[ViewVC] Diff of: group/trunk/OOPSE-4/src/UseTheForce/doForces.F90

Comparing trunk/OOPSE-4/src/UseTheForce/doForces.F90 (file contents):
Revision 2717 by gezelter, Mon Apr 17 21:49:12 2006 UTC vs.
Revision 3126 by gezelter, Fri Apr 6 21:53:43 2007 UTC

#	Line 45 \| Line 45
45
46		!! @author Charles F. Vardeman II
47		!! @author Matthew Meineke
48	<	!! @version $Id: doForces.F90,v 1.78 2006-04-17 21:49:12 gezelter Exp $, $Date: 2006-04-17 21:49:12 $, $Name: not supported by cvs2svn $, $Revision: 1.78 $
48	>	!! @version $Id: doForces.F90,v 1.85 2007-04-06 21:53:41 gezelter Exp $, $Date: 2007-04-06 21:53:41 $, $Name: not supported by cvs2svn $, $Revision: 1.85 $
49
50
51		module doForces
#	Line 64 \| Line 64 \| module doForces
64		use eam
65		use suttonchen
66		use status
67	–	use interpolation
67		#ifdef IS_MPI
68		use mpiSimulation
69		#endif
#	Line 73 \| Line 72 \| module doForces
72		PRIVATE
73
74		#define __FORTRAN90
76	–	#include "UseTheForce/fSwitchingFunction.h"
75		#include "UseTheForce/fCutoffPolicy.h"
76		#include "UseTheForce/DarkSide/fInteractionMap.h"
77		#include "UseTheForce/DarkSide/fElectrostaticSummationMethod.h"
78
81	–
79		INTEGER, PARAMETER:: PREPAIR_LOOP = 1
80		INTEGER, PARAMETER:: PAIR_LOOP = 2
81
#	Line 92 \| Line 89 \| module doForces
89		logical, save :: haveElectrostaticSummationMethod = .false.
90		logical, save :: haveCutoffPolicy = .false.
91		logical, save :: VisitCutoffsAfterComputing = .false.
92	+	logical, save :: do_box_dipole = .false.
93
94		logical, save :: FF_uses_DirectionalAtoms
95		logical, save :: FF_uses_Dipoles
#	Line 108 \| Line 106 \| module doForces
106		logical, save :: SIM_requires_postpair_calc
107		logical, save :: SIM_requires_prepair_calc
108		logical, save :: SIM_uses_PBC
109	+	logical, save :: SIM_uses_AtomicVirial
110
111		integer, save :: electrostaticSummationMethod
112		integer, save :: cutoffPolicy = TRADITIONAL_CUTOFF_POLICY
#	Line 120 \| Line 119 \| module doForces
119		public :: setCutoffs
120		public :: cWasLame
121		public :: setElectrostaticMethod
122	+	public :: setBoxDipole
123	+	public :: getBoxDipole
124		public :: setCutoffPolicy
125		public :: setSkinThickness
126		public :: do_force_loop
#	Line 150 \| Line 151 \| contains
151		end type gtypeCutoffs
152		type(gtypeCutoffs), dimension(:,:), allocatable :: gtypeCutoffMap
153
154	+	real(kind=dp), dimension(3) :: boxDipole
155	+
156		contains
157
158		subroutine createInteractionHash()
#	Line 425 \| Line 428 \| contains
428		!! largest cutoff for any atypes present in this group. We also
429		!! create gtypes at this point.
430
431	<	tol = 1.0d-6
431	>	tol = 1.0e-6_dp
432		nGroupTypesRow = 0
433		nGroupTypesCol = 0
434		do i = istart, iend
#	Line 581 \| Line 584 \| contains
584		defaultDoShift = .true.
585
586		endif
587	<
587	>
588		localError = 0
589		call setLJDefaultCutoff( defaultRcut, defaultDoShift )
590		call setElectrostaticCutoffRadius( defaultRcut, defaultRsw )
591		call setCutoffEAM( defaultRcut )
592		call setCutoffSC( defaultRcut )
593	<	call set_switch(GROUP_SWITCH, defaultRsw, defaultRcut)
593	>	call set_switch(defaultRsw, defaultRcut)
594		call setHmatDangerousRcutValue(defaultRcut)
595	<
595	>
596		haveDefaultCutoffs = .true.
597		haveGtypeCutoffMap = .false.
598	+
599		end subroutine setCutoffs
600
601		subroutine cWasLame()
#	Line 610 \| Line 614 \| contains
614		haveGtypeCutoffMap = .false.
615
616		end subroutine setCutoffPolicy
617	<
617	>
618	>	subroutine setBoxDipole()
619	>
620	>	do_box_dipole = .true.
621	>
622	>	end subroutine setBoxDipole
623	>
624	>	subroutine getBoxDipole( box_dipole )
625	>
626	>	real(kind=dp), intent(inout), dimension(3) :: box_dipole
627	>
628	>	box_dipole = boxDipole
629	>
630	>	end subroutine getBoxDipole
631	>
632		subroutine setElectrostaticMethod( thisESM )
633
634		integer, intent(in) :: thisESM
#	Line 637 \| Line 655 \| contains
655		SIM_requires_prepair_calc = SimRequiresPrepairCalc()
656		SIM_uses_PBC = SimUsesPBC()
657		SIM_uses_SC = SimUsesSC()
658	<
658	>	SIM_uses_AtomicVirial = SimUsesAtomicVirial()
659	>
660		haveSIMvariables = .true.
661
662		return
#	Line 645 \| Line 664 \| contains
664
665		subroutine doReadyCheck(error)
666		integer, intent(out) :: error
648	–
667		integer :: myStatus
668
669		error = 0
#	Line 658 \| Line 676 \| contains
676		call createGtypeCutoffMap()
677		endif
678
661	–
679		if (VisitCutoffsAfterComputing) then
680	<	call set_switch(GROUP_SWITCH, largestRcut, largestRcut)
680	>	call set_switch(largestRcut, largestRcut)
681		call setHmatDangerousRcutValue(largestRcut)
665	–	call setLJsplineRmax(largestRcut)
682		call setCutoffEAM(largestRcut)
683		call setCutoffSC(largestRcut)
684		VisitCutoffsAfterComputing = .false.
685		endif
686
671	–
687		if (.not. haveSIMvariables) then
688		call setSimVariables()
689		endif
675	–
676	–	! if (.not. haveRlist) then
677	–	! write(default_error, *) 'rList has not been set in doForces!'
678	–	! error = -1
679	–	! return
680	–	! endif
690
691		if (.not. haveNeighborList) then
692		write(default_error, *) 'neighbor list has not been initialized in doForces!'
693		error = -1
694		return
695		end if
696	<
696	>
697		if (.not. haveSaneForceField) then
698		write(default_error, *) 'Force Field is not sane in doForces!'
699		error = -1
700		return
701		end if
702	<
702	>
703		#ifdef IS_MPI
704		if (.not. isMPISimSet()) then
705		write(default_error,*) "ERROR: mpiSimulation has not been initialized!"
#	Line 806 \| Line 815 \| contains
815		integer :: istart, iend
816		integer :: ia, jb, atom1, atom2
817		integer :: nlist
818	<	real( kind = DP ) :: ratmsq, rgrpsq, rgrp, vpair, vij
818	>	real( kind = DP ) :: ratmsq, rgrpsq, rgrp, rag, vpair, vij
819		real( kind = DP ) :: sw, dswdr, swderiv, mf
820		real( kind = DP ) :: rVal
821	<	real(kind=dp),dimension(3) :: d_atm, d_grp, fpair, fij
822	<	real(kind=dp) :: rfpot, mu_i, virial
821	>	real(kind=dp),dimension(3) :: d_atm, d_grp, fpair, fij, fg, dag
822	>	real(kind=dp) :: rfpot, mu_i
823		real(kind=dp):: rCut
824		integer :: me_i, me_j, n_in_i, n_in_j
825		logical :: is_dp_i
#	Line 821 \| Line 830 \| contains
830		integer :: loopStart, loopEnd, loop
831		integer :: iHash
832		integer :: i1
824	–
833
834	+	!! the variables for the box dipole moment
835	+	#ifdef IS_MPI
836	+	integer :: pChgCount_local
837	+	integer :: nChgCount_local
838	+	real(kind=dp) :: pChg_local
839	+	real(kind=dp) :: nChg_local
840	+	real(kind=dp), dimension(3) :: pChgPos_local
841	+	real(kind=dp), dimension(3) :: nChgPos_local
842	+	real(kind=dp), dimension(3) :: dipVec_local
843	+	#endif
844	+	integer :: pChgCount
845	+	integer :: nChgCount
846	+	real(kind=dp) :: pChg
847	+	real(kind=dp) :: nChg
848	+	real(kind=dp) :: chg_value
849	+	real(kind=dp), dimension(3) :: pChgPos
850	+	real(kind=dp), dimension(3) :: nChgPos
851	+	real(kind=dp), dimension(3) :: dipVec
852	+	real(kind=dp), dimension(3) :: chgVec
853	+
854	+	!! initialize box dipole variables
855	+	if (do_box_dipole) then
856	+	#ifdef IS_MPI
857	+	pChg_local = 0.0_dp
858	+	nChg_local = 0.0_dp
859	+	pChgCount_local = 0
860	+	nChgCount_local = 0
861	+	do i=1, 3
862	+	pChgPos_local = 0.0_dp
863	+	nChgPos_local = 0.0_dp
864	+	dipVec_local = 0.0_dp
865	+	enddo
866	+	#endif
867	+	pChg = 0.0_dp
868	+	nChg = 0.0_dp
869	+	pChgCount = 0
870	+	nChgCount = 0
871	+	chg_value = 0.0_dp
872	+
873	+	do i=1, 3
874	+	pChgPos(i) = 0.0_dp
875	+	nChgPos(i) = 0.0_dp
876	+	dipVec(i) = 0.0_dp
877	+	chgVec(i) = 0.0_dp
878	+	boxDipole(i) = 0.0_dp
879	+	enddo
880	+	endif
881	+
882		!! initialize local variables
883
884		#ifdef IS_MPI
#	Line 968 \| Line 1024 \| contains
1024
1025		list(nlist) = j
1026		endif
1027	<
972	<
973	<
1027	>
1028		if (rgrpsq < gtypeCutoffMap(groupToGtypeRow(i),groupToGtypeCol(j))%rCutsq) then
1029
1030		rCut = gtypeCutoffMap(groupToGtypeRow(i),groupToGtypeCol(j))%rCut
1031		if (loop .eq. PAIR_LOOP) then
1032	<	vij = 0.0d0
1032	>	vij = 0.0_dp
1033		fij(1) = 0.0_dp
1034		fij(2) = 0.0_dp
1035		fij(3) = 0.0_dp
1036		endif
1037
1038	<	call get_switch(rgrpsq, sw, dswdr, rgrp, &
985	<	group_switch, in_switching_region)
1038	>	call get_switch(rgrpsq, sw, dswdr,rgrp, in_switching_region)
1039
1040		n_in_j = groupStartCol(j+1) - groupStartCol(j)
1041
#	Line 1035 \| Line 1088 \| contains
1088		fij(1) = fij(1) + fpair(1)
1089		fij(2) = fij(2) + fpair(2)
1090		fij(3) = fij(3) + fpair(3)
1091	+	if (do_stress.and.SIM_uses_AtomicVirial) then
1092	+	call add_stress_tensor(d_atm, fpair, tau)
1093	+	endif
1094		endif
1095		enddo inner
1096		enddo
#	Line 1049 \| Line 1105 \| contains
1105		do ia=groupStartRow(i), groupStartRow(i+1)-1
1106		atom1=groupListRow(ia)
1107		mf = mfactRow(atom1)
1108	+	! fg is the force on atom ia due to cutoff group's
1109	+	! presence in switching region
1110	+	fg = swderivd_grpmf
1111		#ifdef IS_MPI
1112	<	f_Row(1,atom1) = f_Row(1,atom1) + swderivd_grp(1)mf
1113	<	f_Row(2,atom1) = f_Row(2,atom1) + swderivd_grp(2)mf
1114	<	f_Row(3,atom1) = f_Row(3,atom1) + swderivd_grp(3)mf
1112	>	f_Row(1,atom1) = f_Row(1,atom1) + fg(1)
1113	>	f_Row(2,atom1) = f_Row(2,atom1) + fg(2)
1114	>	f_Row(3,atom1) = f_Row(3,atom1) + fg(3)
1115		#else
1116	<	f(1,atom1) = f(1,atom1) + swderivd_grp(1)mf
1117	<	f(2,atom1) = f(2,atom1) + swderivd_grp(2)mf
1118	<	f(3,atom1) = f(3,atom1) + swderivd_grp(3)mf
1116	>	f(1,atom1) = f(1,atom1) + fg(1)
1117	>	f(2,atom1) = f(2,atom1) + fg(2)
1118	>	f(3,atom1) = f(3,atom1) + fg(3)
1119	>	#endif
1120	>	if (do_stress.and.SIM_uses_AtomicVirial) then
1121	>	! find the distance between the atom and the center of
1122	>	! the cutoff group:
1123	>	#ifdef IS_MPI
1124	>	call get_interatomic_vector(q_Row(:,atom1), &
1125	>	q_group_Row(:,i), dag, rag)
1126	>	#else
1127	>	call get_interatomic_vector(q(:,atom1), &
1128	>	q_group(:,i), dag, rag)
1129		#endif
1130	+	call add_stress_tensor(dag,fg,tau)
1131	+	endif
1132		enddo
1133
1134		do jb=groupStartCol(j), groupStartCol(j+1)-1
1135		atom2=groupListCol(jb)
1136		mf = mfactCol(atom2)
1137	+	! fg is the force on atom jb due to cutoff group's
1138	+	! presence in switching region
1139	+	fg = -swderivd_grpmf
1140		#ifdef IS_MPI
1141	<	f_Col(1,atom2) = f_Col(1,atom2) - swderivd_grp(1)mf
1142	<	f_Col(2,atom2) = f_Col(2,atom2) - swderivd_grp(2)mf
1143	<	f_Col(3,atom2) = f_Col(3,atom2) - swderivd_grp(3)mf
1141	>	f_Col(1,atom2) = f_Col(1,atom2) + fg(1)
1142	>	f_Col(2,atom2) = f_Col(2,atom2) + fg(2)
1143	>	f_Col(3,atom2) = f_Col(3,atom2) + fg(3)
1144		#else
1145	<	f(1,atom2) = f(1,atom2) - swderivd_grp(1)mf
1146	<	f(2,atom2) = f(2,atom2) - swderivd_grp(2)mf
1147	<	f(3,atom2) = f(3,atom2) - swderivd_grp(3)mf
1145	>	f(1,atom2) = f(1,atom2) + fg(1)
1146	>	f(2,atom2) = f(2,atom2) + fg(2)
1147	>	f(3,atom2) = f(3,atom2) + fg(3)
1148		#endif
1149	+	if (do_stress.and.SIM_uses_AtomicVirial) then
1150	+	! find the distance between the atom and the center of
1151	+	! the cutoff group:
1152	+	#ifdef IS_MPI
1153	+	call get_interatomic_vector(q_Col(:,atom2), &
1154	+	q_group_Col(:,j), dag, rag)
1155	+	#else
1156	+	call get_interatomic_vector(q(:,atom2), &
1157	+	q_group(:,j), dag, rag)
1158	+	#endif
1159	+	call add_stress_tensor(dag,fg,tau)
1160	+	endif
1161	+
1162		enddo
1163		endif
1164	<
1165	<	if (do_stress) call add_stress_tensor(d_grp, fij)
1164	>	if (do_stress.and.(.not.SIM_uses_AtomicVirial)) then
1165	>	call add_stress_tensor(d_grp, fij, tau)
1166	>	endif
1167		endif
1168		endif
1169		endif
#	Line 1195 \| Line 1283 \| contains
1283
1284		! prevent overcounting of the skips
1285		if (i.lt.j) then
1286	<	call get_interatomic_vector(q(:,i), &
1287	<	q(:,j), d_atm, ratmsq)
1288	<	rVal = dsqrt(ratmsq)
1201	<	call get_switch(ratmsq, sw, dswdr, rVal, group_switch, &
1202	<	in_switching_region)
1286	>	call get_interatomic_vector(q(:,i), q(:,j), d_atm, ratmsq)
1287	>	rVal = sqrt(ratmsq)
1288	>	call get_switch(ratmsq, sw, dswdr, rVal,in_switching_region)
1289		#ifdef IS_MPI
1290		call rf_self_excludes(i, j, sw, eFrame, d_atm, rVal, &
1291		vpair, pot_local(ELECTROSTATIC_POT), f, t, do_pot)
#	Line 1210 \| Line 1296 \| contains
1296		endif
1297		enddo
1298		endif
1299	+
1300	+	if (do_box_dipole) then
1301	+	#ifdef IS_MPI
1302	+	call accumulate_box_dipole(i, eFrame, q(:,i), pChg_local, &
1303	+	nChg_local, pChgPos_local, nChgPos_local, dipVec_local, &
1304	+	pChgCount_local, nChgCount_local)
1305	+	#else
1306	+	call accumulate_box_dipole(i, eFrame, q(:,i), pChg, nChg, &
1307	+	pChgPos, nChgPos, dipVec, pChgCount, nChgCount)
1308	+	#endif
1309	+	endif
1310		enddo
1311		endif
1312	<
1312	>
1313		#ifdef IS_MPI
1217	–
1314		if (do_pot) then
1315	<	call mpi_allreduce(pot_local, pot, LR_POT_TYPES,mpi_double_precision,mpi_sum, &
1315	>	#ifdef SINGLE_PRECISION
1316	>	call mpi_allreduce(pot_local, pot, LR_POT_TYPES,mpi_real,mpi_sum, &
1317		mpi_comm_world,mpi_err)
1318	+	#else
1319	+	call mpi_allreduce(pot_local, pot, LR_POT_TYPES,mpi_double_precision, &
1320	+	mpi_sum, mpi_comm_world,mpi_err)
1321	+	#endif
1322		endif
1323	<
1324	<	if (do_stress) then
1325	<	call mpi_allreduce(tau_Temp, tau, 9,mpi_double_precision,mpi_sum, &
1326	<	mpi_comm_world,mpi_err)
1327	<	call mpi_allreduce(virial_Temp, virial,1,mpi_double_precision,mpi_sum, &
1328	<	mpi_comm_world,mpi_err)
1329	<	endif
1330	<
1323	>
1324	>	if (do_box_dipole) then
1325	>
1326	>	#ifdef SINGLE_PRECISION
1327	>	call mpi_allreduce(pChg_local, pChg, 1, mpi_real, mpi_sum, &
1328	>	mpi_comm_world, mpi_err)
1329	>	call mpi_allreduce(nChg_local, nChg, 1, mpi_real, mpi_sum, &
1330	>	mpi_comm_world, mpi_err)
1331	>	call mpi_allreduce(pChgCount_local, pChgCount, 1, mpi_integer, mpi_sum,&
1332	>	mpi_comm_world, mpi_err)
1333	>	call mpi_allreduce(nChgCount_local, nChgCount, 1, mpi_integer, mpi_sum,&
1334	>	mpi_comm_world, mpi_err)
1335	>	call mpi_allreduce(pChgPos_local, pChgPos, 3, mpi_real, mpi_sum, &
1336	>	mpi_comm_world, mpi_err)
1337	>	call mpi_allreduce(nChgPos_local, nChgPos, 3, mpi_real, mpi_sum, &
1338	>	mpi_comm_world, mpi_err)
1339	>	call mpi_allreduce(dipVec_local, dipVec, 3, mpi_real, mpi_sum, &
1340	>	mpi_comm_world, mpi_err)
1341		#else
1342	<
1343	<	if (do_stress) then
1344	<	tau = tau_Temp
1345	<	virial = virial_Temp
1342	>	call mpi_allreduce(pChg_local, pChg, 1, mpi_double_precision, mpi_sum, &
1343	>	mpi_comm_world, mpi_err)
1344	>	call mpi_allreduce(nChg_local, nChg, 1, mpi_double_precision, mpi_sum, &
1345	>	mpi_comm_world, mpi_err)
1346	>	call mpi_allreduce(pChgCount_local, pChgCount, 1, mpi_integer,&
1347	>	mpi_sum, mpi_comm_world, mpi_err)
1348	>	call mpi_allreduce(nChgCount_local, nChgCount, 1, mpi_integer,&
1349	>	mpi_sum, mpi_comm_world, mpi_err)
1350	>	call mpi_allreduce(pChgPos_local, pChgPos, 3, mpi_double_precision, &
1351	>	mpi_sum, mpi_comm_world, mpi_err)
1352	>	call mpi_allreduce(nChgPos_local, nChgPos, 3, mpi_double_precision, &
1353	>	mpi_sum, mpi_comm_world, mpi_err)
1354	>	call mpi_allreduce(dipVec_local, dipVec, 3, mpi_double_precision, &
1355	>	mpi_sum, mpi_comm_world, mpi_err)
1356	>	#endif
1357	>
1358		endif
1359
1360		#endif
1361	<
1361	>
1362	>	if (do_box_dipole) then
1363	>	! first load the accumulated dipole moment (if dipoles were present)
1364	>	boxDipole(1) = dipVec(1)
1365	>	boxDipole(2) = dipVec(2)
1366	>	boxDipole(3) = dipVec(3)
1367	>
1368	>	! now include the dipole moment due to charges
1369	>	! use the lesser of the positive and negative charge totals
1370	>	if (nChg .le. pChg) then
1371	>	chg_value = nChg
1372	>	else
1373	>	chg_value = pChg
1374	>	endif
1375	>
1376	>	! find the average positions
1377	>	if (pChgCount .gt. 0 .and. nChgCount .gt. 0) then
1378	>	pChgPos = pChgPos / pChgCount
1379	>	nChgPos = nChgPos / nChgCount
1380	>	endif
1381	>
1382	>	! dipole is from the negative to the positive (physics notation)
1383	>	chgVec(1) = pChgPos(1) - nChgPos(1)
1384	>	chgVec(2) = pChgPos(2) - nChgPos(2)
1385	>	chgVec(3) = pChgPos(3) - nChgPos(3)
1386	>
1387	>	boxDipole(1) = boxDipole(1) + chgVec(1) * chg_value
1388	>	boxDipole(2) = boxDipole(2) + chgVec(2) * chg_value
1389	>	boxDipole(3) = boxDipole(3) + chgVec(3) * chg_value
1390	>
1391	>	endif
1392	>
1393		end subroutine do_force_loop
1394
1395		subroutine do_pair(i, j, rijsq, d, sw, do_pot, &
#	Line 1258 \| Line 1412 \| contains
1412		real ( kind = dp ), intent(inout) :: d_grp(3)
1413		real ( kind = dp ), intent(inout) :: rCut
1414		real ( kind = dp ) :: r
1415	+	real ( kind = dp ) :: a_k, b_k, c_k, d_k, dx
1416		integer :: me_i, me_j
1417	+	integer :: k
1418
1419		integer :: iHash
1420
1421		r = sqrt(rijsq)
1422	<	vpair = 0.0d0
1423	<	fpair(1:3) = 0.0d0
1422	>
1423	>	vpair = 0.0_dp
1424	>	fpair(1:3) = 0.0_dp
1425
1426		#ifdef IS_MPI
1427		me_i = atid_row(i)
#	Line 1302 \| Line 1459 \| contains
1459		endif
1460
1461		if ( iand(iHash, GAYBERNE_LJ).ne.0 ) then
1462	<	call do_gb_lj_pair(i, j, d, r, rijsq, rcut, sw, vpair, fpair, &
1462	>	call do_gb_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1463		pot(VDW_POT), A, f, t, do_pot)
1464		endif
1465
#	Line 1325 \| Line 1482 \| contains
1482		call do_SC_pair(i, j, d, r, rijsq, rcut, sw, vpair, fpair, &
1483		pot(METALLIC_POT), f, do_pot)
1484		endif
1328	–
1329	–
1485
1486		end subroutine do_pair
1487
#	Line 1349 \| Line 1504 \| contains
1504		integer :: me_i, me_j, iHash
1505
1506		r = sqrt(rijsq)
1507	<
1507	>
1508		#ifdef IS_MPI
1509		me_i = atid_row(i)
1510		me_j = atid_col(j)
#	Line 1381 \| Line 1536 \| contains
1536		if (FF_uses_SC .and. SIM_uses_SC) then
1537		call calc_SC_preforce_Frho(nlocal,pot(METALLIC_POT))
1538		endif
1384	–
1385	–
1539		end subroutine do_preforce
1540
1541
#	Line 1403 \| Line 1556 \| contains
1556
1557		if( .not.boxIsOrthorhombic ) then
1558		! calc the scaled coordinates.
1559	+	! scaled = matmul(HmatInv, d)
1560
1561	<	scaled = matmul(HmatInv, d)
1562	<
1561	>	scaled(1) = HmatInv(1,1)d(1) + HmatInv(1,2)d(2) + HmatInv(1,3)*d(3)
1562	>	scaled(2) = HmatInv(2,1)d(1) + HmatInv(2,2)d(2) + HmatInv(2,3)*d(3)
1563	>	scaled(3) = HmatInv(3,1)d(1) + HmatInv(3,2)d(2) + HmatInv(3,3)*d(3)
1564	>
1565		! wrap the scaled coordinates
1566
1567	<	scaled = scaled - anint(scaled)
1567	>	scaled(1) = scaled(1) - anint(scaled(1), kind=dp)
1568	>	scaled(2) = scaled(2) - anint(scaled(2), kind=dp)
1569	>	scaled(3) = scaled(3) - anint(scaled(3), kind=dp)
1570
1413	–
1571		! calc the wrapped real coordinates from the wrapped scaled
1572		! coordinates
1573	+	! d = matmul(Hmat,scaled)
1574	+	d(1)= Hmat(1,1)scaled(1) + Hmat(1,2)scaled(2) + Hmat(1,3)*scaled(3)
1575	+	d(2)= Hmat(2,1)scaled(1) + Hmat(2,2)scaled(2) + Hmat(2,3)*scaled(3)
1576	+	d(3)= Hmat(3,1)scaled(1) + Hmat(3,2)scaled(2) + Hmat(3,3)*scaled(3)
1577
1417	–	d = matmul(Hmat,scaled)
1418	–
1578		else
1579		! calc the scaled coordinates.
1580
1422	–
1581		scaled(1) = d(1) * HmatInv(1,1)
1582		scaled(2) = d(2) * HmatInv(2,2)
1583		scaled(3) = d(3) * HmatInv(3,3)
1584
1585		! wrap the scaled coordinates
1586
1587	<	scaled(1) = scaled(1) - dnint(scaled(1))
1588	<	scaled(2) = scaled(2) - dnint(scaled(2))
1589	<	scaled(3) = scaled(3) - dnint(scaled(3))
1587	>	scaled(1) = scaled(1) - anint(scaled(1), kind=dp)
1588	>	scaled(2) = scaled(2) - anint(scaled(2), kind=dp)
1589	>	scaled(3) = scaled(3) - anint(scaled(3), kind=dp)
1590
1591		! calc the wrapped real coordinates from the wrapped scaled
1592		! coordinates
#	Line 1479 \| Line 1637 \| contains
1637		call clean_EAM()
1638		endif
1639
1482	–	tau_Temp = 0.0_dp
1483	–	virial_Temp = 0.0_dp
1640		end subroutine zero_work_arrays
1641
1642		function skipThisPair(atom1, atom2) result(skip_it)
#	Line 1585 \| Line 1741 \| contains
1741
1742		!! This cleans componets of force arrays belonging only to fortran
1743
1744	<	subroutine add_stress_tensor(dpair, fpair)
1744	>	subroutine add_stress_tensor(dpair, fpair, tau)
1745
1746		real( kind = dp ), dimension(3), intent(in) :: dpair, fpair
1747	+	real( kind = dp ), dimension(9), intent(inout) :: tau
1748
1749		! because the d vector is the rj - ri vector, and
1750		! because fx, fy, fz are the force on atom i, we need a
1751		! negative sign here:
1752
1753	<	tau_Temp(1) = tau_Temp(1) - dpair(1) * fpair(1)
1754	<	tau_Temp(2) = tau_Temp(2) - dpair(1) * fpair(2)
1755	<	tau_Temp(3) = tau_Temp(3) - dpair(1) * fpair(3)
1756	<	tau_Temp(4) = tau_Temp(4) - dpair(2) * fpair(1)
1757	<	tau_Temp(5) = tau_Temp(5) - dpair(2) * fpair(2)
1758	<	tau_Temp(6) = tau_Temp(6) - dpair(2) * fpair(3)
1759	<	tau_Temp(7) = tau_Temp(7) - dpair(3) * fpair(1)
1760	<	tau_Temp(8) = tau_Temp(8) - dpair(3) * fpair(2)
1761	<	tau_Temp(9) = tau_Temp(9) - dpair(3) * fpair(3)
1753	>	tau(1) = tau(1) - dpair(1) * fpair(1)
1754	>	tau(2) = tau(2) - dpair(1) * fpair(2)
1755	>	tau(3) = tau(3) - dpair(1) * fpair(3)
1756	>	tau(4) = tau(4) - dpair(2) * fpair(1)
1757	>	tau(5) = tau(5) - dpair(2) * fpair(2)
1758	>	tau(6) = tau(6) - dpair(2) * fpair(3)
1759	>	tau(7) = tau(7) - dpair(3) * fpair(1)
1760	>	tau(8) = tau(8) - dpair(3) * fpair(2)
1761	>	tau(9) = tau(9) - dpair(3) * fpair(3)
1762
1606	–	virial_Temp = virial_Temp + &
1607	–	(tau_Temp(1) + tau_Temp(5) + tau_Temp(9))
1608	–
1763		end subroutine add_stress_tensor
1764
1765		end module doForces

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Comparing trunk/OOPSE-4/src/UseTheForce/doForces.F90 (file contents): Revision 2717 by gezelter, Mon Apr 17 21:49:12 2006 UTC vs. Revision 3126 by gezelter, Fri Apr 6 21:53:43 2007 UTC

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Comparing trunk/OOPSE-4/src/UseTheForce/doForces.F90 (file contents):
Revision 2717 by gezelter, Mon Apr 17 21:49:12 2006 UTC vs.
Revision 3126 by gezelter, Fri Apr 6 21:53:43 2007 UTC