Beispiel #1
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 public void Set(normalizedPoint a)
 {
     m_c[0] = a.m_c[0];
     m_c[1] = a.m_c[1];
     m_c[2] = a.m_c[2];
     m_c[3] = a.m_c[3];
 }
Beispiel #2
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        /// <summary>sets this to normalizedPoint value.
        /// </summary>
        public void Set(normalizedPoint src)
        {
            AllocateGroups(GroupBitmap.GROUP_1);
            float[] ptr;

            ptr    = m_c[1];
            ptr[0] = 1.0f;
            ptr[1] = src.m_c[0];
            ptr[2] = src.m_c[1];
            ptr[3] = src.m_c[2];
            ptr[4] = src.m_c[3];
        }
Beispiel #3
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        /// <summary>sets this to normalizedPoint value.
        /// </summary>
        public void Set(normalizedPoint src)
        {
            AllocateGroups(GroupBitmap.GROUP_1);
            float[] ptr;

            ptr = m_c[1];
            ptr[0] = 1.0f;
            ptr[1] = src.m_c[0];
            ptr[2] = src.m_c[1];
            ptr[3] = src.m_c[2];
            ptr[4] = src.m_c[3];
        }
Beispiel #4
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 /// <summary>
 /// Converts a normalizedPoint to a mv.
 /// </summary>
 public mv(normalizedPoint A)
 {
     Set(A);
 }
Beispiel #5
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 /// <summary>shortcut to c3ga.op(this, b)
 /// </summary>
 public circle op(normalizedPoint b)
 {
     return c3ga.op(this, b);
 }
Beispiel #6
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 /// <summary>shortcut to c3ga.op(this, b)
 /// </summary>
 public circle op(normalizedPoint b)
 {
     return(c3ga.op(this, b));
 }
Beispiel #7
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 /// <summary>
 /// Converts a normalizedPoint to a mv.
 /// </summary>
 public mv(normalizedPoint A)
 {
     Set(A);
 }
Beispiel #8
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 /// <summary>Returns outer product of normalizedPoint and normalizedPoint.
 /// </summary>
 public static pointPair op(normalizedPoint a, normalizedPoint b)
 {
     return new pointPair(pointPair.coord_noe1_noe2_e1e2_noe3_e1e3_e2e3_noni_e1ni_e2ni_e3ni,
     (-a.m_c[0]+b.m_c[0]), // no_e1
     (-a.m_c[1]+b.m_c[1]), // no_e2
     (a.m_c[0]*b.m_c[1]-a.m_c[1]*b.m_c[0]), // e1_e2
     (-a.m_c[2]+b.m_c[2]), // no_e3
     (a.m_c[0]*b.m_c[2]-a.m_c[2]*b.m_c[0]), // e1_e3
     (a.m_c[1]*b.m_c[2]-a.m_c[2]*b.m_c[1]), // e2_e3
     (-a.m_c[3]+b.m_c[3]), // no_ni
     (a.m_c[0]*b.m_c[3]-a.m_c[3]*b.m_c[0]), // e1_ni
     (a.m_c[1]*b.m_c[3]-a.m_c[3]*b.m_c[1]), // e2_ni
     (a.m_c[2]*b.m_c[3]-a.m_c[3]*b.m_c[2]) // e3_ni
     );
 }
Beispiel #9
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 /// <summary>
 /// Copy constructor.
 /// </summary>
 public normalizedPoint(normalizedPoint A)
 {
     Set(A);
 }
Beispiel #10
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 public void Set(normalizedPoint a)
 {
     m_c[0] = a.m_c[0];
     m_c[1] = a.m_c[1];
     m_c[2] = a.m_c[2];
     m_c[3] = a.m_c[3];
 }
Beispiel #11
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 /// <summary>Returns outer product of normalizedPoint and line.
 /// </summary>
 public static plane op(normalizedPoint a, line b)
 {
     return new plane(plane.coord_e1e2e3ni_noe2e3ni_noe1e3ni_noe1e2ni,
     (a.m_c[0]*b.m_c[2]-a.m_c[1]*b.m_c[1]+a.m_c[2]*b.m_c[0]), // e1_e2_e3_ni
     (a.m_c[1]*b.m_c[5]-a.m_c[2]*b.m_c[4]+b.m_c[2]), // no_e2_e3_ni
     (a.m_c[0]*b.m_c[5]-a.m_c[2]*b.m_c[3]+b.m_c[1]), // no_e1_e3_ni
     (a.m_c[0]*b.m_c[4]-a.m_c[1]*b.m_c[3]+b.m_c[0]) // no_e1_e2_ni
     );
 }
Beispiel #12
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 /// <summary>Returns outer product of normalizedPoint and flatPoint.
 /// </summary>
 public static line op(normalizedPoint a, flatPoint b)
 {
     return new line(line.coord_e1e2ni_e1e3ni_e2e3ni_e1noni_e2noni_e3noni,
     (a.m_c[0]*b.m_c[1]-a.m_c[1]*b.m_c[0]), // e1_e2_ni
     (a.m_c[0]*b.m_c[2]-a.m_c[2]*b.m_c[0]), // e1_e3_ni
     (a.m_c[1]*b.m_c[2]-a.m_c[2]*b.m_c[1]), // e2_e3_ni
     -(-a.m_c[0]*b.m_c[3]+b.m_c[0]), // e1_no_ni
     -(-a.m_c[1]*b.m_c[3]+b.m_c[1]), // e2_no_ni
     -(-a.m_c[2]*b.m_c[3]+b.m_c[2]) // e3_no_ni
     );
 }
Beispiel #13
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 /// <summary>Returns outer product of pointPair and normalizedPoint.
 /// </summary>
 public static circle op(pointPair a, normalizedPoint b)
 {
     return new circle(circle.coord_noe1e2_noe1e3_noe2e3_e1e2e3_noe1ni_noe2ni_e1e2ni_noe3ni_e1e3ni_e2e3ni,
     (a.m_c[0]*b.m_c[1]-a.m_c[1]*b.m_c[0]+a.m_c[2]), // no_e1_e2
     (a.m_c[0]*b.m_c[2]-a.m_c[3]*b.m_c[0]+a.m_c[4]), // no_e1_e3
     (a.m_c[1]*b.m_c[2]-a.m_c[3]*b.m_c[1]+a.m_c[5]), // no_e2_e3
     (a.m_c[2]*b.m_c[2]-a.m_c[4]*b.m_c[1]+a.m_c[5]*b.m_c[0]), // e1_e2_e3
     (a.m_c[0]*b.m_c[3]-a.m_c[6]*b.m_c[0]+a.m_c[7]), // no_e1_ni
     (a.m_c[1]*b.m_c[3]-a.m_c[6]*b.m_c[1]+a.m_c[8]), // no_e2_ni
     (a.m_c[2]*b.m_c[3]-a.m_c[7]*b.m_c[1]+a.m_c[8]*b.m_c[0]), // e1_e2_ni
     (a.m_c[3]*b.m_c[3]-a.m_c[6]*b.m_c[2]+a.m_c[9]), // no_e3_ni
     (a.m_c[4]*b.m_c[3]-a.m_c[7]*b.m_c[2]+a.m_c[9]*b.m_c[0]), // e1_e3_ni
     (a.m_c[5]*b.m_c[3]-a.m_c[8]*b.m_c[2]+a.m_c[9]*b.m_c[1]) // e2_e3_ni
     );
 }
Beispiel #14
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 /// <summary>Returns outer product of normalizedPoint and ni_t.
 /// </summary>
 public static flatPoint op(normalizedPoint a, ni_t b)
 {
     return new flatPoint(flatPoint.coord_e1ni_e2ni_e3ni_noni,
     a.m_c[0], // e1_ni
     a.m_c[1], // e2_ni
     a.m_c[2], // e3_ni
     1.0f // no_ni
     );
 }
Beispiel #15
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 /// <summary>shortcut to c3ga.op(this, b)
 /// </summary>
 public pointPair op(normalizedPoint b)
 {
     return(c3ga.op(this, b));
 }
Beispiel #16
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 /// <summary>
 /// Copy constructor.
 /// </summary>
 public normalizedPoint(normalizedPoint A)
 {
     Set(A);
 }
Beispiel #17
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 /// <summary>shortcut to c3ga.op(this, b)
 /// </summary>
 public pointPair op(normalizedPoint b)
 {
     return c3ga.op(this, b);
 }