void buildCommandBuffers()
{
dev.WaitIdle();
cmdPool.Reset();
for (int i = 0; i < swapChain.ImageCount; ++i)
{
PrimaryCommandBuffer cmd = cmds[i];
FrameBuffer fb = frameBuffers[i];
cmd.Start();
pipeline.RenderPass.Begin(cmd, fb);
cmd.SetViewport(fb.Width, fb.Height);
cmd.SetScissor(fb.Width, fb.Height);
cmd.BindDescriptorSet(pipeline.Layout, descriptorSet);
pipeline.Bind(cmd);
cmd.BindVertexBuffer(vbo, 0);
cmd.BindIndexBuffer(ibo, VkIndexType.Uint16);
cmd.DrawIndexed((uint)indices.Length);
pipeline.RenderPass.End(cmd);
cmd.End();
}
}
void printResults()
{
dev.WaitIdle();
using (CommandPool cmdPoolTransfer = new CommandPool(dev, transferQ.qFamIndex)) {
PrimaryCommandBuffer cmd = cmdPoolTransfer.AllocateAndStart(VkCommandBufferUsageFlags.OneTimeSubmit);
imgResult.SetLayout(cmd, VkImageAspectFlags.Color,
VkImageLayout.ShaderReadOnlyOptimal, VkImageLayout.TransferDstOptimal,
VkPipelineStageFlags.FragmentShader, VkPipelineStageFlags.Transfer);
if (pong)
{
outBuff.CopyTo(cmd, imgResult, VkImageLayout.ShaderReadOnlyOptimal);
}
else
{
inBuff.CopyTo(cmd, imgResult, VkImageLayout.ShaderReadOnlyOptimal);
}
cmd.End();
transferQ.Submit(cmd);
transferQ.WaitIdle();
}
}
public void update_shadow_map(CommandPool cmdPool, vke.Buffer instanceBuf, params Model.InstancedCmd[] instances)
{
update_light_matrices();
PrimaryCommandBuffer cmd = cmdPool.AllocateAndStart();
shadowPass.Begin(cmd, fbShadowMap);
cmd.SetViewport(SHADOWMAP_SIZE, SHADOWMAP_SIZE);
cmd.SetScissor(SHADOWMAP_SIZE, SHADOWMAP_SIZE);
cmd.BindDescriptorSet(shadowPipeline.Layout, dsShadow);
Vk.vkCmdSetDepthBias(cmd.Handle, depthBiasConstant, 0.0f, depthBiasSlope);
shadowPipeline.Bind(cmd);
if (renderer.model != null)
{
renderer.model.Bind(cmd);
renderer.model.Draw(cmd, shadowPipeline.Layout, instanceBuf, true, instances);
}
shadowPass.End(cmd);
renderer.presentQueue.EndSubmitAndWait(cmd);
updateShadowMap = false;
}
public override void Update()
{
initGpuBuffers();
using (CommandPool cmdPoolCompute = new CommandPool(dev, computeQ.qFamIndex)) {
PrimaryCommandBuffer cmd = cmdPoolCompute.AllocateAndStart(VkCommandBufferUsageFlags.OneTimeSubmit);
pong = false;
uint stepSize = imgDim / 2;
plCompute.Bind(cmd);
cmd.PushConstant(plCompute.Layout, VkShaderStageFlags.Compute, imgDim, sizeof(int));
int pass = 0;
while (stepSize > 0 && pass < invocationCount)
{
cmd.PushConstant(plCompute.Layout, VkShaderStageFlags.Compute, stepSize);
if (pong)
{
plCompute.BindDescriptorSet(cmd, dsetPong);
}
else
{
plCompute.BindDescriptorSet(cmd, dsetPing);
}
cmd.Dispatch(imgDim, imgDim);
VkMemoryBarrier memBar = VkMemoryBarrier.New();
memBar.srcAccessMask = VkAccessFlags.ShaderWrite;
memBar.dstAccessMask = VkAccessFlags.ShaderRead;
Vk.vkCmdPipelineBarrier(cmd.Handle, VkPipelineStageFlags.ComputeShader, VkPipelineStageFlags.ComputeShader, VkDependencyFlags.ByRegion,
1, ref memBar, 0, IntPtr.Zero, 0, IntPtr.Zero);
pong = !pong;
stepSize /= 2;
pass++;
}
plNormalize.Bind(cmd);
if (pong)
{
plNormalize.BindDescriptorSet(cmd, dsetPong);
}
else
{
plNormalize.BindDescriptorSet(cmd, dsetPing);
}
cmd.Dispatch(imgDim, imgDim);
pong = !pong;
cmd.End();
computeQ.Submit(cmd);
computeQ.WaitIdle();
}
printResults();
}
void recordDraw(PrimaryCommandBuffer cmd, FrameBuffer fb)
{
pbrPipeline.RenderPass.Begin(cmd, fb);
cmd.SetViewport(fb.Width, fb.Height);
cmd.SetScissor(fb.Width, fb.Height);
pbrPipeline.RecordDraw(cmd);
pbrPipeline.RenderPass.End(cmd);
}
void initGpuBuffers()
{
using (CommandPool staggingCmdPool = new CommandPool(dev, transferQ.qFamIndex)) {
PrimaryCommandBuffer cmd = staggingCmdPool.AllocateAndStart(VkCommandBufferUsageFlags.OneTimeSubmit);
stagingDataBuff.CopyTo(cmd, inBuff);
transferQ.EndSubmitAndWait(cmd);
}
}
public void buildCommandBuffers(PrimaryCommandBuffer cmd)
{
renderPass.Begin(cmd, frameBuffer);
cmd.SetViewport(frameBuffer.Width, frameBuffer.Height);
cmd.SetScissor(frameBuffer.Width, frameBuffer.Height);
cmd.BindDescriptorSet(gBuffPipeline.Layout, dsMain);
envCube.RecordDraw(cmd);
renderPass.BeginSubPass(cmd);
if (model != null)
{
gBuffPipeline.Bind(cmd);
model.Bind(cmd);
model.DrawAll(cmd, gBuffPipeline.Layout);
}
renderPass.BeginSubPass(cmd);
//cmd.BindDescriptorSet (composePipeline.Layout, dsMain);
cmd.BindDescriptorSet(composePipeline.Layout, dsGBuff, 1);
if (currentDebugView == DebugView.none)
{
composePipeline.Bind(cmd);
}
else
{
debugPipeline.Bind(cmd);
uint debugValue = (uint)currentDebugView - 1;
if (currentDebugView == DebugView.shadowMap)
{
debugValue += (uint)((lightNumDebug << 8));
}
else
{
debugValue += (uint)((debugFace << 8) + (debugMip << 16));
}
cmd.PushConstant(debugPipeline.Layout, VkShaderStageFlags.Fragment, debugValue, (uint)Marshal.SizeOf <Matrix4x4> ());
}
cmd.Draw(3, 1, 0, 0);
//renderPass.BeginSubPass (cmd);
//toneMappingPipeline.Bind (cmd);
//cmd.Draw (3, 1, 0, 0);
renderPass.End(cmd);
}
public void Run()
{
using (CommandPool cmdPool = new CommandPool(dev, computeQ.qFamIndex)) {
PrimaryCommandBuffer cmd = cmdPool.AllocateAndStart(VkCommandBufferUsageFlags.OneTimeSubmit);
plCompute.Bind(cmd);
plCompute.BindDescriptorSet(cmd, dset);
cmd.Dispatch(data_size * sizeof(int));
cmd.End();
computeQ.Submit(cmd);
computeQ.WaitIdle();
}
printResults();
}
void recordDraw(PrimaryCommandBuffer cmd, FrameBuffer fb)
{
pipeline.RenderPass.Begin(cmd, fb);
cmd.SetViewport(fb.Width, fb.Height);
cmd.SetScissor(fb.Width, fb.Height);
cmd.BindDescriptorSet(pipeline.Layout, descriptorSet);
pipeline.Bind(cmd);
cmd.BindVertexBuffer(vbo, 0);
cmd.Draw(36);
pipeline.RenderPass.End(cmd);
}
void generateBRDFLUT(Queue staggingQ, CommandPool cmdPool)
{
const VkFormat format = VkFormat.R16g16Sfloat;
const int dim = 512;
lutBrdf = new Image(Dev, format, VkImageUsageFlags.ColorAttachment | VkImageUsageFlags.Sampled,
VkMemoryPropertyFlags.DeviceLocal, dim, dim);
lutBrdf.SetName("lutBrdf");
lutBrdf.CreateView();
lutBrdf.CreateSampler(VkSamplerAddressMode.ClampToEdge);
GraphicPipelineConfig cfg = GraphicPipelineConfig.CreateDefault(VkPrimitiveTopology.TriangleList, VkSampleCountFlags.SampleCount1, false, dim, dim);
cfg.Layout = new PipelineLayout(Dev, new DescriptorSetLayout(Dev));
cfg.RenderPass = new RenderPass(Dev);
cfg.RenderPass.AddAttachment(format, VkImageLayout.ShaderReadOnlyOptimal);
cfg.RenderPass.ClearValues.Add(new VkClearValue {
color = new VkClearColorValue(0, 0, 0)
});
cfg.RenderPass.AddSubpass(new SubPass(VkImageLayout.ColorAttachmentOptimal));
cfg.AddShaders(
new ShaderInfo(Dev, VkShaderStageFlags.Vertex, "#EnvironmentPipeline.genbrdflut.vert.spv"),
new ShaderInfo(Dev, VkShaderStageFlags.Fragment, "#EnvironmentPipeline.genbrdflut.frag.spv"));
using (GraphicPipeline pl = new GraphicPipeline(cfg)) {
cfg.Dispose();
using (FrameBuffer fb = new FrameBuffer(cfg.RenderPass, dim, dim, lutBrdf)) {
PrimaryCommandBuffer cmd = cmdPool.AllocateCommandBuffer();
cmd.Start(VkCommandBufferUsageFlags.OneTimeSubmit);
pl.RenderPass.Begin(cmd, fb);
pl.Bind(cmd);
cmd.Draw(3, 1, 0, 0);
pl.RenderPass.End(cmd);
cmd.End();
staggingQ.Submit(cmd);
staggingQ.WaitIdle();
cmd.Free();
}
}
lutBrdf.Descriptor.imageLayout = VkImageLayout.ShaderReadOnlyOptimal;
}
void recordDraw(PrimaryCommandBuffer cmd, FrameBuffer fb)
{
pipeline.RenderPass.Begin(cmd, fb);
cmd.SetViewport(fb.Width, fb.Height);
cmd.SetScissor(fb.Width, fb.Height);
cmd.BindPipeline(pipeline, descriptorSet);
cmd.PushConstant(pipeline, textColor);
cmd.PushConstant(pipeline, outlineColor, 0, 16);
cmd.BindVertexBuffer(vbo, 0);
cmd.BindIndexBuffer(ibo, VkIndexType.Uint16);
cmd.DrawIndexed((uint)ibo.ElementCount, 1, 0, 0, 0);
pipeline.RenderPass.End(cmd);
}
public PbrModelTexArray(Queue transferQ, string path)
{
dev = transferQ.Dev;
using (CommandPool cmdPool = new CommandPool(dev, transferQ.index)) {
using (glTFLoader ctx = new glTFLoader(path, transferQ, cmdPool)) {
loadSolids <Vertex> (ctx);
if (ctx.ImageCount > 0)
{
texArray = new Image(dev, Image.DefaultTextureFormat, VkImageUsageFlags.Sampled | VkImageUsageFlags.TransferDst | VkImageUsageFlags.TransferSrc,
VkMemoryPropertyFlags.DeviceLocal, TEXTURE_DIM, TEXTURE_DIM, VkImageType.Image2D,
VkSampleCountFlags.SampleCount1, VkImageTiling.Optimal, Image.ComputeMipLevels(TEXTURE_DIM), ctx.ImageCount);
ctx.BuildTexArray(ref texArray, 0);
}
else
{
texArray = new Image(dev, Image.DefaultTextureFormat, VkImageUsageFlags.Sampled | VkImageUsageFlags.TransferDst | VkImageUsageFlags.TransferSrc,
VkMemoryPropertyFlags.DeviceLocal, TEXTURE_DIM, TEXTURE_DIM, VkImageType.Image2D,
VkSampleCountFlags.SampleCount1, VkImageTiling.Optimal, Image.ComputeMipLevels(TEXTURE_DIM), 1);
PrimaryCommandBuffer cmd = cmdPool.AllocateAndStart(VkCommandBufferUsageFlags.OneTimeSubmit);
texArray.SetLayout(cmd, VkImageAspectFlags.Color, VkImageLayout.ShaderReadOnlyOptimal);
transferQ.EndSubmitAndWait(cmd, true);
}
texArray.CreateView(VkImageViewType.ImageView2DArray, VkImageAspectFlags.Color, texArray.CreateInfo.arrayLayers);
texArray.CreateSampler();
texArray.Descriptor.imageLayout = VkImageLayout.ShaderReadOnlyOptimal;
texArray.SetName("model texArray");
loadMaterials(ctx);
materialUBO = new HostBuffer <Material> (dev, VkBufferUsageFlags.UniformBuffer, materials);
}
}
}
public void RecordDraw(PrimaryCommandBuffer cmd)
{
cmd.BindDescriptorSet(Layout, dsMain);
envCube.RecordDraw(cmd);
drawModel(cmd);
}
public void RecordDraw(PrimaryCommandBuffer cmd)
{
Bind(cmd);
cmd.BindVertexBuffer(vboSkybox);
cmd.Draw(36);
}
void drawModel(PrimaryCommandBuffer cmd)
{
Bind(cmd);
model.Bind(cmd);
model.DrawAll(cmd, Layout);
}
Vector4 outlineColor = new Vector4(1.0f, 0.0f, 0.0f, 0.6f); //alpha => 0:disabled 1:enabled
protected override void initVulkan()
{
base.initVulkan();
cmds = cmdPool.AllocateCommandBuffer(swapChain.ImageCount);
font = new BMFont(vke.samples.Utils.GetDataFile("font.fnt"));
vbo = new GPUBuffer <float> (dev, VkBufferUsageFlags.VertexBuffer | VkBufferUsageFlags.TransferDst, 1024);
ibo = new GPUBuffer <ushort> (dev, VkBufferUsageFlags.IndexBuffer | VkBufferUsageFlags.TransferDst, 2048);
descriptorPool = new DescriptorPool(dev, 1,
new VkDescriptorPoolSize(VkDescriptorType.UniformBuffer),
new VkDescriptorPoolSize(VkDescriptorType.CombinedImageSampler)
);
dsLayout = new DescriptorSetLayout(dev, 0,
new VkDescriptorSetLayoutBinding(0, VkShaderStageFlags.Vertex, VkDescriptorType.UniformBuffer),
new VkDescriptorSetLayoutBinding(1, VkShaderStageFlags.Fragment, VkDescriptorType.CombinedImageSampler));
using (GraphicPipelineConfig cfg = GraphicPipelineConfig.CreateDefault(VkPrimitiveTopology.TriangleList, VkSampleCountFlags.SampleCount4, false)) {
cfg.Layout = new PipelineLayout(dev, dsLayout);
cfg.Layout.AddPushConstants(new VkPushConstantRange(VkShaderStageFlags.Fragment, (uint)Marshal.SizeOf <Vector4> () * 2));
cfg.RenderPass = new RenderPass(dev, swapChain.ColorFormat, cfg.Samples);
cfg.blendAttachments[0] = new VkPipelineColorBlendAttachmentState(
true, VkBlendFactor.One, VkBlendFactor.OneMinusSrcAlpha, VkBlendOp.Add, VkBlendFactor.One, VkBlendFactor.Zero);
cfg.AddVertexBinding(0, 5 * sizeof(float));
cfg.AddVertexAttributes(0, VkFormat.R32g32b32Sfloat, VkFormat.R32g32Sfloat);
cfg.AddShader(dev, VkShaderStageFlags.Vertex, "#shaders.main.vert.spv");
cfg.AddShader(dev, VkShaderStageFlags.Fragment, "#shaders.main.frag.spv");
pipeline = new GraphicPipeline(cfg);
}
uboMats = new HostBuffer(dev, VkBufferUsageFlags.UniformBuffer, matrices);
uboMats.Map(); //permanent map
descriptorSet = descriptorPool.Allocate(dsLayout);
fontTexture = font.GetPageTexture(0, presentQueue, cmdPool);
fontTexture.CreateView();
fontTexture.CreateSampler();
fontTexture.Descriptor.imageLayout = VkImageLayout.ShaderReadOnlyOptimal;
DescriptorSetWrites dsUpdate = new DescriptorSetWrites(descriptorSet, dsLayout);
dsUpdate.Write(dev, uboMats.Descriptor, fontTexture.Descriptor);
generateText("Vulkan", out HostBuffer <Vertex> staggingVbo, out HostBuffer <ushort> staggingIbo);
PrimaryCommandBuffer cmd = cmdPool.AllocateAndStart(VkCommandBufferUsageFlags.OneTimeSubmit);
staggingVbo.CopyTo(cmd, vbo);
staggingIbo.CopyTo(cmd, ibo);
presentQueue.EndSubmitAndWait(cmd);
staggingVbo.Dispose();
staggingIbo.Dispose();
UpdateFrequency = 10;
}
public static Image Load(Queue staggingQ, CommandPool staggingCmdPool, string ktxPath, VkImageUsageFlags usage = VkImageUsageFlags.Sampled,
VkMemoryPropertyFlags memoryProperty = VkMemoryPropertyFlags.DeviceLocal, bool generateMipmaps = true,
VkImageTiling tiling = VkImageTiling.Optimal)
{
Image img = null;
using (Stream ktxStream = File.Open(ktxPath, FileMode.Open, FileAccess.Read)) {
using (BinaryReader br = new BinaryReader(ktxStream)) {
if (!br.ReadBytes(12).AreEquals(ktxSignature))
{
throw new KtxException("Not a ktx file: " + ktxPath);
}
UInt32 endianness = br.ReadUInt32();
UInt32 glType = br.ReadUInt32();
UInt32 glTypeSize = br.ReadUInt32();
UInt32 glFormat = br.ReadUInt32();
UInt32 glInternalFormat = br.ReadUInt32();
UInt32 glBaseInternalFormat = br.ReadUInt32();
UInt32 pixelWidth = br.ReadUInt32();
UInt32 pixelHeight = br.ReadUInt32();
UInt32 pixelDepth = Math.Max(1, br.ReadUInt32());
UInt32 numberOfArrayElements = br.ReadUInt32(); //only for array text, else 0
UInt32 numberOfFaces = br.ReadUInt32(); //only for cube map, else 1
UInt32 numberOfMipmapLevels = Math.Max(1, br.ReadUInt32());
UInt32 bytesOfKeyValueData = br.ReadUInt32();
VkFormat vkFormat = GLHelper.vkGetFormatFromOpenGLInternalFormat(glInternalFormat);
if (vkFormat == VkFormat.Undefined)
{
vkFormat = GLHelper.vkGetFormatFromOpenGLFormat(glFormat, glType);
if (vkFormat == VkFormat.Undefined)
{
throw new KtxException("Undefined format: " + ktxPath);
}
}
VkFormatProperties formatProperties = staggingQ.Dev.phy.GetFormatProperties(vkFormat);
VkFormatFeatureFlags phyFormatSupport = (tiling == VkImageTiling.Linear) ?
formatProperties.linearTilingFeatures :
formatProperties.optimalTilingFeatures;
uint requestedMipsLevels = numberOfMipmapLevels;
if (numberOfMipmapLevels == 1)
{
requestedMipsLevels = (generateMipmaps && phyFormatSupport.HasFlag(VkFormatFeatureFlags.BlitSrc | VkFormatFeatureFlags.BlitDst)) ?
(uint)Math.Floor(Math.Log(Math.Max(pixelWidth, pixelHeight))) + 1 : 1;
}
if (tiling == VkImageTiling.Optimal)
{
usage |= VkImageUsageFlags.TransferDst;
}
if (generateMipmaps)
{
usage |= (VkImageUsageFlags.TransferSrc | VkImageUsageFlags.TransferDst);
}
VkImageCreateFlags createFlags = 0;
VkImageType imgType =
(pixelWidth == 0) ? throw new KtxException("pixelWidth must be > 0") :
(pixelHeight == 0) ? imgType = VkImageType.Image1D :
(pixelDepth == 1) ? imgType = VkImageType.Image2D : imgType = VkImageType.Image3D;
VkSampleCountFlags samples = VkSampleCountFlags.SampleCount1;
if (numberOfFaces > 1)
{
if (imgType != VkImageType.Image2D)
{
throw new KtxException("cubemap faces must be 2D textures");
}
createFlags = VkImageCreateFlags.CubeCompatible;
samples = VkSampleCountFlags.SampleCount1;
numberOfArrayElements = numberOfFaces;
}
else
{
numberOfFaces = 1;
if (numberOfArrayElements == 0)
{
numberOfArrayElements = 1;
}
}
if (!Image.CheckFormatIsSupported(usage, phyFormatSupport))
{
throw new Exception($"Unsupported image format: {vkFormat}, {tiling}, {usage}");
}
img = new Image(staggingQ.Dev, vkFormat, usage, memoryProperty, pixelWidth, pixelHeight, imgType, samples,
tiling, requestedMipsLevels, numberOfArrayElements, pixelDepth, createFlags);
byte[] keyValueDatas = br.ReadBytes((int)bytesOfKeyValueData);
uint blockW, blockH;
bool isCompressed = vkFormat.TryGetCompressedFormatBlockSize(out blockW, out blockH);
uint blockSize = blockW * blockH;
if (memoryProperty.HasFlag(VkMemoryPropertyFlags.DeviceLocal))
{
ulong staggingSize = img.AllocatedDeviceMemorySize;
Console.WriteLine($"KtxStream size = {ktxStream.Length}, img Allocation = {img.AllocatedDeviceMemorySize}");
using (HostBuffer stagging = new HostBuffer(staggingQ.Dev, VkBufferUsageFlags.TransferSrc, staggingSize)) {
stagging.Map();
PrimaryCommandBuffer cmd = staggingCmdPool.AllocateAndStart(VkCommandBufferUsageFlags.OneTimeSubmit);
img.SetLayout(cmd, VkImageAspectFlags.Color,
VkImageLayout.Undefined, VkImageLayout.TransferDstOptimal,
VkPipelineStageFlags.AllCommands, VkPipelineStageFlags.Transfer);
List <VkBufferImageCopy> buffCopies = new List <VkBufferImageCopy> ();
VkBufferImageCopy bufferCopyRegion = new VkBufferImageCopy {
imageExtent = img.CreateInfo.extent,
imageSubresource = new VkImageSubresourceLayers(VkImageAspectFlags.Color, img.CreateInfo.arrayLayers, 0)
};
ulong bufferOffset = 0;
uint imgWidth = img.CreateInfo.extent.width;
uint imgHeight = img.CreateInfo.extent.height;
for (int mips = 0; mips < numberOfMipmapLevels; mips++)
{
UInt32 imgSize = br.ReadUInt32();
bufferCopyRegion.bufferRowLength = imgWidth;
bufferCopyRegion.bufferImageHeight = imgHeight;
if (isCompressed && (imgWidth % blockW > 0 || imgHeight % blockH > 0))
{
bufferCopyRegion.bufferRowLength += blockW - imgWidth % blockW;
bufferCopyRegion.bufferImageHeight += blockH - imgHeight % blockH;
}
bufferCopyRegion.bufferOffset = bufferOffset;
bufferCopyRegion.imageSubresource.mipLevel = (uint)mips;
bufferCopyRegion.imageExtent.width = imgWidth;
bufferCopyRegion.imageExtent.height = imgHeight;
if (createFlags.HasFlag(VkImageCreateFlags.CubeCompatible))
{
//TODO:handle compressed formats
for (uint face = 0; face < numberOfFaces; face++)
{
Marshal.Copy(br.ReadBytes((int)imgSize), 0, stagging.MappedData + (int)bufferOffset, (int)imgSize);
uint faceOffset = imgSize + (imgSize % 4); //cube padding
bufferOffset += faceOffset;
}
buffCopies.Add(bufferCopyRegion);
bufferCopyRegion.bufferOffset = bufferOffset;
}
else if (isCompressed && (imgWidth % blockW > 0 || imgHeight % blockH > 0))
{
for (int line = 0; line < imgHeight; line++)
{
Marshal.Copy(br.ReadBytes((int)imgWidth), 0, stagging.MappedData + (int)bufferOffset, (int)imgWidth);
bufferOffset += bufferCopyRegion.bufferRowLength;
}
buffCopies.Add(bufferCopyRegion);
}
else
{
Marshal.Copy(br.ReadBytes((int)imgSize), 0, stagging.MappedData + (int)bufferOffset, (int)imgSize);
buffCopies.Add(bufferCopyRegion);
bufferOffset += imgSize;
}
if (isCompressed && bufferOffset % blockSize > 0)
{
bufferOffset += blockSize - bufferOffset % blockSize;
}
imgWidth /= 2;
imgHeight /= 2;
}
stagging.Unmap();
Vk.vkCmdCopyBufferToImage(cmd.Handle, stagging.handle, img.handle, VkImageLayout.TransferDstOptimal,
(uint)buffCopies.Count, buffCopies.Pin());
buffCopies.Unpin();
if (requestedMipsLevels > numberOfMipmapLevels)
{
img.BuildMipmaps(cmd);
}
else
{
img.SetLayout(cmd, VkImageAspectFlags.Color,
VkImageLayout.TransferDstOptimal, VkImageLayout.ShaderReadOnlyOptimal,
VkPipelineStageFlags.Transfer, VkPipelineStageFlags.FragmentShader);
}
cmd.End();
staggingQ.Submit(cmd);
staggingQ.WaitIdle();
cmd.Free();
}
}
else
{
}
}
}
return(img);
}
public Image generateCubeMap(Queue staggingQ, CommandPool cmdPool, CBTarget target)
{
const float deltaPhi = (2.0f * (float)Math.PI) / 180.0f;
const float deltaTheta = (0.5f * (float)Math.PI) / 64.0f;
VkFormat format = VkFormat.R32g32b32a32Sfloat;
uint dim = 64;
if (target == CBTarget.PREFILTEREDENV)
{
format = VkFormat.R16g16b16a16Sfloat;
dim = 512;
}
uint numMips = (uint)Math.Floor(Math.Log(dim, 2)) + 1;
Image imgFbOffscreen = new Image(Dev, format, VkImageUsageFlags.TransferSrc | VkImageUsageFlags.ColorAttachment,
VkMemoryPropertyFlags.DeviceLocal, dim, dim);
imgFbOffscreen.SetName("offscreenfb");
imgFbOffscreen.CreateView();
Image cmap = new Image(Dev, format, VkImageUsageFlags.TransferDst | VkImageUsageFlags.Sampled,
VkMemoryPropertyFlags.DeviceLocal, dim, dim, VkImageType.Image2D, VkSampleCountFlags.SampleCount1, VkImageTiling.Optimal,
numMips, 6, 1, VkImageCreateFlags.CubeCompatible);
if (target == CBTarget.PREFILTEREDENV)
{
cmap.SetName("prefilterenvmap");
}
else
{
cmap.SetName("irradianceCube");
}
cmap.CreateView(VkImageViewType.Cube, VkImageAspectFlags.Color, 6, 0);
cmap.CreateSampler(VkSamplerAddressMode.ClampToEdge);
DescriptorPool dsPool = new DescriptorPool(Dev, 2, new VkDescriptorPoolSize(VkDescriptorType.CombinedImageSampler));
DescriptorSetLayout dsLayout = new DescriptorSetLayout(Dev,
new VkDescriptorSetLayoutBinding(0, VkShaderStageFlags.Fragment, VkDescriptorType.CombinedImageSampler));
GraphicPipelineConfig cfg = GraphicPipelineConfig.CreateDefault(VkPrimitiveTopology.TriangleList, VkSampleCountFlags.SampleCount1, false);
cfg.Layout = new PipelineLayout(Dev, dsLayout);
cfg.Layout.AddPushConstants(
new VkPushConstantRange(VkShaderStageFlags.Vertex | VkShaderStageFlags.Fragment, (uint)Marshal.SizeOf <Matrix4x4> () + 8));
cfg.RenderPass = new RenderPass(Dev);
cfg.RenderPass.AddAttachment(format, VkImageLayout.ColorAttachmentOptimal);
cfg.RenderPass.ClearValues.Add(new VkClearValue {
color = new VkClearColorValue(0, 0, 0)
});
cfg.RenderPass.AddSubpass(new SubPass(VkImageLayout.ColorAttachmentOptimal));
cfg.AddVertexBinding(0, 3 * sizeof(float));
cfg.AddVertexAttributes(0, VkFormat.R32g32b32Sfloat);
cfg.AddShaders(new ShaderInfo(Dev, VkShaderStageFlags.Vertex, "#EnvironmentPipeline.filtercube.vert.spv"));
if (target == CBTarget.PREFILTEREDENV)
{
cfg.AddShaders(new ShaderInfo(Dev, VkShaderStageFlags.Fragment, "#EnvironmentPipeline.prefilterenvmap.frag.spv"));
}
else
{
cfg.AddShaders(new ShaderInfo(Dev, VkShaderStageFlags.Fragment, "#EnvironmentPipeline.irradiancecube.frag.spv"));
}
Matrix4x4[] matrices =
{
// POSITIVE_X
Matrix4x4.CreateRotationX(Utils.DegreesToRadians(180)) * Matrix4x4.CreateRotationY(Utils.DegreesToRadians(90)),
// NEGATIVE_X
Matrix4x4.CreateRotationX(Utils.DegreesToRadians(180)) * Matrix4x4.CreateRotationY(Utils.DegreesToRadians(-90)),
// POSITIVE_Y
Matrix4x4.CreateRotationX(Utils.DegreesToRadians(-90)),
// NEGATIVE_Y
Matrix4x4.CreateRotationX(Utils.DegreesToRadians(90)),
// POSITIVE_Z
Matrix4x4.CreateRotationX(Utils.DegreesToRadians(180)),
// NEGATIVE_Z
Matrix4x4.CreateRotationZ(Utils.DegreesToRadians(180))
};
VkImageSubresourceRange subRes = new VkImageSubresourceRange(VkImageAspectFlags.Color, 0, numMips, 0, 6);
using (GraphicPipeline pl = new GraphicPipeline(cfg)) {
cfg.Dispose();
DescriptorSet dset = dsPool.Allocate(dsLayout);
DescriptorSetWrites dsUpdate = new DescriptorSetWrites(dsLayout);
dsUpdate.Write(Dev, dset, cubemap.Descriptor);
Dev.WaitIdle();
using (FrameBuffer fb = new FrameBuffer(pl.RenderPass, dim, dim, imgFbOffscreen)) {
PrimaryCommandBuffer cmd = cmdPool.AllocateCommandBuffer();
cmd.Start(VkCommandBufferUsageFlags.OneTimeSubmit);
cmap.SetLayout(cmd, VkImageLayout.Undefined, VkImageLayout.TransferDstOptimal, subRes);
float roughness = 0;
cmd.SetScissor(dim, dim);
cmd.SetViewport((float)(dim), (float)dim);
for (int m = 0; m < numMips; m++)
{
roughness = (float)m / ((float)numMips - 1f);
for (int f = 0; f < 6; f++)
{
pl.RenderPass.Begin(cmd, fb);
pl.Bind(cmd);
float viewPortSize = (float)Math.Pow(0.5, m) * dim;
cmd.SetViewport(viewPortSize, viewPortSize);
cmd.PushConstant(pl.Layout, VkShaderStageFlags.Vertex | VkShaderStageFlags.Fragment,
matrices[f] * Matrix4x4.CreatePerspectiveFieldOfView(Utils.DegreesToRadians(90), 1f, 0.1f, 512f));
if (target == CBTarget.IRRADIANCE)
{
cmd.PushConstant(pl.Layout, VkShaderStageFlags.Vertex | VkShaderStageFlags.Fragment, deltaPhi, (uint)Marshal.SizeOf <Matrix4x4> ());
cmd.PushConstant(pl.Layout, VkShaderStageFlags.Vertex | VkShaderStageFlags.Fragment, deltaTheta, (uint)Marshal.SizeOf <Matrix4x4> () + 4);
}
else
{
cmd.PushConstant(pl.Layout, VkShaderStageFlags.Vertex | VkShaderStageFlags.Fragment, roughness, (uint)Marshal.SizeOf <Matrix4x4> ());
cmd.PushConstant(pl.Layout, VkShaderStageFlags.Vertex | VkShaderStageFlags.Fragment, 64u, (uint)Marshal.SizeOf <Matrix4x4> () + 4);
}
cmd.BindDescriptorSet(pl.Layout, dset);
cmd.BindVertexBuffer(vboSkybox);
cmd.Draw(36);
pl.RenderPass.End(cmd);
imgFbOffscreen.SetLayout(cmd, VkImageAspectFlags.Color,
VkImageLayout.ColorAttachmentOptimal, VkImageLayout.TransferSrcOptimal);
VkImageCopy region = new VkImageCopy();
region.srcSubresource = new VkImageSubresourceLayers(VkImageAspectFlags.Color, 1);
region.dstSubresource = new VkImageSubresourceLayers(VkImageAspectFlags.Color, 1, (uint)m, (uint)f);
region.extent = new VkExtent3D {
width = (uint)viewPortSize, height = (uint)viewPortSize, depth = 1
};
Vk.vkCmdCopyImage(cmd.Handle,
imgFbOffscreen.Handle, VkImageLayout.TransferSrcOptimal,
cmap.Handle, VkImageLayout.TransferDstOptimal,
1, region.Pin());
region.Unpin();
imgFbOffscreen.SetLayout(cmd, VkImageAspectFlags.Color,
VkImageLayout.TransferSrcOptimal, VkImageLayout.ColorAttachmentOptimal);
}
}
cmap.SetLayout(cmd, VkImageLayout.TransferDstOptimal, VkImageLayout.ShaderReadOnlyOptimal, subRes);
cmd.End();
staggingQ.Submit(cmd);
staggingQ.WaitIdle();
cmd.Free();
}
}
cmap.Descriptor.imageLayout = VkImageLayout.ShaderReadOnlyOptimal;
dsLayout.Dispose();
imgFbOffscreen.Dispose();
dsPool.Dispose();
return(cmap);
}
///// <summary>
///// build texture array
///// </summary>
///// <returns>The images.</returns>
///// <param name="textureSize">Uniformized Texture size for all images</param>
public void BuildTexArray (ref Image texArray, uint firstImg = 0) {
int texDim = (int)texArray.CreateInfo.extent.width;
PrimaryCommandBuffer cmd = cmdPool.AllocateAndStart (VkCommandBufferUsageFlags.OneTimeSubmit);
texArray.SetLayout (cmd, VkImageAspectFlags.Color, VkImageLayout.Undefined, VkImageLayout.TransferDstOptimal,
VkPipelineStageFlags.BottomOfPipe, VkPipelineStageFlags.Transfer);
transferQ.EndSubmitAndWait (cmd, true);
VkImageBlit imageBlit = new VkImageBlit {
srcSubresource = new VkImageSubresourceLayers (VkImageAspectFlags.Color, 1, 0),
dstOffsets_1 = new VkOffset3D (texDim, texDim, 1)
};
for (int l = 0; l < gltf.Images.Length; l++) {
GL.Image img = gltf.Images[l];
Image vkimg = null;
if (img.BufferView != null) {//load image from gltf buffer view
GL.BufferView bv = gltf.BufferViews[(int)img.BufferView];
ensureBufferIsLoaded (bv.Buffer);
vkimg = Image.Load (dev, loadedBuffers[bv.Buffer].Slice (bv.ByteOffset), (ulong)bv.ByteLength, VkImageUsageFlags.TransferSrc);
} else if (img.Uri.StartsWith ("data:", StringComparison.Ordinal)) {//load base64 encoded image
Debug.WriteLine ("loading embedded image {0} : {1}", img.Name, img.MimeType);
vkimg = Image.Load (dev, glTFLoader.loadDataUri (img), VkImageUsageFlags.TransferSrc);
} else {
Debug.WriteLine ("loading image {0} : {1} : {2}", img.Name, img.MimeType, img.Uri);//load image from file path in uri
vkimg = Image.Load (dev, Path.Combine (baseDirectory, img.Uri), VkImageUsageFlags.TransferSrc);
}
imageBlit.srcOffsets_1 = new VkOffset3D ((int)vkimg.CreateInfo.extent.width, (int)vkimg.CreateInfo.extent.height, 1);
imageBlit.dstSubresource = new VkImageSubresourceLayers (VkImageAspectFlags.Color, 1, 0, (uint)l + firstImg);
cmd = cmdPool.AllocateAndStart (VkCommandBufferUsageFlags.OneTimeSubmit);
vkimg.SetLayout (cmd, VkImageAspectFlags.Color,
VkAccessFlags.HostWrite, VkAccessFlags.TransferRead,
VkImageLayout.Undefined, VkImageLayout.TransferSrcOptimal,
VkPipelineStageFlags.Host, VkPipelineStageFlags.Transfer);
Vk.vkCmdBlitImage (cmd.Handle, vkimg.Handle, VkImageLayout.TransferSrcOptimal,
texArray.Handle, VkImageLayout.TransferDstOptimal, 1, ref imageBlit, VkFilter.Linear);
transferQ.EndSubmitAndWait (cmd, true);
vkimg.Dispose ();
}
cmd = cmdPool.AllocateAndStart (VkCommandBufferUsageFlags.OneTimeSubmit);
uint imgCount = (uint)gltf.Images.Length;
VkImageSubresourceRange mipSubRange = new VkImageSubresourceRange (VkImageAspectFlags.Color, 0, 1, firstImg, imgCount);
for (int i = 1; i < texArray.CreateInfo.mipLevels; i++) {
imageBlit = new VkImageBlit {
srcSubresource = new VkImageSubresourceLayers (VkImageAspectFlags.Color, imgCount, (uint)i - 1, firstImg),
srcOffsets_1 = new VkOffset3D ((int)texDim >> (i - 1), (int)texDim >> (i - 1), 1),
dstSubresource = new VkImageSubresourceLayers (VkImageAspectFlags.Color, imgCount, (uint)i, firstImg),
dstOffsets_1 = new VkOffset3D ((int)texDim >> i, (int)texDim >> i, 1)
};
texArray.SetLayout (cmd,
VkAccessFlags.TransferWrite, VkAccessFlags.TransferRead,
VkImageLayout.TransferDstOptimal, VkImageLayout.TransferSrcOptimal, mipSubRange,
VkPipelineStageFlags.Transfer, VkPipelineStageFlags.Transfer);
Vk.vkCmdBlitImage (cmd.Handle, texArray.Handle, VkImageLayout.TransferSrcOptimal,
texArray.Handle, VkImageLayout.TransferDstOptimal, 1, ref imageBlit, VkFilter.Linear);
texArray.SetLayout (cmd, VkImageLayout.TransferSrcOptimal, VkImageLayout.ShaderReadOnlyOptimal, mipSubRange,
VkPipelineStageFlags.Transfer, VkPipelineStageFlags.FragmentShader);
mipSubRange.baseMipLevel = (uint)i;
}
mipSubRange.baseMipLevel = texArray.CreateInfo.mipLevels - 1;
texArray.SetLayout (cmd, VkImageLayout.TransferDstOptimal, VkImageLayout.ShaderReadOnlyOptimal, mipSubRange,
VkPipelineStageFlags.Transfer, VkPipelineStageFlags.FragmentShader);
cmd.End ();
transferQ.Submit (cmd);
transferQ.WaitIdle ();
cmd.Free ();
}
//TODO: some buffer data are reused between primitives, and I duplicate the datas
//buffers must be constructed without duplications
public Mesh[] LoadMeshes<TVertex> (VkIndexType indexType, Buffer vbo, ulong vboOffset, Buffer ibo, ulong iboOffset) {
ulong vCount, iCount;
VkIndexType idxType;
GetVertexCount (out vCount, out iCount, out idxType);
int vertexByteSize = Marshal.SizeOf<TVertex> ();
ulong vertSize = vCount * (ulong)vertexByteSize;
ulong idxSize = iCount * (indexType == VkIndexType.Uint16 ? 2ul : 4ul);
ulong size = vertSize + idxSize;
int vertexCount = 0, indexCount = 0;
int autoNamedMesh = 1;
meshes = new List<Mesh> ();
using (HostBuffer stagging = new HostBuffer (dev, VkBufferUsageFlags.TransferSrc, size)) {
stagging.Map ();
unsafe {
Span<byte> stagVertPtrInit = new Span<byte>(stagging.MappedData.ToPointer (), (int)vertSize);
Span<byte> stagIdxPtrInit = new Span<byte>((byte*)stagging.MappedData.ToPointer() + vertSize, (int)idxSize);
Span<byte> stagVertPtr = stagVertPtrInit, stagIdxPtr = stagIdxPtrInit;
foreach (GL.Mesh mesh in gltf.Meshes) {
string meshName = mesh.Name;
if (string.IsNullOrEmpty (meshName)) {
meshName = "mesh_" + autoNamedMesh.ToString ();
autoNamedMesh++;
}
Mesh m = new Mesh { Name = meshName };
foreach (GL.MeshPrimitive p in mesh.Primitives) {
GL.Accessor AccPos = null, AccNorm = null, AccUv = null, AccUv1 = null;
int accessorIdx;
if (p.Attributes.TryGetValue ("POSITION", out accessorIdx)) {
AccPos = gltf.Accessors[accessorIdx];
ensureBufferIsLoaded (gltf.BufferViews[(int)AccPos.BufferView].Buffer);
}
if (p.Attributes.TryGetValue ("NORMAL", out accessorIdx)) {
AccNorm = gltf.Accessors[accessorIdx];
ensureBufferIsLoaded (gltf.BufferViews[(int)AccNorm.BufferView].Buffer);
}
if (p.Attributes.TryGetValue ("TEXCOORD_0", out accessorIdx)) {
AccUv = gltf.Accessors[accessorIdx];
ensureBufferIsLoaded (gltf.BufferViews[(int)AccUv.BufferView].Buffer);
}
if (p.Attributes.TryGetValue ("TEXCOORD_1", out accessorIdx)) {
AccUv1 = gltf.Accessors[accessorIdx];
ensureBufferIsLoaded (gltf.BufferViews[(int)AccUv1.BufferView].Buffer);
}
Primitive prim = new Primitive {
indexBase = (uint)indexCount,
vertexBase = vertexCount,
vertexCount = (uint)AccPos.Count,
material = (uint)(p.Material ?? 0)
};
prim.bb.min.ImportFloatArray (AccPos.Min);
prim.bb.max.ImportFloatArray (AccPos.Max);
prim.bb.isValid = true;
//Interleaving vertices
Span<byte> inPosPtr = Span<byte>.Empty, inNormPtr = Span<byte>.Empty, inUvPtr = Span<byte>.Empty, inUv1Ptr = Span<byte>.Empty;
GL.BufferView bv = gltf.BufferViews[(int)AccPos.BufferView];
inPosPtr = loadedBuffers[bv.Buffer].Span.Slice (AccPos.ByteOffset + bv.ByteOffset);
if (AccNorm != null) {
bv = gltf.BufferViews[(int)AccNorm.BufferView];
inNormPtr = loadedBuffers[bv.Buffer].Span.Slice (AccNorm.ByteOffset + bv.ByteOffset);
}
if (AccUv != null) {
bv = gltf.BufferViews[(int)AccUv.BufferView];
inUvPtr = loadedBuffers[bv.Buffer].Span.Slice (AccUv.ByteOffset + bv.ByteOffset);
}
if (AccUv1 != null) {
bv = gltf.BufferViews[(int)AccUv1.BufferView];
inUv1Ptr = loadedBuffers[bv.Buffer].Span.Slice (AccUv1.ByteOffset + bv.ByteOffset);
}
//TODO: use vertex attributes scan for copying data if they exists
for (int j = 0; j < prim.vertexCount; j++) {
inPosPtr.Slice (0, 12).CopyTo (stagVertPtr);
inPosPtr = inPosPtr.Slice(12);
if (!inNormPtr.IsEmpty) {
inNormPtr.Slice (0, 12).CopyTo (stagVertPtr.Slice (12));
inNormPtr = inNormPtr.Slice (12);
}
if (inUvPtr != null) {
inUvPtr.Slice (0, 8).CopyTo (stagVertPtr.Slice (24));
inUvPtr = inUvPtr.Slice (8);
}
if (inUv1Ptr != null) {
inUv1Ptr.Slice (0, 8).CopyTo (stagVertPtr.Slice (32));
inUv1Ptr = inUvPtr.Slice (8);
}
stagVertPtr = stagVertPtr.Slice (vertexByteSize);
}
/*Span<byte> s = stagVertPtrInit;
for (int i = 0; i < s.Length; i++)
Console.Write (s[i].ToString ("X2") + (i % 32 == 0 ? "\n" : " "));*/
//indices loading
if (p.Indices != null) {
GL.Accessor acc = gltf.Accessors[(int)p.Indices];
bv = gltf.BufferViews[(int)acc.BufferView];
Span<byte> inIdxPtr = loadedBuffers[bv.Buffer].Span.Slice (acc.ByteOffset + bv.ByteOffset);
//TODO:double check this, I dont seems to increment stag pointer
if (acc.ComponentType == GL.Accessor.ComponentTypeEnum.UNSIGNED_SHORT) {
if (indexType == VkIndexType.Uint16) {
inIdxPtr.Slice (0, acc.Count * 2).CopyTo (stagIdxPtr);
stagIdxPtr = stagIdxPtr.Slice (acc.Count * 2);
} else {
Span<uint> usPtr = MemoryMarshal.Cast<byte, uint> (stagIdxPtr);
Span<ushort> inPtr = MemoryMarshal.Cast < byte, ushort> (inIdxPtr);
for (int i = 0; i < acc.Count; i++)
usPtr[i] = inPtr[i];
stagIdxPtr = stagIdxPtr.Slice (acc.Count * 4);
}
} else if (acc.ComponentType == GL.Accessor.ComponentTypeEnum.UNSIGNED_INT) {
if (indexType == VkIndexType.Uint32) {
inIdxPtr.Slice (0, acc.Count * 4).CopyTo (stagIdxPtr);
stagIdxPtr = stagIdxPtr.Slice (acc.Count * 4);
} else {
Span<ushort> usPtr = MemoryMarshal.Cast<byte, ushort> (stagIdxPtr);
Span<uint> inPtr = MemoryMarshal.Cast<byte, uint> (inIdxPtr);
for (int i = 0; i < acc.Count; i++)
usPtr[i] = (ushort)inPtr[i];
stagIdxPtr = stagIdxPtr.Slice (acc.Count * 2);
}
} else if (acc.ComponentType == GL.Accessor.ComponentTypeEnum.UNSIGNED_BYTE) {
//convert
if (indexType == VkIndexType.Uint16) {
Span<ushort> usPtr = MemoryMarshal.Cast<byte, ushort> (stagIdxPtr);
for (int i = 0; i < acc.Count; i++)
usPtr[i] = (ushort)inIdxPtr[i];
stagIdxPtr = stagIdxPtr.Slice (acc.Count * 2);
} else {
Span<uint> usPtr = MemoryMarshal.Cast<byte, uint> (stagIdxPtr);
for (int i = 0; i < acc.Count; i++)
usPtr[i] = (uint)inIdxPtr[i];
stagIdxPtr = stagIdxPtr.Slice (acc.Count * 4);
}
} else
throw new NotImplementedException ();
prim.indexCount = (uint)acc.Count;
indexCount += acc.Count;
}
m.AddPrimitive (prim);
vertexCount += AccPos.Count;
}
meshes.Add (m);
}
/*ReadOnlySpan<byte> tmp = new ReadOnlySpan<byte> (stagging.MappedData.ToPointer (), (int)size);
Memory<byte> mtmp = new Memory<byte> (tmp.ToArray());
mtmp.Dump();*/
}
stagging.Unmap ();
PrimaryCommandBuffer cmd = cmdPool.AllocateCommandBuffer ();
cmd.Start (VkCommandBufferUsageFlags.OneTimeSubmit);
stagging.CopyTo (cmd, vbo, vertSize, 0, vboOffset);
if (iCount>0)
stagging.CopyTo (cmd, ibo, idxSize, vertSize, iboOffset);
cmd.End ();
transferQ.Submit (cmd);
dev.WaitIdle ();
cmd.Free ();
}
return meshes.ToArray ();
}
public void recordDraw(PrimaryCommandBuffer cmd, int imageIndex, vke.Buffer instanceBuf = null, params Model.InstancedCmd[] instances)
{
FrameBuffer fb = frameBuffers[imageIndex];
renderPass.Begin(cmd, fb);
cmd.SetViewport(fb.Width, fb.Height);
cmd.SetScissor(fb.Width, fb.Height);
cmd.BindDescriptorSet(gBuffPipeline.Layout, dsMain);
envCube.RecordDraw(cmd);
renderPass.BeginSubPass(cmd);
if (model != null)
{
model.Bind(cmd);
depthPrepassPipeline.Bind(cmd);
if (instanceBuf != null)
{
model.Draw(cmd, gBuffPipeline.Layout, instanceBuf, false, instances);
}
renderPass.BeginSubPass(cmd);
gBuffPipeline.Bind(cmd);
if (instanceBuf != null)
{
model.Draw(cmd, gBuffPipeline.Layout, instanceBuf, false, instances);
}
}
renderPass.BeginSubPass(cmd);
cmd.BindDescriptorSet(composePipeline.Layout, dsGBuff, 1);
if (currentDebugView == DebugView.none)
{
composePipeline.Bind(cmd);
}
else
{
debugPipeline.Bind(cmd);
uint debugValue = (uint)currentDebugView - 1;
if (currentDebugView == DebugView.shadowMap)
{
debugValue += (uint)((lightNumDebug << 8));
}
else
{
debugValue += (uint)((debugFace << 8) + (debugMip << 16));
}
cmd.PushConstant(debugPipeline.Layout, VkShaderStageFlags.Fragment, debugValue, (uint)Marshal.SizeOf <Matrix4x4>());
}
cmd.Draw(3, 1, 0, 0);
renderPass.BeginSubPass(cmd);
toneMappingPipeline.Bind(cmd);
cmd.Draw(3, 1, 0, 0);
renderPass.End(cmd);
}
