Example #1
0
    static void RenderThread(Sample sample)
    {
        // initialize the renderer
        Bgfx.Init();
        Bgfx.Reset(sample.WindowWidth, sample.WindowHeight, ResetFlags.Vsync);

        // enable debug text
        Bgfx.SetDebugFeatures(DebugFeatures.DisplayText);

        // set view 0 clear state
        Bgfx.SetViewClear(0, ClearTargets.Color | ClearTargets.Depth, 0x303030ff);

        // main loop
        while (sample.ProcessEvents(ResetFlags.Vsync))
        {
            // set view 0 viewport
            Bgfx.SetViewRect(0, 0, 0, sample.WindowWidth, sample.WindowHeight);

            //  make sure view 0 is cleared if no other draw calls are submitted
            Bgfx.Touch(0);

            // write some debug text
            Bgfx.DebugTextClear();
            Bgfx.DebugTextWrite(0, 1, DebugColor.White, DebugColor.Blue, "SharpBgfx/Samples/00-HelloWorld");
            Bgfx.DebugTextWrite(0, 2, DebugColor.White, DebugColor.Cyan, "Description: Initialization and debug text.");

            // advance to the next frame. Rendering thread will be kicked to
            // process submitted rendering primitives.
            Bgfx.Frame();
        }

        // clean up
        Bgfx.Shutdown();
    }
Example #2
0
        public static int Main(string[] args)
        {
            if (GLFW.Init() == 0)
            {
                return(-1);
            }

            GLFW.WindowHint(GLFW.CLIENT_API, GLFW.NO_API);

            string title = $"GLFW & SharpBgfx";

            IntPtr window = GLFW.CreateWindow(640, 480, title, IntPtr.Zero, IntPtr.Zero);

            if (window == IntPtr.Zero)
            {
                GLFW.Terminate();
                return(-1);
            }

            Bgfx.SetPlatformData(new PlatformData()
            {
                WindowHandle = GetWin32Window(window)
            });

            Bgfx.Init();

            Bgfx.Reset(640, 480, ResetFlags.Vsync);

            Bgfx.SetDebugFeatures(DebugFeatures.DisplayText);

            Bgfx.SetViewClear(0, ClearTargets.Color | ClearTargets.Depth, 0x303030ff);

            while (GLFW.WindowShouldClose(window) == 0)
            {
                GLFW.PollEvents();

                Bgfx.Touch(0);

                // write some debug text
                Bgfx.DebugTextClear();
                Bgfx.DebugTextWrite(0, 1, DebugColor.White, DebugColor.Blue, "GLFWDotNet & SharpBgfx");
                Bgfx.DebugTextWrite(0, 2, DebugColor.White, DebugColor.Cyan, "Description: Initialization and debug text.");

                // advance to the next frame. Rendering thread will be kicked to
                // process submitted rendering primitives.
                Bgfx.Frame();

                GLFW.SwapBuffers(window);
            }

            Bgfx.Shutdown();

            GLFW.Terminate();

            return(0);
        }
Example #3
0
    static void RunUnsupported(Sample sample)
    {
        // main loop
        while (sample.ProcessEvents(ResetFlags.Vsync))
        {
            Bgfx.SetViewRect(0, 0, 0, sample.WindowWidth, sample.WindowHeight);

            Bgfx.DebugTextClear();
            Bgfx.DebugTextWrite(0, 1, DebugColor.White, DebugColor.Blue, "SharpBgfx/Samples/24-NBody");
            Bgfx.DebugTextWrite(0, 2, DebugColor.White, DebugColor.Cyan, "Description: N-body simulation with compute shaders using buffers.");
            Bgfx.DebugTextWrite(0, 5, DebugColor.White, DebugColor.Red, "Compute is not supported by your GPU.");

            Bgfx.Touch(0);
            Bgfx.Frame();
        }
    }
Example #4
0
    static unsafe void RenderThread(Sample sample)
    {
        // initialize the renderer
        Bgfx.Init();
        Bgfx.Reset(sample.WindowWidth, sample.WindowHeight, ResetFlags.Vsync);

        // enable debug text
        Bgfx.SetDebugFeatures(DebugFeatures.DisplayText);

        // load shaders
        var programTextureLighting = ResourceLoader.LoadProgram("vs_stencil_texture_lighting", "fs_stencil_texture_lighting");
        var programColorLighting   = ResourceLoader.LoadProgram("vs_stencil_color_lighting", "fs_stencil_color_lighting");
        var programColorTexture    = ResourceLoader.LoadProgram("vs_stencil_color_texture", "fs_stencil_color_texture");
        var programColorBlack      = ResourceLoader.LoadProgram("vs_stencil_color", "fs_stencil_color_black");
        var programTexture         = ResourceLoader.LoadProgram("vs_stencil_texture", "fs_stencil_texture");

        // load meshes
        var bunnyMesh  = ResourceLoader.LoadMesh("bunny.bin");
        var columnMesh = ResourceLoader.LoadMesh("column.bin");
        var hplaneMesh = new Mesh(MemoryBlock.FromArray(StaticMeshes.HorizontalPlane), PosNormalTexcoordVertex.Layout, StaticMeshes.PlaneIndices);
        var vplaneMesh = new Mesh(MemoryBlock.FromArray(StaticMeshes.VerticalPlane), PosNormalTexcoordVertex.Layout, StaticMeshes.PlaneIndices);

        // load textures
        var figureTex     = ResourceLoader.LoadTexture("figure-rgba.dds");
        var flareTex      = ResourceLoader.LoadTexture("flare.dds");
        var fieldstoneTex = ResourceLoader.LoadTexture("fieldstone-rgba.dds");

        // create uniforms
        var colorTextureHandle = new Uniform("u_texColor", UniformType.Sampler);
        var uniforms           = new Uniforms();

        uniforms.SubmitConstUniforms();

        // light colors
        uniforms.LightColor = new[] {
            new Vector4(1.0f, 0.7f, 0.2f, 0.0f), // yellow
            new Vector4(0.7f, 0.2f, 1.0f, 0.0f), // purple
            new Vector4(0.2f, 1.0f, 0.7f, 0.0f), // cyan
            new Vector4(1.0f, 0.4f, 0.2f, 0.0f)  // orange
        };

        // camera
        var camera = new Camera(60.0f, sample.WindowWidth, sample.WindowHeight, 0.1f, 100.0f);

        camera.Position = new Vector3(0.0f, 18.0f, -40.0f);

        // start the frame clock
        var clock = new Clock();

        clock.Start();

        // check caps and stats, for testing purposes
        Bgfx.GetCaps();
        Bgfx.GetStats();

        // main loop
        while (sample.ProcessEvents(ResetFlags.Vsync))
        {
            // tick the clock
            var elapsed = clock.Frame();
            var time    = clock.TotalTime();

            // write some debug text
            Bgfx.DebugTextClear();
            Bgfx.DebugTextWrite(0, 1, DebugColor.White, DebugColor.Blue, "SharpBgfx/Samples/13-Stencil");
            Bgfx.DebugTextWrite(0, 2, DebugColor.White, DebugColor.Cyan, "Description: Stencil reflections.");
            Bgfx.DebugTextWrite(0, 3, DebugColor.White, DebugColor.Cyan, "Frame: {0:F3} ms", elapsed * 1000);

            // clear the background
            Bgfx.SetViewClear(BaseId, ClearTargets.Color | ClearTargets.Depth | ClearTargets.Stencil, 0x30303000);
            Bgfx.SetViewRect(BaseId, 0, 0, sample.WindowWidth, sample.WindowHeight);
            Bgfx.Touch(BaseId);

            // set view params for each pass
            var viewMtx = camera.GetViewMatrix();
            var projMtx = camera.GetProjectionMatrix();
            for (byte i = PassId0; i <= PassId4; i++)
            {
                Bgfx.SetViewRect(i, 0, 0, sample.WindowWidth, sample.WindowHeight);
                Bgfx.SetViewTransform(i, (float *)&viewMtx, (float *)&projMtx);
            }

            // first pass - draw ground plane
            var floorMtx = FloorTransform;
            hplaneMesh.Submit(PassId0, programColorBlack, &floorMtx, StateGroups[PrebuiltRenderState.StencilReflectionCraftStencil], uniforms);

            // second pass - reflected objects
            Bgfx.SetViewClear(PassId1, ClearTargets.Depth, 0);
            uniforms.AmbientPass  = true;
            uniforms.LightingPass = true;
            uniforms.Color        = new Vector4(0.70f, 0.65f, 0.60f, 0.8f);
            uniforms.LightCount   = LightCount;

            // light positions
            var lightPositions  = new Vector4[LightCount];
            var reflectedLights = new Vector4[LightCount];
            for (int i = 0; i < lightPositions.Length; i++)
            {
                var v3 = new Vector3(
                    (float)Math.Sin(time * 1.1 + i * 0.03 + i * 1.07 * Math.PI / 2) * 20.0f,
                    8.0f + (1.0f - (float)Math.Cos(time * 1.5 + i * 0.29 + 1.49f * Math.PI / 2)) * 4.0f,
                    (float)Math.Cos(time * 1.3 + i * 0.13 + i * 1.79 * Math.PI / 2) * 20.0f
                    );

                lightPositions[i]  = new Vector4(v3, 15.0f);
                reflectedLights[i] = new Vector4(Vector3.Transform(v3, ReflectionTransform), 15.0f);
            }

            uniforms.LightPosRadius = reflectedLights;
            var bunnyMtx =
                Matrix4x4.CreateScale(5) *
                Matrix4x4.CreateRotationY(time - 1.56f) *
                Matrix4x4.CreateTranslation(0.0f, 2.0f, 0.0f);
            var reflectedBunnyMtx = bunnyMtx * ReflectionTransform;
            bunnyMesh.Submit(PassId1, programColorLighting, &reflectedBunnyMtx, StateGroups[PrebuiltRenderState.StencilReflectionDrawReflected], uniforms);

            for (int i = 0; i < 4; i++)
            {
                var mtx = ColumnTransforms[i] * ReflectionTransform;
                columnMesh.Submit(PassId1, programColorLighting, &mtx, StateGroups[PrebuiltRenderState.StencilReflectionDrawReflected], uniforms);
            }

            // third pass - blend the plane and reflections
            uniforms.LightPosRadius = lightPositions;
            hplaneMesh.Submit(PassId2, programTextureLighting, &floorMtx, StateGroups[PrebuiltRenderState.StencilReflectionBlendPlane], uniforms, fieldstoneTex, colorTextureHandle);

            // fourth pass - draw the solid objects
            bunnyMesh.Submit(PassId3, programColorLighting, &bunnyMtx, StateGroups[PrebuiltRenderState.StencilReflectionDrawScene], uniforms);
            for (int i = 0; i < 4; i++)
            {
                var mtx = ColumnTransforms[i];
                columnMesh.Submit(PassId3, programColorLighting, &mtx, StateGroups[PrebuiltRenderState.StencilReflectionDrawScene], uniforms);
            }

            // fifth pass - draw the lights as objects
            for (int i = 0; i < LightCount; i++)
            {
                var c = uniforms.LightColor[i];
                uniforms.Color = new Vector4(c.X, c.Y, c.Z, 0.8f);

                var p   = lightPositions[i];
                var mtx = Matrix4x4.CreateScale(1.5f) * Matrix4x4.CreateBillboard(new Vector3(p.X, p.Y, p.Z), camera.Position, Vector3.UnitY, -Vector3.UnitZ);
                vplaneMesh.Submit(PassId4, programColorTexture, &mtx, StateGroups[PrebuiltRenderState.CustomBlendLightTexture], uniforms, flareTex, colorTextureHandle);
            }

            // advance to the next frame. Rendering thread will be kicked to
            // process submitted rendering primitives.
            Bgfx.Frame();
        }

        // clean up
        bunnyMesh.Dispose();
        columnMesh.Dispose();
        hplaneMesh.Dispose();
        vplaneMesh.Dispose();

        figureTex.Dispose();
        fieldstoneTex.Dispose();
        flareTex.Dispose();

        programTextureLighting.Dispose();
        programColorLighting.Dispose();
        programColorTexture.Dispose();
        programColorBlack.Dispose();
        programTexture.Dispose();

        colorTextureHandle.Dispose();
        uniforms.Dispose();

        Bgfx.Shutdown();
    }
Example #5
0
    static unsafe void RunCompute(Sample sample, bool indirectSupported)
    {
        // build vertex layouts
        var quadLayout = new VertexLayout();

        quadLayout.Begin()
        .Add(VertexAttributeUsage.Position, 2, VertexAttributeType.Float)
        .End();

        var computeLayout = new VertexLayout();

        computeLayout.Begin()
        .Add(VertexAttributeUsage.TexCoord0, 4, VertexAttributeType.Float)
        .End();

        // static quad data
        var vb = new VertexBuffer(MemoryBlock.FromArray(QuadVertices), quadLayout);
        var ib = new IndexBuffer(MemoryBlock.FromArray(QuadIndices));

        // create compute buffers
        var currPositionBuffer0 = new DynamicVertexBuffer(1 << 15, computeLayout, BufferFlags.ComputeReadWrite);
        var currPositionBuffer1 = new DynamicVertexBuffer(1 << 15, computeLayout, BufferFlags.ComputeReadWrite);
        var prevPositionBuffer0 = new DynamicVertexBuffer(1 << 15, computeLayout, BufferFlags.ComputeReadWrite);
        var prevPositionBuffer1 = new DynamicVertexBuffer(1 << 15, computeLayout, BufferFlags.ComputeReadWrite);

        // load shaders
        var particleProgram        = ResourceLoader.LoadProgram("vs_particle", "fs_particle");
        var initInstancesProgram   = ResourceLoader.LoadProgram("cs_init_instances");
        var updateInstancesProgram = ResourceLoader.LoadProgram("cs_update_instances");

        // indirect rendering support
        var  indirectProgram = SharpBgfx.Program.Invalid;
        var  indirectBuffer  = IndirectBuffer.Invalid;
        bool useIndirect     = false;

        if (indirectSupported)
        {
            indirectProgram = ResourceLoader.LoadProgram("cs_indirect");
            indirectBuffer  = new IndirectBuffer(2);
            useIndirect     = true;
        }

        // setup params uniforms
        var paramData = new ParamsData {
            TimeStep          = 0.0157f,
            DispatchSize      = 32,
            Gravity           = 0.109f,
            Damping           = 0.25f,
            ParticleIntensity = 0.64f,
            ParticleSize      = 0.279f,
            BaseSeed          = 57,
            ParticlePower     = 3.5f,
            InitialSpeed      = 3.2f,
            InitialShape      = 1,
            MaxAccel          = 100.0f
        };

        // have the compute shader run initialization
        var u_params = new Uniform("u_params", UniformType.Vector4, 3);

        Bgfx.SetUniform(u_params, &paramData, 3);
        Bgfx.SetComputeBuffer(0, prevPositionBuffer0, ComputeBufferAccess.Write);
        Bgfx.SetComputeBuffer(1, currPositionBuffer0, ComputeBufferAccess.Write);
        Bgfx.Dispatch(0, initInstancesProgram, MaxParticleCount / ThreadGroupUpdateSize);

        // start the frame clock
        var clock = new Clock();

        clock.Start();

        // main loop
        while (sample.ProcessEvents(ResetFlags.Vsync))
        {
            // tick the clock
            var elapsed = clock.Frame();
            var time    = clock.TotalTime();

            // write some debug text
            Bgfx.DebugTextClear();
            Bgfx.DebugTextWrite(0, 1, DebugColor.White, DebugColor.Blue, "SharpBgfx/Samples/24-NBody");
            Bgfx.DebugTextWrite(0, 2, DebugColor.White, DebugColor.Cyan, "Description: N-body simulation with compute shaders using buffers.");
            Bgfx.DebugTextWrite(0, 3, DebugColor.White, DebugColor.Cyan, "Frame: {0:F3} ms", elapsed * 1000);

            // fill the indirect buffer if we're using it
            if (useIndirect)
            {
                Bgfx.SetUniform(u_params, &paramData, 3);
                Bgfx.SetComputeBuffer(0, indirectBuffer, ComputeBufferAccess.Write);
                Bgfx.Dispatch(0, indirectProgram);
            }

            // update particle positions
            Bgfx.SetComputeBuffer(0, prevPositionBuffer0, ComputeBufferAccess.Read);
            Bgfx.SetComputeBuffer(1, currPositionBuffer0, ComputeBufferAccess.Read);
            Bgfx.SetComputeBuffer(2, prevPositionBuffer1, ComputeBufferAccess.Write);
            Bgfx.SetComputeBuffer(3, currPositionBuffer1, ComputeBufferAccess.Write);
            Bgfx.SetUniform(u_params, &paramData, 3);
            if (useIndirect)
            {
                Bgfx.Dispatch(0, updateInstancesProgram, indirectBuffer, 1);
            }
            else
            {
                Bgfx.Dispatch(0, updateInstancesProgram, paramData.DispatchSize);
            }

            // ping-pong the buffers for next frame
            Swap(ref currPositionBuffer0, ref currPositionBuffer1);
            Swap(ref prevPositionBuffer0, ref prevPositionBuffer1);

            // view transforms for particle rendering
            var viewMatrix = Matrix4x4.CreateLookAt(new Vector3(0.0f, 0.0f, -45.0f), -Vector3.UnitZ, Vector3.UnitY);
            var projMatrix = Matrix4x4.CreatePerspectiveFieldOfView((float)Math.PI / 4, (float)sample.WindowWidth / sample.WindowHeight, 0.1f, 10000.0f);
            Bgfx.SetViewTransform(0, &viewMatrix.M11, &projMatrix.M11);
            Bgfx.SetViewRect(0, 0, 0, sample.WindowWidth, sample.WindowHeight);

            // draw the particles
            Bgfx.SetVertexBuffer(vb);
            Bgfx.SetIndexBuffer(ib);
            Bgfx.SetInstanceDataBuffer(currPositionBuffer0, 0, paramData.DispatchSize * ThreadGroupUpdateSize);
            Bgfx.SetRenderState(RenderState.ColorWrite | RenderState.BlendAdd | RenderState.DepthTestAlways);
            if (useIndirect)
            {
                Bgfx.Submit(0, particleProgram, indirectBuffer);
            }
            else
            {
                Bgfx.Submit(0, particleProgram);
            }

            // done with frame
            Bgfx.Frame();
        }

        // cleanup
        if (indirectSupported)
        {
            indirectProgram.Dispose();
            indirectBuffer.Dispose();
        }

        u_params.Dispose();
        currPositionBuffer0.Dispose();
        currPositionBuffer1.Dispose();
        prevPositionBuffer0.Dispose();
        prevPositionBuffer1.Dispose();
        updateInstancesProgram.Dispose();
        initInstancesProgram.Dispose();
        particleProgram.Dispose();
        ib.Dispose();
        vb.Dispose();
    }
Example #6
0
    static unsafe void RenderThread(Sample sample)
    {
        // initialize the renderer
        Bgfx.Init();
        Bgfx.Reset(sample.WindowWidth, sample.WindowHeight, ResetFlags.None);

        // enable debug text
        Bgfx.SetDebugFeatures(DebugFeatures.DisplayText);

        // set view 0 clear state
        Bgfx.SetViewClear(0, ClearTargets.Color | ClearTargets.Depth, 0x303030ff);

        // create vertex and index buffers
        var vbh = Cube.CreateVertexBuffer();
        var ibh = Cube.CreateIndexBuffer();

        // load shaders
        var program = ResourceLoader.LoadProgram("vs_cubes", "fs_cubes");

        // start the frame clock
        var clock = new Clock();

        clock.Start();

        int   cubeDim    = 15;
        float lastUpdate = 0.0f;
        int   frameCount = 0;

        // main loop
        while (sample.ProcessEvents(ResetFlags.None))
        {
            // set view 0 viewport
            Bgfx.SetViewRect(0, 0, 0, sample.WindowWidth, sample.WindowHeight);

            // view transforms
            var viewMatrix = Matrix4x4.CreateLookAt(new Vector3(0.0f, 0.0f, -35.0f), Vector3.Zero, Vector3.UnitY);
            var projMatrix = Matrix4x4.CreatePerspectiveFieldOfView((float)Math.PI / 3, (float)sample.WindowWidth / sample.WindowHeight, 0.1f, 100.0f);
            Bgfx.SetViewTransform(0, &viewMatrix.M11, &projMatrix.M11);

            // make sure view 0 is cleared if no other draw calls are submitted
            Bgfx.Touch(0);

            // tick the clock
            var elapsed = clock.Frame();
            var time    = clock.TotalTime();
            if (elapsed > 10)
            {
                elapsed = 0;
            }

            frameCount++;
            lastUpdate += elapsed;
            if (lastUpdate > 1.0f)
            {
                var avgFrameTime = frameCount / lastUpdate;
                if (avgFrameTime > HighThreshold)
                {
                    cubeDim = Math.Min(cubeDim + 2, 40);
                }
                else if (avgFrameTime < LowThreshold)
                {
                    cubeDim = Math.Max(cubeDim - 1, 2);
                }

                frameCount = 0;
                lastUpdate = 0;
            }

            var initial = new Vector3(
                -Step * cubeDim / 2.0f,
                -Step * cubeDim / 2.0f,
                -15.0f
                );

            // write some debug text
            Bgfx.DebugTextClear();
            Bgfx.DebugTextWrite(0, 1, DebugColor.White, DebugColor.Blue, "Description: CPU/driver stress test, maximizing draw calls.");
            Bgfx.DebugTextWrite(0, 2, DebugColor.White, DebugColor.Cyan, "Draw Calls: {0}", cubeDim * cubeDim * cubeDim);
            Bgfx.DebugTextWrite(0, 3, DebugColor.White, DebugColor.Cyan, "Frame:      {0:F3} ms", elapsed * 1000);

            for (int z = 0; z < cubeDim; z++)
            {
                for (int y = 0; y < cubeDim; y++)
                {
                    for (int x = 0; x < cubeDim; x++)
                    {
                        // model matrix
                        var transform = Matrix4x4.CreateFromYawPitchRoll(time + x * 0.21f, time + y * 0.37f, time + y * 0.13f);
                        transform     = Matrix4x4.CreateScale(Scale) * transform;
                        transform.M41 = initial.X + x * Step;
                        transform.M42 = initial.Y + y * Step;
                        transform.M43 = initial.Z + z * Step;
                        Bgfx.SetTransform(&transform.M11);

                        // set pipeline states
                        Bgfx.SetVertexBuffer(0, vbh);
                        Bgfx.SetIndexBuffer(ibh);
                        Bgfx.SetRenderState(RenderState.Default);

                        // submit primitives
                        Bgfx.Submit(0, program);
                    }
                }
            }

            // advance to the next frame. Rendering thread will be kicked to
            // process submitted rendering primitives.
            Bgfx.Frame();
        }

        // clean up
        ibh.Dispose();
        vbh.Dispose();
        program.Dispose();
        Bgfx.Shutdown();
    }
Example #7
0
        unsafe static void Main(string[] args)
        {
            int width  = 640;
            int height = 480;

            var renderer = new Renderer();

            renderer.CreateSDL(width, height, string.Format("OpenLSR v{0}", Assembly.GetEntryAssembly().GetName().Version.ToString()));

            var wmi = new SDL_SysWMinfo();

            SDL_VERSION(out wmi.version);
            SDL_GetWindowWMInfo(renderer.window, ref wmi);

            var pd = new PlatformData();

            pd.WindowHandle = wmi.info.win.window;

            var init = new InitSettings();

            init.PlatformData = pd;

            Bgfx.Init(init);
            Bgfx.Reset(width, height, ResetFlags.Vsync);

            SDL_ShowWindow(renderer.window);

            // enable debug text
            Bgfx.SetDebugFeatures(DebugFeatures.DisplayText);

            // set view 0 clear state
            Bgfx.SetViewClear(0, ClearTargets.Color | ClearTargets.Depth, 0x303030ff);

            bool      quit = false;
            SDL_Event Event;

            // start the frame clock
            var clock = new GameClock();

            clock.Start();

            // main loop
            while (!quit)
            {
                while (SDL_PollEvent(out Event) != 0)
                {
                    switch (Event.type)
                    {
                    case SDL_EventType.SDL_QUIT:
                        quit = true;
                        break;

                    default:
                        break;
                    }
                }

                // set view 0 viewport
                Bgfx.SetViewRect(0, 0, 0, width, height);

                //  make sure view 0 is cleared if no other draw calls are submitted
                Bgfx.Touch(0);

                // tick the clock
                var elapsed = clock.Frame();
                var time    = clock.TotalTime();

                // write some debug text
                Bgfx.DebugTextClear();

                Bgfx.DebugTextWrite(0, 1, DebugColor.White, DebugColor.Magenta, "OpenLSR Test");
                Bgfx.DebugTextWrite(0, 2, DebugColor.White, DebugColor.Magenta, "Frame: {0:F3} ms", elapsed * 1000);


                // advance to the next frame. Rendering thread will be kicked to
                // process submitted rendering primitives.
                Bgfx.Frame();
            }

            // clean up
            Bgfx.Shutdown();

            SDL_DestroyRenderer(renderer.renderer);
            SDL_DestroyWindow(renderer.window);

            SDL_Quit();
        }
Example #8
0
    static unsafe void RenderThread(Sample sample)
    {
        // initialize the renderer
        Bgfx.Init();
        Bgfx.Reset(sample.WindowWidth, sample.WindowHeight, ResetFlags.Vsync);

        // enable debug text
        Bgfx.SetDebugFeatures(DebugFeatures.DisplayText);

        // set view 0 clear state
        Bgfx.SetViewClear(0, ClearTargets.Color | ClearTargets.Depth, 0x303030ff);

        // create vertex and index buffers
        var vbh = Cube.CreateVertexBuffer();
        var ibh = Cube.CreateIndexBuffer();

        // load shaders
        var program = ResourceLoader.LoadProgram("vs_cubes", "fs_cubes");

        // start the frame clock
        var clock = new Clock();

        clock.Start();

        var imguiController = new ImGuiController(1);

        var image = imguiController.AddTexture(ResourceLoader.LoadTexture("fieldstone-rgba.dds"));

        // main loop
        while (sample.ProcessEvents(ResetFlags.Vsync))
        {
            // set view 0 viewport
            Bgfx.SetViewRect(0, 0, 0, sample.WindowWidth, sample.WindowHeight);

            // view transforms
            var viewMatrix = Matrix4x4.CreateLookAt(new Vector3(0.0f, 0.0f, -35.0f), Vector3.Zero, Vector3.UnitY);
            var projMatrix = Matrix4x4.CreatePerspectiveFieldOfView((float)Math.PI / 3, (float)sample.WindowWidth / sample.WindowHeight, 0.1f, 100.0f);
            Bgfx.SetViewTransform(0, &viewMatrix.M11, &projMatrix.M11);

            // make sure view 0 is cleared if no other draw calls are submitted
            Bgfx.Touch(0);

            // tick the clock
            var elapsed = clock.Frame();
            var time    = clock.TotalTime();

            // write some debug text
            Bgfx.DebugTextClear();
            Bgfx.DebugTextWrite(0, 1, DebugColor.White, DebugColor.Blue, "SharpBgfx/Samples/ImGui");
            Bgfx.DebugTextWrite(0, 2, DebugColor.White, DebugColor.Cyan, "Description: Rendering simple static mesh.");
            Bgfx.DebugTextWrite(0, 3, DebugColor.White, DebugColor.Cyan, "Frame: {0:F3} ms", elapsed * 1000);

            // submit 11x11 cubes
            for (int y = 0; y < 11; y++)
            {
                for (int x = 0; x < 11; x++)
                {
                    // model matrix
                    var transform = Matrix4x4.CreateFromYawPitchRoll(time + x * 0.21f, time + y * 0.37f, 0.0f);
                    transform.M41 = -15.0f + x * 3.0f;
                    transform.M42 = -15.0f + y * 3.0f;
                    transform.M43 = 0.0f;
                    Bgfx.SetTransform(&transform.M11);

                    // set pipeline states
                    Bgfx.SetVertexBuffer(0, vbh);
                    Bgfx.SetIndexBuffer(ibh);
                    Bgfx.SetRenderState(RenderState.Default);

                    // submit primitives
                    Bgfx.Submit(0, program);
                }
            }

            imguiController.StartFrame();

            ImGui.ShowDemoWindow();

            ImGui.SetNextWindowPos(new Vector2(100, 100));
            ImGui.SetNextWindowSize(new Vector2(400, 400));
            ImGui.Begin("Drawing an image");
            ImGui.Image(image, new Vector2(((float)Math.Sin(clock.TotalTime()) + 1) * 200, ((float)Math.Sin(clock.TotalTime()) + 1) * 200));
            ImGui.End();

            imguiController.EndFrame(elapsed, new Vector2(sample.WindowWidth, sample.WindowHeight));


            // advance to the next frame. Rendering thread will be kicked to
            // process submitted rendering primitives.
            Bgfx.Frame();
        }

        // clean up
        ibh.Dispose();
        vbh.Dispose();
        program.Dispose();
        Bgfx.Shutdown();
    }
Example #9
0
    static unsafe void RenderThread(Sample sample)
    {
        // initialize the renderer
        Bgfx.Init(RendererBackend.OpenGL, callbackHandler: new CallbackHandler());
        Bgfx.Reset(sample.WindowWidth, sample.WindowHeight, ResetFlags.MSAA16x | ResetFlags.Capture);

        // enable debug text
        Bgfx.SetDebugFeatures(DebugFeatures.DisplayText);

        // set view 0 clear state
        Bgfx.SetViewClear(0, ClearTargets.Color | ClearTargets.Depth, 0x303030ff);
        Bgfx.SetViewRect(0, 0, 0, sample.WindowWidth, sample.WindowHeight);

        // create vertex and index buffers
        var vbh = Cube.CreateVertexBuffer();
        var ibh = Cube.CreateIndexBuffer();

        // load shaders
        var program = ResourceLoader.LoadProgram("vs_callback", "fs_callback");

        // 5 seconds of 60 Hz video
        var time = 0.0f;

        for (int frame = 0; frame < 300; frame++)
        {
            // write some debug text
            Bgfx.DebugTextClear();
            Bgfx.DebugTextWrite(0, 1, DebugColor.White, DebugColor.Blue, "SharpBgfx/Samples/07-Callback");
            Bgfx.DebugTextWrite(0, 2, DebugColor.White, DebugColor.Cyan, "Description: Implementing application specific callbacks for taking screen shots,");
            Bgfx.DebugTextWrite(13, 3, DebugColor.White, DebugColor.Cyan, "caching OpenGL binary shaders, and video capture.");
            Bgfx.DebugTextWrite(0, 4, DebugColor.White, DebugColor.Cyan, "Frame: {0}", frame);

            // view transforms
            var viewMatrix = Matrix4x4.CreateLookAt(new Vector3(0.0f, 0.0f, 35.0f), Vector3.Zero, Vector3.UnitY);
            var projMatrix = Matrix4x4.CreatePerspectiveFieldOfView((float)Math.PI / 3, (float)sample.WindowWidth / sample.WindowHeight, 0.1f, 100.0f);
            Bgfx.SetViewTransform(0, &viewMatrix.M11, &projMatrix.M11);

            // fixed frame rate
            time += 1.0f / 60.0f;

            // submit 11x11 cubes
            for (int y = 0; y < 11; y++)
            {
                for (int x = 0; x < 11 - y; x++)
                {
                    // model matrix
                    var transform = Matrix4x4.CreateFromYawPitchRoll(time + x * 0.21f, time + y * 0.37f, 0.0f);
                    transform.M41 = -15.0f + x * 3.0f;
                    transform.M42 = -15.0f + y * 3.0f;
                    transform.M43 = 0.0f;
                    Bgfx.SetTransform(&transform.M11);

                    // set pipeline states
                    Bgfx.SetVertexBuffer(0, vbh);
                    Bgfx.SetIndexBuffer(ibh);
                    Bgfx.SetRenderState(RenderState.Default);

                    // submit primitives
                    Bgfx.Submit(0, program);
                }
            }

            // take a screenshot at frame 150
            if (frame == 150)
            {
                Bgfx.RequestScreenShot("frame150");
            }

            // advance to next frame
            Bgfx.Frame();
        }

        // clean up
        ibh.Dispose();
        vbh.Dispose();
        program.Dispose();
        Bgfx.Shutdown();
    }
Example #10
0
    static unsafe void RenderThread(Sample sample)
    {
        // initialize the renderer
        Bgfx.Init();
        Bgfx.Reset(sample.WindowWidth, sample.WindowHeight, ResetFlags.Vsync);

        // enable debug text
        Bgfx.SetDebugFeatures(DebugFeatures.DisplayText);

        // set view 0 clear state
        Bgfx.SetViewClear(0, ClearTargets.Color | ClearTargets.Depth, 0x303030ff);

        // create vertex and index buffers
        var vbh = Cube.CreateVertexBuffer();
        var ibh = Cube.CreateIndexBuffer();

        // load shaders
        var program = ResourceLoader.LoadProgram("vs_instancing", "fs_instancing");

        // start the frame clock
        var clock = new Clock();

        clock.Start();

        // getting caps
        var caps = Bgfx.GetCaps();

        // main loop
        while (sample.ProcessEvents(ResetFlags.Vsync))
        {
            // set view 0 viewport
            Bgfx.SetViewRect(0, 0, 0, sample.WindowWidth, sample.WindowHeight);

            // view transforms
            var viewMatrix = Matrix4x4.CreateLookAt(new Vector3(0.0f, 0.0f, -35.0f), Vector3.Zero, Vector3.UnitY);
            var projMatrix = Matrix4x4.CreatePerspectiveFieldOfView((float)Math.PI / 3, (float)sample.WindowWidth / sample.WindowHeight, 0.1f, 100.0f);
            Bgfx.SetViewTransform(0, &viewMatrix.M11, &projMatrix.M11);

            // make sure view 0 is cleared if no other draw calls are submitted
            Bgfx.Touch(0);

            // tick the clock
            var elapsed = clock.Frame();
            var time    = clock.TotalTime();

            // write some debug text
            Bgfx.DebugTextClear();
            Bgfx.DebugTextWrite(0, 1, DebugColor.White, DebugColor.Blue, "SharpBgfx/Samples/05-Instancing");
            Bgfx.DebugTextWrite(0, 2, DebugColor.White, DebugColor.Cyan, "Description: Geometry instancing.");
            Bgfx.DebugTextWrite(0, 3, DebugColor.White, DebugColor.Cyan, "Frame: {0:F3} ms", elapsed * 1000);

            // check caps
            if ((caps.SupportedFeatures & DeviceFeatures.Instancing) != DeviceFeatures.Instancing)
            {
                // instancing not supported
                Bgfx.DebugTextWrite(0, 3, DebugColor.White, DebugColor.Red, "Instancing not supported!");
            }
            else
            {
                const int instanceStride = 80;
                const int instanceCount  = 121;

                var idb = new InstanceDataBuffer(instanceCount, instanceStride);

                // fill in InstanceDataBuffer
                byte *dataPtr = (byte *)idb.Data.ToPointer();
                // TODO: extract idb->data->num
                for (int y = 0; y < 11; y++)
                {
                    for (int x = 0; x < 11; x++)
                    {
                        float *matrix     = (float *)dataPtr;
                        var    realMatrix = Matrix4x4.CreateFromYawPitchRoll(time + x * 0.21f, time + y * 0.37f, 0f);
                        realMatrix.M41 = -15.0f + x * 3.0f;
                        realMatrix.M42 = -15.0f + y * 3.0f;
                        realMatrix.M43 = 0.0f;
                        // TODO: use proper copy function, not a bycicle
                        float *realMatrixPtr = &realMatrix.M11;
                        for (int i = 0; i < 16; i++)
                        {
                            matrix[i] = realMatrixPtr[i];
                        }

                        float *color = (float *)(dataPtr + 64);
                        color[0] = (float)Math.Sin(time + x / 11.0f) * 0.5f + 0.5f;
                        color[1] = (float)Math.Cos(time + y / 11.0f) * 0.5f + 0.5f;
                        color[2] = (float)Math.Sin(time * 3.0f) * 0.5f + 0.5f;
                        color[3] = 1.0f;

                        dataPtr += instanceStride;
                    }
                }

                // set pipeline states
                Bgfx.SetVertexBuffer(0, vbh);
                Bgfx.SetIndexBuffer(ibh);
                Bgfx.SetInstanceDataBuffer(ref idb);
                Bgfx.SetRenderState(RenderState.Default);

                // submit primitives
                Bgfx.Submit(0, program);
            }

            // advance to the next frame. Rendering thread will be kicked to
            // process submitted rendering primitives.
            Bgfx.Frame();
        }

        // clean up
        ibh.Dispose();
        vbh.Dispose();
        program.Dispose();
        Bgfx.Shutdown();
    }