//internal static void CreateInputLayout(byte[] bytecode)
        //{
        //    m_inputLayout = MyVertexInputLayout.CreateLayout(MyVertexInputLayout.Empty().Append(MyVertexInputComponentType.POSITION3).Append(MyVertexInputComponentType.COLOR4), bytecode);
        //}

        internal unsafe static void Init()
        {
            m_currentBufferSize = 100000;

            m_VB = MyHwBuffers.CreateVertexBuffer(m_currentBufferSize, sizeof(MyVertexFormatPositionColor), BindFlags.VertexBuffer, ResourceUsage.Dynamic);

            m_vs          = MyShaders.CreateVs("primitive.hlsl", "vs");
            m_ps          = MyShaders.CreatePs("primitive.hlsl", "ps");
            m_inputLayout = MyShaders.CreateIL(m_vs.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION3, MyVertexInputComponentType.COLOR4));
        }
Ejemplo n.º 2
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        // inscatter texture
        // transmittance texture
        //static RwTexId m_transmittanceLut;
        //static RwTexId m_inscatterLutR;
        //static RwTexId m_inscatterLutM;

        internal static void Init()
        {
            m_ps          = MyShaders.CreatePs("Transparent/Atmosphere/Atmosphere.hlsl");
            m_psPerSample = MyShaders.CreatePs("Transparent/Atmosphere/Atmosphere.hlsl", MyRender11.ShaderSampleFrequencyDefine());

            m_precomputeDensity = MyShaders.CreateCs("Transparent/Atmosphere/AtmospherePrecompute.hlsl");

            m_proxyVs = MyShaders.CreateVs("Transparent/Atmosphere/Atmosphere.hlsl");
            m_proxyIL = MyShaders.CreateIL(m_proxyVs.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION_PACKED));
        }
Ejemplo n.º 3
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        internal static void Init()
        {
            m_VSCopy = MyShaders.CreateVs("postprocess_copy.hlsl");

            {
                m_VBFullscreen = MyHwBuffers.CreateVertexBuffer(4, VRageRender.Vertex.MyVertexFormatPositionTextureH.STRIDE,
                                                                BindFlags.VertexBuffer, ResourceUsage.Dynamic, null, "MyScreenPass.VBFullscreen");
                m_vbData[0] = new VRageRender.Vertex.MyVertexFormatPositionTextureH(new Vector3(-1, -1, 0),
                                                                                    new VRageMath.PackedVector.HalfVector2(0, 1f));
                m_vbData[1] = new VRageRender.Vertex.MyVertexFormatPositionTextureH(new Vector3(-1, 1, 0),
                                                                                    new VRageMath.PackedVector.HalfVector2(0, 0));
                m_vbData[2] = new VRageRender.Vertex.MyVertexFormatPositionTextureH(new Vector3(1, -1, 0),
                                                                                    new VRageMath.PackedVector.HalfVector2(1, 1f));
                m_vbData[3] = new VRageRender.Vertex.MyVertexFormatPositionTextureH(new Vector3(1, 1, 0),
                                                                                    new VRageMath.PackedVector.HalfVector2(1, 0f));
                MyMapping mapping = MyMapping.MapDiscard(RC.DeviceContext, m_VBFullscreen.Buffer);
                mapping.WriteAndPosition(m_vbData, 0, 4);
                mapping.Unmap();
            }

            {
                m_VBLeftPart = MyHwBuffers.CreateVertexBuffer(4, VRageRender.Vertex.MyVertexFormatPositionTextureH.STRIDE,
                                                              BindFlags.VertexBuffer, ResourceUsage.Dynamic, null, "MyVRScreenPass.VBLeftPart");
                m_vbData[0] = new VRageRender.Vertex.MyVertexFormatPositionTextureH(new Vector3(-1, -1, 0),
                                                                                    new VRageMath.PackedVector.HalfVector2(0, 1));
                m_vbData[1] = new VRageRender.Vertex.MyVertexFormatPositionTextureH(new Vector3(-1, 1, 0),
                                                                                    new VRageMath.PackedVector.HalfVector2(0, 0));
                m_vbData[2] = new VRageRender.Vertex.MyVertexFormatPositionTextureH(new Vector3(0, -1, 0),
                                                                                    new VRageMath.PackedVector.HalfVector2(0.5f, 1));
                m_vbData[3] = new VRageRender.Vertex.MyVertexFormatPositionTextureH(new Vector3(0, 1, 0),
                                                                                    new VRageMath.PackedVector.HalfVector2(0.5f, 0f));
                MyMapping mapping = MyMapping.MapDiscard(RC.DeviceContext, m_VBLeftPart.Buffer);
                mapping.WriteAndPosition(m_vbData, 0, 4);
                mapping.Unmap();
            }

            {
                m_VBRightPart = MyHwBuffers.CreateVertexBuffer(4, VRageRender.Vertex.MyVertexFormatPositionTextureH.STRIDE,
                                                               BindFlags.VertexBuffer, ResourceUsage.Dynamic, null, "MyVRScreenPass.VBRightPart");
                m_vbData[0] = new VRageRender.Vertex.MyVertexFormatPositionTextureH(new Vector3(0, -1, 0),
                                                                                    new VRageMath.PackedVector.HalfVector2(0.5f, 1));
                m_vbData[1] = new VRageRender.Vertex.MyVertexFormatPositionTextureH(new Vector3(0, 1, 0),
                                                                                    new VRageMath.PackedVector.HalfVector2(0.5f, 0));
                m_vbData[2] = new VRageRender.Vertex.MyVertexFormatPositionTextureH(new Vector3(1, -1, 0),
                                                                                    new VRageMath.PackedVector.HalfVector2(1, 1));
                m_vbData[3] = new VRageRender.Vertex.MyVertexFormatPositionTextureH(new Vector3(1, 1, 0),
                                                                                    new VRageMath.PackedVector.HalfVector2(1, 0));
                MyMapping mapping = MyMapping.MapDiscard(RC.DeviceContext, m_VBRightPart.Buffer);
                mapping.WriteAndPosition(m_vbData, 0, 4);
                mapping.Unmap();
            }

            // just some shader bytecode is selected
            m_IL = MyShaders.CreateIL(m_VSCopy.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION3, MyVertexInputComponentType.TEXCOORD0_H));
        }
Ejemplo n.º 4
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        internal unsafe static void Init()
        {
            m_vs          = MyShaders.CreateVs("Primitives/Lines.hlsl");
            m_ps          = MyShaders.CreatePs("Primitives/Lines.hlsl");
            m_inputLayout = MyShaders.CreateIL(m_vs.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION3, MyVertexInputComponentType.COLOR4));

            m_currentBufferSize = 100000;
            m_VB = MyManagers.Buffers.CreateVertexBuffer(
                "MyLinesRenderer", m_currentBufferSize, sizeof(MyVertexFormatPositionColor),
                usage: ResourceUsage.Dynamic);
        }
Ejemplo n.º 5
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        internal static void Init()
        {
            m_proxyVs = MyShaders.CreateVs("Transparent/Clouds/Clouds.hlsl");
            m_cloudPs = MyShaders.CreatePs("Transparent/Clouds/Clouds.hlsl");
            m_proxyIL = MyShaders.CreateIL(m_proxyVs.BytecodeId, MyVertexLayouts.GetLayout(
                                               new MyVertexInputComponent(MyVertexInputComponentType.POSITION_PACKED, 0),
                                               new MyVertexInputComponent(MyVertexInputComponentType.NORMAL, 1),
                                               new MyVertexInputComponent(MyVertexInputComponentType.TANGENT_SIGN_OF_BITANGENT, 1),
                                               new MyVertexInputComponent(MyVertexInputComponentType.TEXCOORD0_H, 1)));

            m_fogShader = MyShaders.CreateCs("Transparent/Clouds/Clouds.hlsl", new[] { new ShaderMacro("NUMTHREADS", m_numFogThreads) });
        }
        private static void InitInternal(Vector2[] vertsForMask)
        {
            m_VB = MyHwBuffers.CreateVertexBuffer(vertsForMask.Length, MyVertexFormat2DPosition.STRIDE, BindFlags.VertexBuffer, ResourceUsage.Dynamic, null, "MyStereoStencilMask.VB");
            MyMapping mapping = MyMapping.MapDiscard(RC.DeviceContext, m_VB.Buffer);

            mapping.WriteAndPosition(vertsForMask, 0, vertsForMask.Length);
            mapping.Unmap();

            m_vs = MyShaders.CreateVs("stereo_stencil_mask.hlsl");
            m_ps = MyShaders.CreatePs("stereo_stencil_mask.hlsl");

            m_il = MyShaders.CreateIL(m_vs.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION2));
        }
Ejemplo n.º 7
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        private static void InitInternal(Vector2[] vertsForMask)
        {
            m_VB = MyManagers.Buffers.CreateVertexBuffer(
                "MyStereoStencilMask.VB", vertsForMask.Length, MyVertexFormat2DPosition.STRIDE,
                usage: ResourceUsage.Dynamic);
            MyMapping mapping = MyMapping.MapDiscard(RC, m_VB);

            mapping.WriteAndPosition(vertsForMask, vertsForMask.Length);
            mapping.Unmap();

            m_vs = MyShaders.CreateVs("Stereo/StereoStencilMask.hlsl");
            m_ps = MyShaders.CreatePs("Stereo/StereoStencilMask.hlsl");

            m_il = MyShaders.CreateIL(m_vs.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION2));
        }
Ejemplo n.º 8
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        // inscatter texture
        // transmittance texture
        //static RwTexId m_transmittanceLut;
        //static RwTexId m_inscatterLutR;
        //static RwTexId m_inscatterLutM;


        internal static void Init()
        {
            m_ps           = MyShaders.CreatePs("atmosphere.hlsl", "psAtmosphereInscatter");
            m_psT          = MyShaders.CreatePs("atmosphere.hlsl", "psAtmosphereTransmittance");
            m_psPerSample  = MyShaders.CreatePs("atmosphere.hlsl", "psAtmosphereInscatter", MyShaderHelpers.FormatMacros(MyRender11.ShaderSampleFrequencyDefine()));
            m_psTPerSample = MyShaders.CreatePs("atmosphere.hlsl", "psAtmosphereTransmittance", MyShaderHelpers.FormatMacros(MyRender11.ShaderSampleFrequencyDefine()));

            m_precomputeDensity    = MyShaders.CreateCs("AtmospherePrecompute.hlsl", "precomputeDensity");
            m_precomputeInscatter1 = MyShaders.CreateCs("AtmospherePrecompute.hlsl", "precomputeInscatter1");

            m_proxyVs = MyShaders.CreateVs("atmosphere.hlsl", "proxyVs");
            m_proxyIL = MyShaders.CreateIL(m_proxyVs.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION_PACKED));

            //Precompute();
        }
Ejemplo n.º 9
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        // inscatter texture
        // transmittance texture
        //static RwTexId m_transmittanceLut;
        //static RwTexId m_inscatterLutR;
        //static RwTexId m_inscatterLutM;

        internal static unsafe void Init()
        {
            m_ps          = MyShaders.CreatePs("Transparent/Atmosphere/AtmosphereGBuffer.hlsl");
            m_psPerSample = MyShaders.CreatePs("Transparent/Atmosphere/AtmosphereGBuffer.hlsl", MyRender11.ShaderSampleFrequencyDefine());

            m_psEnv          = MyShaders.CreatePs("Transparent/Atmosphere/AtmosphereEnv.hlsl");
            m_psEnvPerSample = MyShaders.CreatePs("Transparent/Atmosphere/AtmosphereEnv.hlsl", MyRender11.ShaderSampleFrequencyDefine());

            m_precomputeDensity = MyShaders.CreateCs("Transparent/Atmosphere/AtmospherePrecompute.hlsl");

            m_proxyVs = MyShaders.CreateVs("Transparent/Atmosphere/AtmosphereVS.hlsl");
            m_proxyIL = MyShaders.CreateIL(m_proxyVs.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION_PACKED));

            m_cb = MyManagers.Buffers.CreateConstantBuffer("CommonObjectCB" + sizeof(AtmosphereConstants), sizeof(AtmosphereConstants),
                                                           usage: SharpDX.Direct3D11.ResourceUsage.Dynamic);
        }
Ejemplo n.º 10
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        internal unsafe static void Init()
        {
            m_vs = MyShaders.CreateVs("sprite.hlsl");
            m_ps = MyShaders.CreatePs("sprite.hlsl");

            m_inputLayout = MyShaders.CreateIL(m_vs.BytecodeId, MyVertexLayouts.GetLayout(
                                                   new MyVertexInputComponent(MyVertexInputComponentType.CUSTOM_HALF4_0, MyVertexInputComponentFreq.PER_INSTANCE),
                                                   new MyVertexInputComponent(MyVertexInputComponentType.CUSTOM_HALF4_1, MyVertexInputComponentFreq.PER_INSTANCE),
                                                   new MyVertexInputComponent(MyVertexInputComponentType.CUSTOM_HALF4_2, MyVertexInputComponentFreq.PER_INSTANCE),
                                                   new MyVertexInputComponent(MyVertexInputComponentType.COLOR4, MyVertexInputComponentFreq.PER_INSTANCE)
                                                   ));

            m_currentBufferSize = 100000;
            m_VB = MyHwBuffers.CreateVertexBuffer(m_currentBufferSize, sizeof(MyVertexFormatSpritePositionTextureRotationColor), BindFlags.VertexBuffer, ResourceUsage.Dynamic);

            m_contextsStack.Add(new MySpritesContext());
        }
Ejemplo n.º 11
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        internal static unsafe void Init()
        {
            //MyRender11.RegisterSettingsChangedListener(new OnSettingsChangedDelegate(RecreateShadersForSettings));

            DirectionalEnvironmentLight_Pixel  = MyShaders.CreatePs("Lighting/LightDir.hlsl");
            DirectionalEnvironmentLight_Sample = MyShaders.CreatePs("Lighting/LightDir.hlsl", MyRender11.ShaderSampleFrequencyDefine());

            PointlightsTiled_Pixel  = MyShaders.CreatePs("Lighting/LightPoint.hlsl");
            PointlightsTiled_Sample = MyShaders.CreatePs("Lighting/LightPoint.hlsl", MyRender11.ShaderSampleFrequencyDefine());

            m_preparePointLights = MyShaders.CreateCs("Lighting/PrepareLights.hlsl", new[] { new ShaderMacro("NUMTHREADS", TILE_SIZE) });

            SpotlightProxyVs   = MyShaders.CreateVs("Lighting/LightSpot.hlsl");
            SpotlightPs_Pixel  = MyShaders.CreatePs("Lighting/LightSpot.hlsl");
            SpotlightPs_Sample = MyShaders.CreatePs("Lighting/LightSpot.hlsl", MyRender11.ShaderSampleFrequencyDefine());
            SpotlightProxyIL   = MyShaders.CreateIL(SpotlightProxyVs.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION_PACKED));

            m_pointlightCullHwBuffer = MyHwBuffers.CreateStructuredBuffer(MyRender11Constants.MAX_POINT_LIGHTS, sizeof(MyPointlightConstants), true, null, "MyLightRendering");
        }
Ejemplo n.º 12
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        internal unsafe static void Init()
        {
            m_vs          = MyShaders.CreateVs("billboard.hlsl", "vs");
            m_ps          = MyShaders.CreatePs("billboard.hlsl", "ps");
            m_vsLit       = MyShaders.CreateVs("billboard.hlsl", "vs", MyShaderHelpers.FormatMacros("LIT_PARTICLE"));
            m_psLit       = MyShaders.CreatePs("billboard.hlsl", "ps", MyShaderHelpers.FormatMacros("LIT_PARTICLE"));
            m_inputLayout = MyShaders.CreateIL(m_vs.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION3, MyVertexInputComponentType.TEXCOORD0_H));

            //MyCallbacks.RegisterDeviceResetListener(new OnDeviceResetDelegate(OnDeviceRestart));

            InitBillboardsIndexBuffer(MaxBillboards);

            m_VB = MyHwBuffers.CreateVertexBuffer(MaxBillboards * 4, sizeof(MyVertexFormatPositionTextureH), BindFlags.VertexBuffer, ResourceUsage.Dynamic);

            var stride = sizeof(MyBillboardData);

            m_SB = MyHwBuffers.CreateStructuredBuffer(MaxBillboards, stride, true);

            MyTextureAtlas.ParseAtlasDescription("Textures\\Particles\\", "Textures\\Particles\\ParticlesAtlas.tai", m_atlasedTextures);
        }
Ejemplo n.º 13
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        internal static unsafe void Init()
        {
            m_cbCustomProjections = MyManagers.Buffers.CreateConstantBuffer("BilloardCustomProjections", sizeof(Matrix) * MAX_CUSTOM_PROJECTIONS_SIZE, usage: ResourceUsage.Dynamic);

            GeneratePS();
            m_vs    = MyShaders.CreateVs("Transparent/Billboards.hlsl");
            m_vsLit = MyShaders.CreateVs("Transparent/Billboards.hlsl", new[] { new ShaderMacro("LIT_PARTICLE", null) });

            m_inputLayout = MyShaders.CreateIL(m_vs.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION3, MyVertexInputComponentType.TEXCOORD0_H));

            InitBillboardsIndexBuffer();

            m_VB = MyManagers.Buffers.CreateVertexBuffer("MyBillboardRenderer", MAX_BILLBOARDS_SIZE * 4, sizeof(MyVertexFormatPositionTextureH), usage: ResourceUsage.Dynamic);

            var stride = sizeof(MyBillboardData);

            m_SB = MyManagers.Buffers.CreateSrv(
                "MyBillboardRenderer", MAX_BILLBOARDS_SIZE, stride,
                usage: ResourceUsage.Dynamic);
            m_atlas = new MyTextureAtlas("Textures\\Particles\\", "Textures\\Particles\\ParticlesAtlas.tai");
        }
Ejemplo n.º 14
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        internal static unsafe void Init()
        {
            //MyRender11.RegisterSettingsChangedListener(new OnSettingsChangedDelegate(RecreateShadersForSettings));

            DirectionalEnvironmentLight_Pixel  = MyShaders.CreatePs("light.hlsl", "directional_environment");
            DirectionalEnvironmentLight_Sample = MyShaders.CreatePs("light.hlsl", "directional_environment", MyShaderHelpers.FormatMacros(MyRender11.ShaderSampleFrequencyDefine()));

            PointlightsTiled_Pixel  = MyShaders.CreatePs("light.hlsl", "pointlights_tiled");
            PointlightsTiled_Sample = MyShaders.CreatePs("light.hlsl", "pointlights_tiled", MyShaderHelpers.FormatMacros(MyRender11.ShaderSampleFrequencyDefine()));

            m_preparePointLights = MyShaders.CreateCs("prepare_lights.hlsl", "prepare_lights", MyShaderHelpers.FormatMacros("NUMTHREADS " + TILE_SIZE));

            SpotlightProxyVs = MyShaders.CreateVs("light.hlsl", "spotlightVs");
            SpotlightPs      = MyShaders.CreatePs("light.hlsl", "spotlightFromProxy");
            SpotlightProxyIL = MyShaders.CreateIL(SpotlightProxyVs.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION_PACKED));

            var stride = sizeof(MyPointlightConstants);

            m_pointlightCullHwBuffer = MyHwBuffers.CreateStructuredBuffer(MyRender11Constants.MAX_POINT_LIGHTS, stride, true);
            m_pointlightsConstants   = MyHwBuffers.CreateConstantsBuffer(sizeof(MyPointlightInfo) * MyRender11Constants.MAX_POINT_LIGHTS);
            m_spotlightsConstants    = MyHwBuffers.CreateConstantsBuffer(sizeof(MySpotlightConstants) * MyRender11Constants.MAX_SPOTLIGHTS);
            m_sunlightConstants      = MyHwBuffers.CreateConstantsBuffer(sizeof(MySunlightConstantsLayout));
        }
Ejemplo n.º 15
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        internal static void Init()
        {
            //MyRender11.RegisterSettingsChangedListener(new OnSettingsChangedDelegate(RecreateShadersForSettings));
            m_baseColorShader       = MyShaders.CreatePs("debug.hlsl", "base_color");
            m_baseColorLinearShader = MyShaders.CreatePs("debug.hlsl", "base_color_linear");
            m_normalShader          = MyShaders.CreatePs("debug.hlsl", "normal");
            m_glossinessShader      = MyShaders.CreatePs("debug.hlsl", "glossiness");
            m_metalnessShader       = MyShaders.CreatePs("debug.hlsl", "metalness");
            m_matIDShader           = MyShaders.CreatePs("debug.hlsl", "mat_id");
            m_aoShader              = MyShaders.CreatePs("debug.hlsl", "ambient_occlusion");
            m_emissiveShader        = MyShaders.CreatePs("debug.hlsl", "emissive");
            m_ambientDiffuseShader  = MyShaders.CreatePs("debug.hlsl", "debug_ambient_diffuse");
            m_ambientSpecularShader = MyShaders.CreatePs("debug.hlsl", "debug_ambient_specular");
            m_edgeDebugShader       = MyShaders.CreatePs("debug.hlsl", "debug_edge");
            m_shadowsDebugShader    = MyShaders.CreatePs("debug.hlsl", "cascades_shadow");


            m_screenVertexShader = MyShaders.CreateVs("debug.hlsl", "screenVertex");
            m_blitTextureShader  = MyShaders.CreatePs("debug.hlsl", "blitTexture");
            m_inputLayout        = MyShaders.CreateIL(m_screenVertexShader.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION2, MyVertexInputComponentType.TEXCOORD0));

            m_quadBuffer = MyHwBuffers.CreateVertexBuffer(6, MyVertexFormatPosition2Texcoord.STRIDE, BindFlags.VertexBuffer, ResourceUsage.Dynamic);
        }
Ejemplo n.º 16
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        internal static void Init()
        {
            m_proxyVs = MyShaders.CreateVs("clouds.hlsl");
            m_cloudPs = MyShaders.CreatePs("clouds.hlsl");
            m_proxyIL = MyShaders.CreateIL(m_proxyVs.BytecodeId, MyVertexLayouts.GetLayout(
                                               new MyVertexInputComponent(MyVertexInputComponentType.POSITION_PACKED, 0),
                                               new MyVertexInputComponent(MyVertexInputComponentType.NORMAL, 1),
                                               new MyVertexInputComponent(MyVertexInputComponentType.TANGENT_SIGN_OF_BITANGENT, 1),
                                               new MyVertexInputComponent(MyVertexInputComponentType.TEXCOORD0_H, 1)));

            m_fogShader = MyShaders.CreateCs("clouds.hlsl", new [] { new ShaderMacro("NUMTHREADS", m_numFogThreads) });

            SamplerStateDescription description = new SamplerStateDescription
            {
                AddressU   = TextureAddressMode.Wrap,
                AddressV   = TextureAddressMode.Wrap,
                AddressW   = TextureAddressMode.Wrap,
                Filter     = Filter.MinMagMipLinear,
                MaximumLod = System.Single.MaxValue
            };

            m_textureSampler = MyPipelineStates.CreateSamplerState(description);
        }
        internal unsafe static void Init()
        {
            m_vs    = MyShaders.CreateVs("billboard.hlsl");
            m_ps    = MyShaders.CreatePs("billboard.hlsl");
            m_vsLit = MyShaders.CreateVs("billboard.hlsl", new [] { new ShaderMacro("LIT_PARTICLE", null) });
            m_psLit = MyShaders.CreatePs("billboard.hlsl", new[] { new ShaderMacro("LIT_PARTICLE", null) });

            m_psAlphaCutout       = MyShaders.CreatePs("billboard.hlsl", new[] { new ShaderMacro("ALPHA_CUTOUT", null) });
            m_psAlphaCutoutAndLit = MyShaders.CreatePs("billboard.hlsl", new[] { new ShaderMacro("ALPHA_CUTOUT", null), new ShaderMacro("LIT_PARTICLE", null) });

            m_inputLayout = MyShaders.CreateIL(m_vs.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION3, MyVertexInputComponentType.TEXCOORD0_H));

            //MyCallbacks.RegisterDeviceResetListener(new OnDeviceResetDelegate(OnDeviceRestart));

            InitBillboardsIndexBuffer(MaxBillboards);

            m_VB = MyHwBuffers.CreateVertexBuffer(MaxBillboards * 4, sizeof(MyVertexFormatPositionTextureH), BindFlags.VertexBuffer, ResourceUsage.Dynamic, null, "MyBillboardRenderer");

            var stride = sizeof(MyBillboardData);

            m_SB    = MyHwBuffers.CreateStructuredBuffer(MaxBillboards, stride, true, null, "MyBillboardRenderer");
            m_atlas = new MyTextureAtlas("Textures\\Particles\\", "Textures\\Particles\\ParticlesAtlas.tai");
        }
Ejemplo n.º 18
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        internal unsafe static void Init()
        {
            ResetCascades();

            m_csmConstants = MyHwBuffers.CreateConstantsBuffer((sizeof(Matrix) + sizeof(Vector2)) * 8 + 2 * sizeof(Vector4));

            InitIB();

            m_cornersCS = new Vector3D[8] {
                new Vector3D(-1, -1, 0),
                new Vector3D(-1, 1, 0),
                new Vector3D(1, 1, 0),
                new Vector3D(1, -1, 0),

                new Vector3D(-1, -1, 1),
                new Vector3D(-1, 1, 1),
                new Vector3D(1, 1, 1),
                new Vector3D(1, -1, 1)
            };

            m_markVS      = MyShaders.CreateVs("shape.hlsl", "vs");
            m_markPS      = MyShaders.CreatePs("shape.hlsl", "ps_dummy");
            m_inputLayout = MyShaders.CreateIL(m_markVS.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION3));
        }
Ejemplo n.º 19
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        private void InitShaders()
        {
            if (m_markVS == VertexShaderId.NULL)
            {
                m_markVS = MyShaders.CreateVs("shape.hlsl");
            }

            if (m_markPS == PixelShaderId.NULL)
            {
                m_markPS = MyShaders.CreatePs("shape.hlsl");
            }

            if (m_inputLayout == InputLayoutId.NULL)
            {
                m_inputLayout = MyShaders.CreateIL(m_markVS.BytecodeId, MyVertexLayouts.GetLayout(MyVertexInputComponentType.POSITION3));
            }

            if (m_combinePS == PixelShaderId.NULL)
            {
                m_combinePS = MyShaders.CreatePs("CombineShadows.hlsl");
            }

            m_threadGroupCountX = 32;
            m_threadGroupCountY = 32;
            Vector2I pixelCount            = MyRender11.ViewportResolution;
            Vector2I threadsPerThreadGroup = GetThreadsPerThreadGroup(pixelCount);

            int tryIndex = 0;

            while (threadsPerThreadGroup.X * threadsPerThreadGroup.Y > 1024)   // Make sure we do are not over the limit of threads per thread group
            {
                if (tryIndex++ % 2 == 0)
                {
                    ++m_threadGroupCountX;
                }
                else
                {
                    ++m_threadGroupCountY;
                }

                threadsPerThreadGroup = GetThreadsPerThreadGroup(pixelCount);
            }

            int pixelsCoveredX = threadsPerThreadGroup.X * m_pixelsPerThreadX * m_threadGroupCountX;

            if (pixelsCoveredX < pixelCount.X)
            {
                ++m_threadGroupCountX;
            }
            int pixelsCoveredY = threadsPerThreadGroup.Y * m_pixelsPerThreadY * m_threadGroupCountY;

            if (pixelsCoveredY < pixelCount.Y)
            {
                ++m_threadGroupCountY;
            }

            m_gatherCS = MyShaders.CreateCs("shadows.hlsl", new [] {
                new ShaderMacro("NUMTHREADS_X", threadsPerThreadGroup.X),
                new ShaderMacro("NUMTHREADS_Y", threadsPerThreadGroup.Y),
                new ShaderMacro("THREAD_GROUPS_X", m_threadGroupCountX),
                new ShaderMacro("THREAD_GROUPS_Y", m_threadGroupCountY),
                new ShaderMacro("PIXELS_PER_THREAD_X", m_pixelsPerThreadX),
                new ShaderMacro("PIXELS_PER_THREAD_Y", m_pixelsPerThreadY)
            });
        }