public MTLSampler(ref SamplerDescription description, MTLGraphicsDevice gd)
{
MTLFormats.GetMinMagMipFilter(
description.Filter,
out MTLSamplerMinMagFilter min,
out MTLSamplerMinMagFilter mag,
out MTLSamplerMipFilter mip);
MTLSamplerDescriptor mtlDesc = MTLUtil.AllocInit <MTLSamplerDescriptor>();
mtlDesc.rAddressMode = MTLFormats.VdToMTLAddressMode(description.AddressModeU);
mtlDesc.sAddressMode = MTLFormats.VdToMTLAddressMode(description.AddressModeV);
mtlDesc.tAddressMode = MTLFormats.VdToMTLAddressMode(description.AddressModeW);
mtlDesc.minFilter = min;
mtlDesc.magFilter = mag;
mtlDesc.mipFilter = mip;
mtlDesc.borderColor = MTLFormats.VdToMTLBorderColor(description.BorderColor);
if (description.ComparisonKind != null)
{
mtlDesc.compareFunction = MTLFormats.VdToMTLCompareFunction(description.ComparisonKind.Value);
}
mtlDesc.lodMinClamp = description.MinimumLod;
mtlDesc.lodMaxClamp = description.MaximumLod;
mtlDesc.maxAnisotropy = (UIntPtr)(Math.Max(1, description.MaximumAnisotropy));
DeviceSampler = gd.Device.newSamplerStateWithDescriptor(mtlDesc);
ObjectiveCRuntime.release(mtlDesc.NativePtr);
}
internal MTLComputePipelineState GetUnalignedBufferCopyPipeline()
{
lock (_unalignedBufferCopyPipelineLock)
{
if (_unalignedBufferCopyPipeline.IsNull)
{
MTLComputePipelineDescriptor descriptor = MTLUtil.AllocInit <MTLComputePipelineDescriptor>(
nameof(MTLComputePipelineDescriptor));
MTLPipelineBufferDescriptor buffer0 = descriptor.buffers[0];
buffer0.mutability = MTLMutability.Mutable;
MTLPipelineBufferDescriptor buffer1 = descriptor.buffers[1];
buffer0.mutability = MTLMutability.Mutable;
Debug.Assert(_unalignedBufferCopyShader == null);
string name = MetalFeatures.IsMacOS ? UnalignedBufferCopyPipelineMacOSName : UnalignedBufferCopyPipelineiOSName;
using (Stream resourceStream = typeof(MTLGraphicsDevice).Assembly.GetManifestResourceStream(name))
{
byte[] data = new byte[resourceStream.Length];
using (MemoryStream ms = new MemoryStream(data))
{
resourceStream.CopyTo(ms);
ShaderDescription shaderDesc = new ShaderDescription(ShaderStages.Compute, data, "copy_bytes");
_unalignedBufferCopyShader = new MTLShader(ref shaderDesc, this);
}
}
descriptor.computeFunction = _unalignedBufferCopyShader.Function;
_unalignedBufferCopyPipeline = _device.newComputePipelineStateWithDescriptor(descriptor);
ObjectiveCRuntime.release(descriptor.NativePtr);
}
return(_unalignedBufferCopyPipeline);
}
}
public override MTLRenderPassDescriptor CreateRenderPassDescriptor()
{
MTLRenderPassDescriptor ret = MTLUtil.AllocInit <MTLRenderPassDescriptor>();
for (int i = 0; i < ColorTargets.Count; i++)
{
FramebufferAttachment colorTarget = ColorTargets[i];
MTLTexture mtlTarget = Util.AssertSubtype <Texture, MTLTexture>(colorTarget.Target);
MTLRenderPassColorAttachmentDescriptor colorDescriptor = ret.colorAttachments[(uint)i];
colorDescriptor.texture = mtlTarget.DeviceTexture;
colorDescriptor.loadAction = MTLLoadAction.Load;
colorDescriptor.slice = (UIntPtr)colorTarget.ArrayLayer;
}
if (DepthTarget != null)
{
MTLTexture mtlDepthTarget = Util.AssertSubtype <Texture, MTLTexture>(DepthTarget.Value.Target);
MTLRenderPassDepthAttachmentDescriptor depthDescriptor = ret.depthAttachment;
depthDescriptor.loadAction = MTLLoadAction.Load;
depthDescriptor.storeAction = MTLStoreAction.Store;
depthDescriptor.texture = mtlDepthTarget.DeviceTexture;
depthDescriptor.slice = (UIntPtr)DepthTarget.Value.ArrayLayer;
if (FormatHelpers.IsStencilFormat(mtlDepthTarget.Format))
{
MTLRenderPassStencilAttachmentDescriptor stencilDescriptor = ret.stencilAttachment;
stencilDescriptor.loadAction = MTLLoadAction.Load;
stencilDescriptor.storeAction = MTLStoreAction.Store;
stencilDescriptor.texture = mtlDepthTarget.DeviceTexture;
stencilDescriptor.slice = (UIntPtr)DepthTarget.Value.ArrayLayer;
}
}
return(ret);
}
public MTLTexture(ref TextureDescription description, MTLGraphicsDevice _gd)
{
Width = description.Width;
Height = description.Height;
Depth = description.Depth;
ArrayLayers = description.ArrayLayers;
MipLevels = description.MipLevels;
Format = description.Format;
Usage = description.Usage;
Type = description.Type;
SampleCount = description.SampleCount;
bool isDepth = (Usage & TextureUsage.DepthStencil) == TextureUsage.DepthStencil;
MTLPixelFormat = MTLFormats.VdToMTLPixelFormat(Format, isDepth);
MTLTextureType = MTLFormats.VdToMTLTextureType(
Type,
ArrayLayers,
SampleCount != TextureSampleCount.Count1,
(Usage & TextureUsage.Cubemap) != 0);
if (Usage != TextureUsage.Staging)
{
MTLTextureDescriptor texDescriptor = MTLUtil.AllocInit <MTLTextureDescriptor>();
texDescriptor.width = (UIntPtr)Width;
texDescriptor.height = (UIntPtr)Height;
texDescriptor.depth = (UIntPtr)Depth;
texDescriptor.mipmapLevelCount = (UIntPtr)MipLevels;
texDescriptor.arrayLength = (UIntPtr)ArrayLayers;
texDescriptor.sampleCount = (UIntPtr)FormatHelpers.GetSampleCountUInt32(SampleCount);
texDescriptor.textureType = MTLTextureType;
texDescriptor.pixelFormat = MTLPixelFormat;
texDescriptor.textureUsage = MTLFormats.VdToMTLTextureUsage(Usage);
texDescriptor.storageMode = MTLStorageMode.Private;
DeviceTexture = _gd.Device.newTextureWithDescriptor(texDescriptor);
ObjectiveCRuntime.release(texDescriptor.NativePtr);
}
else
{
uint blockSize = FormatHelpers.IsCompressedFormat(Format) ? 4u : 1u;
uint totalStorageSize = 0;
for (uint level = 0; level < MipLevels; level++)
{
Util.GetMipDimensions(this, level, out uint levelWidth, out uint levelHeight, out uint levelDepth);
uint storageWidth = Math.Max(levelWidth, blockSize);
uint storageHeight = Math.Max(levelHeight, blockSize);
totalStorageSize += levelDepth * FormatHelpers.GetDepthPitch(
FormatHelpers.GetRowPitch(levelWidth, Format),
levelHeight,
Format);
}
totalStorageSize *= ArrayLayers;
StagingBuffer = _gd.Device.newBufferWithLengthOptions(
(UIntPtr)totalStorageSize,
MTLResourceOptions.StorageModeManaged);
}
}
public MTLPipeline(ref ComputePipelineDescription description, MTLGraphicsDevice gd)
: base(ref description)
{
IsComputePipeline = true;
ResourceLayouts = new MTLResourceLayout[description.ResourceLayouts.Length];
for (int i = 0; i < ResourceLayouts.Length; i++)
{
ResourceLayouts[i] = Util.AssertSubtype <ResourceLayout, MTLResourceLayout>(description.ResourceLayouts[i]);
}
ThreadsPerThreadgroup = new MTLSize(
description.ThreadGroupSizeX,
description.ThreadGroupSizeY,
description.ThreadGroupSizeZ);
MTLComputePipelineDescriptor mtlDesc = MTLUtil.AllocInit <MTLComputePipelineDescriptor>(
nameof(MTLComputePipelineDescriptor));
MTLShader mtlShader = Util.AssertSubtype <Shader, MTLShader>(description.ComputeShader);
mtlDesc.computeFunction = mtlShader.Function;
MTLPipelineBufferDescriptorArray buffers = mtlDesc.buffers;
uint bufferIndex = 0;
foreach (MTLResourceLayout layout in ResourceLayouts)
{
foreach (ResourceKind kind in layout.ResourceKinds)
{
if (kind == ResourceKind.UniformBuffer ||
kind == ResourceKind.StructuredBufferReadOnly)
{
MTLPipelineBufferDescriptor bufferDesc = buffers[bufferIndex];
bufferDesc.mutability = MTLMutability.Immutable;
bufferIndex += 1;
}
else if (kind == ResourceKind.StructuredBufferReadWrite)
{
MTLPipelineBufferDescriptor bufferDesc = buffers[bufferIndex];
bufferDesc.mutability = MTLMutability.Mutable;
bufferIndex += 1;
}
}
}
ComputePipelineState = gd.Device.newComputePipelineStateWithDescriptor(mtlDesc);
ObjectiveCRuntime.release(mtlDesc.NativePtr);
}
public override MTLRenderPassDescriptor CreateRenderPassDescriptor()
{
var ret = MTLUtil.AllocInit <MTLRenderPassDescriptor>();
var color0 = ret.colorAttachments[0];
color0.texture = _drawable.texture;
color0.loadAction = MTLLoadAction.Load;
if (_depthTarget != null)
{
var depthAttachment = ret.depthAttachment;
depthAttachment.texture = _depthTexture.DeviceTexture;
depthAttachment.loadAction = MTLLoadAction.Load;
}
return(ret);
}
public MTLPipeline(ref GraphicsPipelineDescription description, MTLGraphicsDevice gd)
: base(ref description)
{
PrimitiveType = MTLFormats.VdToMTLPrimitiveTopology(description.PrimitiveTopology);
ResourceLayouts = new MTLResourceLayout[description.ResourceLayouts.Length];
NonVertexBufferCount = 0;
for (int i = 0; i < ResourceLayouts.Length; i++)
{
ResourceLayouts[i] = Util.AssertSubtype <ResourceLayout, MTLResourceLayout>(description.ResourceLayouts[i]);
NonVertexBufferCount += ResourceLayouts[i].BufferCount;
}
ResourceBindingModel = description.ResourceBindingModel ?? gd.ResourceBindingModel;
CullMode = MTLFormats.VdToMTLCullMode(description.RasterizerState.CullMode);
FrontFace = MTLFormats.VdVoMTLFrontFace(description.RasterizerState.FrontFace);
FillMode = MTLFormats.VdToMTLFillMode(description.RasterizerState.FillMode);
ScissorTestEnabled = description.RasterizerState.ScissorTestEnabled;
MTLRenderPipelineDescriptor mtlDesc = MTLRenderPipelineDescriptor.New();
foreach (Shader shader in description.ShaderSet.Shaders)
{
MTLShader mtlShader = Util.AssertSubtype <Shader, MTLShader>(shader);
MTLFunction specializedFunction;
if (mtlShader.HasFunctionConstants)
{
// Need to create specialized MTLFunction.
MTLFunctionConstantValues constantValues = CreateConstantValues(description.ShaderSet.Specializations);
specializedFunction = mtlShader.Library.newFunctionWithNameConstantValues(mtlShader.EntryPoint, constantValues);
AddSpecializedFunction(specializedFunction);
ObjectiveCRuntime.release(constantValues.NativePtr);
Debug.Assert(specializedFunction.NativePtr != IntPtr.Zero, "Failed to create specialized MTLFunction");
}
else
{
specializedFunction = mtlShader.Function;
}
if (shader.Stage == ShaderStages.Vertex)
{
mtlDesc.vertexFunction = specializedFunction;
}
else if (shader.Stage == ShaderStages.Fragment)
{
mtlDesc.fragmentFunction = specializedFunction;
}
}
// Vertex layouts
VertexLayoutDescription[] vdVertexLayouts = description.ShaderSet.VertexLayouts;
MTLVertexDescriptor vertexDescriptor = mtlDesc.vertexDescriptor;
for (uint i = 0; i < vdVertexLayouts.Length; i++)
{
uint layoutIndex = ResourceBindingModel == ResourceBindingModel.Improved
? NonVertexBufferCount + i
: i;
MTLVertexBufferLayoutDescriptor mtlLayout = vertexDescriptor.layouts[layoutIndex];
mtlLayout.stride = (UIntPtr)vdVertexLayouts[i].Stride;
uint stepRate = vdVertexLayouts[i].InstanceStepRate;
mtlLayout.stepFunction = stepRate == 0 ? MTLVertexStepFunction.PerVertex : MTLVertexStepFunction.PerInstance;
mtlLayout.stepRate = (UIntPtr)Math.Max(1, stepRate);
}
uint element = 0;
for (uint i = 0; i < vdVertexLayouts.Length; i++)
{
uint offset = 0;
VertexLayoutDescription vdDesc = vdVertexLayouts[i];
for (uint j = 0; j < vdDesc.Elements.Length; j++)
{
VertexElementDescription elementDesc = vdDesc.Elements[j];
MTLVertexAttributeDescriptor mtlAttribute = vertexDescriptor.attributes[element];
mtlAttribute.bufferIndex = (UIntPtr)(ResourceBindingModel == ResourceBindingModel.Improved
? NonVertexBufferCount + i
: i);
mtlAttribute.format = MTLFormats.VdToMTLVertexFormat(elementDesc.Format);
mtlAttribute.offset = elementDesc.Offset != 0 ? (UIntPtr)elementDesc.Offset : (UIntPtr)offset;
offset += FormatHelpers.GetSizeInBytes(elementDesc.Format);
element += 1;
}
}
VertexBufferCount = (uint)vdVertexLayouts.Length;
// Outputs
OutputDescription outputs = description.Outputs;
BlendStateDescription blendStateDesc = description.BlendState;
BlendColor = blendStateDesc.BlendFactor;
if (outputs.SampleCount != TextureSampleCount.Count1)
{
mtlDesc.sampleCount = (UIntPtr)FormatHelpers.GetSampleCountUInt32(outputs.SampleCount);
}
if (outputs.DepthAttachment != null)
{
PixelFormat depthFormat = outputs.DepthAttachment.Value.Format;
MTLPixelFormat mtlDepthFormat = MTLFormats.VdToMTLPixelFormat(depthFormat, true);
mtlDesc.depthAttachmentPixelFormat = mtlDepthFormat;
if ((FormatHelpers.IsStencilFormat(depthFormat)))
{
HasStencil = true;
mtlDesc.stencilAttachmentPixelFormat = mtlDepthFormat;
}
}
for (uint i = 0; i < outputs.ColorAttachments.Length; i++)
{
BlendAttachmentDescription attachmentBlendDesc = blendStateDesc.AttachmentStates[i];
MTLRenderPipelineColorAttachmentDescriptor colorDesc = mtlDesc.colorAttachments[i];
colorDesc.pixelFormat = MTLFormats.VdToMTLPixelFormat(outputs.ColorAttachments[i].Format, false);
colorDesc.blendingEnabled = attachmentBlendDesc.BlendEnabled;
colorDesc.alphaBlendOperation = MTLFormats.VdToMTLBlendOp(attachmentBlendDesc.AlphaFunction);
colorDesc.sourceAlphaBlendFactor = MTLFormats.VdToMTLBlendFactor(attachmentBlendDesc.SourceAlphaFactor);
colorDesc.destinationAlphaBlendFactor = MTLFormats.VdToMTLBlendFactor(attachmentBlendDesc.DestinationAlphaFactor);
colorDesc.rgbBlendOperation = MTLFormats.VdToMTLBlendOp(attachmentBlendDesc.ColorFunction);
colorDesc.sourceRGBBlendFactor = MTLFormats.VdToMTLBlendFactor(attachmentBlendDesc.SourceColorFactor);
colorDesc.destinationRGBBlendFactor = MTLFormats.VdToMTLBlendFactor(attachmentBlendDesc.DestinationColorFactor);
}
RenderPipelineState = gd.Device.newRenderPipelineStateWithDescriptor(mtlDesc);
ObjectiveCRuntime.release(mtlDesc.NativePtr);
if (outputs.DepthAttachment != null)
{
MTLDepthStencilDescriptor depthDescriptor = MTLUtil.AllocInit <MTLDepthStencilDescriptor>(
nameof(MTLDepthStencilDescriptor));
depthDescriptor.depthCompareFunction = MTLFormats.VdToMTLCompareFunction(
description.DepthStencilState.DepthComparison);
depthDescriptor.depthWriteEnabled = description.DepthStencilState.DepthWriteEnabled;
bool stencilEnabled = description.DepthStencilState.StencilTestEnabled;
if (stencilEnabled)
{
StencilReference = description.DepthStencilState.StencilReference;
StencilBehaviorDescription vdFrontDesc = description.DepthStencilState.StencilFront;
MTLStencilDescriptor front = MTLUtil.AllocInit <MTLStencilDescriptor>(nameof(MTLStencilDescriptor));
front.readMask = stencilEnabled ? description.DepthStencilState.StencilReadMask : 0u;
front.writeMask = stencilEnabled ? description.DepthStencilState.StencilWriteMask : 0u;
front.depthFailureOperation = MTLFormats.VdToMTLStencilOperation(vdFrontDesc.DepthFail);
front.stencilFailureOperation = MTLFormats.VdToMTLStencilOperation(vdFrontDesc.Fail);
front.depthStencilPassOperation = MTLFormats.VdToMTLStencilOperation(vdFrontDesc.Pass);
front.stencilCompareFunction = MTLFormats.VdToMTLCompareFunction(vdFrontDesc.Comparison);
depthDescriptor.frontFaceStencil = front;
StencilBehaviorDescription vdBackDesc = description.DepthStencilState.StencilBack;
MTLStencilDescriptor back = MTLUtil.AllocInit <MTLStencilDescriptor>(nameof(MTLStencilDescriptor));
back.readMask = stencilEnabled ? description.DepthStencilState.StencilReadMask : 0u;
back.writeMask = stencilEnabled ? description.DepthStencilState.StencilWriteMask : 0u;
back.depthFailureOperation = MTLFormats.VdToMTLStencilOperation(vdBackDesc.DepthFail);
back.stencilFailureOperation = MTLFormats.VdToMTLStencilOperation(vdBackDesc.Fail);
back.depthStencilPassOperation = MTLFormats.VdToMTLStencilOperation(vdBackDesc.Pass);
back.stencilCompareFunction = MTLFormats.VdToMTLCompareFunction(vdBackDesc.Comparison);
depthDescriptor.backFaceStencil = back;
ObjectiveCRuntime.release(front.NativePtr);
ObjectiveCRuntime.release(back.NativePtr);
}
DepthStencilState = gd.Device.newDepthStencilStateWithDescriptor(depthDescriptor);
ObjectiveCRuntime.release(depthDescriptor.NativePtr);
}
DepthClipMode = description.DepthStencilState.DepthTestEnabled ? MTLDepthClipMode.Clip : MTLDepthClipMode.Clamp;
}
public MTLPipeline(ref ComputePipelineDescription description, MTLGraphicsDevice gd)
: base(ref description)
{
IsComputePipeline = true;
ResourceLayouts = new MTLResourceLayout[description.ResourceLayouts.Length];
for (int i = 0; i < ResourceLayouts.Length; i++)
{
ResourceLayouts[i] = Util.AssertSubtype <ResourceLayout, MTLResourceLayout>(description.ResourceLayouts[i]);
}
ThreadsPerThreadgroup = new MTLSize(
description.ThreadGroupSizeX,
description.ThreadGroupSizeY,
description.ThreadGroupSizeZ);
MTLComputePipelineDescriptor mtlDesc = MTLUtil.AllocInit <MTLComputePipelineDescriptor>(
nameof(MTLComputePipelineDescriptor));
MTLShader mtlShader = Util.AssertSubtype <Shader, MTLShader>(description.ComputeShader);
MTLFunction specializedFunction;
if (mtlShader.HasFunctionConstants)
{
// Need to create specialized MTLFunction.
MTLFunctionConstantValues constantValues = CreateConstantValues(description.Specializations);
specializedFunction = mtlShader.Library.newFunctionWithNameConstantValues(mtlShader.EntryPoint, constantValues);
AddSpecializedFunction(specializedFunction);
ObjectiveCRuntime.release(constantValues.NativePtr);
Debug.Assert(specializedFunction.NativePtr != IntPtr.Zero, "Failed to create specialized MTLFunction");
}
else
{
specializedFunction = mtlShader.Function;
}
mtlDesc.computeFunction = specializedFunction;
MTLPipelineBufferDescriptorArray buffers = mtlDesc.buffers;
uint bufferIndex = 0;
foreach (MTLResourceLayout layout in ResourceLayouts)
{
foreach (ResourceKind kind in layout.ResourceKinds)
{
if (kind == ResourceKind.UniformBuffer ||
kind == ResourceKind.StructuredBufferReadOnly)
{
MTLPipelineBufferDescriptor bufferDesc = buffers[bufferIndex];
bufferDesc.mutability = MTLMutability.Immutable;
bufferIndex += 1;
}
else if (kind == ResourceKind.StructuredBufferReadWrite)
{
MTLPipelineBufferDescriptor bufferDesc = buffers[bufferIndex];
bufferDesc.mutability = MTLMutability.Mutable;
bufferIndex += 1;
}
}
}
ComputePipelineState = gd.Device.newComputePipelineStateWithDescriptor(mtlDesc);
ObjectiveCRuntime.release(mtlDesc.NativePtr);
}
public static CAEAGLLayer New()
{
return(MTLUtil.AllocInit <CAEAGLLayer>("CAEAGLLayer"));
}
