Exemplo n.º 1
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 private CompositeFixture(CompositeShape wrappedCompositeShape, CompositeMaterial wrappedCompositeMaterial, Matrix4x4 realParentPose, FixtureDescriptor descriptor)
 {
     _root                     = false;
     _realParentPose           = realParentPose;
     _pose                     = descriptor.Pose;
     _realPose                 = GMath.mul(_pose, _realParentPose);
     UserData                  = descriptor.UserData;
     _wrappedCompositeMaterial = wrappedCompositeMaterial;
     _wrappedCompositeShape    = wrappedCompositeShape;
     FixtureFactory            = new CompositeFixtureFixtureFactory(this);
 }
Exemplo n.º 2
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 public CompositeFixture(DR.RigidBody wrappedRigidBody, FixtureDescriptor descriptor)
 {
     _root     = true;
     _pose     = descriptor.Pose;
     _realPose = _pose;
     _wrappedCompositeMaterial = new CompositeMaterial();
     wrappedRigidBody.Material = _wrappedCompositeMaterial;
     _wrappedCompositeShape    = new CompositeShape();
     wrappedRigidBody.Shape    = _wrappedCompositeShape;
     UserData       = descriptor.UserData;
     FixtureFactory = new CompositeFixtureFixtureFactory(this);
 }
Exemplo n.º 3
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        public CompositeMaterial2Sample(Microsoft.Xna.Framework.Game game)
            : base(game)
        {
            // Add basic force effects.
            Simulation.ForceEffects.Add(new Gravity());
            Simulation.ForceEffects.Add(new Damping());

            // Add a ground plane.
            RigidBody groundPlane = new RigidBody(new PlaneShape(new Vector3(0, 1, 0.25f).Normalized, 0))
            {
                Name       = "GroundPlane", // Names are not required but helpful for debugging.
                MotionType = MotionType.Static,
            };

            // Adjust the coefficients of friction of the ground plane.
            ((UniformMaterial)groundPlane.Material).DynamicFriction = 0.5f;
            ((UniformMaterial)groundPlane.Material).StaticFriction  = 0.5f;
            Simulation.RigidBodies.Add(groundPlane);

            // Prepare two materials: a slippery material and a rough material.
            UniformMaterial slipperyMaterial = new UniformMaterial
            {
                DynamicFriction = 0.001f,
                StaticFriction  = 0.001f,
            };
            UniformMaterial roughMaterial = new UniformMaterial
            {
                DynamicFriction = 1,
                StaticFriction  = 1,
            };

            // Create a rigid body that consists of multiple shapes: Two boxes and a cylinder between them.
            CompositeShape compositeShape = new CompositeShape();

            compositeShape.Children.Add(new GeometricObject(new BoxShape(1f, 1f, 1f), new Pose(new Vector3(1.5f, 0f, 0f))));
            compositeShape.Children.Add(new GeometricObject(new BoxShape(1f, 1, 1f), new Pose(new Vector3(-1.5f, 0f, 0f))));
            compositeShape.Children.Add(new GeometricObject(new CylinderShape(0.1f, 2), new Pose(Matrix.CreateRotationZ(ConstantsF.PiOver2))));

            // A CompositeMaterial is used to assign a different material to each shape.
            CompositeMaterial compositeMaterial = new CompositeMaterial();

            compositeMaterial.Materials.Add(roughMaterial);    // Assign the rough material to the first box.
            compositeMaterial.Materials.Add(slipperyMaterial); // Assign the slippery material to the second box.
            compositeMaterial.Materials.Add(null);             // Use whatever is default for the handle between the boxes.

            RigidBody body = new RigidBody(compositeShape, null, compositeMaterial)
            {
                Pose = new Pose(new Vector3(0, 2.2f, -5)),
            };

            Simulation.RigidBodies.Add(body);
        }
Exemplo n.º 4
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        private void OnRenderImage(RenderTexture source, RenderTexture destination)
        {
            if (_stencilBuffer == null)
            {
                Graphics.Blit(source, destination);
                return;
            }

            //创建两个降采样纹理来模糊图像
            int           width   = source.width / DownSampleFactor;
            int           height  = source.height / DownSampleFactor;
            RenderTexture buffer1 = RenderTexture.GetTemporary(width, height, StencilZBufferDepth, RenderTextureFormat.ARGB32);
            RenderTexture buffer2 = RenderTexture.GetTemporary(width, height, StencilZBufferDepth, RenderTextureFormat.ARGB32);

            //将纹理降采样、模糊处理后存入buffer1
            DownSample4x(_stencilBuffer, buffer1);

            //循环迭代模糊处理图像
            bool oddEven = true;

            for (int i = 0; i < BlurIterations; i++)
            {
                if (oddEven)
                {
                    FourTapCone(buffer1, buffer2, i);
                }
                else
                {
                    FourTapCone(buffer2, buffer1, i);
                }

                oddEven = !oddEven;
            }

            //使用合成Shader,合成最终输出图像
            CompositeMaterial.SetTexture("_StencilTex", _stencilBuffer);
            CompositeMaterial.SetTexture("_BlurTex", oddEven ? buffer1 : buffer2);
            Graphics.Blit(source, destination, CompositeMaterial);

            //清理缓存
            RenderTexture.ReleaseTemporary(buffer1);
            RenderTexture.ReleaseTemporary(buffer2);
            if (_stencilBuffer != null)
            {
                RenderTexture.ReleaseTemporary(_stencilBuffer);
                _stencilBuffer = null;
            }
        }
        public CompositeMaterialSample(Microsoft.Xna.Framework.Game game)
            : base(game)
        {
            // Add basic force effects.
            Simulation.ForceEffects.Add(new Gravity());
            Simulation.ForceEffects.Add(new Damping());

            // ----- Create a simple height field.
            // The height data consists of height samples with a resolution of 20 entries per dimension.
            // (Height samples are stored in a 1-dimensional array.)
            var numberOfSamplesX = 20;
            var numberOfSamplesZ = 20;
            var samples          = new float[numberOfSamplesX * numberOfSamplesZ];

            for (int z = 0; z < numberOfSamplesZ; z++)
            {
                for (int x = 0; x < numberOfSamplesX; x++)
                {
                    // Set the y values (height).
                    samples[z * numberOfSamplesX + x] = 20 - z;
                }
            }

            // Set the size of the height field in world space. (WidthX/Z determine the extent
            // of the height field but not the resolution of the height samples.)
            float widthX = 40;
            float widthZ = 40;

            // The origin is at (-20, -20) to center the height field at the world space origin.
            float originX = -20;
            float originZ = -20;

            // Create the height field shape.
            HeightField heightField = new HeightField(
                originX, originZ, widthX, widthZ, samples, numberOfSamplesX, numberOfSamplesZ);

            RigidBody ground = new RigidBody(heightField)
            {
                Pose       = new Pose(new Vector3F(0, -10, 0)),
                MotionType = MotionType.Static,
            };

            Simulation.RigidBodies.Add(ground);

            // Assign two different materials to the height field.
            // A rough material (high friction) should be used for the left cells of the height field.
            UniformMaterial roughMaterial = new UniformMaterial
            {
                DynamicFriction = 1,
                StaticFriction  = 1,
            };

            // A slippery material (low friction) should be used for the right cells of the height field.
            UniformMaterial slipperyMaterial = new UniformMaterial
            {
                DynamicFriction = 0,
                StaticFriction  = 0,
            };

            // Use a CompositeMaterial two assign the materials to the features of the height field.
            CompositeMaterial compositeMaterial = new CompositeMaterial();

            // A "feature" of a height field is a triangle:
            // The height field is triangulated. Each cell consists of two triangles. The triangles are
            // numbered from left-to-right and top-to-bottom.
            // (For more information: See the description of HeightField.)

            // Loop over the cells.
            // (If the resolution is 20, we have 20 height values in one row. Between these height
            // values are 19 cells.)
            for (int z = 0; z < numberOfSamplesZ - 1; z++)
            {
                for (int x = 0; x < numberOfSamplesX - 1; x++)
                {
                    // Assign the rough material to the left cells and the slippery material to the
                    // right cells.
                    if (x < numberOfSamplesX / 2)
                    {
                        // Each cell contains 2 triangles, therefore we have to add 2 entries to the
                        // CompositeMaterial.
                        compositeMaterial.Materials.Add(roughMaterial);
                        compositeMaterial.Materials.Add(roughMaterial);
                    }
                    else
                    {
                        compositeMaterial.Materials.Add(slipperyMaterial);
                        compositeMaterial.Materials.Add(slipperyMaterial);
                    }
                }
            }
            ground.Material = compositeMaterial;

            // Create a few boxes on the height field.
            // The left boxes will roll or stop on the height field because of the high friction.
            // The right boxes will slide down because of the low friction.
            BoxShape boxShape = new BoxShape(1, 1, 1);

            for (int i = 0; i < 10; i++)
            {
                RigidBody body = new RigidBody(boxShape, null, roughMaterial)
                {
                    Pose = new Pose(new Vector3F(-19 + i * 4, 10, -10)),
                };
                Simulation.RigidBodies.Add(body);
            }
        }
        public CompositeMaterialSample(Microsoft.Xna.Framework.Game game)
            : base(game)
        {
            // Add basic force effects.
            Simulation.ForceEffects.Add(new Gravity());
            Simulation.ForceEffects.Add(new Damping());

            // ----- Create a simple height field.
            const int   resolution  = 20;
            HeightField heightField = new HeightField();

            // Set the size of the height field in world space. (WidthX/Z determine the extent
            // of the height field but not the resolution.)
            heightField.WidthX = 40;
            heightField.WidthZ = 40;

            // Create the height field data.
            // The size of the array determines the resolution of the height field.
            heightField.Array = new float[resolution, resolution];
            for (int x = 0; x < heightField.Array.GetLength(0); x++)
            {
                for (int z = 0; z < heightField.Array.GetLength(1); z++)
                {
                    // Set the y value (height) at the given index.
                    heightField.Array[x, z] = 20 - z;
                }
            }

            RigidBody ground = new RigidBody(heightField)
            {
                Pose       = new Pose(new Vector3F(-20, -10, -20f)),
                MotionType = MotionType.Static,
            };

            Simulation.RigidBodies.Add(ground);

            // Assign two different materials to the height field.
            // A rough material (high friction) should be used for the left cells of the height field.
            UniformMaterial roughMaterial = new UniformMaterial
            {
                DynamicFriction = 1,
                StaticFriction  = 1,
            };

            // A slippery material (low friction) should be used for the right cells of the height field.
            UniformMaterial slipperyMaterial = new UniformMaterial
            {
                DynamicFriction = 0,
                StaticFriction  = 0,
            };

            // Use a CompositeMaterial two assign the materials to the features of the height field.
            CompositeMaterial compositeMaterial = new CompositeMaterial();

            // A "feature" of a height field is a triangle:
            // The height field is triangulated. Each cell consists of two triangles. The triangles are
            // numbered from left-to-right and top-to-bottom.
            // (For more information: See the description of HeightField.)

            // Loop over the cells.
            // (If the resolution is 20, we have 20 height values in one row. Between these height
            // values are 19 cells.)
            for (int z = 0; z < resolution - 1; z++)
            {
                for (int x = 0; x < resolution - 1; x++)
                {
                    // Assign the rough material to the left cells and the slippery material to the
                    // right cells.
                    if (x < resolution / 2)
                    {
                        // Each cell contains 2 triangles, therefore we have to add 2 entries to the
                        // CompositeMaterial.
                        compositeMaterial.Materials.Add(roughMaterial);
                        compositeMaterial.Materials.Add(roughMaterial);
                    }
                    else
                    {
                        compositeMaterial.Materials.Add(slipperyMaterial);
                        compositeMaterial.Materials.Add(slipperyMaterial);
                    }
                }
            }
            ground.Material = compositeMaterial;

            // Create a few boxes on the height field.
            // The left boxes will roll or stop on the height field because of the high friction.
            // The right boxes will slide down because of the low friction.
            BoxShape boxShape = new BoxShape(1, 1, 1);

            for (int i = 0; i < 10; i++)
            {
                RigidBody body = new RigidBody(boxShape, null, roughMaterial)
                {
                    Pose = new Pose(new Vector3F(-19 + i * 4, 10, -10)),
                };
                Simulation.RigidBodies.Add(body);
            }
        }
Exemplo n.º 7
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    // Called by the camera to apply the image effect
    void OnRenderImage(RenderTexture source, RenderTexture destination)
    {
        if (m_RenderSolidColorCmdBuf != null && SolidColorMaterial && CutoffMaterial && CompositeMaterial)
        {
            int rtW = source.width / m_DownSample;
            int rtH = source.height / m_DownSample;

            // Step 1. Draw Solid Color Target Object(使用 Command Buffer 代替之前的那个附加相机)
            SolidColorMaterial.SetColor("_Color", m_OutlineColor);
            if (m_SolidColorRT == null)
            {
                m_SolidColorRT            = RenderTexture.GetTemporary(rtW, rtH, 0);
                m_SolidColorRT.filterMode = FilterMode.Bilinear;
            }
            Graphics.SetRenderTarget(m_SolidColorRT);
            Graphics.ExecuteCommandBuffer(m_RenderSolidColorCmdBuf);

            // Step 2. Copy to buffer2
            if (m_Buffer2 == null)
            {
                m_Buffer2            = RenderTexture.GetTemporary(rtW, rtH, 0);
                m_Buffer2.filterMode = FilterMode.Bilinear;
            }
            Graphics.Blit(m_SolidColorRT, m_Buffer2);

            // Step 3. Blur
            if (m_Buffer3 == null)
            {
                m_Buffer3            = RenderTexture.GetTemporary(rtW, rtH, 0);
                m_Buffer3.filterMode = FilterMode.Bilinear;
            }
            bool oddEven = true;
            for (int i = 0; i < m_Iterations; i++)
            {
                if (oddEven)
                {
                    FourTapCone(m_Buffer2, m_Buffer3, i);
                }
                else
                {
                    FourTapCone(m_Buffer3, m_Buffer2, i);
                }
                oddEven = !oddEven;
            }
            RenderTexture blurBuffer = null;                // 引用,指向 blur 的结果 buffer
            if (!oddEven)
            {
                blurBuffer = m_Buffer3;
            }
            else
            {
                blurBuffer = m_Buffer2;
            }

            // Step 4. 用 cutoffMaterial 进行 blurBuffer - solidColorRT 操作,得到线框
            CutoffMaterial.SetTexture("_BlurredTex", blurBuffer);
            if (m_Buffer4 == null)
            {
                m_Buffer4            = RenderTexture.GetTemporary(rtW, rtH, 0);
                m_Buffer4.filterMode = FilterMode.Bilinear;
            }
            Graphics.Blit(m_SolidColorRT, m_Buffer4, CutoffMaterial);

            // Step 5.用 compositeMaterial 进行 原图 + 线框操作
            CompositeMaterial.SetTexture("_SrcTex", source);
            CompositeMaterial.SetFloat("_OutlineStrength", m_OutlineStrength);
            Graphics.Blit(m_Buffer4, destination, CompositeMaterial);
        }
        else
        {
            Graphics.Blit(source, destination);
        }
    }