OpenMesh
NormalConeT_impl.hh
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41 
42 
43 //=============================================================================
44 //
45 // CLASS NormalConeT - IMPLEMENTATION
46 //
47 //=============================================================================
48 
49 #define OPENMESH_NORMALCONE_C
50 
51 //== INCLUDES =================================================================
52 
53 #include <math.h>
54 #include "NormalConeT.hh"
55 
56 #ifdef max
57 # undef max
58 #endif
59 
60 #ifdef min
61 # undef min
62 #endif
63 
64 
65 //== NAMESPACES ===============================================================
66 
67 
68 namespace OpenMesh {
69 
70 
71 //== IMPLEMENTATION ==========================================================
72 
73 template <typename Scalar>
75 NormalConeT(const Vec3& _center_normal, Scalar _angle)
76  : center_normal_(_center_normal), angle_(_angle)
77 {
78 }
79 
80 
81 //----------------------------------------------------------------------------
82 
83 
84 template <typename Scalar>
85 Scalar
87 max_angle(const Vec3& _norm) const
88 {
89  Scalar dotp = (center_normal_ | _norm);
90  return (dotp >= 1.0 ? 0.0 : (dotp <= -1.0 ? M_PI : acos(dotp)))
91  + angle_;
92 }
93 
94 
95 //----------------------------------------------------------------------------
96 
97 
98 template <typename Scalar>
99 Scalar
101 max_angle(const NormalConeT& _cone) const
102 {
103  Scalar dotp = (center_normal_ | _cone.center_normal_);
104  Scalar centerAngle = dotp >= 1.0 ? 0.0 : (dotp <= -1.0 ? M_PI : acos(dotp));
105  Scalar sideAngle0 = std::max(angle_-centerAngle, _cone.angle_);
106  Scalar sideAngle1 = std::max(_cone.angle_-centerAngle, angle_);
107 
108  return centerAngle + sideAngle0 + sideAngle1;
109 }
110 
111 
112 //----------------------------------------------------------------------------
113 
114 
115 template <typename Scalar>
116 void
118 merge(const NormalConeT& _cone)
119 {
120  Scalar dotp = (center_normal_ | _cone.center_normal_);
121 
122  if (fabs(dotp) < 0.99999f)
123  {
124  // new angle
125  Scalar centerAngle = acos(dotp);
126  Scalar minAngle = std::min(-angle(), centerAngle - _cone.angle());
127  Scalar maxAngle = std::max( angle(), centerAngle + _cone.angle());
128  angle_ = (maxAngle - minAngle) * Scalar(0.5f);
129 
130  // axis by SLERP
131  Scalar axisAngle = Scalar(0.5f) * (minAngle + maxAngle);
132  center_normal_ = ((center_normal_ * sin(centerAngle-axisAngle)
133  + _cone.center_normal_ * sin(axisAngle))
134  / sin(centerAngle));
135  }
136  else
137  {
138  // axes point in same direction
139  if (dotp > 0.0f)
140  angle_ = std::max(angle_, _cone.angle_);
141 
142  // axes point in opposite directions
143  else
144  angle_ = Scalar(2.0f * M_PI);
145  }
146 }
147 
148 
149 //=============================================================================
150 } // namespace OpenMesh
151 //=============================================================================
NormalConeT()
default constructor (not initialized)
Definition: NormalConeT.hh:90
void merge(const NormalConeT &)
merge _cone; this instance will then enclose both former cones
Definition: NormalConeT_impl.hh:118
Scalar max_angle(const Vec3 &) const
return max. distance (radians) unit vector to cone (distant side)
Definition: NormalConeT_impl.hh:87
Contains all the mesh ingredients like the polygonal mesh, the triangle mesh, different mesh kernels ...
Definition: MeshItems.hh:59
Scalar angle() const
returns size of cone (radius in radians)
Definition: NormalConeT.hh:108
/class NormalCone NormalCone.hh <ACG/Geometry/Types/NormalCone.hh>
Definition: NormalConeT.hh:81

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