Exemple #1
0
        public void Dispose()
        {
            if (texture != null)
            {
                texture.Dispose();
                texture = null;
            }

            if (texture2 != null)
            {
                texture2.Dispose();
                texture2 = null;
            }

            if (constantBuffer != null)
            {
                constantBuffer.Dispose();
                constantBuffer = null;
            }

            if (vertexBuffer != null)
            {
                vertexBuffer.Dispose();
                vertexBuffer = null;
            }

            if (renderState != null)
            {
                renderState.Dispose();
                renderState = null;
            }

            if (shaderEffect != null)
            {
                shaderEffect.Dispose();
                shaderEffect = null;
            }

            if (renderPass != null)
            {
                renderPass.Dispose();
                renderPass = null;
            }

            if (commandList != null)
            {
                commandList.Dispose();
                commandList = null;
            }

            if (device != null)
            {
                device.Dispose();
                device = null;
            }

            if (instance != null)
            {
                instance.Dispose();
                instance = null;
            }
        }
Exemple #2
0
        public void Init(string platformPath, string folder64Bit, string folder32Bit)
        {
            // pre-load native libs
            string libFolderBit;

            if (IntPtr.Size == 8)
            {
                libFolderBit = folder64Bit;
            }
            else if (IntPtr.Size == 4)
            {
                libFolderBit = folder32Bit;
            }
            else
            {
                throw new NotSupportedException("Unsupported bit size: " + IntPtr.Size.ToString());
            }

                        #if RELEASE
            const string config = "Release";
                        #else
            const string config = "Debug";
                        #endif

            // load api abstraction (api-instance and hardware-device)
            var abstractionDesc = new AbstractionDesc(true);
            abstractionDesc.supportedAPIs = new AbstractionAPI[] { AbstractionAPI.D3D12 };

            abstractionDesc.deviceDescD3D12.window = window;
            abstractionDesc.nativeLibPathD3D12     = Path.Combine(platformPath, @"Shared\Orbital.Video.D3D12.Native\bin", libFolderBit, config);

            abstractionDesc.deviceDescVulkan.window = window;
            abstractionDesc.nativeLibPathVulkan     = Path.Combine(platformPath, @"Shared\Orbital.Video.Vulkan.Native\bin", libFolderBit, config);

            if (!Abstraction.InitFirstAvaliable(abstractionDesc, out instance, out device))
            {
                throw new Exception("Failed to init abstraction");
            }

            // create command list
            commandList = device.CreateCommandList();

            // create render pass
            var renderPassDesc = new RenderPassDesc()
            {
                clearColor      = true,
                clearColorValue = new Vec4(0, .2f, .4f, 1)
            };
            renderPass = device.CreateRenderPass(renderPassDesc);

            // create texture
            int textureWidth = 256, textureHeight = 256;
            var textureData = new byte[textureWidth * textureHeight * 4];
            for (int y = 0; y != textureHeight; ++y)
            {
                for (int x = 0; x != textureWidth; ++x)
                {
                    int i = (x * 4) + (y * textureWidth * 4);
                    if (x % 16 <= 7 && y % 16 <= 7)
                    {
                        textureData[i + 0] = 0;
                        textureData[i + 1] = 0;
                        textureData[i + 2] = 0;
                        textureData[i + 3] = 0;
                    }
                    else
                    {
                        textureData[i + 0] = 255;
                        textureData[i + 1] = 255;
                        textureData[i + 2] = 255;
                        textureData[i + 3] = 255;
                    }
                }
            }
            texture = device.CreateTexture2D(TextureFormat.B8G8R8A8, textureWidth, textureHeight, textureData, TextureMode.GPUOptimized);

            // create texture 2
            textureWidth  = 100;
            textureHeight = 100;
            textureData   = new byte[textureWidth * textureHeight * 4];
            for (int y = 0; y != textureHeight; ++y)
            {
                for (int x = 0; x != textureWidth; ++x)
                {
                    int i = (x * 4) + (y * textureWidth * 4);
                    if (x % 16 <= 7 && y % 16 <= 7)
                    {
                        textureData[i + 0] = 0;
                        textureData[i + 1] = 0;
                        textureData[i + 2] = 0;
                        textureData[i + 3] = 0;
                    }
                    else
                    {
                        textureData[i + 0] = 255;
                        textureData[i + 1] = 255;
                        textureData[i + 2] = 255;
                        textureData[i + 3] = 255;
                    }
                }
            }
            texture2 = device.CreateTexture2D(TextureFormat.B8G8R8A8, textureWidth, textureHeight, textureData, TextureMode.GPUOptimized);

            // create constant buffer
            constantBufferObject = new ConstantBufferObject()
            {
                offset    = .5f,
                constrast = .5f
            };
            constantBuffer = device.CreateConstantBuffer <ConstantBufferObject>(constantBufferObject, ConstantBufferMode.Write);

            // load shaders
            // TODO: load CS2X compiled ShaderEffect

            /*using (var stream = new FileStream("Shader.se", FileMode.Open, FileAccess.Read, FileShare.Read))
             * {
             *      shaderEffect = device.CreateShaderEffect(stream, ShaderEffectSamplerAnisotropy.Default);
             * }*/

            using (var vsStream = new FileStream("Shaders\\Shader_D3D12.vs", FileMode.Open, FileAccess.Read, FileShare.Read))
                using (var psStream = new FileStream("Shaders\\Shader_D3D12.ps", FileMode.Open, FileAccess.Read, FileShare.Read))
                {
                    var vs = new Video.D3D12.Shader((Video.D3D12.Device)device, ShaderType.VS);
                    var ps = new Video.D3D12.Shader((Video.D3D12.Device)device, ShaderType.PS);
                    if (!vs.Init(vsStream))
                    {
                        throw new Exception("Failed to init VS shader");
                    }
                    if (!ps.Init(psStream))
                    {
                        throw new Exception("Failed to init PS shader");
                    }
                    var desc = new ShaderEffectDesc();
                    desc.constantBuffers    = new ShaderEffectConstantBuffer[1];
                    desc.constantBuffers[0] = new ShaderEffectConstantBuffer()
                    {
                        registerIndex = 0,
                        usage         = ShaderEffectResourceUsage.VS
                    };
                    desc.textures    = new ShaderEffectTexture[2];
                    desc.textures[0] = new ShaderEffectTexture()
                    {
                        registerIndex = 0,
                        usage         = ShaderEffectResourceUsage.PS
                    };
                    desc.textures[1] = new ShaderEffectTexture()
                    {
                        registerIndex = 1,
                        usage         = ShaderEffectResourceUsage.PS
                    };
                    desc.samplers    = new ShaderEffectSampler[1];
                    desc.samplers[0] = new ShaderEffectSampler()
                    {
                        registerIndex = 0,
                        filter        = ShaderEffectSamplerFilter.Default,
                        anisotropy    = ShaderEffectSamplerAnisotropy.Default,
                        addressU      = ShaderEffectSamplerAddress.Wrap,
                        addressV      = ShaderEffectSamplerAddress.Wrap,
                        addressW      = ShaderEffectSamplerAddress.Wrap
                    };
                    shaderEffect = device.CreateShaderEffect(vs, ps, null, null, null, desc, true);
                }

            // create vertex buffer
            var vertexBufferLayout = new VertexBufferLayout();
            vertexBufferLayout.elements    = new VertexBufferLayoutElement[3];
            vertexBufferLayout.elements[0] = new VertexBufferLayoutElement()
            {
                type        = VertexBufferLayoutElementType.Float3,
                usage       = VertexBufferLayoutElementUsage.Position,
                streamIndex = 0, usageIndex = 0, byteOffset = 0
            };
            vertexBufferLayout.elements[1] = new VertexBufferLayoutElement()
            {
                type        = VertexBufferLayoutElementType.RGBAx8,
                usage       = VertexBufferLayoutElementUsage.Color,
                streamIndex = 0, usageIndex = 0, byteOffset = (sizeof(float) * 3)
            };
            vertexBufferLayout.elements[2] = new VertexBufferLayoutElement()
            {
                type        = VertexBufferLayoutElementType.Float2,
                usage       = VertexBufferLayoutElementUsage.UV,
                streamIndex = 0, usageIndex = 0, byteOffset = (sizeof(float) * 3) + 4
            };

            var vertices = new Vertex[]
            {
                new Vertex(new Vec3(-1, -1, 0), Color4.red, new Vec2(0, 0)),
                new Vertex(new Vec3(0, 1, 0), Color4.green, new Vec2(.5f, 1)),
                new Vertex(new Vec3(1, -1, 0), Color4.blue, new Vec2(1, 0))
            };
            vertexBuffer = device.CreateVertexBuffer <Vertex>(vertices, vertexBufferLayout, VertexBufferMode.GPUOptimized);

            // create render state
            var renderStateDesc = new RenderStateDesc()
            {
                renderPass           = renderPass,
                shaderEffect         = shaderEffect,
                constantBuffers      = new ConstantBufferBase[1],
                textures             = new TextureBase[2],
                vertexBuffer         = vertexBuffer,
                vertexBufferTopology = VertexBufferTopology.Triangle
            };
            renderStateDesc.constantBuffers[0] = constantBuffer;
            renderStateDesc.textures[0]        = texture;
            renderStateDesc.textures[1]        = texture2;
            renderState = device.CreateRenderState(renderStateDesc, 0);

            // print all GPUs this abstraction supports
            if (!instance.QuerySupportedAdapters(false, out var adapters))
            {
                throw new Exception("Failed: QuerySupportedAdapters");
            }
            foreach (var adapter in adapters)
            {
                Debug.WriteLine(adapter.name);
            }
        }
        public void Init(string platformPath, string folder64Bit, string folder32Bit)
        {
            // pre-load native libs
            string libFolderBit;

            if (IntPtr.Size == 8)
            {
                libFolderBit = folder64Bit;
            }
            else if (IntPtr.Size == 4)
            {
                libFolderBit = folder32Bit;
            }
            else
            {
                throw new NotSupportedException("Unsupported bit size: " + IntPtr.Size.ToString());
            }

                        #if RELEASE
            const string config = "Release";
                        #else
            const string config = "Debug";
                        #endif

            // load api abstraction (api-instance and hardware-device)
            var abstractionDesc = new AbstractionDesc(AbstractionInitType.DefaultSingleGPU);
            abstractionDesc.supportedAPIs = new AbstractionAPI[] { AbstractionAPI.D3D12 };

            abstractionDesc.deviceDescD3D12.window = window;
            //abstractionDesc.deviceDescD3D12.adapterIndex = 1;
            //abstractionDesc.deviceDescD3D12.vSyncMode = SwapChainVSyncMode.VSyncOff;
            abstractionDesc.nativeLibPathD3D12 = Path.Combine(platformPath, @"Shared\Orbital.Video.D3D12.Native\bin", libFolderBit, config);

            abstractionDesc.deviceDescVulkan.window = window;
            abstractionDesc.nativeLibPathVulkan     = Path.Combine(platformPath, @"Shared\Orbital.Video.Vulkan.Native\bin", libFolderBit, config);

            if (!Abstraction.InitFirstAvaliable(abstractionDesc, out instance, out device))
            {
                throw new Exception("Failed to init abstraction");
            }

            // create render texture test objects
            renderTextureTest = new RenderTextureTest(device);

            // create msaa render texture
            if (!device.GetMaxMSAALevel(TextureFormat.Default, out var msaaLevel))
            {
                throw new Exception("Failed to get MSAA level");
            }
            msaaLevel = MSAALevel.Disabled;
            var windowSize = window.GetSize(WindowSizeType.WorkingArea);
            renderTextureMSAA = device.CreateRenderTexture2D(windowSize.width, windowSize.height, TextureFormat.Default, RenderTextureUsage.Discard, TextureMode.GPUOptimized, StencilUsage.Discard, DepthStencilFormat.DefaultDepth, DepthStencilMode.GPUOptimized, msaaLevel, false, MultiGPUNodeResourceVisibility.All);

            // create command list
            commandList         = device.CreateRasterizeCommandList();
            commandList_Compute = device.CreateComputeCommandList();

            // create render pass
            var renderPassDesc = RenderPassDesc.CreateDefault(new Color4F(0, .2f, .4f, 1), 1);
            //renderPass = device.CreateRenderPass(renderPassDesc, device.swapChain.depthStencil);
            renderPass = renderTextureMSAA.CreateRenderPass(renderPassDesc, renderTextureMSAA.GetDepthStencil());

            // create texture
            int textureWidth = 256, textureHeight = 256;
            var textureData = new byte[textureWidth * textureHeight * 4];
            for (int y = 0; y != textureHeight; ++y)
            {
                for (int x = 0; x != textureWidth; ++x)
                {
                    int i = (x * 4) + (y * textureWidth * 4);
                    if (x % 16 <= 7 && y % 16 <= 7)
                    {
                        textureData[i + 0] = 0;
                        textureData[i + 1] = 0;
                        textureData[i + 2] = 0;
                        textureData[i + 3] = 0;
                    }
                    else
                    {
                        textureData[i + 0] = 255;
                        textureData[i + 1] = 255;
                        textureData[i + 2] = 255;
                        textureData[i + 3] = 255;
                    }
                }
            }
            texture = device.CreateTexture2D(textureWidth, textureHeight, TextureFormat.B8G8R8A8, textureData, TextureMode.GPUOptimized, MultiGPUNodeResourceVisibility.Self);

            // create texture 2
            textureWidth  = 100;
            textureHeight = 100;
            textureData   = new byte[textureWidth * textureHeight * 4];
            for (int y = 0; y != textureHeight; ++y)
            {
                for (int x = 0; x != textureWidth; ++x)
                {
                    int i = (x * 4) + (y * textureWidth * 4);
                    if (x % 16 <= 7 && y % 16 <= 7)
                    {
                        textureData[i + 0] = 0;
                        textureData[i + 1] = 0;
                        textureData[i + 2] = 0;
                        textureData[i + 3] = 0;
                    }
                    else
                    {
                        textureData[i + 0] = 255;
                        textureData[i + 1] = 255;
                        textureData[i + 2] = 255;
                        textureData[i + 3] = 255;
                    }
                }
            }
            texture2 = device.CreateTexture2D(textureWidth, textureHeight, TextureFormat.B8G8R8A8, textureData, TextureMode.GPUOptimized, MultiGPUNodeResourceVisibility.Self);

            // load shaders
            // TODO: load CS2X compiled ShaderEffect

            /*using (var stream = new FileStream("Shader.se", FileMode.Open, FileAccess.Read, FileShare.Read))
             * {
             *      shaderEffect = device.CreateShaderEffect(stream, ShaderEffectSamplerAnisotropy.Default);
             * }*/

            using (var vsStream = new FileStream("Shaders\\Shader_D3D12.vs", FileMode.Open, FileAccess.Read, FileShare.Read))
                using (var psStream = new FileStream("Shaders\\Shader_D3D12.ps", FileMode.Open, FileAccess.Read, FileShare.Read))
                {
                    var vs = new Video.D3D12.Shader((Video.D3D12.Device)device, ShaderType.VS);
                    var ps = new Video.D3D12.Shader((Video.D3D12.Device)device, ShaderType.PS);
                    if (!vs.Init(vsStream))
                    {
                        throw new Exception("Failed to init VS shader");
                    }
                    if (!ps.Init(psStream))
                    {
                        throw new Exception("Failed to init PS shader");
                    }
                    var desc = new ShaderEffectDesc();
                    desc.constantBuffers    = new ShaderEffectConstantBuffer[1];
                    desc.constantBuffers[0] = new ShaderEffectConstantBuffer()
                    {
                        registerIndex = 0,
                        usage         = ShaderEffectResourceUsage.VS,
                        variables     = new ShaderVariable[2]
                    };
                    desc.constantBuffers[0].variables[0] = new ShaderVariable()
                    {
                        name = "constrast",
                        type = ShaderVariableType.Float
                    };
                    desc.constantBuffers[0].variables[1] = new ShaderVariable()
                    {
                        name = "camera",
                        type = ShaderVariableType.Float4x4
                    };
                    desc.textures    = new ShaderEffectTexture[3];
                    desc.textures[0] = new ShaderEffectTexture()
                    {
                        registerIndex = 0,
                        usage         = ShaderEffectResourceUsage.PS
                    };
                    desc.textures[1] = new ShaderEffectTexture()
                    {
                        registerIndex = 1,
                        usage         = ShaderEffectResourceUsage.PS
                    };
                    desc.textures[2] = new ShaderEffectTexture()
                    {
                        registerIndex = 2,
                        usage         = ShaderEffectResourceUsage.PS
                    };
                    desc.samplers    = new ShaderEffectSampler[1];
                    desc.samplers[0] = new ShaderEffectSampler()
                    {
                        registerIndex = 0,
                        filter        = ShaderSamplerFilter.Default,
                        anisotropy    = ShaderSamplerAnisotropy.Default,
                        addressU      = ShaderSamplerAddress.Wrap,
                        addressV      = ShaderSamplerAddress.Wrap,
                        addressW      = ShaderSamplerAddress.Wrap,
                        usage         = ShaderEffectResourceUsage.PS
                    };
                    shaderEffect = device.CreateShaderEffect(vs, ps, null, null, null, desc, true);
                }

            if (!shaderEffect.FindVariable("constrast", out shaderEffectVar_Constrast))
            {
                throw new Exception("Failed to find shader effect variable");
            }
            if (!shaderEffect.FindVariable("camera", out shaderEffectVar_Camera))
            {
                throw new Exception("Failed to find shader effect variable");
            }

            // create constant buffer
            constantBuffer = device.CreateConstantBuffer(shaderEffect.constantBufferMappings[0].size, ConstantBufferMode.Write);

            // create vertex buffer
            const float size            = 1 / 2f;
            var         rotUpAxisMat    = Mat3.FromEuler(0, MathTools.DegToRad(90), 0);
            var         rotRightAxisMat = Mat3.FromEuler(MathTools.DegToRad(90), 0, 0);
            var         vertices        = new Vertex[4 * 6]; // 4 vertices per face
            var         indices         = new ushort[6 * 6]; // 6 indices per face
            var         colorKey        = new Color4[4]
            {
                Color4.blue,
                Color4.red,
                Color4.white,
                Color4.white
            };
            for (int v = 0, i = 0, r = 0; v < (4 * 4); v += 4, i += 6, ++r)            // caluclate front, right, back, left faces
            {
                vertices[v + 0] = new Vertex(new Vec3(-size, -size, size), colorKey[r], new Vec2(0, 0)).Transform(rotUpAxisMat, r);
                vertices[v + 1] = new Vertex(new Vec3(-size, size, size), colorKey[r], new Vec2(0, 1)).Transform(rotUpAxisMat, r);
                vertices[v + 2] = new Vertex(new Vec3(size, size, size), colorKey[r], new Vec2(1, 1)).Transform(rotUpAxisMat, r);
                vertices[v + 3] = new Vertex(new Vec3(size, -size, size), colorKey[r], new Vec2(1, 0)).Transform(rotUpAxisMat, r);
                indices[i + 0]  = (ushort)(v + 0);
                indices[i + 1]  = (ushort)(v + 1);
                indices[i + 2]  = (ushort)(v + 2);
                indices[i + 3]  = (ushort)(v + 0);
                indices[i + 4]  = (ushort)(v + 2);
                indices[i + 5]  = (ushort)(v + 3);
            }
            colorKey = new Color4[2]
            {
                Color4.green,
                Color4.white
            };
            for (int v = (4 * 4), i = (6 * 4), r = 1; v < (4 * 6); v += 4, i += 6, r = 3)            // caluclate top, bottom faces
            {
                vertices[v + 0] = new Vertex(new Vec3(-size, -size, size), colorKey[r / 3], new Vec2(0, 0)).Transform(rotRightAxisMat, r);
                vertices[v + 1] = new Vertex(new Vec3(-size, size, size), colorKey[r / 3], new Vec2(0, 1)).Transform(rotRightAxisMat, r);
                vertices[v + 2] = new Vertex(new Vec3(size, size, size), colorKey[r / 3], new Vec2(1, 1)).Transform(rotRightAxisMat, r);
                vertices[v + 3] = new Vertex(new Vec3(size, -size, size), colorKey[r / 3], new Vec2(1, 0)).Transform(rotRightAxisMat, r);
                indices[i + 0]  = (ushort)(v + 0);
                indices[i + 1]  = (ushort)(v + 1);
                indices[i + 2]  = (ushort)(v + 2);
                indices[i + 3]  = (ushort)(v + 0);
                indices[i + 4]  = (ushort)(v + 2);
                indices[i + 5]  = (ushort)(v + 3);
            }
            vertexBuffer = device.CreateVertexBuffer <Vertex>(vertices, indices, VertexBufferMode.GPUOptimized);

            // create vertex buffer streamer
            var vertexBufferStreamLayout = new VertexBufferStreamLayout()
            {
                descs    = new VertexBufferStreamDesc[1],
                elements = new VertexBufferStreamElement[3]
            };
            vertexBufferStreamLayout.descs[0] = new VertexBufferStreamDesc()
            {
                vertexBuffer = vertexBuffer,
                type         = VertexBufferStreamType.VertexData
            };
            vertexBufferStreamLayout.elements[0] = new VertexBufferStreamElement()
            {
                type   = VertexBufferStreamElementType.Float3,
                usage  = VertexBufferStreamElementUsage.Position,
                offset = 0
            };
            vertexBufferStreamLayout.elements[1] = new VertexBufferStreamElement()
            {
                type   = VertexBufferStreamElementType.RGBAx8,
                usage  = VertexBufferStreamElementUsage.Color,
                offset = (sizeof(float) * 3)
            };
            vertexBufferStreamLayout.elements[2] = new VertexBufferStreamElement()
            {
                type   = VertexBufferStreamElementType.Float2,
                usage  = VertexBufferStreamElementUsage.UV,
                offset = (sizeof(float) * 3) + 4
            };
            vertexBufferStreamer = device.CreateVertexBufferStreamer(vertexBufferStreamLayout);

            // create render state
            var renderStateDesc = new RenderStateDesc()
            {
                renderPass           = renderPass,
                shaderEffect         = shaderEffect,
                constantBuffers      = new ConstantBufferBase[1],
                textures             = new TextureBase[3],
                vertexBufferTopology = VertexBufferTopology.Triangle,
                vertexBufferStreamer = vertexBufferStreamer,
                triangleCulling      = TriangleCulling.Back,
                triangleFillMode     = TriangleFillMode.Solid,
                depthStencilDesc     = DepthStencilDesc.StandardDepthTesting()
            };
            //renderStateDesc.blendDesc.renderTargetBlendDescs = new RenderTargetBlendDesc[1] {RenderTargetBlendDesc.AlphaBlending()};
            renderStateDesc.constantBuffers[0] = constantBuffer;
            renderStateDesc.textures[0]        = texture;
            renderStateDesc.textures[1]        = texture2;
            renderStateDesc.textures[2]        = renderTextureTest.renderTexture;
            renderState = device.CreateRenderState(renderStateDesc);

            // create compute shader
            using (var csStream = new FileStream("Shaders\\Compute_D3D12.cs", FileMode.Open, FileAccess.Read, FileShare.Read))
            {
                var csDesc = new ComputeShaderDesc()
                {
                    randomAccessBuffers = new ComputeShaderRandomAccessBuffer[1]
                };
                csDesc.randomAccessBuffers[0] = new ComputeShaderRandomAccessBuffer()
                {
                    registerIndex = 0
                };
                computeShader = device.CreateComputeShader(csStream, csDesc);
            }

            // create compute state
            var computeStateDesc = new ComputeStateDesc()
            {
                computeShader       = computeShader,
                randomAccessBuffers = new object[1]
            };
            computeStateDesc.randomAccessBuffers[0] = renderTextureTest.renderTexture;
            computeState = device.CreateComputeState(computeStateDesc);

            // print all GPUs this abstraction supports
            if (!instance.QuerySupportedAdapters(false, out var adapters))
            {
                throw new Exception("Failed: QuerySupportedAdapters");
            }
            foreach (var adapter in adapters)
            {
                Debug.WriteLine(adapter.name);
            }

            // setup camera
            camera = new Camera();
        }