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129 lines
5.8 KiB
C#
129 lines
5.8 KiB
C#
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using System;
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using System.Diagnostics;
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using OpenTK;
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namespace Examples.Shapes
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{
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public sealed class TorusKnot: DrawableShape
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{
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#region Constants
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// hard minimums to make sure the created Torusknot is 3D
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private const int MINShapeVertices = 3;
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private const int MINPathSteps = 32;
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private const double TwoPi = ( 2.0 * System.Math.PI );
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#endregion Constants
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public TorusKnot( int pathsteps, int shapevertices, double radius, int p, int q, int TexCount, bool useDL )
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: base( useDL )
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{
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Trace.Assert( pathsteps >= MINPathSteps, "A Path must have at least " + MINPathSteps + " Steps to form a volume." );
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Trace.Assert( shapevertices >= MINShapeVertices, "A Shape must contain at least " + MINShapeVertices + " Vertices to be considered valid and create a volume." );
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Trace.Assert( TexCount > 1, "at least 1 Texture set is required." );
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PrimitiveMode = OpenTK.Graphics.OpenGL.BeginMode.TriangleStrip;
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Vector3d[] PathPositions = new Vector3d[pathsteps];
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#region Find the center Points for each step on the path
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for ( int i = 0; i < pathsteps; i++ )
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{
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double Angle = ( i / (double)pathsteps ) * TwoPi;
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double AngleTimesP = Angle * p;
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double AngleTimesQ = Angle * q;
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double r = ( 0.5 * ( 2.0 + System.Math.Sin( AngleTimesQ ) ) );
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PathPositions[i] = new Vector3d( ( r * System.Math.Cos( AngleTimesP ) ),
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( r * System.Math.Cos( AngleTimesQ ) ),
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( r * System.Math.Sin( AngleTimesP ) ) );
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}
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#endregion Find the center Points for each step on the path
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#region Find the Torus length
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Vector3d result;
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double[] Lengths = new double[pathsteps];
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Vector3d.Sub( ref PathPositions[pathsteps - 1], ref PathPositions[0], out result );
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Lengths[0] = result.Length;
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double TotalLength = result.Length;
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for ( int i = 1; i < pathsteps; i++ ) // skipping
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{
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Vector3d.Sub( ref PathPositions[i - 1], ref PathPositions[i], out result );
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Lengths[i] = result.Length;
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TotalLength += result.Length;
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}
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Trace.WriteLine( "the TorusKnot's length is: " + TotalLength + " " );
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#endregion Find the Torus length
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VertexArray = new VertexT2dN3dV3d[pathsteps * shapevertices];
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#region Loft a circle Shape along the path
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double TwoPiThroughVert = TwoPi / shapevertices; // precalc for reuse
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for ( uint i = 0; i < pathsteps; i++ )
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{
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Vector3d last, next, normal, tangent;
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if ( i == pathsteps - 1 )
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next = PathPositions[0];
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else
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next = PathPositions[i + 1];
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if ( i == 0 )
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last = PathPositions[pathsteps - 1];
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else
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last = PathPositions[i - 1];
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Vector3d.Sub( ref next, ref last, out tangent ); // Guesstimate tangent
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tangent.Normalize();
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Vector3d.Add( ref next, ref last, out normal ); // Approximate N
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normal.Normalize();
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Vector3d.Mult( ref normal, radius, out normal );// scale the shape to desired radius
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for ( uint j = 0; j < shapevertices; j++ )
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{
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uint index = i * (uint)shapevertices + j;
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// Create a point on the plane and rotate it
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Matrix4d RotationMatrix = Matrix4d.Rotate( tangent, -( j * TwoPiThroughVert ) );
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Vector3d point = Vector3d.TransformVector( normal, RotationMatrix );
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Vector3d.Add( ref PathPositions[i], ref point, out VertexArray[index].Position );
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// Since the used shape is a circle, the Vertex normal's heading is easy to find
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Vector3d.Sub( ref VertexArray[index].Position, ref PathPositions[i], out VertexArray[index].Normal );
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VertexArray[index].Normal.Normalize();
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// just generate some semi-useful UVs to fill blanks
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VertexArray[index].TexCoord = new Vector2d( (double)( i / TotalLength/ TexCount ), j / ( shapevertices - 1.0 ) );
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}
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}
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#endregion Loft a circle Shape along the path
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PathPositions = null; // not needed anymore
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uint currentindex = 0;
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#region Build a Triangle strip from the Vertices
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IndexArray = new uint[pathsteps * ( shapevertices * 2 + 2 )]; // 2 triangles per vertex, +2 due to added degenerate triangles
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for ( uint i = 0; i < pathsteps; i++ )
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{
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uint RowCurrent = i * (uint)shapevertices;
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uint RowBelow;
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if ( i == pathsteps - 1 )
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RowBelow = 0; // for the last row, the first row is the following
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else
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RowBelow = ( i + 1 ) * (uint)shapevertices;
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// new ring begins here
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for ( uint j = 0; j < shapevertices; j++ )
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{
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IndexArray[currentindex++] = RowCurrent + j;
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IndexArray[currentindex++] = RowBelow + j;
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}
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// ring ends here, repeat first 2 vertices to insert 2 degenerate triangles to reach following ring
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IndexArray[currentindex++] = RowCurrent;
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IndexArray[currentindex++] = RowBelow;
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}
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#endregion Build a Triangle strip from the Vertices
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}
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}
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}
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