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root/OpenMD/trunk/src/primitives/Torsion.cpp
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Comparing trunk/src/primitives/Torsion.cpp (file contents):
Revision 692 by tim, Thu Oct 20 20:27:34 2005 UTC vs.
Revision 749 by tim, Wed Nov 16 23:10:02 2005 UTC

# Line 47 | Line 47 | namespace oopse {
47                     TorsionType *tt) :
48      atom1_(atom1), atom2_(atom2), atom3_(atom3), atom4_(atom4), torsionType_(tt) { }
49  
50 <  void Torsion::calcForce() {
50 >  void Torsion::calcForce(double& angle) {
51 >
52      Vector3d pos1 = atom1_->getPos();
53      Vector3d pos2 = atom2_->getPos();
54      Vector3d pos3 = atom3_->getPos();
# Line 71 | Line 72 | namespace oopse {
72      
73      //  Calculate the sin and cos
74      double cos_phi = dot(A, B) ;
75 <    double sin_phi = dot(C, B);
75 >    if (cos_phi > 1.0) cos_phi = 1.0;
76 >    if (cos_phi < -1.0) cos_phi = -1.0;
77  
78 <    double dVdPhi;
79 <    torsionType_->calcForce(cos_phi, sin_phi, potential_, dVdPhi);
78 <
78 >    double dVdcosPhi;
79 >    torsionType_->calcForce(cos_phi, potential_, dVdcosPhi);
80      Vector3d f1;
81      Vector3d f2;
82      Vector3d f3;
83  
83    if (fabs(sin_phi) > 0.5) {
84    //use the sin version to  prevent potential singularities
85
84      Vector3d dcosdA = (cos_phi * A - B) /rA;
85      Vector3d dcosdB = (cos_phi * B - A) /rB;
86  
89    double dVdcosPhi = -dVdPhi / sin_phi;
90
87      f1 = dVdcosPhi * cross(r32, dcosdA);
88      f2 = dVdcosPhi * ( cross(r43, dcosdB) - cross(r21, dcosdA));
89      f3 = dVdcosPhi * cross(dcosdB, r32);
90 <
95 <    } else {
96 <    //use the cos version to  prevent potential singularities
97 <
98 <    double dVdsinPhi = dVdPhi /cos_phi;
99 <    Vector3d dsindB = (sin_phi * B - C) /rB;
100 <    Vector3d dsindC = (sin_phi * C - B) /rC;
101 <
102 <    f1.x() = dVdsinPhi*((r32.y()*r32.y() + r32.z()*r32.z())*dsindC.x() - r32.x()*r32.y()*dsindC.y() - r32.x()*r32.z()*dsindC.z());
103 <
104 <    f1.y() = dVdsinPhi*((r32.z()*r32.z() + r32.x()*r32.x())*dsindC.y() - r32.y()*r32.z()*dsindC.z() - r32.y()*r32.x()*dsindC.x());
105 <
106 <    f1.z() = dVdsinPhi*((r32.x()*r32.x() + r32.y()*r32.y())*dsindC.z() - r32.z()*r32.x()*dsindC.x() - r32.z()*r32.y()*dsindC.y());
107 <
108 <    f2.x() = dVdsinPhi*(-(r32.y()*r21.y() + r32.z()*r21.z())*dsindC.x() + (2.0*r32.x()*r21.y() - r21.x()*r32.y())*dsindC.y()
109 <    + (2.0*r32.x()*r21.z() - r21.x()*r32.z())*dsindC.z() + dsindB.z()*r43.y() - dsindB.y()*r43.z());
110 <
111 <    f2.y() = dVdsinPhi*(-(r32.z()*r21.z() + r32.x()*r21.x())*dsindC.y() + (2.0*r32.y()*r21.z() - r21.y()*r32.z())*dsindC.z()
112 <    + (2.0*r32.y()*r21.x() - r21.y()*r32.x())*dsindC.x() + dsindB.x()*r43.z() - dsindB.z()*r43.x());
113 <
114 <    f2.z() = dVdsinPhi*(-(r32.x()*r21.x() + r32.y()*r21.y())*dsindC.z() + (2.0*r32.z()*r21.x() - r21.z()*r32.x())*dsindC.x()
115 <    +(2.0*r32.z()*r21.y() - r21.z()*r32.y())*dsindC.y() + dsindB.y()*r43.x() - dsindB.x()*r43.y());
116 <
117 <    f3 = dVdsinPhi * cross(dsindB, r32);
118 <    }
119 <
90 >    
91      atom1_->addFrc(f1);
92      atom2_->addFrc(f2 - f1);
93      atom3_->addFrc(f3 - f2);
94      atom4_->addFrc(-f3);
95 +    angle = acos(cos_phi) /M_PI * 180.0;
96    }
97  
98   }

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