Exemplo n.º 1
0
        public static Mesh Compute(Vector3D length)
        {
            if (length.X < 0 || length.Y < 0 || length.Z < 0)
            {
                throw new ArgumentOutOfRangeException("length");
            }

            Mesh mesh = new Mesh();

            mesh.PrimitiveType         = PrimitiveType.Triangles;
            mesh.FrontFaceWindingOrder = WindingOrder.Counterclockwise;

            VertexAttributeDoubleVector3 positionsAttribute = new VertexAttributeDoubleVector3("position", 8);

            mesh.Attributes.Add(positionsAttribute);

            IndicesUnsignedShort indices = new IndicesUnsignedShort(36);

            mesh.Indices = indices;

            //
            // 8 corner points
            //
            IList <Vector3D> positions = positionsAttribute.Values;

            Vector3D corner = 0.5 * length;

            positions.Add(new Vector3D(-corner.X, -corner.Y, -corner.Z));
            positions.Add(new Vector3D(corner.X, -corner.Y, -corner.Z));
            positions.Add(new Vector3D(corner.X, corner.Y, -corner.Z));
            positions.Add(new Vector3D(-corner.X, corner.Y, -corner.Z));
            positions.Add(new Vector3D(-corner.X, -corner.Y, corner.Z));
            positions.Add(new Vector3D(corner.X, -corner.Y, corner.Z));
            positions.Add(new Vector3D(corner.X, corner.Y, corner.Z));
            positions.Add(new Vector3D(-corner.X, corner.Y, corner.Z));

            //
            // 6 faces, 2 triangles each
            //
            indices.AddTriangle(new TriangleIndicesUnsignedShort(4, 5, 6));    // Top: plane z = corner.Z
            indices.AddTriangle(new TriangleIndicesUnsignedShort(4, 6, 7));
            indices.AddTriangle(new TriangleIndicesUnsignedShort(1, 0, 3));    // Bottom: plane z = -corner.Z
            indices.AddTriangle(new TriangleIndicesUnsignedShort(1, 3, 2));
            indices.AddTriangle(new TriangleIndicesUnsignedShort(1, 6, 5));    // Side: plane x = corner.X
            indices.AddTriangle(new TriangleIndicesUnsignedShort(1, 2, 6));
            indices.AddTriangle(new TriangleIndicesUnsignedShort(2, 3, 7));    // Side: plane y = corner.Y
            indices.AddTriangle(new TriangleIndicesUnsignedShort(2, 7, 6));
            indices.AddTriangle(new TriangleIndicesUnsignedShort(3, 0, 4));    // Side: plane x = -corner.X
            indices.AddTriangle(new TriangleIndicesUnsignedShort(3, 4, 7));
            indices.AddTriangle(new TriangleIndicesUnsignedShort(0, 1, 5));    // Side: plane y = -corner.Y
            indices.AddTriangle(new TriangleIndicesUnsignedShort(0, 5, 4));

            return(mesh);
        }
Exemplo n.º 2
0
        public static Mesh Compute(Vector3D length)
        {
            if (length.X < 0 || length.Y < 0 || length.Z < 0)
            {
                throw new ArgumentOutOfRangeException("length");
            }

            Mesh mesh = new Mesh();
            mesh.PrimitiveType = PrimitiveType.Triangles;
            mesh.FrontFaceWindingOrder = WindingOrder.Counterclockwise;

            VertexAttributeDoubleVector3 positionsAttribute = new VertexAttributeDoubleVector3("position", 8);
            mesh.Attributes.Add(positionsAttribute);

            IndicesUnsignedShort indices = new IndicesUnsignedShort(24);
            mesh.Indices = indices;

            //
            // 8 corner points
            //
            IList<Vector3D> positions = positionsAttribute.Values;

            Vector3D corner = 0.5 * length;
            positions.Add(new Vector3D(-corner.X, -corner.Y, -corner.Z));
            positions.Add(new Vector3D(corner.X, -corner.Y, -corner.Z));
            positions.Add(new Vector3D(corner.X, corner.Y, -corner.Z));
            positions.Add(new Vector3D(-corner.X, corner.Y, -corner.Z));
            positions.Add(new Vector3D(-corner.X, -corner.Y, corner.Z));
            positions.Add(new Vector3D(corner.X, -corner.Y, corner.Z));
            positions.Add(new Vector3D(corner.X, corner.Y, corner.Z));
            positions.Add(new Vector3D(-corner.X, corner.Y, corner.Z));

            //
            // 6 faces, 2 triangles each
            //
            indices.AddTriangle(new TriangleIndicesUnsignedShort(4, 5, 6));    // Top: plane z = corner.Z
            indices.AddTriangle(new TriangleIndicesUnsignedShort(4, 6, 7));
            indices.AddTriangle(new TriangleIndicesUnsignedShort(1, 0, 3));    // Bottom: plane z = -corner.Z
            indices.AddTriangle(new TriangleIndicesUnsignedShort(1, 3, 2));
            indices.AddTriangle(new TriangleIndicesUnsignedShort(1, 6, 5));    // Side: plane x = corner.X
            indices.AddTriangle(new TriangleIndicesUnsignedShort(1, 2, 6));
            indices.AddTriangle(new TriangleIndicesUnsignedShort(2, 3, 7));    // Side: plane y = corner.Y
            indices.AddTriangle(new TriangleIndicesUnsignedShort(2, 7, 6));
            indices.AddTriangle(new TriangleIndicesUnsignedShort(3, 0, 4));    // Side: plane x = -corner.X
            indices.AddTriangle(new TriangleIndicesUnsignedShort(3, 4, 7));
            indices.AddTriangle(new TriangleIndicesUnsignedShort(0, 1, 5));    // Side: plane y = -corner.Y
            indices.AddTriangle(new TriangleIndicesUnsignedShort(0, 5, 4));

            return mesh;
        }
Exemplo n.º 3
0
        public void MeshIndices()
        {
            Mesh mesh = new Mesh();

            IndicesUnsignedShort indicesShort = new IndicesUnsignedShort();

            mesh.Indices = indicesShort;
            Assert.AreEqual(IndicesType.UnsignedShort, mesh.Indices.Datatype);

            IndicesUnsignedInt indicesInt = new IndicesUnsignedInt();

            mesh.Indices = indicesInt;
            Assert.AreEqual(IndicesType.UnsignedInt, mesh.Indices.Datatype);

            indicesInt.AddTriangle(new TriangleIndicesUnsignedInt(0, 1, 2));
            Assert.AreEqual(0, indicesInt.Values[0]);
            Assert.AreEqual(1, indicesInt.Values[1]);
            Assert.AreEqual(2, indicesInt.Values[2]);
        }
Exemplo n.º 4
0
        private Mesh CreateDegenerateTriangleMesh()
        {
            Mesh mesh = new Mesh();
            mesh.PrimitiveType = PrimitiveType.Triangles;
            mesh.FrontFaceWindingOrder = WindingOrder.Counterclockwise;

            int numberOfPositions = _clipmapSegments * 4;
            VertexAttributeFloatVector2 positionsAttribute = new VertexAttributeFloatVector2("position", numberOfPositions);
            IList<Vector2F> positions = positionsAttribute.Values;
            mesh.Attributes.Add(positionsAttribute);

            int numberOfIndices = (_clipmapSegments / 2) * 3 * 4;
            IndicesUnsignedShort indices = new IndicesUnsignedShort(numberOfIndices);
            mesh.Indices = indices;

            for (int i = 0; i < _clipmapPosts; ++i)
            {
                positions.Add(new Vector2F(0.0f, i));
            }

            for (int i = 1; i < _clipmapPosts; ++i)
            {
                positions.Add(new Vector2F(i, _clipmapSegments));
            }

            for (int i = _clipmapSegments - 1; i >= 0; --i)
            {
                positions.Add(new Vector2F(_clipmapSegments, i));
            }

            for (int i = _clipmapSegments - 1; i > 0; --i)
            {
                positions.Add(new Vector2F(i, 0.0f));
            }

            for (int i = 0; i < numberOfIndices; i += 2)
            {
                indices.AddTriangle(new TriangleIndicesUnsignedShort((ushort)i, (ushort)(i + 1), (ushort)(i + 2)));
            }

            return mesh;
        }
Exemplo n.º 5
0
        public void MeshIndices()
        {
            Mesh mesh = new Mesh();

            IndicesUnsignedShort indicesShort = new IndicesUnsignedShort();
            mesh.Indices = indicesShort;
            Assert.AreEqual(IndicesType.UnsignedShort, mesh.Indices.Datatype);

            IndicesUnsignedInt indicesInt = new IndicesUnsignedInt();
            mesh.Indices = indicesInt;
            Assert.AreEqual(IndicesType.UnsignedInt, mesh.Indices.Datatype);

            indicesInt.AddTriangle(new TriangleIndicesUnsignedInt(0, 1, 2));
            Assert.AreEqual(0, indicesInt.Values[0]);
            Assert.AreEqual(1, indicesInt.Values[1]);
            Assert.AreEqual(2, indicesInt.Values[2]);
        }
Exemplo n.º 6
0
        public Triangle()
        {
            _window = Device.CreateWindow(800, 600, "Chapter 3:  Triangle");
            _window.Resize += OnResize;
            _window.RenderFrame += OnRenderFrame;
            _sceneState = new SceneState();
            _clearState = new ClearState();

            string vs =
                @"#version 330

                  layout(location = og_positionVertexLocation) in vec4 position;
                  uniform mat4 og_modelViewPerspectiveMatrix;

                  void main()                     
                  {
                        gl_Position = og_modelViewPerspectiveMatrix * position; 
                  }";

            string fs =
                @"#version 330
                 
                  out vec3 fragmentColor;
                  uniform vec3 u_color;

                  void main()
                  {
                      fragmentColor = u_color;
                  }";
            ShaderProgram sp = Device.CreateShaderProgram(vs, fs);
            ((Uniform<Vector3F>)sp.Uniforms["u_color"]).Value = new Vector3F(1, 0, 0);

            ///////////////////////////////////////////////////////////////////
            
            Mesh mesh = new Mesh();

            VertexAttributeFloatVector3 positionsAttribute = new VertexAttributeFloatVector3("position", 3);
            mesh.Attributes.Add(positionsAttribute);

            IndicesUnsignedShort indices = new IndicesUnsignedShort(3);
            mesh.Indices = indices;

            IList<Vector3F> positions = positionsAttribute.Values;
            positions.Add(new Vector3F(0, 0, 0));
            positions.Add(new Vector3F(1, 0, 0));
            positions.Add(new Vector3F(0, 0, 1));

            indices.AddTriangle(new TriangleIndicesUnsignedShort(0, 1, 2));

            VertexArray va = _window.Context.CreateVertexArray(mesh, sp.VertexAttributes, BufferHint.StaticDraw);

            ///////////////////////////////////////////////////////////////////

            RenderState renderState = new RenderState();
            renderState.FacetCulling.Enabled = false;
            renderState.DepthTest.Enabled = false;

            _drawState = new DrawState(renderState, sp, va);

            ///////////////////////////////////////////////////////////////////
            
            _sceneState.Camera.ZoomToTarget(1);
        }