Ejemplo n.º 1
0
        private void PlatformConstruct(
            GraphicsDevice graphicsDevice,
            ResourceUploadBatch uploadBatch,
            PixelFormat pixelFormat,
            int width,
            int height,
            TextureMipMapData[] mipMapData)
        {
            var textureDescriptor = MTLTextureDescriptor.CreateTexture2DDescriptor(
                pixelFormat.ToMTLPixelFormat(),
                (nuint)width,
                (nuint)height,
                true); // Ignored, because we'll set the mip level count explicitly below.

            textureDescriptor.Usage = MTLTextureUsage.ShaderRead;

            textureDescriptor.MipmapLevelCount = (nuint)mipMapData.Length;

            _originalPixelFormat = pixelFormat;

            DeviceTexture = AddDisposable(graphicsDevice.Device.CreateTexture(textureDescriptor));

            for (var i = 0; i < mipMapData.Length; i++)
            {
                SetData(
                    i,
                    mipMapData[i].Data,
                    mipMapData[i].BytesPerRow);
            }
        }
Ejemplo n.º 2
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        void SetupRenderPassDescriptorForTexture(IMTLTexture texture)
        {
            if (renderPassDescriptor == null)
            {
                renderPassDescriptor = MTLRenderPassDescriptor.CreateRenderPassDescriptor();
            }

            renderPassDescriptor.ColorAttachments [0].Texture     = texture;
            renderPassDescriptor.ColorAttachments [0].LoadAction  = MTLLoadAction.Clear;
            renderPassDescriptor.ColorAttachments [0].ClearColor  = new MTLClearColor(0.65f, 0.65f, 0.65f, 1.0f);
            renderPassDescriptor.ColorAttachments [0].StoreAction = MTLStoreAction.Store;

            if (depthTex == null || (depthTex.Width != texture.Width || depthTex.Height != texture.Height))
            {
                //  If we need a depth texture and don't have one, or if the depth texture we have is the wrong size
                //  Then allocate one of the proper size
                MTLTextureDescriptor desc = MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.Depth32Float, texture.Width, texture.Height, false);
                if (ObjCRuntime.Runtime.Arch == ObjCRuntime.Arch.SIMULATOR)
                {
                    desc.StorageMode = MTLStorageMode.Private;
                }
                depthTex       = device.CreateTexture(desc);
                depthTex.Label = "Depth";

                renderPassDescriptor.DepthAttachment.Texture     = depthTex;
                renderPassDescriptor.DepthAttachment.LoadAction  = MTLLoadAction.Clear;
                renderPassDescriptor.DepthAttachment.ClearDepth  = 1.0f;
                renderPassDescriptor.DepthAttachment.StoreAction = MTLStoreAction.DontCare;
            }
        }
Ejemplo n.º 3
0
        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 = MTLTextureDescriptor.New();
                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.StorageModeShared);
            }
        }
Ejemplo n.º 4
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        private void PlatformConstruct(
            GraphicsDevice graphicsDevice,
            PixelFormat pixelFormat,
            int arraySize,
            int width,
            int height,
            TextureBindFlags bindFlags,
            int mipMapCount,
            TextureMipMapData[] mipMapData)
        {
            var descriptor = new MTLTextureDescriptor
            {
                ArrayLength = (nuint) arraySize,
                CpuCacheMode = MTLCpuCacheMode.DefaultCache,
                Depth = 1,
                Height = (nuint) height,
                MipmapLevelCount = (nuint) mipMapCount,
                PixelFormat = pixelFormat.ToMTLPixelFormat(),
                ResourceOptions = MTLResourceOptions.StorageModeManaged,
                SampleCount = 1,
                StorageMode = MTLStorageMode.Managed,
                TextureType = arraySize > 1 ? MTLTextureType.k2DArray : MTLTextureType.k2D,
                Width = (nuint) width,
                Usage = bindFlags.ToMTLTextureUsage()
            };

            DeviceTexture = AddDisposable(graphicsDevice.Device.CreateTexture(descriptor));

            if (mipMapData != null)
            {
                for (var i = 0; i < mipMapData.Length; i++)
                {
                    var mipWidth = CalculateMipMapSize(i, width);
                    var mipHeight = CalculateMipMapSize(i, height);

                    var region = MTLRegion.Create2D(0, 0, mipWidth, mipHeight);

                    var dataHandle = GCHandle.Alloc(mipMapData[i].Data, GCHandleType.Pinned);
                    try
                    {
                        DeviceTexture.ReplaceRegion(
                            region,
                            (nuint) i,
                            dataHandle.AddrOfPinnedObject(),
                            (nuint) mipMapData[i].BytesPerRow);
                    }
                    finally
                    {
                        dataHandle.Free();
                    }
                }
            }
        }
		public void MTLTextureDescriptorCreateTest ()
		{
			var arr = new MTLTextureDescriptor [10];
			for (nuint i = 0; i < 10; i++)
				arr [i] = MTLTextureDescriptor.CreateTexture2DDescriptor (MTLPixelFormat.Depth32Float, 50 + i, 50 + i, false);

			var resList = MPSStateResourceList.Create (arr[0], arr [1], arr [2], arr [3], arr [4], arr [5], arr [6], arr [7], arr [8], arr [9]);
			Assert.NotNull (resList, "resList");

			var state = new MPSState (device, resList);
			Assert.That (state.ResourceCount, Is.EqualTo (10), "ResourceCount");
		}
Ejemplo n.º 6
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        bool PrepareCompute()
        {
            NSError error;

            // Create a compute kernel function
            IMTLFunction function = shaderLibrary.CreateFunction("grayscale");

            if (function == null)
            {
                Console.WriteLine("ERROR: Failed creating a new function!");
                return(false);
            }

            // Create a compute kernel
            kernel = device.CreateComputePipelineState(function, out error);
            if (kernel == null)
            {
                Console.WriteLine("ERROR: Failed creating a compute kernel: %@", error.Description);
                return(false);
            }

            MTLTextureDescriptor texDesc = MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA8Unorm, (nuint)size.Width, (nuint)size.Height, false);

            if (texDesc == null)
            {
                Console.WriteLine("ERROR: Failed creating a texture 2d descriptor with RGBA unnormalized pixel format!");
                return(false);
            }

            outTexture = device.CreateTexture(texDesc);
            if (outTexture == null)
            {
                Console.WriteLine("ERROR: Failed creating an output 2d texture!");
                return(false);
            }

            // Set the compute kernel's workgroup size and count
            workgroupSize = new MTLSize(1, 1, 1);
            localCount    = new MTLSize((nint)size.Width, (nint)size.Height, 1);
            return(true);
        }
Ejemplo n.º 7
0
        public void Metal()
        {
            TestRuntime.AssertDevice();
            TestRuntime.AssertXcodeVersion(10, 0);

            device = MTLDevice.SystemDefault;
            // some older hardware won't have a default
            if (device == null || !MPSKernel.Supports(device))
            {
                Assert.Inconclusive("Metal is not supported");
            }

            cache = NSArray <MPSState> .FromNSObjects(
                new MPSState (device, MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA32Float, 220, 220, false)),
                new MPSState (device, MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA32Float, 221, 221, false)),
                new MPSState (device, MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA32Float, 222, 222, false)),
                new MPSState (device, MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA32Float, 223, 223, false)),
                new MPSState (device, MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA32Float, 224, 224, false)),
                new MPSState (device, MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA32Float, 225, 225, false))
                );
        }
Ejemplo n.º 8
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        public override void Resize()
        {
#if __IOS__
            UIView view   = (UIView)ObjCRuntime.Runtime.GetNSObject(_window);
            nfloat scale  = UIScreen.MainScreen.Scale;
            nfloat width  = view.Bounds.Size.Width * scale;
            nfloat height = view.Bounds.Size.Height * scale;
            _layer.Frame = view.Layer.Frame;
#else
            NSView view   = (NSView)ObjCRuntime.Runtime.GetNSObject(_window);
            nfloat width  = view.Bounds.Size.Width;
            nfloat height = view.Bounds.Size.Height;
#endif
            _layer.DrawableSize = new CGSize(width, height);

            MTLTextureDescriptor descriptor = new MTLTextureDescriptor();
            if (_samples > 1)
            {
                descriptor.TextureType = MTLTextureType.k2DMultisample;
                descriptor.PixelFormat = _layer.PixelFormat;
                descriptor.Width       = (uint)width;
                descriptor.Height      = (uint)height;
                descriptor.SampleCount = _samples;
                IMTLTexture colorAA = _dev.CreateTexture(descriptor);
                _descriptor.ColorAttachments[0].Texture = colorAA;
            }

            descriptor.TextureType = _samples > 1 ? MTLTextureType.k2DMultisample : MTLTextureType.k2D;
            descriptor.PixelFormat = MTLPixelFormat.Stencil8;
            descriptor.Width       = (uint)width;
            descriptor.Height      = (uint)height;
            descriptor.SampleCount = _samples;

            IMTLTexture stencil = _dev.CreateTexture(descriptor);
            _descriptor.StencilAttachment.Texture = stencil;
        }
Ejemplo n.º 9
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        public Result CreateImage(MgImageCreateInfo pCreateInfo, IMgAllocationCallbacks allocator, out IMgImage pImage)
        {
            Debug.Assert(pCreateInfo != null);

            var depth       = (nuint)pCreateInfo.Extent.Depth;
            var height      = (nuint)pCreateInfo.Extent.Height;
            var width       = (nuint)pCreateInfo.Extent.Width;
            var arrayLayers = (nuint)pCreateInfo.ArrayLayers;
            var mipLevels   = (nuint)pCreateInfo.MipLevels;

            //TODO : Figure this out
            var storageMode     = MTLStorageMode.Shared;
            var resourceOptions = MTLResourceOptions.CpuCacheModeDefault;
            var cpuCacheMode    = MTLCpuCacheMode.DefaultCache;

            var descriptor = new MTLTextureDescriptor
            {
                ArrayLength      = arrayLayers,
                PixelFormat      = AmtFormatExtensions.GetPixelFormat(pCreateInfo.Format),
                SampleCount      = AmtSampleCountFlagBitExtensions.TranslateSampleCount(pCreateInfo.Samples),
                TextureType      = TranslateTextureType(pCreateInfo.ImageType),
                StorageMode      = storageMode,
                Width            = width,
                Height           = height,
                Depth            = depth,
                MipmapLevelCount = mipLevels,
                Usage            = TranslateUsage(pCreateInfo.Usage),
                ResourceOptions  = resourceOptions,
                CpuCacheMode     = cpuCacheMode,
            };

            var texture = mDevice.CreateTexture(descriptor);

            pImage = new AmtImage(texture);
            return(Result.SUCCESS);
        }
Ejemplo n.º 10
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        public override void ViewDidLoad()
        {
            base.ViewDidLoad();

            // Set the view to use the default device
            device = MTLDevice.SystemDefault;

            if (device == null)
            {
                Console.WriteLine("Metal is not supported on this device");
                View = new NSView(View.Frame);
            }

            // Create a new command queue
            commandQueue = device.CreateCommandQueue();

            // Load all the shader files with a metal file extension in the project
            defaultLibrary = device.CreateDefaultLibrary();

            // Setup view
            mtkView          = (MTKView)View;
            mtkView.Delegate = this;
            mtkView.Device   = device;

            mtkView.SampleCount              = 1;
            mtkView.DepthStencilPixelFormat  = MTLPixelFormat.Depth32Float_Stencil8;
            mtkView.ColorPixelFormat         = MTLPixelFormat.BGRA8Unorm;
            mtkView.PreferredFramesPerSecond = 60;
            mtkView.ClearColor = new MTLClearColor(0.5f, 0.5f, 0.5f, 1.0f);

            // Load the vertex program into the library
            IMTLFunction triangleVertexProgram = defaultLibrary.CreateFunction("triangle_vertex");
            IMTLFunction cubeVertexProgram     = defaultLibrary.CreateFunction("cube_vertex");

            // Load the fragment program into the library
            IMTLFunction triangleFragmentProgram = defaultLibrary.CreateFunction("triangle_fragment");
            IMTLFunction cubeFragmentProgram     = defaultLibrary.CreateFunction("cube_fragment");

            // Triangle vertex descriptor
            MTLVertexDescriptor triangleVertexDescriptor = new MTLVertexDescriptor();

            triangleVertexDescriptor.Attributes[0].Format      = MTLVertexFormat.Float4;
            triangleVertexDescriptor.Attributes[0].BufferIndex = 0;
            triangleVertexDescriptor.Attributes[0].Offset      = 0;
            triangleVertexDescriptor.Attributes[1].Format      = MTLVertexFormat.Float4;
            triangleVertexDescriptor.Attributes[1].BufferIndex = 0;
            triangleVertexDescriptor.Attributes[1].Offset      = 4 * sizeof(float);

            triangleVertexDescriptor.Layouts[0].Stride       = 8 * sizeof(float);
            triangleVertexDescriptor.Layouts[0].StepRate     = 1;
            triangleVertexDescriptor.Layouts[0].StepFunction = MTLVertexStepFunction.PerVertex;

            // Cube vertex descriptor
            MTLVertexDescriptor cubeVertexDescriptor = new MTLVertexDescriptor();

            cubeVertexDescriptor.Attributes[0].Format      = MTLVertexFormat.Float4;
            cubeVertexDescriptor.Attributes[0].BufferIndex = 0;
            cubeVertexDescriptor.Attributes[0].Offset      = 0;
            cubeVertexDescriptor.Attributes[1].Format      = MTLVertexFormat.Float2;
            cubeVertexDescriptor.Attributes[1].BufferIndex = 0;
            cubeVertexDescriptor.Attributes[1].Offset      = 4 * sizeof(float);

            cubeVertexDescriptor.Layouts[0].Stride       = 6 * sizeof(float);
            cubeVertexDescriptor.Layouts[0].StepRate     = 1;
            cubeVertexDescriptor.Layouts[0].StepFunction = MTLVertexStepFunction.PerVertex;

            // Create buffers
            triangleVertexBuffer = device.CreateBuffer(triangleVertexData, MTLResourceOptions.CpuCacheModeDefault);
            cubeVertexBuffer     = device.CreateBuffer(cubeVertexData, MTLResourceOptions.CpuCacheModeDefault);

            this.clock = new System.Diagnostics.Stopwatch();
            clock.Start();

            this.view = CreateLookAt(new Vector3(0, 0, 5), new Vector3(0, 0, 0), Vector3.UnitY);
            var aspect = (float)(View.Bounds.Size.Width / View.Bounds.Size.Height);

            this.proj = Matrix4.CreatePerspectiveFieldOfView((float)Math.PI / 4, aspect, 0.1f, 100);
            this.cubeParameters.WorldViewProjection = Matrix4.Identity;
            cubeConstantBuffer = device.CreateBuffer((uint)Marshal.SizeOf(this.cubeParameters), MTLResourceOptions.CpuCacheModeDefault);

            // Create Pipeline Descriptor
            var trianglePipelineStateDescriptor = new MTLRenderPipelineDescriptor
            {
                SampleCount                  = mtkView.SampleCount,
                VertexFunction               = triangleVertexProgram,
                FragmentFunction             = triangleFragmentProgram,
                VertexDescriptor             = triangleVertexDescriptor,
                DepthAttachmentPixelFormat   = mtkView.DepthStencilPixelFormat,
                StencilAttachmentPixelFormat = mtkView.DepthStencilPixelFormat,
            };

            var cubePipelineStateDescriptor = new MTLRenderPipelineDescriptor
            {
                SampleCount                  = mtkView.SampleCount,
                VertexFunction               = cubeVertexProgram,
                FragmentFunction             = cubeFragmentProgram,
                VertexDescriptor             = cubeVertexDescriptor,
                DepthAttachmentPixelFormat   = mtkView.DepthStencilPixelFormat,
                StencilAttachmentPixelFormat = mtkView.DepthStencilPixelFormat,
            };

            MTLRenderPipelineColorAttachmentDescriptor triangleRenderBufferAttachment = trianglePipelineStateDescriptor.ColorAttachments[0];

            triangleRenderBufferAttachment.PixelFormat = mtkView.ColorPixelFormat;

            MTLRenderPipelineColorAttachmentDescriptor cubeRenderBufferAttachment = cubePipelineStateDescriptor.ColorAttachments[0];

            cubeRenderBufferAttachment.PixelFormat = mtkView.ColorPixelFormat;

            NSError error;

            trianglePipelineState = device.CreateRenderPipelineState(trianglePipelineStateDescriptor, out error);
            if (trianglePipelineState == null)
            {
                Console.WriteLine("Failed to created pipeline state, error {0}", error);
            }

            cubePipelineState = device.CreateRenderPipelineState(cubePipelineStateDescriptor, out error);
            if (cubePipelineState == null)
            {
                Console.WriteLine("Failed to created pipeline state, error {0}", error);
            }

            var depthStencilDescriptor = new MTLDepthStencilDescriptor
            {
                DepthCompareFunction = MTLCompareFunction.Less,
                DepthWriteEnabled    = true
            };

            depthStencilState = device.CreateDepthStencilState(depthStencilDescriptor);

            // Texture
            NSImage          image            = NSImage.ImageNamed("crate.png");
            MTKTextureLoader mTKTextureLoader = new MTKTextureLoader(device);

            this.cubeTexture = mTKTextureLoader.FromCGImage(image.CGImage, new MTKTextureLoaderOptions(), out error);

            MTLSamplerDescriptor samplerDescriptor = new MTLSamplerDescriptor()
            {
                MinFilter    = MTLSamplerMinMagFilter.Linear,
                MagFilter    = MTLSamplerMinMagFilter.Linear,
                SAddressMode = MTLSamplerAddressMode.Repeat,
                TAddressMode = MTLSamplerAddressMode.Repeat,
            };

            this.sampler = device.CreateSamplerState(samplerDescriptor);

            // Create FrameBuffer texture
            IMTLTexture          drawableTexture   = mtkView.CurrentDrawable.Texture;
            MTLTextureDescriptor textureDescriptor = new MTLTextureDescriptor()
            {
                Width            = drawableTexture.Width,
                Height           = drawableTexture.Height,
                PixelFormat      = drawableTexture.PixelFormat,
                TextureType      = drawableTexture.TextureType,
                MipmapLevelCount = drawableTexture.MipmapLevelCount,
                ArrayLength      = drawableTexture.ArrayLength,
                SampleCount      = drawableTexture.SampleCount,
                Depth            = drawableTexture.Depth,
                CpuCacheMode     = drawableTexture.CpuCacheMode,
                Usage            = MTLTextureUsage.RenderTarget,
                StorageMode      = MTLStorageMode.Managed,
            };

            this.colorFrameBufferTexture = device.CreateTexture(textureDescriptor);
        }
Ejemplo n.º 11
0
        public void ReturnReleaseTest()
        {
            // This test tries to exercise all the Metal API that has a
            // ReturnRelease attribute. To test that the attribute does the
            // right thing: run the test app using instruments, run the test
            // several times by tapping on it, and do a heap mark between each
            // test. Then verify that there's at least one heap shot with 0
            // memory increase, which means that nothing is leaking.
            var    device = MTLDevice.SystemDefault;
            IntPtr buffer_mem;
            int    buffer_length;
            bool   freed;

            byte [] buffer_bytes;

            // some older hardware won't have a default
            if (device == null)
            {
                Assert.Inconclusive("Metal is not supported");
            }

            // Apple claims that "Indirect command buffers" are available with MTLGPUFamilyCommon2, but it crashes on at least one machine.
            // Log what the current device supports, just to have it in the log.
            foreach (MTLFeatureSet fs in Enum.GetValues(typeof(MTLFeatureSet)))
            {
                Console.WriteLine($"This device supports feature set: {fs}: {device.SupportsFeatureSet (fs)}");
            }
            if (TestRuntime.CheckXcodeVersion(11, 0))
            {
                foreach (MTLGpuFamily gf in Enum.GetValues(typeof(MTLGpuFamily)))
                {
                    Console.WriteLine($"This device supports Gpu family: {gf}: {device.SupportsFamily (gf)}");
                }
            }


            string metal_code          = File.ReadAllText(Path.Combine(NSBundle.MainBundle.ResourcePath, "metal-sample.metal"));
            string metallib_path       = Path.Combine(NSBundle.MainBundle.ResourcePath, "default.metallib");
            string fragmentshader_path = Path.Combine(NSBundle.MainBundle.ResourcePath, "fragmentShader.metallib");

#if !__MACOS__ && !__MACCATALYST__
            if (Runtime.Arch == Arch.SIMULATOR)
            {
                Assert.Ignore("Metal isn't available in the simulator");
            }
#endif
            using (var hd = new MTLHeapDescriptor()) {
                hd.CpuCacheMode = MTLCpuCacheMode.DefaultCache;
                hd.StorageMode  = MTLStorageMode.Private;
                using (var txt = MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA8Unorm, 40, 40, false)) {
                    var sa = device.GetHeapTextureSizeAndAlign(txt);
                    hd.Size = sa.Size;
                    using (var heap = device.CreateHeap(hd)) {
                        Assert.IsNotNull(heap, $"NonNullHeap");
                    }
                }
            }

            using (var queue = device.CreateCommandQueue()) {
                Assert.IsNotNull(queue, "Queue: NonNull 1");
            }

#if __MACOS__
            if (TestRuntime.CheckXcodeVersion(10, 0) && device.SupportsFeatureSet(MTLFeatureSet.macOS_GPUFamily2_v1))
            {
                using (var descriptor = MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA8Unorm, 64, 64, false)) {
                    descriptor.StorageMode = MTLStorageMode.Private;
                    using (var texture = device.CreateSharedTexture(descriptor)) {
                        Assert.IsNotNull(texture, "CreateSharedTexture (MTLTextureDescriptor): NonNull");

                        using (var handle = texture.CreateSharedTextureHandle())
                            using (var shared = device.CreateSharedTexture(handle))
                                Assert.IsNotNull(texture, "CreateSharedTexture (MTLSharedTextureHandle): NonNull");
                    }
                }
            }
#endif

            using (var queue = device.CreateCommandQueue(10)) {
                Assert.IsNotNull(queue, "Queue: NonNull 2");
            }

            using (var buffer = device.CreateBuffer(1024, MTLResourceOptions.CpuCacheModeDefault)) {
                Assert.IsNotNull(buffer, "CreateBuffer: NonNull 1");
            }

            buffer_mem = AllocPageAligned(1, out buffer_length);
            using (var buffer = device.CreateBuffer(buffer_mem, (nuint)buffer_length, MTLResourceOptions.CpuCacheModeDefault)) {
                Assert.IsNotNull(buffer, "CreateBuffer: NonNull 2");
            }
            FreePageAligned(buffer_mem, buffer_length);

            buffer_bytes = new byte [getpagesize()];
            using (var buffer = device.CreateBuffer(buffer_bytes, MTLResourceOptions.CpuCacheModeDefault)) {
                Assert.IsNotNull(buffer, "CreateBuffer: NonNull 3");
            }

            buffer_mem = AllocPageAligned(1, out buffer_length);
            freed      = false;
#if __MACOS__
            var resourceOptions7 = MTLResourceOptions.StorageModeManaged;
#else
            var resourceOptions7 = MTLResourceOptions.CpuCacheModeDefault;
#endif
            using (var buffer = device.CreateBufferNoCopy(buffer_mem, (nuint)buffer_length, resourceOptions7, (pointer, length) => { FreePageAligned(pointer, (int)length); freed = true; })) {
                Assert.IsNotNull(buffer, "CreateBufferNoCopy: NonNull 1");
            }
            Assert.IsTrue(freed, "CreateBufferNoCopy: Freed 1");

            using (var descriptor = new MTLDepthStencilDescriptor())
                using (var dss = device.CreateDepthStencilState(descriptor)) {
                    Assert.IsNotNull(dss, "CreateDepthStencilState: NonNull 1");
                }

            using (var descriptor = MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA8Unorm, 64, 64, false)) {
                using (var texture = device.CreateTexture(descriptor))
                    Assert.NotNull(texture, "CreateTexture: NonNull 1");

                using (var surface = new IOSurface.IOSurface(new IOSurface.IOSurfaceOptions {
                    Width = 64,
                    Height = 64,
                    BytesPerElement = 4,
                })) {
                    using (var texture = device.CreateTexture(descriptor, surface, 0))
                        Assert.NotNull(texture, "CreateTexture: NonNull 2");
                }
            }

            using (var descriptor = new MTLSamplerDescriptor())
                using (var sampler = device.CreateSamplerState(descriptor))
                    Assert.IsNotNull(sampler, "CreateSamplerState: NonNull 1");

            using (var library = device.CreateDefaultLibrary())
                Assert.IsNotNull(library, "CreateDefaultLibrary: NonNull 1");

            using (var library = device.CreateLibrary(metallib_path, out var error)) {
                Assert.IsNotNull(library, "CreateLibrary: NonNull 1");
                Assert.IsNull(error, "CreateLibrary: NonNull error 1");
            }

            using (var data = DispatchData.FromByteBuffer(File.ReadAllBytes(metallib_path)))
                using (var library = device.CreateLibrary(data, out var error)) {
                    Assert.IsNotNull(library, "CreateLibrary: NonNull 2");
                    Assert.IsNull(error, "CreateLibrary: NonNull error 2");
                }

            using (var compile_options = new MTLCompileOptions())
                using (var library = device.CreateLibrary(metal_code, compile_options, out var error)) {
                    Assert.IsNotNull(library, "CreateLibrary: NonNull 3");
                    Assert.IsNull(error, "CreateLibrary: NonNull error 3");
                }

            using (var compile_options = new MTLCompileOptions()) {
                device.CreateLibrary(metal_code, compile_options, (library, error) => {
                    Assert.IsNotNull(library, "CreateLibrary: NonNull 4");
                    Assert.IsNull(error, "CreateLibrary: NonNull error 4");
                });
            }

            using (var library = device.CreateDefaultLibrary(NSBundle.MainBundle, out var error)) {
                Assert.IsNotNull(library, "CreateDefaultLibrary: NonNull 2");
                Assert.IsNull(error, "CreateDefaultLibrary: NonNull error 2");
            }

            using (var descriptor = new MTLRenderPipelineDescriptor())
                using (var library = device.CreateDefaultLibrary())
                    using (var func = library.CreateFunction("vertexShader")) {
                        descriptor.VertexFunction = func;
                        descriptor.ColorAttachments [0].PixelFormat = MTLPixelFormat.BGRA8Unorm_sRGB;
                        using (var rps = device.CreateRenderPipelineState(descriptor, out var error)) {
                            Assert.IsNotNull(rps, "CreateRenderPipelineState: NonNull 1");
                            Assert.IsNull(error, "CreateRenderPipelineState: NonNull error 1");
                        }
                    }

            using (var descriptor = new MTLRenderPipelineDescriptor())
                using (var library = device.CreateDefaultLibrary())
                    using (var func = library.CreateFunction("vertexShader")) {
                        descriptor.VertexFunction = func;
                        descriptor.ColorAttachments [0].PixelFormat = MTLPixelFormat.BGRA8Unorm_sRGB;
                        using (var rps = device.CreateRenderPipelineState(descriptor, MTLPipelineOption.BufferTypeInfo, out var reflection, out var error)) {
                            Assert.IsNotNull(rps, "CreateRenderPipelineState: NonNull 2");
                            Assert.IsNull(error, "CreateRenderPipelineState: NonNull error 2");
                            Assert.IsNotNull(reflection, "CreateRenderPipelineState: NonNull reflection 2");
                        }
                    }

            using (var library = device.CreateDefaultLibrary())
                using (var func = library.CreateFunction("grayscaleKernel"))
                    using (var cps = device.CreateComputePipelineState(func, MTLPipelineOption.ArgumentInfo, out var reflection, out var error)) {
                        Assert.IsNotNull(cps, "CreateComputePipelineState: NonNull 1");
                        Assert.IsNull(error, "CreateComputePipelineState: NonNull error 1");
                        Assert.IsNotNull(reflection, "CreateComputePipelineState: NonNull reflection 1");
                    }

            using (var library = device.CreateDefaultLibrary())
                using (var func = library.CreateFunction("grayscaleKernel"))
                    using (var cps = device.CreateComputePipelineState(func, out var error)) {
                        Assert.IsNotNull(cps, "CreateComputePipelineState: NonNull 2");
                        Assert.IsNull(error, "CreateComputePipelineState: NonNull error 2");
                    }

            using (var descriptor = new MTLComputePipelineDescriptor())
                using (var library = device.CreateDefaultLibrary())
                    using (var func = library.CreateFunction("grayscaleKernel")) {
                        descriptor.ComputeFunction = func;
                        using (var cps = device.CreateComputePipelineState(descriptor, MTLPipelineOption.BufferTypeInfo, out var reflection, out var error)) {
                            Assert.IsNotNull(cps, "CreateComputePipelineState: NonNull 3");
                            Assert.IsNull(error, "CreateComputePipelineState: NonNull error 3");
                            Assert.IsNotNull(reflection, "CreateComputePipelineState: NonNull reflection 3");
                        }
                    }

            using (var fence = device.CreateFence()) {
                Assert.IsNotNull(fence, "CreateFence 1: NonNull");
            }

            var url = "file://" + metallib_path;
            url = url.Replace(" ", "%20");              // url encode!
            using (var library = device.CreateLibrary(new NSUrl(url), out var error)) {
#if NET
                // Looks like creating a library with a url always fails: https://forums.developer.apple.com/thread/110416
                Assert.IsNotNull(library, "CreateLibrary (NSUrl, NSError): Null");
                Assert.IsNull(error, "CreateLibrary (NSUrl, NSError): NonNull error");
#else
                // Looks like creating a library with a url always fails: https://forums.developer.apple.com/thread/110416
                Assert.IsNull(library, "CreateLibrary (NSUrl, NSError): Null");
                Assert.IsNotNull(error, "CreateLibrary (NSUrl, NSError): NonNull error");
#endif
            }

            using (var library = device.CreateArgumentEncoder(new MTLArgumentDescriptor [] { new MTLArgumentDescriptor()
                                                                                             {
                                                                                                 DataType = MTLDataType.Int
                                                                                             } })) {
                Assert.IsNotNull(library, "CreateArgumentEncoder (MTLArgumentDescriptor[]): NonNull");
            }

            // Apple's charts say that "Indirect command buffers" are supported with MTLGpuFamilyCommon2
            var supportsIndirectCommandBuffers = TestRuntime.CheckXcodeVersion(11, 0) && device.SupportsFamily(MTLGpuFamily.Common2);
#if __MACOS__
            // but something's not quite right somewhere, so on macOS verify that the device supports a bit more than what Apple says.
            supportsIndirectCommandBuffers &= device.SupportsFeatureSet(MTLFeatureSet.macOS_GPUFamily2_v1);
#endif
            if (supportsIndirectCommandBuffers)
            {
                using (var descriptor = new MTLIndirectCommandBufferDescriptor()) {
                    using (var library = device.CreateIndirectCommandBuffer(descriptor, 1, MTLResourceOptions.CpuCacheModeDefault)) {
                        Assert.IsNotNull(library, "CreateIndirectCommandBuffer: NonNull");
                    }
                }

                using (var evt = device.CreateEvent()) {
                    Assert.IsNotNull(evt, "CreateEvent: NonNull");
                }

                using (var evt = device.CreateSharedEvent()) {
                    Assert.IsNotNull(evt, "CreateSharedEvent: NonNull");
                }

                using (var evt1 = device.CreateSharedEvent())
                    using (var evt_handle = evt1.CreateSharedEventHandle())
                        using (var evt = device.CreateSharedEvent(evt_handle)) {
                            Assert.IsNotNull(evt, "CreateSharedEvent (MTLSharedEventHandle): NonNull");
                        }
            }

            using (var descriptor = new MTLRenderPipelineDescriptor())
                using (var library = device.CreateDefaultLibrary())
                    using (var func = library.CreateFunction("vertexShader")) {
                        descriptor.VertexFunction = func;
                        descriptor.ColorAttachments [0].PixelFormat = MTLPixelFormat.BGRA8Unorm_sRGB;
                        using (var rps = device.CreateRenderPipelineState(descriptor, MTLPipelineOption.ArgumentInfo, out var reflection, out var error)) {
                            Assert.IsNotNull(rps, "CreateRenderPipelineState (MTLTileRenderPipelineDescriptor, MTLPipelineOption, MTLRenderPipelineReflection, NSError): NonNull");
                            Assert.IsNull(error, "CreateRenderPipelineState (MTLTileRenderPipelineDescriptor, MTLPipelineOption, MTLRenderPipelineReflection, NSError: NonNull error");
                            Assert.IsNotNull(reflection, "CreateRenderPipelineState (MTLTileRenderPipelineDescriptor, MTLPipelineOption, MTLRenderPipelineReflection, NSError): NonNull reflection");
                        }
                    }

            using (var buffer = device.CreateBuffer(1024, MTLResourceOptions.CpuCacheModeDefault))
                using (var descriptor = new MTLTextureDescriptor())
                    using (var texture = buffer.CreateTexture(descriptor, 0, 256)) {
                        Assert.IsNotNull(buffer, "MTLBuffer.CreateTexture (MTLTextureDescriptor, nuint, nuint): NonNull");
                    }

            using (var descriptor = MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA8Unorm, 64, 64, false))
                using (var texture = device.CreateTexture(descriptor)) {
                    using (var view = texture.CreateTextureView(MTLPixelFormat.RGBA8Unorm)) {
                        Assert.IsNotNull(view, "MTLTexture.CreateTextureView (MTLPixelFormat): nonnull");
                    }
                    using (var view = texture.CreateTextureView(MTLPixelFormat.RGBA8Unorm, MTLTextureType.k2D, new NSRange(0, 1), new NSRange(0, 1))) {
                        Assert.IsNotNull(view, "MTLTexture.CreateTextureView (MTLPixelFormat, MTLTextureType, NSRange, NSRange): nonnull");
                    }
                }

            using (var library = device.CreateLibrary(fragmentshader_path, out var error)) {
                Assert.IsNull(error, "MTLFunction.CreateArgumentEncoder: library creation failure");
                using (var func = library.CreateFunction("fragmentShader2")) {
                    using (var enc = func.CreateArgumentEncoder(0)) {
                        Assert.IsNotNull(enc, "MTLFunction.CreateArgumentEncoder (nuint): NonNull");
                    }
                    using (var enc = func.CreateArgumentEncoder(0, out var reflection)) {
                        Assert.IsNotNull(enc, "MTLFunction.CreateArgumentEncoder (nuint, MTLArgument): NonNull");
                        Assert.IsNotNull(reflection, "MTLFunction.CreateArgumentEncoder (nuint, MTLArgument): NonNull reflection");
                    }
                }
            }

            using (var library = device.CreateDefaultLibrary()) {
                using (var func = library.CreateFunction("grayscaleKernel")) {
                    Assert.IsNotNull(func, "CreateFunction (string): nonnull");
                }
                if (TestRuntime.CheckXcodeVersion(9, 0))                    // MTLFunctionConstantValues didn't have a default ctor until Xcode 9.
                {
                    using (var constants = new MTLFunctionConstantValues())
                        using (var func = library.CreateFunction("grayscaleKernel", constants, out var error)) {
                            Assert.IsNotNull(func, "CreateFunction (string, MTLFunctionConstantValues, NSError): nonnull");
                            Assert.IsNull(error, "CreateFunction (string, MTLFunctionConstantValues, NSError): null error");
                        }
                }
            }

            using (var hd = new MTLHeapDescriptor()) {
                hd.CpuCacheMode = MTLCpuCacheMode.DefaultCache;
                hd.StorageMode  = MTLStorageMode.Private;
                using (var txt = MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA8Unorm, 40, 40, false)) {
                    var sa = device.GetHeapTextureSizeAndAlign(txt);
                    hd.Size = sa.Size;
                    using (var heap = device.CreateHeap(hd))
                        using (var buffer = heap.CreateBuffer(1024, MTLResourceOptions.StorageModePrivate)) {
                            Assert.IsNotNull(buffer, "MTLHeap.CreateBuffer (nuint, MTLResourceOptions): nonnull");
                        }
                }
            }

            using (var hd = new MTLHeapDescriptor()) {
                hd.CpuCacheMode = MTLCpuCacheMode.DefaultCache;
#if __MACOS__ || __MACCATALYST__
                hd.StorageMode = MTLStorageMode.Private;
#else
                hd.StorageMode = MTLStorageMode.Shared;
#endif
                using (var txt = MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA8Unorm, 40, 40, false)) {
                    var sa = device.GetHeapTextureSizeAndAlign(txt);
                    hd.Size = sa.Size;

                    using (var heap = device.CreateHeap(hd)) {
#if __MACOS__ || __MACCATALYST__
                        txt.StorageMode = MTLStorageMode.Private;
#endif
                        using (var texture = heap.CreateTexture(txt)) {
                            Assert.IsNotNull(texture, "MTLHeap.CreateTexture (MTLTextureDescriptor): nonnull");
                        }
                    }
                }
            }

            using (var scope = MTLCaptureManager.Shared.CreateNewCaptureScope(device)) {
                Assert.IsNotNull(scope, "MTLCaptureManager.CreateNewCaptureScope (MTLDevice): nonnull");
            }

            using (var queue = device.CreateCommandQueue())
                using (var scope = MTLCaptureManager.Shared.CreateNewCaptureScope(queue)) {
                    Assert.IsNotNull(scope, "MTLCaptureManager.CreateNewCaptureScope (MTLCommandQueue): nonnull");
                }

            TestRuntime.AssertXcodeVersion(10, 0);
            using (var evt = device.CreateSharedEvent())
                using (var shared = evt.CreateSharedEventHandle()) {
                    Assert.IsNotNull(shared, "MTLSharedEvent.CreateSharedEvent: NonNull");
                }
        }
Ejemplo n.º 12
0
        void SetupRenderPassDescriptorForTexture(IMTLTexture texture)
        {
            if (renderPassDescriptor == null)
            {
                renderPassDescriptor = new MTLRenderPassDescriptor();
            }

            MTLRenderPassColorAttachmentDescriptor colorAttachment = renderPassDescriptor.ColorAttachments [0];

            colorAttachment.Texture    = texture;
            colorAttachment.LoadAction = MTLLoadAction.Clear;
            colorAttachment.ClearColor = new MTLClearColor(0.65f, 0.65f, 0.65f, 1.0f);

            if (SampleCount > 1)
            {
                if (msaaTex == null || NeedUpdate(texture, msaaTex))
                {
                    var desc = MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.BGRA8Unorm, texture.Width, texture.Height, false);
                    desc.TextureType = MTLTextureType.k2DMultisample;
                    desc.SampleCount = SampleCount;
                    msaaTex          = device.CreateTexture(desc);
                }

                colorAttachment.Texture        = msaaTex;
                colorAttachment.ResolveTexture = texture;

                // set store action to resolve in this case
                colorAttachment.StoreAction = MTLStoreAction.MultisampleResolve;
            }
            else
            {
                colorAttachment.StoreAction = MTLStoreAction.Store;
            }

            if (DepthPixelFormat != MTLPixelFormat.Invalid)
            {
                if (depthTex == null || NeedUpdate(texture, depthTex))
                {
                    var desc = MTLTextureDescriptor.CreateTexture2DDescriptor(DepthPixelFormat, texture.Width, texture.Height, false);
                    desc.TextureType = (SampleCount > 1) ? MTLTextureType.k2DMultisample : MTLTextureType.k2D;
                    desc.SampleCount = SampleCount;
                    depthTex         = device.CreateTexture(desc);

                    MTLRenderPassDepthAttachmentDescriptor depthAttachment = renderPassDescriptor.DepthAttachment;
                    depthAttachment.Texture     = depthTex;
                    depthAttachment.LoadAction  = MTLLoadAction.Clear;
                    depthAttachment.StoreAction = MTLStoreAction.DontCare;
                    depthAttachment.ClearDepth  = 1.0;
                }
            }

            if (StencilPixelFormat != MTLPixelFormat.Invalid)
            {
                if (stencilTex == null || NeedUpdate(texture, stencilTex))
                {
                    var desc = MTLTextureDescriptor.CreateTexture2DDescriptor(StencilPixelFormat, texture.Width, texture.Height, false);
                    desc.TextureType = (SampleCount > 1) ? MTLTextureType.k2DMultisample : MTLTextureType.k2D;
                    desc.SampleCount = SampleCount;
                    depthTex         = device.CreateTexture(desc);

                    MTLRenderPassStencilAttachmentDescriptor stencilAttachment = renderPassDescriptor.StencilAttachment;
                    stencilAttachment.Texture      = depthTex;
                    stencilAttachment.LoadAction   = MTLLoadAction.Clear;
                    stencilAttachment.StoreAction  = MTLStoreAction.DontCare;
                    stencilAttachment.ClearStencil = 1;
                }
            }
        }
Ejemplo n.º 13
0
        public bool Finalize(IMTLDevice device)
        {
            if (MetalTexture != null)
            {
                return(true);
            }

            UIImage image = UIImage.FromFile(path);

            if (image == null)
            {
                return(false);
            }

            using (CGColorSpace colorSpace = CGColorSpace.CreateDeviceRGB()) {
                if (colorSpace == null)
                {
                    return(false);
                }

                Width  = image.CGImage.Width;
                Height = image.CGImage.Height;

                nuint width    = (nuint)Width;
                nuint height   = (nuint)Height;
                nuint rowBytes = width * 4;

                var context = new CGBitmapContext(IntPtr.Zero,
                                                  (int)width,
                                                  (int)height,
                                                  8,
                                                  (int)rowBytes,
                                                  colorSpace,
                                                  CGImageAlphaInfo.PremultipliedLast);

                if (context == null)
                {
                    return(false);
                }

                var bounds = new CGRect(0f, 0f, width, height);
                context.ClearRect(bounds);

                // Vertical Reflect
                if (flip)
                {
                    context.TranslateCTM(width, height);
                    context.ScaleCTM(-1f, -1f);
                }

                context.DrawImage(bounds, image.CGImage);
                MTLTextureDescriptor texDesc = MTLTextureDescriptor.CreateTexture2DDescriptor(MTLPixelFormat.RGBA8Unorm, width, height, false);

                if (texDesc == null)
                {
                    return(false);
                }

                MetalTexture = device.CreateTexture(texDesc);

                if (MetalTexture == null)
                {
                    context.Dispose();
                    return(false);
                }

                IntPtr pixels = context.Data;

                if (pixels != IntPtr.Zero)
                {
                    var region = new MTLRegion();
                    region.Origin.X    = 0;
                    region.Origin.Y    = 0;
                    region.Size.Width  = (nint)width;
                    region.Size.Height = (nint)height;

                    MetalTexture.ReplaceRegion(region, 0, pixels, rowBytes);
                }

                context.Dispose();
            }

            return(true);
        }