static void Main() { Application.EnableVisualStyles(); Application.SetCompatibleTextRenderingDefault(false); RenderForm form = new RenderForm("Kinect Simple hd face sample"); RenderDevice device = new RenderDevice(SharpDX.Direct3D11.DeviceCreationFlags.BgraSupport | DeviceCreationFlags.Debug); RenderContext context = new RenderContext(device); DX11SwapChain swapChain = DX11SwapChain.FromHandle(device, form.Handle); VertexShader vertexShader = ShaderCompiler.CompileFromFile <VertexShader>(device, "HdFaceView.fx", "VS"); PixelShader pixelShader = ShaderCompiler.CompileFromFile<PixelShader>(device, "HdFaceView.fx", "PS"); HdFaceIndexBuffer faceIndexBuffer = new HdFaceIndexBuffer(device, 1); DynamicHdFaceStructuredBuffer faceVertexBuffer = new DynamicHdFaceStructuredBuffer(device, 1); KinectSensor sensor = KinectSensor.GetDefault(); sensor.Open(); cbCamera camera = new cbCamera(); camera.Projection = Matrix.PerspectiveFovLH(1.57f*0.5f, 1.3f, 0.01f, 100.0f); camera.View = Matrix.Translation(0.0f, 0.0f, 0.5f); camera.Projection.Transpose(); camera.View.Transpose(); ConstantBuffer<cbCamera> cameraBuffer = new ConstantBuffer<cbCamera>(device); cameraBuffer.Update(context, ref camera); bool doQuit = false; bool doUpload = false; KinectBody[] bodyFrame = null; KinectSensorBodyFrameProvider provider = new KinectSensorBodyFrameProvider(sensor); form.KeyDown += (sender, args) => { if (args.KeyCode == Keys.Escape) { doQuit = true; } }; FaceModel currentFaceModel = new FaceModel(); FaceAlignment currentFaceAlignment = new FaceAlignment(); SingleHdFaceProcessor hdFaceProcessor = new SingleHdFaceProcessor(sensor); hdFaceProcessor.HdFrameReceived += (sender, args) => { currentFaceModel = args.FaceModel; currentFaceAlignment = args.FaceAlignment; doUpload = true; }; provider.FrameReceived += (sender, args) => { bodyFrame = args.FrameData; var body = bodyFrame.TrackedOnly().ClosestBodies().FirstOrDefault(); if (body != null) { hdFaceProcessor.AssignBody(body); } else { hdFaceProcessor.Suspend(); } }; context.Context.Rasterizer.State = device.RasterizerStates.WireFrame; RenderLoop.Run(form, () => { if (doQuit) { form.Dispose(); return; } if (doUpload) { var vertices = currentFaceModel.CalculateVerticesForAlignment(currentFaceAlignment).ToArray(); faceVertexBuffer.Copy(context, vertices); doUpload = false; } context.Context.ClearRenderTargetView(swapChain.RenderView, SharpDX.Color.Black); if (hdFaceProcessor.IsValid) { context.RenderTargetStack.Push(swapChain); context.Context.VertexShader.SetShaderResource(0, faceVertexBuffer.ShaderView); context.Context.VertexShader.SetConstantBuffer(0, cameraBuffer.Buffer); //Draw lines context.Context.PixelShader.Set(pixelShader); context.Context.VertexShader.Set(vertexShader); //Attach index buffer, null topology since we fetch faceIndexBuffer.AttachWithLayout(context); faceIndexBuffer.Draw(context, 1); context.RenderTargetStack.Pop(); } swapChain.Present(0, SharpDX.DXGI.PresentFlags.None); }); swapChain.Dispose(); context.Dispose(); device.Dispose(); cameraBuffer.Dispose(); faceIndexBuffer.Dispose(); faceVertexBuffer.Dispose(); provider.Dispose(); pixelShader.Dispose(); vertexShader.Dispose(); hdFaceProcessor.Dispose(); sensor.Close(); }
static void Main() { Application.EnableVisualStyles(); Application.SetCompatibleTextRenderingDefault(false); RenderForm form = new RenderForm("Kinect multiple hd faces projected to rgb"); RenderDevice device = new RenderDevice(SharpDX.Direct3D11.DeviceCreationFlags.BgraSupport | DeviceCreationFlags.Debug); RenderContext context = new RenderContext(device); DX11SwapChain swapChain = DX11SwapChain.FromHandle(device, form.Handle); VertexShader vertexShader = ShaderCompiler.CompileFromFile<VertexShader>(device, "ProjectedTextureHdFaceView.fx", "VS_Simple"); VertexShader vertexShaderIndexed = ShaderCompiler.CompileFromFile<VertexShader>(device, "ProjectedTextureHdFaceView.fx", "VS_Indexed"); PixelShader pixelShader = ShaderCompiler.CompileFromFile<PixelShader>(device, "ProjectedTextureHdFaceView.fx", "PS"); int maxFaceCount = Consts.MaxBodyCount; int faceVertexCount = (int)Microsoft.Kinect.Face.FaceModel.VertexCount; var vertRgbTempBuffer = new ColorSpacePoint[faceVertexCount]; ColorSpacePoint[] facePoints = new ColorSpacePoint[faceVertexCount * maxFaceCount]; DX11StructuredBuffer lookupBuffer = DX11StructuredBuffer.CreateDynamic<uint>(device, maxFaceCount); //Note : since in this case we use instancing, we only need a buffer for a single face HdFaceIndexBuffer faceIndexBuffer = new HdFaceIndexBuffer(device, 1); DynamicRgbSpaceFaceStructuredBuffer faceRgbBuffer = new DynamicRgbSpaceFaceStructuredBuffer(device, maxFaceCount); KinectSensor sensor = KinectSensor.GetDefault(); sensor.Open(); bool doQuit = false; bool invalidateFace = false; KinectSensorBodyFrameProvider provider = new KinectSensorBodyFrameProvider(sensor); BodyTrackingProcessor bodyTracker = new BodyTrackingProcessor(); MultipleHdFaceProcessor multiFace = new MultipleHdFaceProcessor(sensor, bodyTracker, maxFaceCount); form.KeyDown += (sender, args) => { if (args.KeyCode == Keys.Escape) { doQuit = true; } }; bool uploadColor = false; ColorRGBAFrameData currentData = null; DynamicColorRGBATexture colorTexture = new DynamicColorRGBATexture(device); KinectSensorColorRGBAFrameProvider colorProvider = new KinectSensorColorRGBAFrameProvider(sensor); colorProvider.FrameReceived += (sender, args) => { currentData = args.FrameData; uploadColor = true; }; provider.FrameReceived += (sender, args) => { bodyTracker.Next(args.FrameData); }; multiFace.OnFrameResultsChanged += (sender, args) => { invalidateFace = true; }; RenderLoop.Run(form, () => { if (doQuit) { form.Dispose(); return; } if (invalidateFace) { int offset = 0; foreach (var data in multiFace.CurrentResults) { var vertices = data.FaceModel.CalculateVerticesForAlignment(data.FaceAlignment).ToArray(); sensor.CoordinateMapper.MapCameraPointsToColorSpace(vertices, vertRgbTempBuffer); Array.Copy(vertRgbTempBuffer, 0, facePoints, offset, faceVertexCount); offset += faceVertexCount; } faceRgbBuffer.Copy(context, facePoints, multiFace.CurrentResults.Count * faceVertexCount); invalidateFace = false; } if (uploadColor) { colorTexture.Copy(context, currentData); uploadColor = false; } context.Context.ClearRenderTargetView(swapChain.RenderView, SharpDX.Color.Black); context.RenderTargetStack.Push(swapChain); context.Context.Rasterizer.State = device.RasterizerStates.BackCullSolid; context.Context.OutputMerger.BlendState = device.BlendStates.Disabled; device.Primitives.ApplyFullTri(context, colorTexture.ShaderView); device.Primitives.FullScreenTriangle.Draw(context); if (multiFace.CurrentResults.Count > 0) { context.Context.VertexShader.SetShaderResource(0, faceRgbBuffer.ShaderView); context.Context.PixelShader.SetSampler(0, device.SamplerStates.LinearClamp); context.Context.PixelShader.SetShaderResource(0, colorTexture.ShaderView); if (multiFace.CurrentResults.Count > 1) { uint[] buffer = new uint[multiFace.CurrentResults.Count]; for (uint i = 0; i < multiFace.CurrentResults.Count; i++) { buffer[i] = (uint)((i + 1) % multiFace.CurrentResults.Count); } lookupBuffer.WriteData(context, buffer); context.Context.VertexShader.Set(vertexShaderIndexed); context.Context.VertexShader.SetShaderResource(1, lookupBuffer.ShaderView); } else { context.Context.VertexShader.Set(vertexShader); } context.Context.PixelShader.Set(pixelShader); //Attach index buffer, null topology since we fetch faceIndexBuffer.AttachWithLayout(context); faceIndexBuffer.DrawInstanced(context, multiFace.CurrentResults.Count); } context.RenderTargetStack.Pop(); swapChain.Present(0, SharpDX.DXGI.PresentFlags.None); }); swapChain.Dispose(); context.Dispose(); device.Dispose(); colorProvider.Dispose(); colorTexture.Dispose(); faceIndexBuffer.Dispose(); faceRgbBuffer.Dispose(); provider.Dispose(); pixelShader.Dispose(); vertexShader.Dispose(); vertexShaderIndexed.Dispose(); lookupBuffer.Dispose(); sensor.Close(); }
static void Main() { Application.EnableVisualStyles(); Application.SetCompatibleTextRenderingDefault(false); RenderForm form = new RenderForm("Kinect hd face projected to rgb"); RenderDevice device = new RenderDevice(SharpDX.Direct3D11.DeviceCreationFlags.BgraSupport | DeviceCreationFlags.Debug); RenderContext context = new RenderContext(device); DX11SwapChain swapChain = DX11SwapChain.FromHandle(device, form.Handle); VertexShader vertexShader = ShaderCompiler.CompileFromFile<VertexShader>(device, "ProjectedHdFaceView.fx", "VS"); PixelShader pixelShader = ShaderCompiler.CompileFromFile<PixelShader>(device, "ProjectedHdFaceView.fx", "PS"); HdFaceIndexBuffer faceIndexBuffer = new HdFaceIndexBuffer(device, 1); DynamicRgbSpaceFaceStructuredBuffer faceRgbBuffer = new DynamicRgbSpaceFaceStructuredBuffer(device, 1); KinectSensor sensor = KinectSensor.GetDefault(); sensor.Open(); bool doQuit = false; bool doUpload = false; KinectBody[] bodyFrame = null; KinectSensorBodyFrameProvider provider = new KinectSensorBodyFrameProvider(sensor); form.KeyDown += (sender, args) => { if (args.KeyCode == Keys.Escape) { doQuit = true; } }; FaceModel currentFaceModel = new FaceModel(); FaceAlignment currentFaceAlignment = new FaceAlignment(); SingleHdFaceProcessor hdFaceProcessor = new SingleHdFaceProcessor(sensor); hdFaceProcessor.HdFrameReceived += (sender, args) => { currentFaceModel = args.FaceModel; currentFaceAlignment = args.FaceAlignment; doUpload = true; }; bool uploadColor = false; ColorRGBAFrameData currentData = null; DynamicColorRGBATexture colorTexture = new DynamicColorRGBATexture(device); KinectSensorColorRGBAFrameProvider colorProvider = new KinectSensorColorRGBAFrameProvider(sensor); colorProvider.FrameReceived += (sender, args) => { currentData = args.FrameData; uploadColor = true; }; provider.FrameReceived += (sender, args) => { bodyFrame = args.FrameData; var body = bodyFrame.TrackedOnly().ClosestBodies().FirstOrDefault(); if (body != null) { hdFaceProcessor.AssignBody(body); } else { hdFaceProcessor.Suspend(); } }; RenderLoop.Run(form, () => { if (doQuit) { form.Dispose(); return; } if (doUpload) { var vertices = currentFaceModel.CalculateVerticesForAlignment(currentFaceAlignment).ToArray(); var vertRgb = new ColorSpacePoint[vertices.Length]; sensor.CoordinateMapper.MapCameraPointsToColorSpace(vertices, vertRgb); faceRgbBuffer.Copy(context, vertRgb); doUpload = false; } if (uploadColor) { colorTexture.Copy(context, currentData); uploadColor = false; } context.Context.ClearRenderTargetView(swapChain.RenderView, SharpDX.Color.Black); context.RenderTargetStack.Push(swapChain); context.Context.Rasterizer.State = device.RasterizerStates.BackCullSolid; context.Context.OutputMerger.BlendState = device.BlendStates.Disabled; device.Primitives.ApplyFullTri(context, colorTexture.ShaderView); device.Primitives.FullScreenTriangle.Draw(context); if (hdFaceProcessor.IsValid) { context.Context.Rasterizer.State = device.RasterizerStates.WireFrame; context.Context.OutputMerger.BlendState = device.BlendStates.AlphaBlend; context.Context.VertexShader.SetShaderResource(0, faceRgbBuffer.ShaderView); //Draw lines context.Context.PixelShader.Set(pixelShader); context.Context.VertexShader.Set(vertexShader); //Attach index buffer, null topology since we fetch faceIndexBuffer.AttachWithLayout(context); faceIndexBuffer.Draw(context, 1); } context.RenderTargetStack.Pop(); swapChain.Present(0, SharpDX.DXGI.PresentFlags.None); }); swapChain.Dispose(); context.Dispose(); device.Dispose(); colorProvider.Dispose(); colorTexture.Dispose(); faceIndexBuffer.Dispose(); faceRgbBuffer.Dispose(); provider.Dispose(); pixelShader.Dispose(); vertexShader.Dispose(); sensor.Close(); }