Esempio n. 1
0
        private void    BuildQuad()
        {
            VertexP3N3G3T2[] Vertices = new VertexP3N3G3T2[4];
            Vertices[0] = new VertexP3N3G3T2()
            {
                P = new float3(-1, +1, 0), N = new float3(0, 0, 1), UV = new float2(0, 0)
            };                                                                                                                                  // Top-Left
            Vertices[1] = new VertexP3N3G3T2()
            {
                P = new float3(-1, -1, 0), N = new float3(0, 0, 1), UV = new float2(0, 1)
            };                                                                                                                                  // Bottom-Left
            Vertices[2] = new VertexP3N3G3T2()
            {
                P = new float3(+1, +1, 0), N = new float3(0, 0, 1), UV = new float2(1, 0)
            };                                                                                                                                  // Top-Right
            Vertices[3] = new VertexP3N3G3T2()
            {
                P = new float3(+1, -1, 0), N = new float3(0, 0, 1), UV = new float2(1, 1)
            };                                                                                                                                  // Bottom-Right

            ByteBuffer VerticesBuffer = VertexP3N3G3T2.FromArray(Vertices);

            m_Prim_Quad = new Primitive(m_Device, Vertices.Length, VerticesBuffer, null, Primitive.TOPOLOGY.TRIANGLE_STRIP, VERTEX_FORMAT.P3N3G3T2);
        }
Esempio n. 2
0
        protected override void OnLoad(EventArgs e)
        {
            base.OnLoad(e);

            // Initialize the device
            m_device.Init(panelOutput1.Handle, false, true);

            // Build cube primitive
            {
                float3 colorXp = new float3(1, 0, 0);
                float3 colorXn = new float3(1, 1, 0);
                float3 colorYp = new float3(0, 1, 0);
                float3 colorYn = new float3(0, 1, 1);
                float3 colorZp = new float3(0, 0, 1);
                float3 colorZn = new float3(1, 0, 1);

                VertexP3N3G3T2[] vertices = new VertexP3N3G3T2[6 * 4] {
                    // +X
                    new VertexP3N3G3T2()
                    {
                        P = new float3(1, 1, 1), N = new float3(1, 0, 0), T = colorXp, UV = new float2(0, 0)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(1, -1, 1), N = new float3(1, 0, 0), T = colorXp, UV = new float2(0, 1)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(1, -1, -1), N = new float3(1, 0, 0), T = colorXp, UV = new float2(1, 1)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(1, 1, -1), N = new float3(1, 0, 0), T = colorXp, UV = new float2(1, 0)
                    },
                    // -X
                    new VertexP3N3G3T2()
                    {
                        P = new float3(-1, 1, -1), N = new float3(-1, 0, 0), T = colorXn, UV = new float2(0, 0)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(-1, -1, -1), N = new float3(-1, 0, 0), T = colorXn, UV = new float2(0, 1)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(-1, -1, 1), N = new float3(-1, 0, 0), T = colorXn, UV = new float2(1, 1)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(-1, 1, 1), N = new float3(-1, 0, 0), T = colorXn, UV = new float2(1, 0)
                    },
                    // +Y
                    new VertexP3N3G3T2()
                    {
                        P = new float3(-1, 1, -1), N = new float3(0, 1, 0), T = colorYp, UV = new float2(0, 0)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(-1, 1, 1), N = new float3(0, 1, 0), T = colorYp, UV = new float2(0, 1)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(1, 1, 1), N = new float3(0, 1, 0), T = colorYp, UV = new float2(1, 1)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(1, 1, -1), N = new float3(0, 1, 0), T = colorYp, UV = new float2(1, 0)
                    },
                    // -Y
                    new VertexP3N3G3T2()
                    {
                        P = new float3(-1, -1, 1), N = new float3(0, -1, 0), T = colorYn, UV = new float2(0, 0)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(-1, -1, -1), N = new float3(0, -1, 0), T = colorYn, UV = new float2(0, 1)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(1, -1, -1), N = new float3(0, -1, 0), T = colorYn, UV = new float2(1, 1)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(1, -1, 1), N = new float3(0, -1, 0), T = colorYn, UV = new float2(1, 0)
                    },
                    // +Z
                    new VertexP3N3G3T2()
                    {
                        P = new float3(-1, 1, 1), N = new float3(0, 0, 1), T = colorZp, UV = new float2(0, 0)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(-1, -1, 1), N = new float3(0, 0, 1), T = colorZp, UV = new float2(0, 1)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(1, -1, 1), N = new float3(0, 0, 1), T = colorZp, UV = new float2(1, 1)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(1, 1, 1), N = new float3(0, 0, 1), T = colorZp, UV = new float2(1, 0)
                    },
                    // -Z
                    new VertexP3N3G3T2()
                    {
                        P = new float3(1, 1, -1), N = new float3(0, 0, -1), T = colorZn, UV = new float2(0, 0)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(1, -1, -1), N = new float3(0, 0, -1), T = colorZn, UV = new float2(0, 1)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(-1, -1, -1), N = new float3(0, 0, -1), T = colorZn, UV = new float2(1, 1)
                    },
                    new VertexP3N3G3T2()
                    {
                        P = new float3(-1, 1, -1), N = new float3(0, 0, -1), T = colorZn, UV = new float2(1, 0)
                    },
                };
                uint[] indices = new uint[3 * 2 * 6] {
                    4 * 0 + 0, 4 * 0 + 1, 4 * 0 + 2, 4 * 0 + 0, 4 * 0 + 2, 4 * 0 + 3,
                    4 * 1 + 0, 4 * 1 + 1, 4 * 1 + 2, 4 * 1 + 0, 4 * 1 + 2, 4 * 1 + 3,
                    4 * 2 + 0, 4 * 2 + 1, 4 * 2 + 2, 4 * 2 + 0, 4 * 2 + 2, 4 * 2 + 3,
                    4 * 3 + 0, 4 * 3 + 1, 4 * 3 + 2, 4 * 3 + 0, 4 * 3 + 2, 4 * 3 + 3,
                    4 * 4 + 0, 4 * 4 + 1, 4 * 4 + 2, 4 * 4 + 0, 4 * 4 + 2, 4 * 4 + 3,
                    4 * 5 + 0, 4 * 5 + 1, 4 * 5 + 2, 4 * 5 + 0, 4 * 5 + 2, 4 * 5 + 3,
                };

                m_prim_cube = new Primitive(m_device, 6 * 4, VertexP3N3G3T2.FromArray(vertices), indices, Primitive.TOPOLOGY.TRIANGLE_LIST, VERTEX_FORMAT.P3N3G3T2);
            }

            // Build the shader to render the cube
            m_shader_renderCube = new Shader(m_device, new System.IO.FileInfo(@".\Shaders\RenderCube.hlsl"), VERTEX_FORMAT.P3N3G3T2, "VS", null, "PS", null);

            // Build constant buffer to provide camera transform
            m_CB_Camera = new ConstantBuffer <CBCamera>(m_device, 0);

            Application.Idle += Application_Idle;
        }
Esempio n. 3
0
        void    BuildPrimitives()
        {
            {                   // Post-process quad
                List <VertexPt4> Vertices = new List <VertexPt4>();
                Vertices.Add(new VertexPt4()
                {
                    Pt = new float4(-1, +1, 0, 1)
                });
                Vertices.Add(new VertexPt4()
                {
                    Pt = new float4(-1, -1, 0, 1)
                });
                Vertices.Add(new VertexPt4()
                {
                    Pt = new float4(+1, +1, 0, 1)
                });
                Vertices.Add(new VertexPt4()
                {
                    Pt = new float4(+1, -1, 0, 1)
                });
                m_Prim_Quad = new Primitive(m_Device, 4, VertexPt4.FromArray(Vertices.ToArray()), null, Primitive.TOPOLOGY.TRIANGLE_STRIP, VERTEX_FORMAT.Pt4);
            }

            {                   // Sphere Primitive
                List <VertexP3N3G3T2> Vertices = new List <VertexP3N3G3T2>();
                List <uint>           Indices  = new List <uint>();

                const int SUBDIVS_THETA = 80;
                const int SUBDIVS_PHI   = 160;
                for (int Y = 0; Y <= SUBDIVS_THETA; Y++)
                {
                    double Theta    = Y * Math.PI / SUBDIVS_THETA;
                    float  CosTheta = (float)Math.Cos(Theta);
                    float  SinTheta = (float)Math.Sin(Theta);
                    for (int X = 0; X <= SUBDIVS_PHI; X++)
                    {
                        double Phi    = X * 2.0 * Math.PI / SUBDIVS_PHI;
                        float  CosPhi = (float)Math.Cos(Phi);
                        float  SinPhi = (float)Math.Sin(Phi);

                        float3 N  = new float3(SinTheta * SinPhi, CosTheta, SinTheta * CosPhi);
                        float3 T  = new float3(CosPhi, 0.0f, -SinPhi);
                        float2 UV = new float2((float)X / SUBDIVS_PHI, (float)Y / SUBDIVS_THETA);
                        Vertices.Add(new VertexP3N3G3T2()
                        {
                            P = N, N = N, T = T, UV = UV
                        });
                    }
                }

                for (int Y = 0; Y < SUBDIVS_THETA; Y++)
                {
                    int CurrentLineOffset = Y * (SUBDIVS_PHI + 1);
                    int NextLineOffset    = (Y + 1) * (SUBDIVS_PHI + 1);
                    for (int X = 0; X <= SUBDIVS_PHI; X++)
                    {
                        Indices.Add((uint)(CurrentLineOffset + X));
                        Indices.Add((uint)(NextLineOffset + X));
                    }
                    if (Y < SUBDIVS_THETA - 1)
                    {
                        Indices.Add((uint)(NextLineOffset - 1));                                // Degenerate triangle to end the line
                        Indices.Add((uint)NextLineOffset);                                      // Degenerate triangle to start the next line
                    }
                }

                m_Prim_Sphere = new Primitive(m_Device, Vertices.Count, VertexP3N3G3T2.FromArray(Vertices.ToArray()), Indices.ToArray(), Primitive.TOPOLOGY.TRIANGLE_STRIP, VERTEX_FORMAT.P3N3G3T2);
            }

            {                   // Build the cube
                float3[] Normals = new float3[6] {
                    -float3.UnitX,
                    float3.UnitX,
                    -float3.UnitY,
                    float3.UnitY,
                    -float3.UnitZ,
                    float3.UnitZ,
                };

                float3[] Tangents = new float3[6] {
                    float3.UnitZ,
                    -float3.UnitZ,
                    float3.UnitX,
                    -float3.UnitX,
                    -float3.UnitX,
                    float3.UnitX,
                };

                VertexP3N3G3T2[] Vertices = new VertexP3N3G3T2[6 * 4];
                uint[]           Indices  = new uint[2 * 6 * 3];

                for (int FaceIndex = 0; FaceIndex < 6; FaceIndex++)
                {
                    float3 N = Normals[FaceIndex];
                    float3 T = Tangents[FaceIndex];
                    float3 B = N.Cross(T);

                    Vertices[4 * FaceIndex + 0] = new VertexP3N3G3T2()
                    {
                        P = N - T + B,
                        N = N,
                        T = T,
//						B = B,
                        UV = new float2(0, 0)
                    };
                    Vertices[4 * FaceIndex + 1] = new VertexP3N3G3T2()
                    {
                        P = N - T - B,
                        N = N,
                        T = T,
//						B = B,
                        UV = new float2(0, 1)
                    };
                    Vertices[4 * FaceIndex + 2] = new VertexP3N3G3T2()
                    {
                        P = N + T - B,
                        N = N,
                        T = T,
//						B = B,
                        UV = new float2(1, 1)
                    };
                    Vertices[4 * FaceIndex + 3] = new VertexP3N3G3T2()
                    {
                        P = N + T + B,
                        N = N,
                        T = T,
//						B = B,
                        UV = new float2(1, 0)
                    };

                    Indices[2 * 3 * FaceIndex + 0] = (uint)(4 * FaceIndex + 0);
                    Indices[2 * 3 * FaceIndex + 1] = (uint)(4 * FaceIndex + 1);
                    Indices[2 * 3 * FaceIndex + 2] = (uint)(4 * FaceIndex + 2);
                    Indices[2 * 3 * FaceIndex + 3] = (uint)(4 * FaceIndex + 0);
                    Indices[2 * 3 * FaceIndex + 4] = (uint)(4 * FaceIndex + 2);
                    Indices[2 * 3 * FaceIndex + 5] = (uint)(4 * FaceIndex + 3);
                }

                ByteBuffer VerticesBuffer = VertexP3N3G3T2.FromArray(Vertices);

                m_Prim_Cube = new Primitive(m_Device, Vertices.Length, VerticesBuffer, Indices, Primitive.TOPOLOGY.TRIANGLE_LIST, VERTEX_FORMAT.P3N3G3T2);
            }
        }