Exemplo n.º 1
1
        public void CreateGroundPlane(float minValue, float size, float uvScale)
        {
            VertexElement[] vElements = new VertexElement[]
            {
               new VertexElement(0, 0, DeclarationType.Float3, DeclarationMethod.Default, DeclarationUsage.Position, 0),
               new VertexElement(0, 12, DeclarationType.Float2, DeclarationMethod.Default, DeclarationUsage.TextureCoordinate, 0),
                new VertexElement(0, 20, DeclarationType.Float3, DeclarationMethod.Default, DeclarationUsage.Normal, 0),
               new VertexElement(0, 32, DeclarationType.Float4, DeclarationMethod.Default, DeclarationUsage.Tangent, 0),
               VertexElement.VertexDeclarationEnd
            };

            model = new Mesh(2, 4, MeshFlags.Managed | MeshFlags.Use32Bit, vElements, device);

            Vertex[] vertexList = new Vertex[4];

            // Initialize the values for the 4 vertexes.
            vertexList[0].Position = new Vector3(-size, minValue, -size);
            vertexList[0].Normal = new Vector3(0, 1.0f, 0);
            vertexList[0].TexCoord = new Vector2(0, 0);

            vertexList[1].Position = new Vector3(-size, minValue, size);
            vertexList[1].Normal = new Vector3(0, 1.0f, 0);
            vertexList[1].TexCoord = new Vector2(0, uvScale);

            vertexList[2].Position = new Vector3(size, minValue, -size);
            vertexList[2].Normal = new Vector3(0, 1.0f, 0);
            vertexList[2].TexCoord = new Vector2(uvScale, 0);

            vertexList[3].Position = new Vector3(size, minValue, size);
            vertexList[3].Normal = new Vector3(0, 1.0f, 0);
            vertexList[3].TexCoord = new Vector2(uvScale, uvScale);

            int[] indexList = { 0, 3, 2, 1, 3, 0 };

            model.SetIndexBufferData(indexList, LockFlags.None);
            model.SetVertexBufferData(vertexList, LockFlags.None);

            TangentBuilder.CalculateTangents(model);
        }
Exemplo n.º 2
0
        /// <summary>
        /// Calculates if a vertex value is already in the list of vertices.
        /// </summary>
        /// <param name="hash">The index into the vertex list.</param>
        /// <param name="vertex">The vertex to look for.</param>
        /// <returns>The index into the array of vertices.</returns>
        private int addVertex(int hash, Vertex vertex)
        {
            bool foundInList = false;
            int index = 0;

            // Checks to see if the hash value is part of the table.
            if (table.ContainsKey(hash))
            {
                // Checks if the vertex at the index of the hash value is equal to the
                // value of the vertex passed into the function.
                if (table[hash].Equals(vertex))
                {
                    // Sets the index to the hash and that it was found.
                    index = hash;
                    foundInList = true;
                }
            }

            if (!foundInList)
            {
                index = vertexInfo.Count;	// Sets the index to the last value in the list.
                vertexInfo.Add(vertex);		// Adds the vertex to the list.
                table.Add(index, vertex);	// Adds the vertex to a hash list.
            }

            return (int)index;
        }
Exemplo n.º 3
0
        /// <summary>
        /// Treats the buffered string as face information.
        /// </summary>
        private void addFace()
        {
            string[] face1, face2, face3, face4; // Info for up to 4 faces.
            Vertex[] vertices = new Vertex[4];	// Array of 4 Vertex's
            bool isQuad = false; // bool for handling quad faces.

            string[] values = buffer.Split(enumerator, StringSplitOptions.RemoveEmptyEntries); // Splits up the buffer string by spaces.

            // Splits up the face information even more (puts 1/1/1 into three spots in an array)
            face1 = values[1].Split('/');
            face2 = values[2].Split('/');
            face3 = values[3].Split('/');
            face4 = face3; // so face4 isn't null.

            // Checks if the length is consistant with a quad face.
            if (values.Length == 5)
            {
                // Makes sure the 5th array isn't empty
                if (!values[4].Equals(""))
                {
                    // Splits up the data for the 4th value of the quad.
                    face4 = values[4].Split('/');

                    // sets quad to true.
                    isQuad = true;
                }
            }

            // Sets the position vectors for the first three values.
            vertices[0].Position = vertexList[Math.Abs(Int32.Parse(face1[0])) - 1];
            vertices[1].Position = vertexList[Math.Abs(Int32.Parse(face2[0])) - 1];
            vertices[2].Position = vertexList[Math.Abs(Int32.Parse(face3[0])) - 1];

            // Sets the fourth position vector if the face described in the file is a quad.
            if (isQuad)
                vertices[3].Position = vertexList[Math.Abs(Int32.Parse(face4[0])) - 1];

            // Handles if there is texture coordinates.
            if (face1.Length >= 2)
            {
                if (!face1[1].Equals(""))
                {
                    // Sets the texture coordinate vectors for the first three values.
                    vertices[0].TexCoord = uvList[Math.Abs(Int32.Parse(face1[1])) - 1];
                    vertices[1].TexCoord = uvList[Math.Abs(Int32.Parse(face2[1])) - 1];
                    vertices[2].TexCoord = uvList[Math.Abs(Int32.Parse(face3[1])) - 1];

                    // Sets the fourth texture coordinate vector if the face described in the file is a quad.
                    if (isQuad)
                        vertices[3].TexCoord = uvList[Math.Abs(Int32.Parse(face4[1])) - 1];
                }
            }

            // Handles if there is normals.
            if (face1.Length == 3)
            {
                if (!face1[2].Equals(""))
                {
                    // Sets the normal vectors for the first three values.
                    vertices[0].Normal = normalList[Math.Abs(Int32.Parse(face1[2])) - 1];
                    vertices[1].Normal = normalList[Math.Abs(Int32.Parse(face2[2])) - 1];
                    vertices[2].Normal = normalList[Math.Abs(Int32.Parse(face3[2])) - 1];

                    // Sets the fourth normal vector if the face described in the file is a quad.
                    if (isQuad)
                        vertices[3].Normal = normalList[Math.Abs(Int32.Parse(face4[2])) - 1];
                }
            }

            // Handles adding the face information to the face list.
            if (!isQuad)
            {
                // Calls the addVertex method to get the vertex index to be used for the index buffer.
                faceList.Add(addVertex(Math.Abs(Int32.Parse(face1[0])), vertices[0]));
                faceList.Add(addVertex(Math.Abs(Int32.Parse(face2[0])), vertices[1]));
                faceList.Add(addVertex(Math.Abs(Int32.Parse(face3[0])), vertices[2]));
            }
            // Adds two triangles if the face is a quad.
            else
            {
                // Calls the addVertex method to get the vertex index to be used for the index buffer.
                faceList.Add(addVertex(Math.Abs(Int32.Parse(face1[0])), vertices[0]));
                faceList.Add(addVertex(Math.Abs(Int32.Parse(face2[0])), vertices[1]));
                faceList.Add(addVertex(Math.Abs(Int32.Parse(face4[0])), vertices[3]));

                faceList.Add(addVertex(Math.Abs(Int32.Parse(face2[0])), vertices[1]));
                faceList.Add(addVertex(Math.Abs(Int32.Parse(face3[0])), vertices[2]));
                faceList.Add(addVertex(Math.Abs(Int32.Parse(face4[0])), vertices[3]));
            }
        }