, out memoryRequirements);
if (memoryRequirements.Size == 0)
return;
var allocateInfo = new MemoryAllocateInfo
{
StructureType = StructureType.MemoryAllocateInfo,
AllocationSize = memoryRequirements.Size,
MemoryTypeIndex = MemoryTypeFromProperties(memoryRequirements.MemoryTypeBits, MemoryPropertyFlags.HostVisible)
};
vertexBufferMemory = device.AllocateMemory(ref allocateInfo);
var mapped = device.MapMemory(vertexBufferMemory, 0, (ulong)createInfo.Size, MemoryMapFlags.None);
fixed (float* source = &vertices[0, 0]) Utilities.CopyMemory(mapped, new IntPtr(source), (int)createInfo.Size);
device.UnmapMemory(vertexBufferMemory);
device.BindBufferMemory(vertexBuffer, vertexBufferMemory, 0);
vertexAttributes = new []
{
new VertexInputAttributeDescription { Binding = 0, Location = 0, Format = Format.R32G32B32SFloat, Offset = 0 },
new VertexInputAttributeDescription { Binding = 0, Location = 1, Format = Format.R32G32B32SFloat, Offset = sizeof(float) * 3 },
};
vertexBindings = new []
{
new VertexInputBindingDescription { Binding = 0, InputRate = VertexInputRate.Vertex, Stride = (uint)(sizeof(float) * vertices.GetLength(1)) }
};
}
private unsafe void CreatePipelineLayout()
{
var binding = new DescriptorSetLayoutBinding
{
Binding = 0,
DescriptorCount = 1,
DescriptorType = DescriptorType.UniformBuffer,
StageFlags = ShaderStageFlags.Vertex
};
var descriptorSetLayoutCreateInfo = new DescriptorSetLayoutCreateInfo
{
StructureType = StructureType.DescriptorSetLayoutCreateInfo,
BindingCount = 1,
Bindings = new IntPtr(&binding)
};
descriptorSetLayout = device.CreateDescriptorSetLayout(ref descriptorSetLayoutCreateInfo);
var localDescriptorSetLayout = descriptorSetLayout;
var createInfo = new PipelineLayoutCreateInfo
{
StructureType = StructureType.PipelineLayoutCreateInfo,
SetLayoutCount = 1,
SetLayouts = new IntPtr(&localDescriptorSetLayout)
};
pipelineLayout = device.CreatePipelineLayout(ref createInfo);
var poolSize = new DescriptorPoolSize { DescriptorCount = 2, Type = DescriptorType.UniformBuffer };
var descriptorPoolCreateinfo = new DescriptorPoolCreateInfo
{
StructureType = StructureType.DescriptorPoolCreateInfo,
PoolSizeCount = 1,
PoolSizes = new IntPtr(&poolSize),
MaxSets = 2
};
descriptorPool = device.CreateDescriptorPool(ref descriptorPoolCreateinfo);
var bufferCreateInfo = new BufferCreateInfo
{
StructureType = StructureType.BufferCreateInfo,
Usage = BufferUsageFlags.UniformBuffer,
Size = 64,
};
uniformBuffer = device.CreateBuffer(ref bufferCreateInfo);
MemoryRequirements memoryRequirements;
device.GetBufferMemoryRequirements(uniformBuffer, out memoryRequirements);
var memory = AllocateMemory(MemoryPropertyFlags.HostVisible | MemoryPropertyFlags.HostCoherent, memoryRequirements);
device.BindBufferMemory(uniformBuffer, memory, 0);
var mappedMemory = device.MapMemory(memory, 0, 64, MemoryMapFlags.None);
var data = new[]
{
1.0f, 0.0f, 0.0f, 0.0f,
0.0f, 1.0f, 0.0f, 0.0f,
0.0f, 0.0f, 1.0f, 0.0f,
0.0f, 0.0f, 0.0f, 1.0f,
};
Utilities.Write(mappedMemory, data, 0, data.Length);
device.UnmapMemory(memory);
}
private unsafe void CreatePipelineLayout()
{
var binding = new DescriptorSetLayoutBinding
{
Binding = 0,
DescriptorCount = 1,
DescriptorType = DescriptorType.UniformBuffer,
StageFlags = ShaderStageFlags.Vertex
};
var descriptorSetLayoutCreateInfo = new DescriptorSetLayoutCreateInfo
{
StructureType = StructureType.DescriptorSetLayoutCreateInfo,
BindingCount = 1,
Bindings = new IntPtr(&binding)
};
descriptorSetLayout = device.CreateDescriptorSetLayout(ref descriptorSetLayoutCreateInfo);
var localDescriptorSetLayout = descriptorSetLayout;
var createInfo = new PipelineLayoutCreateInfo
{
StructureType = StructureType.PipelineLayoutCreateInfo,
SetLayoutCount = 1,
SetLayouts = new IntPtr(&localDescriptorSetLayout)
};
pipelineLayout = device.CreatePipelineLayout(ref createInfo);
var poolSize = new DescriptorPoolSize {
DescriptorCount = 2, Type = DescriptorType.UniformBuffer
};
var descriptorPoolCreateinfo = new DescriptorPoolCreateInfo
{
StructureType = StructureType.DescriptorPoolCreateInfo,
PoolSizeCount = 1,
PoolSizes = new IntPtr(&poolSize),
MaxSets = 2
};
descriptorPool = device.CreateDescriptorPool(ref descriptorPoolCreateinfo);
var bufferCreateInfo = new BufferCreateInfo
{
StructureType = StructureType.BufferCreateInfo,
Usage = BufferUsageFlags.UniformBuffer,
Size = 64,
};
uniformBuffer = device.CreateBuffer(ref bufferCreateInfo);
MemoryRequirements memoryRequirements;
device.GetBufferMemoryRequirements(uniformBuffer, out memoryRequirements);
var memory = AllocateMemory(MemoryPropertyFlags.HostVisible | MemoryPropertyFlags.HostCoherent, memoryRequirements);
device.BindBufferMemory(uniformBuffer, memory, 0);
var mappedMemory = device.MapMemory(memory, 0, 64, MemoryMapFlags.None);
var data = new[]
{
1.0f, 0.0f, 0.0f, 0.0f,
0.0f, 1.0f, 0.0f, 0.0f,
0.0f, 0.0f, 1.0f, 0.0f,
0.0f, 0.0f, 0.0f, 1.0f,
};
Utilities.Write(mappedMemory, data, 0, data.Length);
device.UnmapMemory(memory);
}
private void CreateVertexBuffer()
{
var vertices = new[, ]
{
{ 0.0f, -0.5f, 0.5f, 1.0f, 0.0f, 0.0f },
{ 0.5f, 0.5f, 0.5f, 0.0f, 1.0f, 0.0f },
{ -0.5f, 0.5f, 0.5f, 0.0f, 0.0f, 1.0f },
};
var createInfo = new BufferCreateInfo
{
StructureType = StructureType.BufferCreateInfo,
Usage = BufferUsageFlags.VertexBuffer,
Size = (ulong)(sizeof(float) * vertices.Length)
};
vertexBuffer = device.CreateBuffer(ref createInfo);
MemoryRequirements memoryRequirements;
device.GetBufferMemoryRequirements(vertexBuffer, out memoryRequirements);
if (memoryRequirements.Size == 0)
{
return;
}
var allocateInfo = new MemoryAllocateInfo
{
StructureType = StructureType.MemoryAllocateInfo,
AllocationSize = memoryRequirements.Size,
MemoryTypeIndex = MemoryTypeFromProperties(memoryRequirements.MemoryTypeBits, MemoryPropertyFlags.HostVisible)
};
vertexBufferMemory = device.AllocateMemory(ref allocateInfo);
var mapped = device.MapMemory(vertexBufferMemory, 0, (ulong)createInfo.Size, MemoryMapFlags.None);
fixed(float *source = &vertices[0, 0]) Utilities.CopyMemory(mapped, new IntPtr(source), (int)createInfo.Size);
device.UnmapMemory(vertexBufferMemory);
device.BindBufferMemory(vertexBuffer, vertexBufferMemory, 0);
vertexAttributes = new []
{
new VertexInputAttributeDescription {
Binding = 0, Location = 0, Format = Format.R32G32B32SFloat, Offset = 0
},
new VertexInputAttributeDescription {
Binding = 0, Location = 1, Format = Format.R32G32B32SFloat, Offset = sizeof(float) * 3
},
};
vertexBindings = new []
{
new VertexInputBindingDescription {
Binding = 0, InputRate = VertexInputRate.Vertex, Stride = (uint)(sizeof(float) * vertices.GetLength(1))
}
};
}
/// <summary>
/// Explicitly recreate buffer with given data. Usually called after a <see cref="GraphicsDevice"/> reset.
/// </summary>
/// <typeparam name="T"></typeparam>
/// <param name="dataPointer"></param>
public unsafe void Recreate(IntPtr dataPointer)
{
var createInfo = new BufferCreateInfo
{
StructureType = StructureType.BufferCreateInfo,
Size = (ulong)bufferDescription.SizeInBytes,
Flags = BufferCreateFlags.None,
};
createInfo.Usage |= BufferUsageFlags.TransferSource;
// We always fill using transfer
//if (bufferDescription.Usage != GraphicsResourceUsage.Immutable)
createInfo.Usage |= BufferUsageFlags.TransferDestination;
if ((ViewFlags & BufferFlags.VertexBuffer) != 0)
{
createInfo.Usage |= BufferUsageFlags.VertexBuffer;
NativeAccessMask |= AccessFlags.VertexAttributeRead;
NativePipelineStageMask |= PipelineStageFlags.VertexInput;
}
if ((ViewFlags & BufferFlags.IndexBuffer) != 0)
{
createInfo.Usage |= BufferUsageFlags.IndexBuffer;
NativeAccessMask |= AccessFlags.IndexRead;
NativePipelineStageMask |= PipelineStageFlags.VertexInput;
}
if ((ViewFlags & BufferFlags.ConstantBuffer) != 0)
{
createInfo.Usage |= BufferUsageFlags.UniformBuffer;
NativeAccessMask |= AccessFlags.UniformRead;
NativePipelineStageMask |= PipelineStageFlags.VertexShader | PipelineStageFlags.FragmentShader;
}
if ((ViewFlags & BufferFlags.ShaderResource) != 0)
{
createInfo.Usage |= BufferUsageFlags.UniformTexelBuffer;
NativeAccessMask |= AccessFlags.ShaderRead;
NativePipelineStageMask |= PipelineStageFlags.VertexShader | PipelineStageFlags.FragmentShader;
if ((ViewFlags & BufferFlags.UnorderedAccess) != 0)
{
createInfo.Usage |= BufferUsageFlags.StorageTexelBuffer;
NativeAccessMask |= AccessFlags.ShaderWrite;
}
}
// Create buffer
NativeBuffer = GraphicsDevice.NativeDevice.CreateBuffer(ref createInfo);
// Allocate memory
var memoryProperties = MemoryPropertyFlags.DeviceLocal;
if (bufferDescription.Usage == GraphicsResourceUsage.Staging)
{
throw new NotImplementedException();
}
else if (Usage == GraphicsResourceUsage.Dynamic)
{
memoryProperties = MemoryPropertyFlags.HostVisible | MemoryPropertyFlags.HostCoherent;
}
MemoryRequirements memoryRequirements;
GraphicsDevice.NativeDevice.GetBufferMemoryRequirements(NativeBuffer, out memoryRequirements);
AllocateMemory(memoryProperties, memoryRequirements);
if (NativeMemory != DeviceMemory.Null)
{
GraphicsDevice.NativeDevice.BindBufferMemory(NativeBuffer, NativeMemory, 0);
}
if (SizeInBytes > 0)
{
// Begin copy command buffer
var commandBufferAllocateInfo = new CommandBufferAllocateInfo
{
StructureType = StructureType.CommandBufferAllocateInfo,
CommandPool = GraphicsDevice.NativeCopyCommandPool,
CommandBufferCount = 1,
Level = CommandBufferLevel.Primary
};
CommandBuffer commandBuffer;
GraphicsDevice.NativeDevice.AllocateCommandBuffers(ref commandBufferAllocateInfo, &commandBuffer);
var beginInfo = new CommandBufferBeginInfo { StructureType = StructureType.CommandBufferBeginInfo, Flags = CommandBufferUsageFlags.OneTimeSubmit };
commandBuffer.Begin(ref beginInfo);
// Copy to upload buffer
if (dataPointer != IntPtr.Zero)
{
if (Usage == GraphicsResourceUsage.Dynamic)
{
var uploadMemory = GraphicsDevice.NativeDevice.MapMemory(NativeMemory, 0, (ulong)SizeInBytes, MemoryMapFlags.None);
Utilities.CopyMemory(uploadMemory, dataPointer, SizeInBytes);
GraphicsDevice.NativeDevice.UnmapMemory(NativeMemory);
}
else
{
var sizeInBytes = bufferDescription.SizeInBytes;
SharpVulkan.Buffer uploadResource;
int uploadOffset;
var uploadMemory = GraphicsDevice.AllocateUploadBuffer(sizeInBytes, out uploadResource, out uploadOffset);
Utilities.CopyMemory(uploadMemory, dataPointer, sizeInBytes);
// Barrier
var memoryBarrier = new BufferMemoryBarrier(uploadResource, AccessFlags.HostWrite, AccessFlags.TransferRead, (ulong)uploadOffset, (ulong)sizeInBytes);
commandBuffer.PipelineBarrier(PipelineStageFlags.Host, PipelineStageFlags.Transfer, DependencyFlags.None, 0, null, 1, &memoryBarrier, 0, null);
// Copy
var bufferCopy = new BufferCopy
{
SourceOffset = (uint)uploadOffset,
DestinationOffset = 0,
Size = (uint)sizeInBytes
};
commandBuffer.CopyBuffer(uploadResource, NativeBuffer, 1, &bufferCopy);
}
}
else
{
commandBuffer.FillBuffer(NativeBuffer, 0, (uint)bufferDescription.SizeInBytes, 0);
}
// Barrier
var bufferMemoryBarrier = new BufferMemoryBarrier(NativeBuffer, AccessFlags.TransferWrite, NativeAccessMask);
commandBuffer.PipelineBarrier(PipelineStageFlags.Transfer, PipelineStageFlags.AllCommands, DependencyFlags.None, 0, null, 1, &bufferMemoryBarrier, 0, null);
// Close and submit
commandBuffer.End();
var submitInfo = new SubmitInfo
{
StructureType = StructureType.SubmitInfo,
CommandBufferCount = 1,
CommandBuffers = new IntPtr(&commandBuffer),
};
lock (GraphicsDevice.QueueLock)
{
GraphicsDevice.NativeCommandQueue.Submit(1, &submitInfo, Fence.Null);
GraphicsDevice.NativeCommandQueue.WaitIdle();
//commandBuffer.Reset(CommandBufferResetFlags.None);
GraphicsDevice.NativeDevice.FreeCommandBuffers(GraphicsDevice.NativeCopyCommandPool, 1, &commandBuffer);
}
InitializeViews();
}
}
private unsafe void CreateBuffer()
{
var createInfo = new BufferCreateInfo
{
StructureType = StructureType.BufferCreateInfo,
Flags = BufferCreateFlags.None
};
for (int i = 0; i < MipLevels; i++)
{
var mipmap = GetMipMapDescription(i);
createInfo.Size += (uint)(mipmap.DepthStride * mipmap.Depth * ArraySize);
}
createInfo.Usage = BufferUsageFlags.TransferSource | BufferUsageFlags.TransferDestination;
// Create buffer
NativeBuffer = GraphicsDevice.NativeDevice.CreateBuffer(ref createInfo);
// Allocate and bind memory
MemoryRequirements memoryRequirements;
GraphicsDevice.NativeDevice.GetBufferMemoryRequirements(NativeBuffer, out memoryRequirements);
AllocateMemory(MemoryPropertyFlags.HostVisible | MemoryPropertyFlags.HostCoherent, memoryRequirements);
if (NativeMemory != DeviceMemory.Null)
{
GraphicsDevice.NativeDevice.BindBufferMemory(NativeBuffer, NativeMemory, 0);
}
}
protected unsafe VulkanBuffer(BufferCreateInfo createBufferInfo, AllocationCallbacks pAllocator) : this(VulkanRenderer.SelectedPhysicalDevice, createBufferInfo, pAllocator)
{
}
/// <summary>
/// Explicitly recreate buffer with given data. Usually called after a <see cref="GraphicsDevice"/> reset.
/// </summary>
/// <typeparam name="T"></typeparam>
/// <param name="dataPointer"></param>
public unsafe void Recreate(IntPtr dataPointer)
{
var createInfo = new BufferCreateInfo
{
StructureType = StructureType.BufferCreateInfo,
Size = (ulong)bufferDescription.SizeInBytes,
Flags = BufferCreateFlags.None,
};
createInfo.Usage |= BufferUsageFlags.TransferSource;
// We always fill using transfer
//if (bufferDescription.Usage != GraphicsResourceUsage.Immutable)
createInfo.Usage |= BufferUsageFlags.TransferDestination;
if (Usage == GraphicsResourceUsage.Staging)
{
NativeAccessMask = AccessFlags.HostRead | AccessFlags.HostWrite;
NativePipelineStageMask |= PipelineStageFlags.Host;
}
else
{
if ((ViewFlags & BufferFlags.VertexBuffer) != 0)
{
createInfo.Usage |= BufferUsageFlags.VertexBuffer;
NativeAccessMask |= AccessFlags.VertexAttributeRead;
NativePipelineStageMask |= PipelineStageFlags.VertexInput;
}
if ((ViewFlags & BufferFlags.IndexBuffer) != 0)
{
createInfo.Usage |= BufferUsageFlags.IndexBuffer;
NativeAccessMask |= AccessFlags.IndexRead;
NativePipelineStageMask |= PipelineStageFlags.VertexInput;
}
if ((ViewFlags & BufferFlags.ConstantBuffer) != 0)
{
createInfo.Usage |= BufferUsageFlags.UniformBuffer;
NativeAccessMask |= AccessFlags.UniformRead;
NativePipelineStageMask |= PipelineStageFlags.VertexShader | PipelineStageFlags.FragmentShader;
}
if ((ViewFlags & BufferFlags.ShaderResource) != 0)
{
createInfo.Usage |= BufferUsageFlags.UniformTexelBuffer;
NativeAccessMask |= AccessFlags.ShaderRead;
NativePipelineStageMask |= PipelineStageFlags.VertexShader | PipelineStageFlags.FragmentShader;
if ((ViewFlags & BufferFlags.UnorderedAccess) != 0)
{
createInfo.Usage |= BufferUsageFlags.StorageTexelBuffer;
NativeAccessMask |= AccessFlags.ShaderWrite;
}
}
}
// Create buffer
NativeBuffer = GraphicsDevice.NativeDevice.CreateBuffer(ref createInfo);
// Allocate memory
var memoryProperties = MemoryPropertyFlags.DeviceLocal;
if (bufferDescription.Usage == GraphicsResourceUsage.Staging || Usage == GraphicsResourceUsage.Dynamic)
{
memoryProperties = MemoryPropertyFlags.HostVisible | MemoryPropertyFlags.HostCoherent;
}
MemoryRequirements memoryRequirements;
GraphicsDevice.NativeDevice.GetBufferMemoryRequirements(NativeBuffer, out memoryRequirements);
AllocateMemory(memoryProperties, memoryRequirements);
if (NativeMemory != DeviceMemory.Null)
{
GraphicsDevice.NativeDevice.BindBufferMemory(NativeBuffer, NativeMemory, 0);
}
if (SizeInBytes > 0)
{
// Begin copy command buffer
var commandBufferAllocateInfo = new CommandBufferAllocateInfo
{
StructureType = StructureType.CommandBufferAllocateInfo,
CommandPool = GraphicsDevice.NativeCopyCommandPool,
CommandBufferCount = 1,
Level = CommandBufferLevel.Primary
};
CommandBuffer commandBuffer;
lock (GraphicsDevice.QueueLock)
{
GraphicsDevice.NativeDevice.AllocateCommandBuffers(ref commandBufferAllocateInfo, &commandBuffer);
}
var beginInfo = new CommandBufferBeginInfo {
StructureType = StructureType.CommandBufferBeginInfo, Flags = CommandBufferUsageFlags.OneTimeSubmit
};
commandBuffer.Begin(ref beginInfo);
// Copy to upload buffer
if (dataPointer != IntPtr.Zero)
{
if (Usage == GraphicsResourceUsage.Dynamic)
{
var uploadMemory = GraphicsDevice.NativeDevice.MapMemory(NativeMemory, 0, (ulong)SizeInBytes, MemoryMapFlags.None);
Utilities.CopyMemory(uploadMemory, dataPointer, SizeInBytes);
GraphicsDevice.NativeDevice.UnmapMemory(NativeMemory);
}
else
{
var sizeInBytes = bufferDescription.SizeInBytes;
SharpVulkan.Buffer uploadResource;
int uploadOffset;
var uploadMemory = GraphicsDevice.AllocateUploadBuffer(sizeInBytes, out uploadResource, out uploadOffset);
Utilities.CopyMemory(uploadMemory, dataPointer, sizeInBytes);
// Barrier
var memoryBarrier = new BufferMemoryBarrier(uploadResource, AccessFlags.HostWrite, AccessFlags.TransferRead, (ulong)uploadOffset, (ulong)sizeInBytes);
commandBuffer.PipelineBarrier(PipelineStageFlags.Host, PipelineStageFlags.Transfer, DependencyFlags.None, 0, null, 1, &memoryBarrier, 0, null);
// Copy
var bufferCopy = new BufferCopy
{
SourceOffset = (uint)uploadOffset,
DestinationOffset = 0,
Size = (uint)sizeInBytes
};
commandBuffer.CopyBuffer(uploadResource, NativeBuffer, 1, &bufferCopy);
}
}
else
{
commandBuffer.FillBuffer(NativeBuffer, 0, (uint)bufferDescription.SizeInBytes, 0);
}
// Barrier
var bufferMemoryBarrier = new BufferMemoryBarrier(NativeBuffer, AccessFlags.TransferWrite, NativeAccessMask);
commandBuffer.PipelineBarrier(PipelineStageFlags.Transfer, PipelineStageFlags.AllCommands, DependencyFlags.None, 0, null, 1, &bufferMemoryBarrier, 0, null);
// Close and submit
commandBuffer.End();
var submitInfo = new SubmitInfo
{
StructureType = StructureType.SubmitInfo,
CommandBufferCount = 1,
CommandBuffers = new IntPtr(&commandBuffer),
};
lock (GraphicsDevice.QueueLock)
{
GraphicsDevice.NativeCommandQueue.Submit(1, &submitInfo, Fence.Null);
GraphicsDevice.NativeCommandQueue.WaitIdle();
//commandBuffer.Reset(CommandBufferResetFlags.None);
GraphicsDevice.NativeDevice.FreeCommandBuffers(GraphicsDevice.NativeCopyCommandPool, 1, &commandBuffer);
}
InitializeViews();
}
}
static public MPointArray ComputeData(MPointArray inPos, float angle, float envolope)
{
var memorySize = inPos.Count * 4 * sizeof(float);
float[] ubo = { inPos.Count, angle, envolope };
// pos to float[]
float[] allPos = new float[inPos.Count * 4];
var i = 0;
foreach (var point in inPos)
{
allPos[i * 4 + 0] = (float)point.x;
allPos[i * 4 + 1] = (float)point.y;
allPos[i * 4 + 2] = (float)point.z;
allPos[i * 4 + 3] = (float)point.w;
i++;
}
var instance = new Instance(new InstanceCreateInfo {
ApplicationInfo = new ApplicationInfo {
ApplicationName = "CSharp Vulkan",
ApplicationVersion = Vulkan.Version.Make(1, 0, 0),
ApiVersion = Vulkan.Version.Make(1, 0, 0),
EngineName = "CSharp Engine",
EngineVersion = Vulkan.Version.Make(1, 0, 0)
},
//EnabledExtensionCount = 0,
//EnabledLayerCount = 0
EnabledExtensionNames = new string[] { "VK_EXT_debug_report" },
EnabledLayerNames = new string[] { "VK_LAYER_LUNARG_standard_validation" }
});
var debugCallback = new Instance.DebugReportCallback(DebugReportCallback);
instance.EnableDebug(debugCallback, DebugReportFlagsExt.Warning | DebugReportFlagsExt.Error);
PhysicalDevice physicalDevice = instance.EnumeratePhysicalDevices()[0];
var queueFamilyIndex = FindBestComputeQueue(physicalDevice);
DeviceQueueCreateInfo[] deviceQueueCreateInfo =
{
new DeviceQueueCreateInfo
{
QueueFamilyIndex = queueFamilyIndex,
QueueCount = 1,
QueuePriorities = new float[] { 1.0f }
}
};
var deviceCreateInfo = new DeviceCreateInfo
{
QueueCreateInfos = deviceQueueCreateInfo,
EnabledFeatures = new PhysicalDeviceFeatures(),
EnabledExtensionCount = 0,
//EnabledLayerCount = 0
//EnabledExtensionNames = new string[] { "VK_EXT_debug_report" },
EnabledLayerNames = new string[] { "VK_LAYER_LUNARG_standard_validation" }
};
var device = physicalDevice.CreateDevice(deviceCreateInfo);
//var memProperties = physicalDevice.GetMemoryProperties();
var bufferCreateInfo = new BufferCreateInfo
{
Size = memorySize,
Usage = BufferUsageFlags.StorageBuffer,
SharingMode = SharingMode.Exclusive,
QueueFamilyIndices = new uint[] { queueFamilyIndex }
};
var inBuffer = device.CreateBuffer(bufferCreateInfo);
var outBuffer = device.CreateBuffer(bufferCreateInfo);
var memRequirements = device.GetBufferMemoryRequirements(inBuffer);
uint memIndex = FindMemoryType(physicalDevice, memRequirements.MemoryTypeBits, MemoryPropertyFlags.HostVisible | MemoryPropertyFlags.HostCoherent);
var memoryAllocatInfo = new MemoryAllocateInfo
{
AllocationSize = memRequirements.Size,
MemoryTypeIndex = memIndex
};
var memory = device.AllocateMemory(memoryAllocatInfo);
var dataPtr = device.MapMemory(memory, 0, memorySize);
Marshal.Copy(allPos, 0, dataPtr, allPos.Length);
device.UnmapMemory(memory);
memRequirements = device.GetBufferMemoryRequirements(outBuffer);
memoryAllocatInfo.MemoryTypeIndex = FindMemoryType(physicalDevice, memRequirements.MemoryTypeBits, MemoryPropertyFlags.HostVisible | MemoryPropertyFlags.HostCoherent);
var outMemory = device.AllocateMemory(memoryAllocatInfo);
device.BindBufferMemory(inBuffer, memory, 0);
device.BindBufferMemory(outBuffer, outMemory, 0);
//var uboSize = Marshal.SizeOf(ubo);
var uboSize = 3 * sizeof(float);
var uboBufferCreateInfo = new BufferCreateInfo
{
Size = uboSize,
Usage = BufferUsageFlags.UniformBuffer,
SharingMode = SharingMode.Exclusive,
QueueFamilyIndices = new uint[] { queueFamilyIndex }
};
var uboBuffer = device.CreateBuffer(uboBufferCreateInfo);
memRequirements = device.GetBufferMemoryRequirements(uboBuffer);
var uboMemoryAllocInfo = new MemoryAllocateInfo
{
AllocationSize = memRequirements.Size,
MemoryTypeIndex = FindMemoryType(physicalDevice, memRequirements.MemoryTypeBits, MemoryPropertyFlags.HostVisible | MemoryPropertyFlags.HostCoherent)
};
var uboMemory = device.AllocateMemory(uboMemoryAllocInfo);
var uboPtr = device.MapMemory(uboMemory, 0, uboSize);
Marshal.Copy(ubo, 0, uboPtr, ubo.Length);
device.UnmapMemory(uboMemory);
device.BindBufferMemory(uboBuffer, uboMemory, 0);
//string textureName = string.Format("{0}.comp.spv", typeof(VulankCompute).Namespace);
//Stream stream = typeof(VulankCompute).GetTypeInfo().Assembly.GetManifestResourceStream(textureName);
string shaderFile = @"E:\coding\CShape\yTwistCSharpVulkan\comp.spv";
Stream stream = File.Open(shaderFile, FileMode.Open);
byte[] shaderCode = new byte[stream.Length];
stream.Read(shaderCode, 0, (int)stream.Length);
stream.Close();
stream.Dispose();
var shaderModule = device.CreateShaderModule(shaderCode);
DescriptorSetLayoutBinding[] descriptorSetLayoutBindings =
{
new DescriptorSetLayoutBinding
{
Binding = 0,
DescriptorType = DescriptorType.StorageBuffer,
DescriptorCount = 1,
StageFlags = ShaderStageFlags.Compute
},
new DescriptorSetLayoutBinding
{
Binding = 1,
DescriptorType = DescriptorType.StorageBuffer,
DescriptorCount = 1,
StageFlags = ShaderStageFlags.Compute
},
new DescriptorSetLayoutBinding
{
Binding = 2,
DescriptorType = DescriptorType.UniformBuffer,
DescriptorCount = 1,
StageFlags = ShaderStageFlags.Compute
}
};
var descriporSetLayoutCreateinfo = new DescriptorSetLayoutCreateInfo
{
Bindings = descriptorSetLayoutBindings
};
var descriptorSetLayout = device.CreateDescriptorSetLayout(descriporSetLayoutCreateinfo);
var descriptorPool = device.CreateDescriptorPool(new DescriptorPoolCreateInfo
{
MaxSets = 1,
PoolSizes = new DescriptorPoolSize[]
{
new DescriptorPoolSize
{
DescriptorCount = 3
}
}
});
var descriptorSet = device.AllocateDescriptorSets(new DescriptorSetAllocateInfo
{
DescriptorPool = descriptorPool,
SetLayouts = new DescriptorSetLayout[] { descriptorSetLayout }
})[0];
var inBufferInfo = new DescriptorBufferInfo
{
Buffer = inBuffer,
Offset = 0,
Range = memorySize
};
var outBufferInfo = new DescriptorBufferInfo
{
Buffer = outBuffer,
Offset = 0,
Range = memorySize
};
var uboBufferInfo = new DescriptorBufferInfo
{
Buffer = uboBuffer,
Offset = 0,
Range = uboSize
};
WriteDescriptorSet[] writeDescriptorSets =
{
new WriteDescriptorSet
{
DstSet = descriptorSet,
DstBinding = 0,
DstArrayElement = 0,
DescriptorCount = 1,
DescriptorType = DescriptorType.StorageBuffer,
BufferInfo = new DescriptorBufferInfo[] { inBufferInfo }
},
new WriteDescriptorSet
{
DstSet = descriptorSet,
DstBinding = 1,
DstArrayElement = 0,
DescriptorCount = 1,
DescriptorType = DescriptorType.StorageBuffer,
BufferInfo = new DescriptorBufferInfo[] { outBufferInfo }
},
new WriteDescriptorSet
{
DstSet = descriptorSet,
DstBinding = 2,
DstArrayElement = 0,
DescriptorCount = 1,
DescriptorType = DescriptorType.UniformBuffer,
BufferInfo = new DescriptorBufferInfo[] { uboBufferInfo }
}
};
device.UpdateDescriptorSets(writeDescriptorSets, null);
var pipelineLayout = device.CreatePipelineLayout(new PipelineLayoutCreateInfo
{
SetLayouts = new DescriptorSetLayout[] { descriptorSetLayout }
});
var shaderStage = new PipelineShaderStageCreateInfo
{
Stage = ShaderStageFlags.Compute,
Module = shaderModule,
Name = "main"
};
var pipeline = device.CreateComputePipelines(null, new ComputePipelineCreateInfo[]
{
new ComputePipelineCreateInfo
{
Stage = shaderStage,
Layout = pipelineLayout
}
})[0];
var commandPool = device.CreateCommandPool(new CommandPoolCreateInfo
{
QueueFamilyIndex = queueFamilyIndex
});
var cmdBuffer = device.AllocateCommandBuffers(new CommandBufferAllocateInfo
{
CommandPool = commandPool,
CommandBufferCount = 1,
Level = CommandBufferLevel.Primary
})[0];
cmdBuffer.Begin(new CommandBufferBeginInfo
{
Flags = CommandBufferUsageFlags.OneTimeSubmit
});
cmdBuffer.CmdBindPipeline(PipelineBindPoint.Compute, pipeline);
cmdBuffer.CmdBindDescriptorSet(PipelineBindPoint.Compute, pipelineLayout, 0, descriptorSet, null);
cmdBuffer.CmdDispatch((uint)inPos.Count, 1, 1);
cmdBuffer.End();
var queue = device.GetQueue(queueFamilyIndex, 0);
//var fence = device.CreateFence(new FenceCreateInfo { Flags=0 });
queue.Submit(new SubmitInfo
{
WaitSemaphoreCount = 0,
CommandBuffers = new CommandBuffer[] { cmdBuffer },
});
queue.WaitIdle();
//device.WaitForFence(fence, true, UInt64.MaxValue);
var newDataPtr = device.MapMemory(outMemory, 0, memorySize);
Marshal.Copy(newDataPtr, allPos, 0, allPos.Length);
device.UnmapMemory(outMemory);
var j = 0;
foreach (var p in inPos)
{
p.x = allPos[j * 4 + 0];
p.y = allPos[j * 4 + 1];
p.z = allPos[j * 4 + 2];
p.w = allPos[j * 4 + 3];
j++;
}
//device.DestroyFence(fence);
device.DestroyShaderModule(shaderModule);
device.DestroyCommandPool(commandPool);
device.DestroyDescriptorSetLayout(descriptorSetLayout);
device.DestroyDescriptorPool(descriptorPool);
device.DestroyPipelineLayout(pipelineLayout);
device.DestroyPipeline(pipeline);
device.DestroyBuffer(inBuffer);
device.DestroyBuffer(outBuffer);
device.DestroyBuffer(uboBuffer);
device.FreeMemory(memory);
device.FreeMemory(outMemory);
device.FreeMemory(uboMemory);
device.Destroy();
//instance.Destroy();
return(inPos);
}
internal static unsafe extern Result vkCreateBuffer(Device device, BufferCreateInfo* createInfo, AllocationCallbacks* allocator, Buffer* buffer);
private Buffer CreateBuffer()
{
var bufferCreateInfo = new BufferCreateInfo(DefaultBufferSize, BufferUsages.UniformTexelBuffer);
return(Device.CreateBuffer(bufferCreateInfo));
}
public unsafe Buffer CreateBuffer(ref BufferCreateInfo createInfo, AllocationCallbacks* allocator = null)
{
Buffer buffer;
fixed (BufferCreateInfo* __createInfo__ = &createInfo)
{
vkCreateBuffer(this, __createInfo__, allocator, &buffer).CheckError();
}
return buffer;
}
