| /*************************************************************************/ |
| /* */ |
| /* Copyright (c) 1994 Stanford University */ |
| /* */ |
| /* All rights reserved. */ |
| /* */ |
| /* Permission is given to use, copy, and modify this software for any */ |
| /* non-commercial purpose as long as this copyright notice is not */ |
| /* removed. All other uses, including redistribution in whole or in */ |
| /* part, are forbidden without prior written permission. */ |
| /* */ |
| /* This software is provided with absolutely no warranty and no */ |
| /* support. */ |
| /* */ |
| /*************************************************************************/ |
| |
| EXTERN_ENV |
| #include "mdvar.h" |
| #include "frcnst.h" |
| #include "water.h" |
| #include "wwpot.h" |
| #include "math.h" |
| #include "parameters.h" |
| #include "mddata.h" |
| #include "split.h" |
| #include "global.h" |
| |
| void POTENG(double *POTA, double *POTR, double *PTRF, long ProcID) |
| { |
| |
| /* |
| this routine calculates the potential energy of the system. |
| FC11 ,FC12, FC13, and FC33 are the quardratic force constants |
| */ |
| |
| long mol,comp; |
| long half_mol; |
| long KC, K; |
| double R1, R2, RX, COS, DT, DR1, DR2, DR1S, DR2S, DRP; |
| double XL[15], YL[15], ZL[15], RS[15], RL[15]; |
| double DTS; |
| double LPOTA, LPOTR, LPTRF; |
| double *tx_p, *ty_p, *tz_p; |
| |
| /* compute intra-molecular potential energy */ |
| LPOTA=0.0; |
| for (mol = StartMol[ProcID]; mol < StartMol[ProcID+1]; mol++) { |
| double dx1, dy1, dz1, dx2, dy2, dz2; |
| tx_p = VAR[mol].F[DISP][XDIR]; |
| ty_p = VAR[mol].F[DISP][YDIR]; |
| tz_p = VAR[mol].F[DISP][ZDIR]; |
| VAR[mol].VM[XDIR] = C1 * tx_p[ O] + |
| C2 * (tx_p[H1] + |
| tx_p[H2] ); |
| VAR[mol].VM[YDIR] = C1*ty_p[O] + |
| C2*(ty_p[H1] + |
| ty_p[H2] ); |
| VAR[mol].VM[ZDIR] = C1*tz_p[O] + |
| C2*(tz_p[H1] + |
| tz_p[H2] ); |
| dx1 = tx_p[O]-tx_p[H1]; |
| dy1 = ty_p[O]-ty_p[H1]; |
| dz1 = tz_p[O]-tz_p[H1]; |
| |
| dx2 = tx_p[O]-tx_p[H2]; |
| dy2 = ty_p[O]-ty_p[H2]; |
| dz2 = tz_p[O]-tz_p[H2]; |
| R1 = dx1*dx1 + dy1*dy1 + dz1*dz1; |
| R2 = dx2*dx2 + dy2*dy2 + dz2*dz2; |
| RX = dx1*dx2 + dy1*dy2 + dz1*dz2; |
| |
| R1=sqrt(R1); |
| R2=sqrt(R2); |
| COS=RX/(R1*R2); |
| DT=(acos(COS)-ANGLE)*ROH; |
| DR1=R1-ROH; |
| DR2=R2-ROH; |
| DR1S=DR1*DR1; |
| DR2S=DR2*DR2; |
| DRP=DR1+DR2; |
| DTS=DT*DT; |
| LPOTA += (FC11*(DR1S+DR2S)+FC33*DTS)*0.5 |
| +FC12*DR1*DR2+FC13*DRP*DT |
| +(FC111*(DR1S*DR1+DR2S*DR2)+FC333*DTS*DT+FC112*DRP*DR1*DR2+ |
| FC113*(DR1S+DR2S)*DT+FC123*DR1*DR2*DT+FC133*DRP*DTS)*ROHI; |
| LPOTA += (FC1111*(DR1S*DR1S+DR2S*DR2S)+FC3333*DTS*DTS+ |
| FC1112*(DR1S+DR2S)*DR1*DR2+FC1122*DR1S*DR2S+ |
| FC1113*(DR1S*DR1+DR2S*DR2)*DT+FC1123*DRP*DR1*DR2*DT+ |
| FC1133*(DR1S+DR2S)*DTS+FC1233*DR1*DR2*DTS+ |
| FC1333*DRP*DTS*DT)*ROHI2; |
| } /* for mol */ |
| |
| BARRIER(gl->PotengBar, NumProcs); |
| |
| /* compute inter-molecular potential energy */ |
| LPOTR=0.0; |
| LPTRF=0.0; |
| half_mol = NMOL/2; |
| for (mol = StartMol[ProcID]; mol < StartMol[ProcID+1]; mol++) { |
| long comp_last = mol + half_mol; |
| long icomp; |
| if (NMOL%2 == 0) { |
| if ((half_mol <= mol) && (mol%2 == 0)) { |
| comp_last--; |
| } |
| if ((mol < half_mol) && (comp_last%2 == 1)) { |
| comp_last--; |
| } |
| } |
| for (icomp = mol+1; icomp <= comp_last; icomp++) { |
| comp = icomp; |
| if (comp > NMOL1) comp = comp%NMOL; |
| CSHIFT(VAR[mol].F[DISP][XDIR],VAR[comp].F[DISP][XDIR], |
| VAR[mol].VM[XDIR], VAR[comp].VM[XDIR],XL,BOXH,BOXL); |
| CSHIFT(VAR[mol].F[DISP][YDIR],VAR[comp].F[DISP][YDIR], |
| VAR[mol].VM[YDIR], VAR[comp].VM[YDIR],YL,BOXH,BOXL); |
| CSHIFT(VAR[mol].F[DISP][ZDIR],VAR[comp].F[DISP][ZDIR], |
| VAR[mol].VM[ZDIR], VAR[comp].VM[ZDIR],ZL,BOXH,BOXL); |
| KC=0; |
| for (K = 0; K < 9; K++) { |
| RS[K]=XL[K]*XL[K]+YL[K]*YL[K]+ZL[K]*ZL[K]; |
| if (RS[K] > CUT2) |
| KC=KC+1; |
| } /* for k */ |
| if (KC != 9) { |
| for (K = 0; K < 9; K++) { |
| if (RS[K] <= CUT2) { |
| RL[K]=sqrt(RS[K]); |
| } |
| else { |
| RL[K]=CUTOFF; |
| RS[K]=CUT2; |
| } /* else */ |
| } /* for K */ |
| LPOTR= LPOTR-QQ2/RL[1]-QQ2/RL[2]-QQ2/RL[3]-QQ2/RL[4] |
| +QQ /RL[5]+QQ /RL[6]+QQ /RL[7]+QQ /RL[8] |
| +QQ4/RL[0]; |
| LPTRF= LPTRF-REF2*RS[0]-REF1*((RS[5]+RS[6]+RS[7]+RS[8])*0.5 |
| -RS[1]-RS[2]-RS[3]-RS[4]); |
| |
| if (KC <= 0) { |
| for (K = 9; K < 14; K++) { |
| RL[K]=sqrt(XL[K]*XL[K]+YL[K]*YL[K]+ZL[K]*ZL[K]); |
| } |
| LPOTR= LPOTR+A1* exp(-B1*RL[9]) |
| +A2*(exp(-B2*RL[ 5])+exp(-B2*RL[ 6]) |
| +exp(-B2*RL[ 7])+exp(-B2*RL[ 8])) |
| +A3*(exp(-B3*RL[10])+exp(-B3*RL[11]) |
| +exp(-B3*RL[12])+exp(-B3*RL[13])) |
| -A4*(exp(-B4*RL[10])+exp(-B4*RL[11]) |
| +exp(-B4*RL[12])+exp(-B4*RL[13])); |
| } /* if KC <= 0 */ |
| } /* if KC != 9 */ |
| } /* for comp */ |
| } /* for mol */ |
| |
| /* update shared sums from computed private sums */ |
| LOCK(gl->PotengSumLock); |
| *POTA = *POTA + LPOTA; |
| *POTR = *POTR + LPOTR; |
| *PTRF = *PTRF + LPTRF; |
| UNLOCK(gl->PotengSumLock); |
| } /* end of subroutine POTENG */ |