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47 void calc_force(int natom,rvec f[],rvec fff[])
50 int jindex[] = { 0, 5, 10};
54 for(j=0; (j<2); j++) {
56 for(i=jindex[j]; (i<jindex[j+1]); i++) {
57 for(m=0; (m<DIM); m++) {
63 msf1 = iprod(fff[0],fff[0]);
64 msf2 = iprod(fff[1],fff[1]);
66 pr_rvecs(debug,0,"force",f,natom);
68 fprintf(debug,"FMOL: %10.3f %10.3f %10.3f %10.3f %10.3f %10.3f\n",
69 fff[0][XX],fff[0][YY],fff[0][ZZ],fff[1][XX],fff[1][YY],fff[1][ZZ]);
70 fprintf(debug,"RMSF: %10.3e %10.3e\n",msf1,msf2);
75 void calc_f_dev(int natoms,real charge[],rvec x[],rvec f[],
76 t_idef *idef,real *xiH,real *xiS)
78 enum { wwwO, wwwH1, wwwH2, wwwS, wwwNR };
79 int lj_index[wwwNR] = { 0, 4, 4, 8 };
80 real rmsf,dFH,dFS,dFO,dr_14;
81 real q[wwwNR],c6[wwwNR],c12[wwwNR],c12ratio;
85 for(i=0; (i<wwwNR); i++) {
87 c12[i] = idef->iparams[lj_index[i]].lj.c12;
88 c6[i] = idef->iparams[lj_index[i]].lj.c6;
91 calc_force(natoms,f,fff);
96 for(i=0; (i<4); i++) {
97 for(j=4; (j<8); j++) {
99 rvec_sub(x[i],x[j],dx);
101 dr_14 = pow(iprod(dx,dx),-7);
102 c12ratio = -12*sqrt(c12[aj]/c12[i])*dr_14*iprod(fff[0],dx);
121 fprintf(debug,"FFF: dFS=%10.3e, dFH=%10.3e, dFO=%10.3e, rmsf=%10.3e\n",
127 *xiH=rmsf/(10*c12[wwwH1]*dFH);
132 *xiS=rmsf/(10*c12[wwwS]*dFS);