Exemplo n.º 1
0
        protected override DX11IndexedGeometry GetGeom(DX11RenderContext context, int slice)
        {
            Segment segment = new Segment()
            {
                Cycles = this.FInCycles[slice],
                Flat = this.FInFlat[slice],
                InnerRadius = this.FInInner[slice],
                Phase = this.FInPhase[slice],
                Resolution = this.FInRes[slice]
            };

            return context.Primitives.Segment(segment);
        }
Exemplo n.º 2
0
        public DX11IndexedGeometry Segment(Segment settings)
        {
            float phase = settings.Phase;
            float cycles = settings.Cycles; 
            float inner = settings.InnerRadius; 
            int res = settings.Resolution;
            bool flat = settings.Flat;

            DX11IndexedGeometry geom = new DX11IndexedGeometry(context);
            geom.Tag = settings;
            geom.PrimitiveType = settings.PrimitiveType;
            int vcount = res * 2;
            int icount = (res - 1) * 6;

            DataStream ds = new DataStream(vcount * Pos4Norm3Tex2Vertex.VertexSize, true, true);
            ds.Position = 0;

            float inc = Convert.ToSingle((Math.PI * 2.0 * cycles) / (res - 1.0));
            float phi = Convert.ToSingle(phase * (Math.PI * 2.0));

            Pos4Norm3Tex2Vertex innerv = new Pos4Norm3Tex2Vertex();
            innerv.Normals = new Vector3(0.0f, 0.0f, 1.0f);

            Pos4Norm3Tex2Vertex outerv = new Pos4Norm3Tex2Vertex();
            outerv.Normals = new Vector3(0.0f, 0.0f, 1.0f);

            Pos4Norm3Tex2Vertex[] vertices = new Pos4Norm3Tex2Vertex[res * 2];

            for (int i = 0; i < res; i++)
            {
                float x = Convert.ToSingle(0.5 * inner * Math.Cos(phi));
                float y = Convert.ToSingle(0.5 * inner * Math.Sin(phi));

                innerv.Position = new Vector4(x, y, 0.0f, 1.0f);

                if (flat)
                {
                    innerv.TexCoords = new Vector2(0.5f - x, 0.5f - y);
                }
                else
                {
                    innerv.TexCoords = new Vector2((1.0f * (float)i) / ((float)res - 1.0f), 0.0f);
                }

                x = Convert.ToSingle(0.5 * Math.Cos(phi));
                y = Convert.ToSingle(0.5 * Math.Sin(phi));

                outerv.Position = new Vector4(x, y, 0.0f, 1.0f);

                if (flat)
                {
                    outerv.TexCoords = new Vector2(0.5f - x, 0.5f - y);
                }
                else
                {
                    outerv.TexCoords = new Vector2((1.0f * (float)i) / ((float)res - 1.0f), 1.0f);
                }

                vertices[i] = innerv;
                vertices[i + res] = outerv;
                phi += inc;
            }

            float minx = float.MaxValue, miny = float.MaxValue, minz = float.MaxValue;
            float maxx = float.MinValue, maxy = float.MinValue, maxz = float.MinValue;

            foreach (Pos4Norm3Tex2Vertex v in vertices)
            {
                minx = v.Position.X < minx ? v.Position.X : minx;
                miny = v.Position.Y < miny ? v.Position.Y : miny;
                minz = v.Position.Z < minz ? v.Position.Z : minz;

                maxx = v.Position.X > maxx ? v.Position.X : maxx;
                maxy = v.Position.Y > maxy ? v.Position.Y : maxy;
                maxz = v.Position.Z > maxz ? v.Position.Z : maxz;
            }

            ds.WriteRange(vertices);

            ds.Position = 0;

            var vbuffer = new SlimDX.Direct3D11.Buffer(context.Device, ds, new BufferDescription()
            {
                BindFlags = BindFlags.VertexBuffer,
                CpuAccessFlags = CpuAccessFlags.None,
                OptionFlags = ResourceOptionFlags.None,
                SizeInBytes = (int)ds.Length,
                Usage = ResourceUsage.Default
            });

            ds.Dispose();

            int indstep = 0;
            int[] indices = new int[icount];
            for (int i = 0; i < res - 1; i++)
            {
                //Triangle from low to high
                indices[indstep] = i;
                indices[indstep + 2] = res + i;
                indices[indstep + 1] = i + 1;
                

                //Triangle from high to low
                indices[indstep + 3] = i + 1;
                indices[indstep + 5] = res + i;
                indices[indstep + 4] = res + i + 1;

                indstep += 6;
            }

            var indexstream = new DataStream(icount * 4, true, true);
            indexstream.WriteRange(indices);
            indexstream.Position = 0;

            geom.VertexBuffer = vbuffer;
            geom.IndexBuffer = new DX11IndexBuffer(context, indexstream, false, true);
            geom.InputLayout = Pos4Norm3Tex2Vertex.Layout;
            geom.Topology = PrimitiveTopology.TriangleList;
            geom.VerticesCount = vcount;
            geom.VertexSize = Pos4Norm3Tex2Vertex.VertexSize;

            geom.BoundingBox = new BoundingBox(new Vector3(minx, miny, minz), new Vector3(maxx, maxy, maxz));
            geom.HasBoundingBox = true;

            return geom;
        }