public ChamferCube( double Width, double Height, double Length, SubDivs subdivs, double radius ) : base( ) { SlicedSphere.eSubdivisions sphereSubDivs = SlicedSphere.eSubdivisions.Zero; uint hoseSubDivs = 0; switch ( subdivs ) { case SubDivs.Zero: sphereSubDivs = SlicedSphere.eSubdivisions.Zero; hoseSubDivs = 0; break; case SubDivs.One: sphereSubDivs = SlicedSphere.eSubdivisions.One; hoseSubDivs = 1; break; case SubDivs.Two: sphereSubDivs = SlicedSphere.eSubdivisions.Two; hoseSubDivs = 3; break; case SubDivs.Three: sphereSubDivs = SlicedSphere.eSubdivisions.Three; hoseSubDivs = 7; break; case SubDivs.Four: sphereSubDivs = SlicedSphere.eSubdivisions.Four; hoseSubDivs = 15; break; } #region Temporary Storage List<Chunk> AllChunks = new List<Chunk>(); OpenTK.Graphics.OpenGL.BeginMode TemporaryMode; VertexT2dN3dV3d[] TemporaryVBO; uint[] TemporaryIBO; #endregion Temporary Storage Vector3d FrontTopRightEdge = new Vector3d( +Width - radius, +Height - radius, +Length - radius ); Vector3d FrontTopLeftEdge = new Vector3d( +Width - radius, +Height - radius, -Length + radius ); Vector3d FrontBottomRightEdge = new Vector3d( +Width - radius, -Height + radius, +Length - radius ); Vector3d FrontBottomLeftEdge = new Vector3d( +Width - radius, -Height + radius, -Length + radius ); Vector3d BackTopRightEdge = new Vector3d( -Width + radius, +Height - radius, +Length - radius ); Vector3d BackTopLeftEdge = new Vector3d( -Width + radius, +Height - radius, -Length + radius ); Vector3d BackBottomRightEdge = new Vector3d( -Width + radius, -Height + radius, +Length - radius ); Vector3d BackBottomLeftEdge = new Vector3d( -Width + radius, -Height + radius, -Length + radius ); #region 8 sliced Spheres SlicedSphere tempSphere; Vector3d tempVector = Vector3d.Zero; SlicedSphere.eDir[] tempEdge = new SlicedSphere.eDir[1]; for ( int i = 0; i < 8; i++ ) { switch ( i ) { case 0: tempVector = FrontTopRightEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.FrontTopRight }; break; case 1: tempVector = FrontTopLeftEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.FrontTopLeft }; break; case 2: tempVector = FrontBottomRightEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.FrontBottomRight }; break; case 3: tempVector = FrontBottomLeftEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.FrontBottomLeft }; break; case 4: tempVector = BackBottomRightEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.BackBottomRight }; break; case 5: tempVector = BackBottomLeftEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.BackBottomLeft }; break; case 6: tempVector = BackTopRightEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.BackTopRight }; break; case 7: tempVector = BackTopLeftEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.BackTopLeft }; break; } tempSphere = new SlicedSphere( radius, tempVector, sphereSubDivs, tempEdge ); tempSphere.GetArraysforVBO( out TemporaryMode, out TemporaryVBO, out TemporaryIBO ); tempSphere.Dispose(); AllChunks.Add( new Chunk( ref TemporaryVBO, ref TemporaryIBO ) ); } #endregion 8 sliced Spheres #region 12 sliced Hoses SlicedHose tempHose; SlicedHose.eSide tempSide = SlicedHose.eSide.BackBottom; Vector3d tempHoseStart = Vector3d.Zero; Vector3d tempHoseEnd = Vector3d.Zero; for ( int i = 0; i < 12; i++ ) { switch ( i ) { #region Around X Axis case 0: tempSide = SlicedHose.eSide.BottomRight; tempHoseStart = BackBottomRightEdge; tempHoseEnd = FrontBottomRightEdge; break; case 1: tempSide = SlicedHose.eSide.TopRight; tempHoseStart = BackTopRightEdge; tempHoseEnd = FrontTopRightEdge; break; case 2: tempSide = SlicedHose.eSide.TopLeft; tempHoseStart = BackTopLeftEdge; tempHoseEnd = FrontTopLeftEdge; break; case 3: tempSide = SlicedHose.eSide.BottomLeft; tempHoseStart = BackBottomLeftEdge; tempHoseEnd = FrontBottomLeftEdge; break; #endregion Around X Axis #region Around Y Axis case 4: tempSide = SlicedHose.eSide.FrontRight; tempHoseStart = FrontBottomRightEdge; tempHoseEnd = FrontTopRightEdge; break; case 5: tempSide = SlicedHose.eSide.BackRight; tempHoseStart = BackBottomRightEdge; tempHoseEnd = BackTopRightEdge; break; case 6: tempSide = SlicedHose.eSide.BackLeft; tempHoseStart = BackBottomLeftEdge; tempHoseEnd = BackTopLeftEdge; break; case 7: tempSide = SlicedHose.eSide.FrontLeft; tempHoseStart = FrontBottomLeftEdge; tempHoseEnd = FrontTopLeftEdge; break; #endregion Around Y Axis #region Around Z Axis case 8: tempSide = SlicedHose.eSide.FrontTop; tempHoseStart = FrontTopRightEdge; tempHoseEnd = FrontTopLeftEdge; break; case 9: tempSide = SlicedHose.eSide.BackTop; tempHoseStart = BackTopRightEdge; tempHoseEnd = BackTopLeftEdge; break; case 10: tempSide = SlicedHose.eSide.BackBottom; tempHoseStart = BackBottomRightEdge; tempHoseEnd = BackBottomLeftEdge; break; case 11: tempSide = SlicedHose.eSide.FrontBottom; tempHoseStart = FrontBottomRightEdge; tempHoseEnd = FrontBottomLeftEdge; break; #endregion Around Z Axis } tempHose = new SlicedHose( tempSide, hoseSubDivs, radius, tempHoseStart, tempHoseEnd ); tempHose.GetArraysforVBO( out TemporaryMode, out TemporaryVBO, out TemporaryIBO ); tempHose.Dispose(); AllChunks.Add( new Chunk( ref TemporaryVBO, ref TemporaryIBO ) ); } #endregion 12 sliced Hoses #region 6 quads for the sides VertexT2dN3dV3d[] tempVBO = new VertexT2dN3dV3d[4]; uint[] tempIBO = new uint[6] { 0, 1, 2, 0, 2, 3 }; // all quads share this IBO // all quads use the same texcoords tempVBO[0].TexCoord = new OpenTK.Vector2d(0.0, 1.0); tempVBO[1].TexCoord = new OpenTK.Vector2d(0.0, 0.0); tempVBO[2].TexCoord = new OpenTK.Vector2d(1.0, 0.0); tempVBO[3].TexCoord = new OpenTK.Vector2d(1.0, 1.0); // front face tempVBO[0].Normal = tempVBO[1].Normal = tempVBO[2].Normal = tempVBO[3].Normal = Vector3d.UnitX; tempVBO[0].Position = FrontTopRightEdge + new Vector3d( radius, 0.0, 0.0 ); tempVBO[1].Position = FrontBottomRightEdge + new Vector3d( radius, 0.0, 0.0 ); tempVBO[2].Position = FrontBottomLeftEdge + new Vector3d( radius, 0.0, 0.0 ); tempVBO[3].Position = FrontTopLeftEdge + new Vector3d( radius, 0.0, 0.0 ); AllChunks.Add( new Chunk( ref tempVBO, ref tempIBO ) ); // back face tempVBO[0].Normal = tempVBO[1].Normal = tempVBO[2].Normal = tempVBO[3].Normal = -Vector3d.UnitX; tempVBO[0].Position = BackTopLeftEdge - new Vector3d( radius, 0.0, 0.0 ); tempVBO[1].Position = BackBottomLeftEdge - new Vector3d( radius, 0.0, 0.0 ); tempVBO[2].Position = BackBottomRightEdge - new Vector3d( radius, 0.0, 0.0 ); tempVBO[3].Position = BackTopRightEdge - new Vector3d( radius, 0.0, 0.0 ); AllChunks.Add( new Chunk( ref tempVBO, ref tempIBO ) ); // top face tempVBO[0].Normal = tempVBO[1].Normal = tempVBO[2].Normal = tempVBO[3].Normal = Vector3d.UnitY; tempVBO[0].Position = BackTopRightEdge + new Vector3d( 0.0, radius, 0.0 ); tempVBO[1].Position = FrontTopRightEdge + new Vector3d( 0.0, radius, 0.0 ); tempVBO[2].Position = FrontTopLeftEdge + new Vector3d( 0.0, radius, 0.0 ); tempVBO[3].Position = BackTopLeftEdge + new Vector3d( 0.0, radius, 0.0 ); AllChunks.Add( new Chunk( ref tempVBO, ref tempIBO ) ); // bottom face tempVBO[0].Normal = tempVBO[1].Normal = tempVBO[2].Normal = tempVBO[3].Normal = -Vector3d.UnitY; tempVBO[0].Position = BackBottomLeftEdge - new Vector3d( 0.0, radius, 0.0 ); tempVBO[1].Position = FrontBottomLeftEdge - new Vector3d( 0.0, radius, 0.0 ); tempVBO[2].Position = FrontBottomRightEdge - new Vector3d( 0.0, radius, 0.0 ); tempVBO[3].Position = BackBottomRightEdge - new Vector3d( 0.0, radius, 0.0 ); AllChunks.Add( new Chunk( ref tempVBO, ref tempIBO ) ); // right face tempVBO[0].Normal = tempVBO[1].Normal = tempVBO[2].Normal = tempVBO[3].Normal = Vector3d.UnitZ; tempVBO[0].Position = BackTopRightEdge + new Vector3d( 0.0, 0.0, radius ); tempVBO[1].Position = BackBottomRightEdge + new Vector3d( 0.0, 0.0, radius ); tempVBO[2].Position = FrontBottomRightEdge + new Vector3d( 0.0, 0.0, radius ); tempVBO[3].Position = FrontTopRightEdge + new Vector3d( 0.0, 0.0, radius ); AllChunks.Add( new Chunk( ref tempVBO, ref tempIBO ) ); // left face tempVBO[0].Normal = tempVBO[1].Normal = tempVBO[2].Normal = tempVBO[3].Normal = -Vector3d.UnitZ; tempVBO[0].Position = FrontTopLeftEdge - new Vector3d( 0.0, 0.0, radius ); tempVBO[1].Position = FrontBottomLeftEdge - new Vector3d( 0.0, 0.0, radius ); tempVBO[2].Position = BackBottomLeftEdge - new Vector3d( 0.0, 0.0, radius ); tempVBO[3].Position = BackTopLeftEdge - new Vector3d( 0.0, 0.0, radius ); AllChunks.Add( new Chunk( ref tempVBO, ref tempIBO ) ); #endregion 6 quads for the sides #region Final Assembly of Chunks PrimitiveMode = OpenTK.Graphics.OpenGL.BeginMode.Triangles; Chunk.GetArray( ref AllChunks, out VertexArray, out IndexArray ); AllChunks.Clear(); #endregion Final Assembly of Chunks }
public Capsule(double radius, double height, eSubdivisions subdivs) : base( ) { uint HoseSubDivs = 0; SlicedSphere.eSubdivisions spheresubdivs = SlicedSphere.eSubdivisions.Zero; switch (subdivs) { case eSubdivisions.None: spheresubdivs = SlicedSphere.eSubdivisions.Zero; HoseSubDivs = 0; break; case eSubdivisions.One: spheresubdivs = SlicedSphere.eSubdivisions.One; HoseSubDivs = 1; break; case eSubdivisions.Two: spheresubdivs = SlicedSphere.eSubdivisions.Two; HoseSubDivs = 3; break; case eSubdivisions.Three: spheresubdivs = SlicedSphere.eSubdivisions.Three; HoseSubDivs = 7; break; case eSubdivisions.Four: spheresubdivs = SlicedSphere.eSubdivisions.Four; HoseSubDivs = 15; break; } PrimitiveMode = OpenTK.Graphics.OpenGL.BeginMode.Triangles; OpenTK.Graphics.OpenGL.BeginMode TemporaryMode; VertexT2dN3dV3d[] TemporaryVBO; uint[] TemporaryIBO; List <Chunk> AllChunks = new List <Chunk>(); Vector3d offset1 = new Vector3d(0.0, 0.0, height), offset2 = new Vector3d(0.0, 0.0, -height); for (int i = 0; i < 4; i++) { SlicedHose.eSide tempSide = SlicedHose.eSide.FrontTop; switch (i) { case 0: tempSide = SlicedHose.eSide.FrontBottom; break; case 1: tempSide = SlicedHose.eSide.BackBottom; break; case 2: tempSide = SlicedHose.eSide.BackTop; break; case 3: tempSide = SlicedHose.eSide.FrontTop; break; } SlicedHose tempHose = new SlicedHose(tempSide, HoseSubDivs, radius, offset1, offset2); tempHose.GetArraysforVBO(out TemporaryMode, out TemporaryVBO, out TemporaryIBO); tempHose.Dispose(); AllChunks.Add(new Chunk(ref TemporaryVBO, ref TemporaryIBO)); } SlicedSphere front = new SlicedSphere(radius, offset1, spheresubdivs, new SlicedSphere.eDir[] { SlicedSphere.eDir.BackBottomRight, SlicedSphere.eDir.FrontTopRight, SlicedSphere.eDir.BackTopRight, SlicedSphere.eDir.FrontBottomRight, }); front.GetArraysforVBO(out TemporaryMode, out TemporaryVBO, out TemporaryIBO); AllChunks.Add(new Chunk(ref TemporaryVBO, ref TemporaryIBO)); front.Dispose(); SlicedSphere back = new SlicedSphere(radius, offset2, spheresubdivs, new SlicedSphere.eDir[] { SlicedSphere.eDir.FrontBottomLeft, SlicedSphere.eDir.FrontTopLeft, SlicedSphere.eDir.BackTopLeft, SlicedSphere.eDir.BackBottomLeft }); back.GetArraysforVBO(out TemporaryMode, out TemporaryVBO, out TemporaryIBO); AllChunks.Add(new Chunk(ref TemporaryVBO, ref TemporaryIBO)); back.Dispose(); Chunk.GetArray(ref AllChunks, out VertexArray, out IndexArray); AllChunks.Clear(); }
public Capsule( double radius, double height, eSubdivisions subdivs ) : base( ) { uint HoseSubDivs = 0; SlicedSphere.eSubdivisions spheresubdivs = SlicedSphere.eSubdivisions.Zero; switch ( subdivs ) { case eSubdivisions.None: spheresubdivs = SlicedSphere.eSubdivisions.Zero; HoseSubDivs = 0; break; case eSubdivisions.One: spheresubdivs = SlicedSphere.eSubdivisions.One; HoseSubDivs = 1; break; case eSubdivisions.Two: spheresubdivs = SlicedSphere.eSubdivisions.Two; HoseSubDivs = 3; break; case eSubdivisions.Three: spheresubdivs = SlicedSphere.eSubdivisions.Three; HoseSubDivs = 7; break; case eSubdivisions.Four: spheresubdivs = SlicedSphere.eSubdivisions.Four; HoseSubDivs = 15; break; } PrimitiveMode = OpenTK.Graphics.OpenGL.BeginMode.Triangles; OpenTK.Graphics.OpenGL.BeginMode TemporaryMode; VertexT2dN3dV3d[] TemporaryVBO; uint[] TemporaryIBO; List<Chunk> AllChunks = new List<Chunk>(); Vector3d offset1 = new Vector3d( 0.0, 0.0, height ), offset2 = new Vector3d( 0.0, 0.0, -height ); for ( int i = 0; i < 4; i++ ) { SlicedHose.eSide tempSide = SlicedHose.eSide.FrontTop; switch ( i ) { case 0: tempSide = SlicedHose.eSide.FrontBottom; break; case 1: tempSide = SlicedHose.eSide.BackBottom; break; case 2: tempSide = SlicedHose.eSide.BackTop; break; case 3: tempSide = SlicedHose.eSide.FrontTop; break; } SlicedHose tempHose = new SlicedHose( tempSide, HoseSubDivs, radius, offset1, offset2 ); tempHose.GetArraysforVBO( out TemporaryMode, out TemporaryVBO, out TemporaryIBO ); tempHose.Dispose(); AllChunks.Add( new Chunk( ref TemporaryVBO, ref TemporaryIBO ) ); } SlicedSphere front = new SlicedSphere( radius, offset1, spheresubdivs, new SlicedSphere.eDir[] { SlicedSphere.eDir.BackBottomRight, SlicedSphere.eDir.FrontTopRight, SlicedSphere.eDir.BackTopRight, SlicedSphere.eDir.FrontBottomRight, } ); front.GetArraysforVBO( out TemporaryMode, out TemporaryVBO, out TemporaryIBO ); AllChunks.Add( new Chunk( ref TemporaryVBO, ref TemporaryIBO ) ); front.Dispose(); SlicedSphere back = new SlicedSphere( radius, offset2, spheresubdivs, new SlicedSphere.eDir[] { SlicedSphere.eDir.FrontBottomLeft, SlicedSphere.eDir.FrontTopLeft, SlicedSphere.eDir.BackTopLeft, SlicedSphere.eDir.BackBottomLeft } ); back.GetArraysforVBO( out TemporaryMode, out TemporaryVBO, out TemporaryIBO ); AllChunks.Add( new Chunk( ref TemporaryVBO, ref TemporaryIBO ) ); back.Dispose(); Chunk.GetArray( ref AllChunks, out VertexArray, out IndexArray ); AllChunks.Clear(); }
public ChamferCube(double Width, double Height, double Length, SubDivs subdivs, double radius) : base( ) { SlicedSphere.eSubdivisions sphereSubDivs = SlicedSphere.eSubdivisions.Zero; uint hoseSubDivs = 0; switch (subdivs) { case SubDivs.Zero: sphereSubDivs = SlicedSphere.eSubdivisions.Zero; hoseSubDivs = 0; break; case SubDivs.One: sphereSubDivs = SlicedSphere.eSubdivisions.One; hoseSubDivs = 1; break; case SubDivs.Two: sphereSubDivs = SlicedSphere.eSubdivisions.Two; hoseSubDivs = 3; break; case SubDivs.Three: sphereSubDivs = SlicedSphere.eSubdivisions.Three; hoseSubDivs = 7; break; case SubDivs.Four: sphereSubDivs = SlicedSphere.eSubdivisions.Four; hoseSubDivs = 15; break; } #region Temporary Storage List <Chunk> AllChunks = new List <Chunk>(); OpenTK.Graphics.OpenGL.BeginMode TemporaryMode; VertexT2dN3dV3d[] TemporaryVBO; uint[] TemporaryIBO; #endregion Temporary Storage Vector3d FrontTopRightEdge = new Vector3d(+Width - radius, +Height - radius, +Length - radius); Vector3d FrontTopLeftEdge = new Vector3d(+Width - radius, +Height - radius, -Length + radius); Vector3d FrontBottomRightEdge = new Vector3d(+Width - radius, -Height + radius, +Length - radius); Vector3d FrontBottomLeftEdge = new Vector3d(+Width - radius, -Height + radius, -Length + radius); Vector3d BackTopRightEdge = new Vector3d(-Width + radius, +Height - radius, +Length - radius); Vector3d BackTopLeftEdge = new Vector3d(-Width + radius, +Height - radius, -Length + radius); Vector3d BackBottomRightEdge = new Vector3d(-Width + radius, -Height + radius, +Length - radius); Vector3d BackBottomLeftEdge = new Vector3d(-Width + radius, -Height + radius, -Length + radius); #region 8 sliced Spheres SlicedSphere tempSphere; Vector3d tempVector = Vector3d.Zero; SlicedSphere.eDir[] tempEdge = new SlicedSphere.eDir[1]; for (int i = 0; i < 8; i++) { switch (i) { case 0: tempVector = FrontTopRightEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.FrontTopRight }; break; case 1: tempVector = FrontTopLeftEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.FrontTopLeft }; break; case 2: tempVector = FrontBottomRightEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.FrontBottomRight }; break; case 3: tempVector = FrontBottomLeftEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.FrontBottomLeft }; break; case 4: tempVector = BackBottomRightEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.BackBottomRight }; break; case 5: tempVector = BackBottomLeftEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.BackBottomLeft }; break; case 6: tempVector = BackTopRightEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.BackTopRight }; break; case 7: tempVector = BackTopLeftEdge; tempEdge = new SlicedSphere.eDir[] { SlicedSphere.eDir.BackTopLeft }; break; } tempSphere = new SlicedSphere(radius, tempVector, sphereSubDivs, tempEdge); tempSphere.GetArraysforVBO(out TemporaryMode, out TemporaryVBO, out TemporaryIBO); tempSphere.Dispose(); AllChunks.Add(new Chunk(ref TemporaryVBO, ref TemporaryIBO)); } #endregion 8 sliced Spheres #region 12 sliced Hoses SlicedHose tempHose; SlicedHose.eSide tempSide = SlicedHose.eSide.BackBottom; Vector3d tempHoseStart = Vector3d.Zero; Vector3d tempHoseEnd = Vector3d.Zero; for (int i = 0; i < 12; i++) { switch (i) { #region Around X Axis case 0: tempSide = SlicedHose.eSide.BottomRight; tempHoseStart = BackBottomRightEdge; tempHoseEnd = FrontBottomRightEdge; break; case 1: tempSide = SlicedHose.eSide.TopRight; tempHoseStart = BackTopRightEdge; tempHoseEnd = FrontTopRightEdge; break; case 2: tempSide = SlicedHose.eSide.TopLeft; tempHoseStart = BackTopLeftEdge; tempHoseEnd = FrontTopLeftEdge; break; case 3: tempSide = SlicedHose.eSide.BottomLeft; tempHoseStart = BackBottomLeftEdge; tempHoseEnd = FrontBottomLeftEdge; break; #endregion Around X Axis #region Around Y Axis case 4: tempSide = SlicedHose.eSide.FrontRight; tempHoseStart = FrontBottomRightEdge; tempHoseEnd = FrontTopRightEdge; break; case 5: tempSide = SlicedHose.eSide.BackRight; tempHoseStart = BackBottomRightEdge; tempHoseEnd = BackTopRightEdge; break; case 6: tempSide = SlicedHose.eSide.BackLeft; tempHoseStart = BackBottomLeftEdge; tempHoseEnd = BackTopLeftEdge; break; case 7: tempSide = SlicedHose.eSide.FrontLeft; tempHoseStart = FrontBottomLeftEdge; tempHoseEnd = FrontTopLeftEdge; break; #endregion Around Y Axis #region Around Z Axis case 8: tempSide = SlicedHose.eSide.FrontTop; tempHoseStart = FrontTopRightEdge; tempHoseEnd = FrontTopLeftEdge; break; case 9: tempSide = SlicedHose.eSide.BackTop; tempHoseStart = BackTopRightEdge; tempHoseEnd = BackTopLeftEdge; break; case 10: tempSide = SlicedHose.eSide.BackBottom; tempHoseStart = BackBottomRightEdge; tempHoseEnd = BackBottomLeftEdge; break; case 11: tempSide = SlicedHose.eSide.FrontBottom; tempHoseStart = FrontBottomRightEdge; tempHoseEnd = FrontBottomLeftEdge; break; #endregion Around Z Axis } tempHose = new SlicedHose(tempSide, hoseSubDivs, radius, tempHoseStart, tempHoseEnd); tempHose.GetArraysforVBO(out TemporaryMode, out TemporaryVBO, out TemporaryIBO); tempHose.Dispose(); AllChunks.Add(new Chunk(ref TemporaryVBO, ref TemporaryIBO)); } #endregion 12 sliced Hoses #region 6 quads for the sides VertexT2dN3dV3d[] tempVBO = new VertexT2dN3dV3d[4]; uint[] tempIBO = new uint[6] { 0, 1, 2, 0, 2, 3 }; // all quads share this IBO // all quads use the same texcoords tempVBO[0].TexCoord = new OpenTK.Vector2d(0.0, 1.0); tempVBO[1].TexCoord = new OpenTK.Vector2d(0.0, 0.0); tempVBO[2].TexCoord = new OpenTK.Vector2d(1.0, 0.0); tempVBO[3].TexCoord = new OpenTK.Vector2d(1.0, 1.0); // front face tempVBO[0].Normal = tempVBO[1].Normal = tempVBO[2].Normal = tempVBO[3].Normal = Vector3d.UnitX; tempVBO[0].Position = FrontTopRightEdge + new Vector3d(radius, 0.0, 0.0); tempVBO[1].Position = FrontBottomRightEdge + new Vector3d(radius, 0.0, 0.0); tempVBO[2].Position = FrontBottomLeftEdge + new Vector3d(radius, 0.0, 0.0); tempVBO[3].Position = FrontTopLeftEdge + new Vector3d(radius, 0.0, 0.0); AllChunks.Add(new Chunk(ref tempVBO, ref tempIBO)); // back face tempVBO[0].Normal = tempVBO[1].Normal = tempVBO[2].Normal = tempVBO[3].Normal = -Vector3d.UnitX; tempVBO[0].Position = BackTopLeftEdge - new Vector3d(radius, 0.0, 0.0); tempVBO[1].Position = BackBottomLeftEdge - new Vector3d(radius, 0.0, 0.0); tempVBO[2].Position = BackBottomRightEdge - new Vector3d(radius, 0.0, 0.0); tempVBO[3].Position = BackTopRightEdge - new Vector3d(radius, 0.0, 0.0); AllChunks.Add(new Chunk(ref tempVBO, ref tempIBO)); // top face tempVBO[0].Normal = tempVBO[1].Normal = tempVBO[2].Normal = tempVBO[3].Normal = Vector3d.UnitY; tempVBO[0].Position = BackTopRightEdge + new Vector3d(0.0, radius, 0.0); tempVBO[1].Position = FrontTopRightEdge + new Vector3d(0.0, radius, 0.0); tempVBO[2].Position = FrontTopLeftEdge + new Vector3d(0.0, radius, 0.0); tempVBO[3].Position = BackTopLeftEdge + new Vector3d(0.0, radius, 0.0); AllChunks.Add(new Chunk(ref tempVBO, ref tempIBO)); // bottom face tempVBO[0].Normal = tempVBO[1].Normal = tempVBO[2].Normal = tempVBO[3].Normal = -Vector3d.UnitY; tempVBO[0].Position = BackBottomLeftEdge - new Vector3d(0.0, radius, 0.0); tempVBO[1].Position = FrontBottomLeftEdge - new Vector3d(0.0, radius, 0.0); tempVBO[2].Position = FrontBottomRightEdge - new Vector3d(0.0, radius, 0.0); tempVBO[3].Position = BackBottomRightEdge - new Vector3d(0.0, radius, 0.0); AllChunks.Add(new Chunk(ref tempVBO, ref tempIBO)); // right face tempVBO[0].Normal = tempVBO[1].Normal = tempVBO[2].Normal = tempVBO[3].Normal = Vector3d.UnitZ; tempVBO[0].Position = BackTopRightEdge + new Vector3d(0.0, 0.0, radius); tempVBO[1].Position = BackBottomRightEdge + new Vector3d(0.0, 0.0, radius); tempVBO[2].Position = FrontBottomRightEdge + new Vector3d(0.0, 0.0, radius); tempVBO[3].Position = FrontTopRightEdge + new Vector3d(0.0, 0.0, radius); AllChunks.Add(new Chunk(ref tempVBO, ref tempIBO)); // left face tempVBO[0].Normal = tempVBO[1].Normal = tempVBO[2].Normal = tempVBO[3].Normal = -Vector3d.UnitZ; tempVBO[0].Position = FrontTopLeftEdge - new Vector3d(0.0, 0.0, radius); tempVBO[1].Position = FrontBottomLeftEdge - new Vector3d(0.0, 0.0, radius); tempVBO[2].Position = BackBottomLeftEdge - new Vector3d(0.0, 0.0, radius); tempVBO[3].Position = BackTopLeftEdge - new Vector3d(0.0, 0.0, radius); AllChunks.Add(new Chunk(ref tempVBO, ref tempIBO)); #endregion 6 quads for the sides #region Final Assembly of Chunks PrimitiveMode = OpenTK.Graphics.OpenGL.BeginMode.Triangles; Chunk.GetArray(ref AllChunks, out VertexArray, out IndexArray); AllChunks.Clear(); #endregion Final Assembly of Chunks }