src/primitives/Bend.cpp

#include "primitives/SRI.hpp"
#include "primitives/Atom.hpp"

#include <math.h>
#include <iostream>
#include <stdlib.h>

void Bend::set_atoms( Atom &a, Atom &b, Atom &c){

  c_p_a = &a;
  c_p_b = &b;
  c_p_c = &c;

  c_potential_E = 0.0;
}


void Bend::calc_forces(){
  
  double dx,dy,dz,gx,gy,gz,dx2,dy2,dz2,gx2,gy2,gz2;
  double rij2, rkj2, riji2, rkji2, dot, denom, cosang, angl;
  
  double sina2, sinai;

  double comf2, comf3, comf4;
  double dcsidx, dcsidy, dcsidz, dcskdx, dcskdy, dcskdz;
  // double dcsjdx, dcsjdy, dcsjdz;
  double dadxi, dadyi, dadzi;
  double dadxk, dadyk, dadzk;//, dadxj, dadyj, dadzj;
  double daxi, dayi, dazi, daxk, dayk, dazk, daxj, dayj, dazj;
  
  double aR[3], bR[3], cR[3];
  double aF[3], bF[3], cF[3];

  c_p_a->getPos( aR );
  c_p_b->getPos( bR );
  c_p_c->getPos( cR );
  

  dx = aR[0] - bR[0];
  dy = aR[1] - bR[1];
  dz = aR[2] - bR[2];
 
  gx = cR[0] - bR[0];
  gy = cR[1] - bR[1];
  gz = cR[2] - bR[2];
  
  dx2 = dx * dx;
  dy2 = dy * dy;
  dz2 = dz * dz;

  gx2 = gx * gx;
  gy2 = gy * gy;
  gz2 = gz * gz;
  
  rij2 = dx2 + dy2 + dz2;
  rkj2 = gx2 + gy2 + gz2;
  
  riji2 = 1.0 / rij2;
  rkji2 = 1.0 / rkj2;

  dot = dx * gx + dy * gy + dz * gz;
  denom = sqrt((riji2 * rkji2));
  cosang = dot * denom;

  if(cosang > 1.0)cosang = 1.0;
  if(cosang < -1.0) cosang = -1.0;

  angl = acos(cosang);
  angl = angl * 180.0 / M_PI;

  sina2 = 1.0 - cosang*cosang;
  if(fabs(sina2) < 1.0E-12 ) sina2 = 1.0E-12;
  sinai = 1.0 / sqrt(sina2);

  comf2 = cosang * riji2;
  comf3 = cosang * rkji2;
  comf4 = bend_force(angl);


  dcsidx = gx*denom - comf2*dx;
  dcsidy = gy*denom - comf2*dy;
  dcsidz = gz*denom - comf2*dz;
  
  dcskdx = dx*denom - comf3*gx;
  dcskdy = dy*denom - comf3*gy;
  dcskdz = dz*denom - comf3*gz;
  
//   dcsjdx = -dcsidx - dcskdx;
//   dcsjdy = -dcsidy - dcskdy;
//   dcsjdz = -dcsidz - dcskdz;

  dadxi = -sinai*dcsidx;
  dadyi = -sinai*dcsidy;
  dadzi = -sinai*dcsidz;

  dadxk = -sinai*dcskdx;
  dadyk = -sinai*dcskdy;
  dadzk = -sinai*dcskdz;

//   dadxj = -dadxi - dadxk;
//   dadyj = -dadyi - dadyk;
//   dadzj = -dadzi - dadzk;

  daxi = comf4*dadxi;
  dayi = comf4*dadyi;
  dazi = comf4*dadzi;

  daxk = comf4*dadxk;
  dayk = comf4*dadyk;
  dazk = comf4*dadzk;
  
  daxj = -daxi - daxk;
  dayj = -dayi - dayk;
  dazj = -dazi - dazk;
  
  aF[0] = daxi;
  aF[1] = dayi;
  aF[2] = dazi;

  bF[0] = daxj;
  bF[1] = dayj;
  bF[2] = dazj;

  cF[0] = daxk;
  cF[1] = dayk;
  cF[2] = dazk;

  c_p_a->addFrc(aF);
  c_p_b->addFrc(bF);
  c_p_c->addFrc(cF);

  return;
}
Revision:	3
Committed:	Fri Sep 24 16:27:58 2004 UTC (21 years, 1 month ago) by tim
File size:	2533 byte(s)
Log Message:	change the #include in source files
#	Content
1	#include "primitives/SRI.hpp"
2	#include "primitives/Atom.hpp"
3
4	#include <math.h>
5	#include <iostream>
6	#include <stdlib.h>
7
8	void Bend::set_atoms( Atom &a, Atom &b, Atom &c){
9
10	c_p_a = &a;
11	c_p_b = &b;
12	c_p_c = &c;
13
14	c_potential_E = 0.0;
15	}
16
17
18	void Bend::calc_forces(){
19
20	double dx,dy,dz,gx,gy,gz,dx2,dy2,dz2,gx2,gy2,gz2;
21	double rij2, rkj2, riji2, rkji2, dot, denom, cosang, angl;
22
23	double sina2, sinai;
24
25	double comf2, comf3, comf4;
26	double dcsidx, dcsidy, dcsidz, dcskdx, dcskdy, dcskdz;
27	// double dcsjdx, dcsjdy, dcsjdz;
28	double dadxi, dadyi, dadzi;
29	double dadxk, dadyk, dadzk;//, dadxj, dadyj, dadzj;
30	double daxi, dayi, dazi, daxk, dayk, dazk, daxj, dayj, dazj;
31
32	double aR[3], bR[3], cR[3];
33	double aF[3], bF[3], cF[3];
34
35	c_p_a->getPos( aR );
36	c_p_b->getPos( bR );
37	c_p_c->getPos( cR );
38
39
40	dx = aR[0] - bR[0];
41	dy = aR[1] - bR[1];
42	dz = aR[2] - bR[2];
43
44	gx = cR[0] - bR[0];
45	gy = cR[1] - bR[1];
46	gz = cR[2] - bR[2];
47
48	dx2 = dx * dx;
49	dy2 = dy * dy;
50	dz2 = dz * dz;
51
52	gx2 = gx * gx;
53	gy2 = gy * gy;
54	gz2 = gz * gz;
55
56	rij2 = dx2 + dy2 + dz2;
57	rkj2 = gx2 + gy2 + gz2;
58
59	riji2 = 1.0 / rij2;
60	rkji2 = 1.0 / rkj2;
61
62	dot = dx * gx + dy * gy + dz * gz;
63	denom = sqrt((riji2 * rkji2));
64	cosang = dot * denom;
65
66	if(cosang > 1.0)cosang = 1.0;
67	if(cosang < -1.0) cosang = -1.0;
68
69	angl = acos(cosang);
70	angl = angl * 180.0 / M_PI;
71
72	sina2 = 1.0 - cosang*cosang;
73	if(fabs(sina2) < 1.0E-12 ) sina2 = 1.0E-12;
74	sinai = 1.0 / sqrt(sina2);
75
76	comf2 = cosang * riji2;
77	comf3 = cosang * rkji2;
78	comf4 = bend_force(angl);
79
80
81	dcsidx = gxdenom - comf2dx;
82	dcsidy = gydenom - comf2dy;
83	dcsidz = gzdenom - comf2dz;
84
85	dcskdx = dxdenom - comf3gx;
86	dcskdy = dydenom - comf3gy;
87	dcskdz = dzdenom - comf3gz;
88
89	// dcsjdx = -dcsidx - dcskdx;
90	// dcsjdy = -dcsidy - dcskdy;
91	// dcsjdz = -dcsidz - dcskdz;
92
93	dadxi = -sinai*dcsidx;
94	dadyi = -sinai*dcsidy;
95	dadzi = -sinai*dcsidz;
96
97	dadxk = -sinai*dcskdx;
98	dadyk = -sinai*dcskdy;
99	dadzk = -sinai*dcskdz;
100
101	// dadxj = -dadxi - dadxk;
102	// dadyj = -dadyi - dadyk;
103	// dadzj = -dadzi - dadzk;
104
105	daxi = comf4*dadxi;
106	dayi = comf4*dadyi;
107	dazi = comf4*dadzi;
108
109	daxk = comf4*dadxk;
110	dayk = comf4*dadyk;
111	dazk = comf4*dadzk;
112
113	daxj = -daxi - daxk;
114	dayj = -dayi - dayk;
115	dazj = -dazi - dazk;
116
117	aF[0] = daxi;
118	aF[1] = dayi;
119	aF[2] = dazi;
120
121	bF[0] = daxj;
122	bF[1] = dayj;
123	bF[2] = dazj;
124
125	cF[0] = daxk;
126	cF[1] = dayk;
127	cF[2] = dazk;
128
129	c_p_a->addFrc(aF);
130	c_p_b->addFrc(bF);
131	c_p_c->addFrc(cF);
132
133	return;
134	}