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

Comparing trunk/OOPSE-4/src/UseTheForce/doForces.F90 (file contents):
Revision 2277 by chrisfen, Fri Aug 26 21:30:41 2005 UTC vs.
Revision 2402 by chrisfen, Tue Nov 1 19:09:30 2005 UTC

#	Line 45 \| Line 45
45
46		!! @author Charles F. Vardeman II
47		!! @author Matthew Meineke
48	<	!! @version $Id: doForces.F90,v 1.32 2005-08-26 21:30:30 chrisfen Exp $, $Date: 2005-08-26 21:30:30 $, $Name: not supported by cvs2svn $, $Revision: 1.32 $
48	>	!! @version $Id: doForces.F90,v 1.64 2005-11-01 19:09:23 chrisfen Exp $, $Date: 2005-11-01 19:09:23 $, $Name: not supported by cvs2svn $, $Revision: 1.64 $
49
50
51		module doForces
#	Line 58 \| Line 58 \| module doForces
58		use lj
59		use sticky
60		use electrostatic_module
61	<	use reaction_field
62	<	use gb_pair
61	>	use gayberne
62		use shapes
63		use vector_class
64		use eam
#	Line 75 \| Line 74 \| module doForces
74		#include "UseTheForce/fSwitchingFunction.h"
75		#include "UseTheForce/fCutoffPolicy.h"
76		#include "UseTheForce/DarkSide/fInteractionMap.h"
77	+	#include "UseTheForce/DarkSide/fElectrostaticSummationMethod.h"
78
79
80		INTEGER, PARAMETER:: PREPAIR_LOOP = 1
#	Line 85 \| Line 85 \| module doForces
85		logical, save :: haveSaneForceField = .false.
86		logical, save :: haveInteractionHash = .false.
87		logical, save :: haveGtypeCutoffMap = .false.
88	+	logical, save :: haveDefaultCutoffs = .false.
89	+	logical, save :: haveRlist = .false.
90
91		logical, save :: FF_uses_DirectionalAtoms
92		logical, save :: FF_uses_Dipoles
93		logical, save :: FF_uses_GayBerne
94		logical, save :: FF_uses_EAM
93	–	logical, save :: FF_uses_RF
95
96		logical, save :: SIM_uses_DirectionalAtoms
97		logical, save :: SIM_uses_EAM
97	–	logical, save :: SIM_uses_RF
98		logical, save :: SIM_requires_postpair_calc
99		logical, save :: SIM_requires_prepair_calc
100		logical, save :: SIM_uses_PBC
101
102	+	integer, save :: electrostaticSummationMethod
103	+
104		public :: init_FF
105		public :: setDefaultCutoffs
106		public :: do_force_loop
#	Line 121 \| Line 123 \| module doForces
123		! Bit hash to determine pair-pair interactions.
124		integer, dimension(:,:), allocatable :: InteractionHash
125		real(kind=dp), dimension(:), allocatable :: atypeMaxCutoff
126	<	real(kind=dp), dimension(:), allocatable :: groupMaxCutoff
127	<	integer, dimension(:), allocatable :: groupToGtype
128	<	real(kind=dp), dimension(:), allocatable :: gtypeMaxCutoff
126	>	real(kind=dp), dimension(:), allocatable, target :: groupMaxCutoffRow
127	>	real(kind=dp), dimension(:), pointer :: groupMaxCutoffCol
128	>
129	>	integer, dimension(:), allocatable, target :: groupToGtypeRow
130	>	integer, dimension(:), pointer :: groupToGtypeCol => null()
131	>
132	>	real(kind=dp), dimension(:), allocatable,target :: gtypeMaxCutoffRow
133	>	real(kind=dp), dimension(:), pointer :: gtypeMaxCutoffCol
134		type ::gtypeCutoffs
135		real(kind=dp) :: rcut
136		real(kind=dp) :: rcutsq
#	Line 133 \| Line 140 \| module doForces
140
141		integer, save :: cutoffPolicy = TRADITIONAL_CUTOFF_POLICY
142		real(kind=dp),save :: defaultRcut, defaultRsw, defaultRlist
143	+	real(kind=dp),save :: listSkin
144
145		contains
146
#	Line 176 \| Line 184 \| contains
184
185		if (.not. allocated(InteractionHash)) then
186		allocate(InteractionHash(nAtypes,nAtypes))
187	+	else
188	+	deallocate(InteractionHash)
189	+	allocate(InteractionHash(nAtypes,nAtypes))
190		endif
191
192		if (.not. allocated(atypeMaxCutoff)) then
193		allocate(atypeMaxCutoff(nAtypes))
194	+	else
195	+	deallocate(atypeMaxCutoff)
196	+	allocate(atypeMaxCutoff(nAtypes))
197		endif
198
199		do i = 1, nAtypes
#	Line 253 \| Line 267 \| contains
267		logical :: i_is_GB
268		logical :: i_is_EAM
269		logical :: i_is_Shape
270	+	logical :: GtypeFound
271
272		integer :: myStatus, nAtypes, i, j, istart, iend, jstart, jend
273	<	integer :: n_in_i
274	<	real(kind=dp):: thisSigma, bigSigma, thisRcut
273	>	integer :: n_in_i, me_i, ia, g, atom1, ja, n_in_j,me_j
274	>	integer :: nGroupsInRow
275	>	integer :: nGroupsInCol
276	>	integer :: nGroupTypesRow,nGroupTypesCol
277	>	real(kind=dp):: thisSigma, bigSigma, thisRcut, tradRcut, tol, skin
278		real(kind=dp) :: biggestAtypeCutoff
279
280		stat = 0
#	Line 268 \| Line 286 \| contains
286		return
287		endif
288		endif
289	<
290	<	nAtypes = getSize(atypes)
291	<
289	>	#ifdef IS_MPI
290	>	nGroupsInRow = getNgroupsInRow(plan_group_row)
291	>	nGroupsInCol = getNgroupsInCol(plan_group_col)
292	>	#endif
293	>	nAtypes = getSize(atypes)
294	>	! Set all of the initial cutoffs to zero.
295	>	atypeMaxCutoff = 0.0_dp
296		do i = 1, nAtypes
297	<	if (SimHasAtype(i)) then
297	>	if (SimHasAtype(i)) then
298		call getElementProperty(atypes, i, "is_LennardJones", i_is_LJ)
299		call getElementProperty(atypes, i, "is_Electrostatic", i_is_Elect)
300		call getElementProperty(atypes, i, "is_Sticky", i_is_Sticky)
#	Line 281 \| Line 303 \| contains
303		call getElementProperty(atypes, i, "is_EAM", i_is_EAM)
304		call getElementProperty(atypes, i, "is_Shape", i_is_Shape)
305
306	<	if (i_is_LJ) then
307	<	thisRcut = getSigma(i) * 2.5_dp
308	<	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
309	<	endif
310	<	if (i_is_Elect) then
311	<	thisRcut = defaultRcut
312	<	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
313	<	endif
314	<	if (i_is_Sticky) then
315	<	thisRcut = getStickyCut(i)
316	<	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
317	<	endif
318	<	if (i_is_StickyP) then
319	<	thisRcut = getStickyPowerCut(i)
320	<	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
321	<	endif
322	<	if (i_is_GB) then
323	<	thisRcut = getGayBerneCut(i)
324	<	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
325	<	endif
326	<	if (i_is_EAM) then
327	<	thisRcut = getEAMCut(i)
328	<	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
329	<	endif
330	<	if (i_is_Shape) then
331	<	thisRcut = getShapeCut(i)
332	<	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
306	>
307	>	if (haveDefaultCutoffs) then
308	>	atypeMaxCutoff(i) = defaultRcut
309	>	else
310	>	if (i_is_LJ) then
311	>	thisRcut = getSigma(i) * 2.5_dp
312	>	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
313	>	endif
314	>	if (i_is_Elect) then
315	>	thisRcut = defaultRcut
316	>	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
317	>	endif
318	>	if (i_is_Sticky) then
319	>	thisRcut = getStickyCut(i)
320	>	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
321	>	endif
322	>	if (i_is_StickyP) then
323	>	thisRcut = getStickyPowerCut(i)
324	>	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
325	>	endif
326	>	if (i_is_GB) then
327	>	thisRcut = getGayBerneCut(i)
328	>	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
329	>	endif
330	>	if (i_is_EAM) then
331	>	thisRcut = getEAMCut(i)
332	>	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
333	>	endif
334	>	if (i_is_Shape) then
335	>	thisRcut = getShapeCut(i)
336	>	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
337	>	endif
338		endif
339
340	+
341		if (atypeMaxCutoff(i).gt.biggestAtypeCutoff) then
342		biggestAtypeCutoff = atypeMaxCutoff(i)
343		endif
344	+
345		endif
346		enddo
347	+
348
349	+
350		istart = 1
351	+	jstart = 1
352		#ifdef IS_MPI
353		iend = nGroupsInRow
354	+	jend = nGroupsInCol
355		#else
356		iend = nGroups
357	+	jend = nGroups
358		#endif
359	<	outer: do i = istart, iend
360	<
361	<	n_in_i = groupStartRow(i+1) - groupStartRow(i)
362	<
359	>
360	>	!! allocate the groupToGtype and gtypeMaxCutoff here.
361	>	if(.not.allocated(groupToGtypeRow)) then
362	>	! allocate(groupToGtype(iend))
363	>	allocate(groupToGtypeRow(iend))
364	>	else
365	>	deallocate(groupToGtypeRow)
366	>	allocate(groupToGtypeRow(iend))
367	>	endif
368	>	if(.not.allocated(groupMaxCutoffRow)) then
369	>	allocate(groupMaxCutoffRow(iend))
370	>	else
371	>	deallocate(groupMaxCutoffRow)
372	>	allocate(groupMaxCutoffRow(iend))
373	>	end if
374	>
375	>	if(.not.allocated(gtypeMaxCutoffRow)) then
376	>	allocate(gtypeMaxCutoffRow(iend))
377	>	else
378	>	deallocate(gtypeMaxCutoffRow)
379	>	allocate(gtypeMaxCutoffRow(iend))
380	>	endif
381	>
382	>
383		#ifdef IS_MPI
384	<	jstart = 1
385	<	jend = nGroupsInCol
386	<	#else
387	<	jstart = i+1
388	<	jend = nGroups
384	>	! We only allocate new storage if we are in MPI because Ncol /= Nrow
385	>	if(.not.associated(groupToGtypeCol)) then
386	>	allocate(groupToGtypeCol(jend))
387	>	else
388	>	deallocate(groupToGtypeCol)
389	>	allocate(groupToGtypeCol(jend))
390	>	end if
391	>
392	>	if(.not.associated(groupToGtypeCol)) then
393	>	allocate(groupToGtypeCol(jend))
394	>	else
395	>	deallocate(groupToGtypeCol)
396	>	allocate(groupToGtypeCol(jend))
397	>	end if
398	>	if(.not.associated(gtypeMaxCutoffCol)) then
399	>	allocate(gtypeMaxCutoffCol(jend))
400	>	else
401	>	deallocate(gtypeMaxCutoffCol)
402	>	allocate(gtypeMaxCutoffCol(jend))
403	>	end if
404	>
405	>	groupMaxCutoffCol = 0.0_dp
406	>	gtypeMaxCutoffCol = 0.0_dp
407	>
408		#endif
409	+	groupMaxCutoffRow = 0.0_dp
410	+	gtypeMaxCutoffRow = 0.0_dp
411	+
412	+
413	+	!! first we do a single loop over the cutoff groups to find the
414	+	!! largest cutoff for any atypes present in this group. We also
415	+	!! create gtypes at this point.
416	+
417	+	tol = 1.0d-6
418	+	nGroupTypesRow = 0
419	+
420	+	do i = istart, iend
421	+	n_in_i = groupStartRow(i+1) - groupStartRow(i)
422	+	groupMaxCutoffRow(i) = 0.0_dp
423	+	do ia = groupStartRow(i), groupStartRow(i+1)-1
424	+	atom1 = groupListRow(ia)
425	+	#ifdef IS_MPI
426	+	me_i = atid_row(atom1)
427	+	#else
428	+	me_i = atid(atom1)
429	+	#endif
430	+	if (atypeMaxCutoff(me_i).gt.groupMaxCutoffRow(i)) then
431	+	groupMaxCutoffRow(i)=atypeMaxCutoff(me_i)
432	+	endif
433	+	enddo
434	+
435	+	if (nGroupTypesRow.eq.0) then
436	+	nGroupTypesRow = nGroupTypesRow + 1
437	+	gtypeMaxCutoffRow(nGroupTypesRow) = groupMaxCutoffRow(i)
438	+	groupToGtypeRow(i) = nGroupTypesRow
439	+	else
440	+	GtypeFound = .false.
441	+	do g = 1, nGroupTypesRow
442	+	if ( abs(groupMaxCutoffRow(i) - gtypeMaxCutoffRow(g)).lt.tol) then
443	+	groupToGtypeRow(i) = g
444	+	GtypeFound = .true.
445	+	endif
446	+	enddo
447	+	if (.not.GtypeFound) then
448	+	nGroupTypesRow = nGroupTypesRow + 1
449	+	gtypeMaxCutoffRow(nGroupTypesRow) = groupMaxCutoffRow(i)
450	+	groupToGtypeRow(i) = nGroupTypesRow
451	+	endif
452	+	endif
453	+	enddo
454	+
455	+	#ifdef IS_MPI
456	+	do j = jstart, jend
457	+	n_in_j = groupStartCol(j+1) - groupStartCol(j)
458	+	groupMaxCutoffCol(j) = 0.0_dp
459	+	do ja = groupStartCol(j), groupStartCol(j+1)-1
460	+	atom1 = groupListCol(ja)
461	+
462	+	me_j = atid_col(atom1)
463	+
464	+	if (atypeMaxCutoff(me_j).gt.groupMaxCutoffCol(j)) then
465	+	groupMaxCutoffCol(j)=atypeMaxCutoff(me_j)
466	+	endif
467	+	enddo
468	+
469	+	if (nGroupTypesCol.eq.0) then
470	+	nGroupTypesCol = nGroupTypesCol + 1
471	+	gtypeMaxCutoffCol(nGroupTypesCol) = groupMaxCutoffCol(j)
472	+	groupToGtypeCol(j) = nGroupTypesCol
473	+	else
474	+	GtypeFound = .false.
475	+	do g = 1, nGroupTypesCol
476	+	if ( abs(groupMaxCutoffCol(j) - gtypeMaxCutoffCol(g)).lt.tol) then
477	+	groupToGtypeCol(j) = g
478	+	GtypeFound = .true.
479	+	endif
480	+	enddo
481	+	if (.not.GtypeFound) then
482	+	nGroupTypesCol = nGroupTypesCol + 1
483	+	gtypeMaxCutoffCol(nGroupTypesCol) = groupMaxCutoffCol(j)
484	+	groupToGtypeCol(j) = nGroupTypesCol
485	+	endif
486	+	endif
487	+	enddo
488	+
489	+	#else
490	+	! Set pointers to information we just found
491	+	nGroupTypesCol = nGroupTypesRow
492	+	groupToGtypeCol => groupToGtypeRow
493	+	gtypeMaxCutoffCol => gtypeMaxCutoffRow
494	+	groupMaxCutoffCol => groupMaxCutoffRow
495	+	#endif
496	+
497	+
498	+
499	+
500	+
501	+	!! allocate the gtypeCutoffMap here.
502	+	allocate(gtypeCutoffMap(nGroupTypesRow,nGroupTypesCol))
503	+	!! then we do a double loop over all the group TYPES to find the cutoff
504	+	!! map between groups of two types
505	+	tradRcut = max(maxval(gtypeMaxCutoffRow),maxval(gtypeMaxCutoffCol))
506	+
507	+	do i = 1, nGroupTypesRow
508	+	do j = 1, nGroupTypesCol
509
510	<
511	<
512	<
513	<
514	<
515	<	enddo outer
510	>	select case(cutoffPolicy)
511	>	case(TRADITIONAL_CUTOFF_POLICY)
512	>	thisRcut = tradRcut
513	>	case(MIX_CUTOFF_POLICY)
514	>	thisRcut = 0.5_dp * (gtypeMaxCutoffRow(i) + gtypeMaxCutoffCol(j))
515	>	case(MAX_CUTOFF_POLICY)
516	>	thisRcut = max(gtypeMaxCutoffRow(i), gtypeMaxCutoffCol(j))
517	>	case default
518	>	call handleError("createGtypeCutoffMap", "Unknown Cutoff Policy")
519	>	return
520	>	end select
521	>	gtypeCutoffMap(i,j)%rcut = thisRcut
522	>	gtypeCutoffMap(i,j)%rcutsq = thisRcut*thisRcut
523	>	skin = defaultRlist - defaultRcut
524	>	listSkin = skin ! set neighbor list skin thickness
525	>	gtypeCutoffMap(i,j)%rlistsq = (thisRcut + skin)**2
526	>
527	>	! sanity check
528	>
529	>	if (haveDefaultCutoffs) then
530	>	if (abs(gtypeCutoffMap(i,j)%rcut - defaultRcut).gt.0.0001) then
531	>	call handleError("createGtypeCutoffMap", "user-specified rCut does not match computed group Cutoff")
532	>	endif
533	>	endif
534	>	enddo
535	>	enddo
536	>	if(allocated(gtypeMaxCutoffRow)) deallocate(gtypeMaxCutoffRow)
537	>	if(allocated(groupMaxCutoffRow)) deallocate(groupMaxCutoffRow)
538	>	if(allocated(atypeMaxCutoff)) deallocate(atypeMaxCutoff)
539	>	#ifdef IS_MPI
540	>	if(associated(groupMaxCutoffCol)) deallocate(groupMaxCutoffCol)
541	>	if(associated(gtypeMaxCutoffCol)) deallocate(gtypeMaxCutoffCol)
542	>	#endif
543	>	groupMaxCutoffCol => null()
544	>	gtypeMaxCutoffCol => null()
545
546	<	haveGtypeCutoffMap = .true.
546	>	haveGtypeCutoffMap = .true.
547		end subroutine createGtypeCutoffMap
548
549		subroutine setDefaultCutoffs(defRcut, defRsw, defRlist, cutPolicy)
#	Line 352 \| Line 554 \| contains
554		defaultRsw = defRsw
555		defaultRlist = defRlist
556		cutoffPolicy = cutPolicy
557	+
558	+	haveDefaultCutoffs = .true.
559		end subroutine setDefaultCutoffs
560
561		subroutine setCutoffPolicy(cutPolicy)
#	Line 359 \| Line 563 \| contains
563		integer, intent(in) :: cutPolicy
564		cutoffPolicy = cutPolicy
565		call createGtypeCutoffMap()
362	–
566		end subroutine setCutoffPolicy
567
568
569		subroutine setSimVariables()
570		SIM_uses_DirectionalAtoms = SimUsesDirectionalAtoms()
571		SIM_uses_EAM = SimUsesEAM()
369	–	SIM_uses_RF = SimUsesRF()
572		SIM_requires_postpair_calc = SimRequiresPostpairCalc()
573		SIM_requires_prepair_calc = SimRequiresPrepairCalc()
574		SIM_uses_PBC = SimUsesPBC()
#	Line 407 \| Line 609 \| contains
609		call setSimVariables()
610		endif
611
612	<	if (.not. haveRlist) then
613	<	write(default_error, *) 'rList has not been set in doForces!'
614	<	error = -1
615	<	return
616	<	endif
612	>	! if (.not. haveRlist) then
613	>	! write(default_error, *) 'rList has not been set in doForces!'
614	>	! error = -1
615	>	! return
616	>	! endif
617
618		if (.not. haveNeighborList) then
619		write(default_error, *) 'neighbor list has not been initialized in doForces!'
#	Line 436 \| Line 638 \| contains
638		end subroutine doReadyCheck
639
640
641	<	subroutine init_FF(use_RF_c, thisStat)
641	>	subroutine init_FF(thisESM, thisStat)
642
643	<	logical, intent(in) :: use_RF_c
442	<
643	>	integer, intent(in) :: thisESM
644		integer, intent(out) :: thisStat
645		integer :: my_status, nMatches
646		integer, pointer :: MatchList(:) => null()
446	–	real(kind=dp) :: rcut, rrf, rt, dielect
647
648		!! assume things are copacetic, unless they aren't
649		thisStat = 0
650
651	<	!! Fortran's version of a cast:
452	<	FF_uses_RF = use_RF_c
651	>	electrostaticSummationMethod = thisESM
652
653		!! init_FF is called after all of the atom types have been
654		!! defined in atype_module using the new_atype subroutine.
#	Line 480 \| Line 679 \| contains
679
680		haveSaneForceField = .true.
681
483	–	!! check to make sure the FF_uses_RF setting makes sense
484	–
485	–	if (FF_uses_Dipoles) then
486	–	if (FF_uses_RF) then
487	–	dielect = getDielect()
488	–	call initialize_rf(dielect)
489	–	endif
490	–	else
491	–	if (FF_uses_RF) then
492	–	write(default_error,*) 'Using Reaction Field with no dipoles? Huh?'
493	–	thisStat = -1
494	–	haveSaneForceField = .false.
495	–	return
496	–	endif
497	–	endif
498	–
682		if (FF_uses_EAM) then
683		call init_EAM_FF(my_status)
684		if (my_status /= 0) then
#	Line 506 \| Line 689 \| contains
689		end if
690		endif
691
509	–	if (FF_uses_GayBerne) then
510	–	call check_gb_pair_FF(my_status)
511	–	if (my_status .ne. 0) then
512	–	thisStat = -1
513	–	haveSaneForceField = .false.
514	–	return
515	–	endif
516	–	endif
517	–
692		if (.not. haveNeighborList) then
693		!! Create neighbor lists
694		call expandNeighborList(nLocal, my_status)
#	Line 548 \| Line 722 \| contains
722
723		!! Stress Tensor
724		real( kind = dp), dimension(9) :: tau
725	<	real ( kind = dp ) :: pot
725	>	real ( kind = dp ),dimension(LR_POT_TYPES) :: pot
726		logical ( kind = 2) :: do_pot_c, do_stress_c
727		logical :: do_pot
728		logical :: do_stress
729		logical :: in_switching_region
730		#ifdef IS_MPI
731	<	real( kind = DP ) :: pot_local
731	>	real( kind = DP ), dimension(LR_POT_TYPES) :: pot_local
732		integer :: nAtomsInRow
733		integer :: nAtomsInCol
734		integer :: nprocs
#	Line 569 \| Line 743 \| contains
743		integer :: nlist
744		real( kind = DP ) :: ratmsq, rgrpsq, rgrp, vpair, vij
745		real( kind = DP ) :: sw, dswdr, swderiv, mf
746	+	real( kind = DP ) :: rVal
747		real(kind=dp),dimension(3) :: d_atm, d_grp, fpair, fij
748		real(kind=dp) :: rfpot, mu_i, virial
749		integer :: me_i, me_j, n_in_i, n_in_j
#	Line 579 \| Line 754 \| contains
754		integer :: propPack_i, propPack_j
755		integer :: loopStart, loopEnd, loop
756		integer :: iHash
757	<	real(kind=dp) :: listSkin = 1.0
757	>	integer :: i1
758	>
759
760		!! initialize local variables
761
#	Line 704 \| Line 880 \| contains
880		me_j = atid(j)
881		call get_interatomic_vector(q_group(:,i), &
882		q_group(:,j), d_grp, rgrpsq)
883	<	#endif
883	>	#endif
884
885	<	if (rgrpsq < InteractionHash(me_i,me_j)%rListsq) then
885	>	if (rgrpsq < gtypeCutoffMap(groupToGtypeRow(i),groupToGtypeCol(j))%rListsq) then
886		if (update_nlist) then
887		nlist = nlist + 1
888
#	Line 744 \| Line 920 \| contains
920		inner: do jb = groupStartCol(j), groupStartCol(j+1)-1
921
922		atom2 = groupListCol(jb)
923	<
924	<	if (skipThisPair(atom1, atom2)) cycle inner
925	<
923	>
924	>	if (skipThisPair(atom1, atom2)) cycle inner
925	>
926		if ((n_in_i .eq. 1).and.(n_in_j .eq. 1)) then
927		d_atm(1:3) = d_grp(1:3)
928		ratmsq = rgrpsq
#	Line 773 \| Line 949 \| contains
949		else
950		#ifdef IS_MPI
951		call do_pair(atom1, atom2, ratmsq, d_atm, sw, &
952	<	do_pot, &
953	<	eFrame, A, f, t, pot_local, vpair, fpair)
952	>	do_pot, eFrame, A, f, t, pot_local, vpair, &
953	>	fpair, d_grp, rgrp)
954		#else
955		call do_pair(atom1, atom2, ratmsq, d_atm, sw, &
956	<	do_pot, &
957	<	eFrame, A, f, t, pot, vpair, fpair)
956	>	do_pot, eFrame, A, f, t, pot, vpair, fpair, &
957	>	d_grp, rgrp)
958		#endif
959
960		vij = vij + vpair
#	Line 827 \| Line 1003 \| contains
1003		endif
1004		end if
1005		enddo
1006	+
1007		enddo outer
1008
1009		if (update_nlist) then
#	Line 886 \| Line 1063 \| contains
1063
1064		if (do_pot) then
1065		! scatter/gather pot_row into the members of my column
1066	<	call scatter(pot_Row, pot_Temp, plan_atom_row)
1067	<
1066	>	do i = 1,LR_POT_TYPES
1067	>	call scatter(pot_Row(i,:), pot_Temp(i,:), plan_atom_row)
1068	>	end do
1069		! scatter/gather pot_local into all other procs
1070		! add resultant to get total pot
1071		do i = 1, nlocal
1072	<	pot_local = pot_local + pot_Temp(i)
1072	>	pot_local(1:LR_POT_TYPES) = pot_local(1:LR_POT_TYPES) &
1073	>	+ pot_Temp(1:LR_POT_TYPES,i)
1074		enddo
1075
1076		pot_Temp = 0.0_DP
1077	<
1078	<	call scatter(pot_Col, pot_Temp, plan_atom_col)
1077	>	do i = 1,LR_POT_TYPES
1078	>	call scatter(pot_Col(i,:), pot_Temp(i,:), plan_atom_col)
1079	>	end do
1080		do i = 1, nlocal
1081	<	pot_local = pot_local + pot_Temp(i)
1081	>	pot_local(1:LR_POT_TYPES) = pot_local(1:LR_POT_TYPES)&
1082	>	+ pot_Temp(1:LR_POT_TYPES,i)
1083		enddo
1084
1085		endif
1086		#endif
1087
1088	<	if (FF_RequiresPostpairCalc() .and. SIM_requires_postpair_calc) then
1088	>	if (SIM_requires_postpair_calc) then
1089	>	do i = 1, nlocal
1090	>
1091	>	! we loop only over the local atoms, so we don't need row and column
1092	>	! lookups for the types
1093	>
1094	>	me_i = atid(i)
1095	>
1096	>	! is the atom electrostatic? See if it would have an
1097	>	! electrostatic interaction with itself
1098	>	iHash = InteractionHash(me_i,me_i)
1099
1100	<	if (FF_uses_RF .and. SIM_uses_RF) then
910	<
1100	>	if ( iand(iHash, ELECTROSTATIC_PAIR).ne.0 ) then
1101		#ifdef IS_MPI
1102	<	call scatter(rf_Row,rf,plan_atom_row_3d)
1103	<	call scatter(rf_Col,rf_Temp,plan_atom_col_3d)
914	<	do i = 1,nlocal
915	<	rf(1:3,i) = rf(1:3,i) + rf_Temp(1:3,i)
916	<	end do
917	<	#endif
918	<
919	<	do i = 1, nLocal
920	<
921	<	rfpot = 0.0_DP
922	<	#ifdef IS_MPI
923	<	me_i = atid_row(i)
1102	>	call self_self(i, eFrame, pot_local(ELECTROSTATIC_POT), &
1103	>	t, do_pot)
1104		#else
1105	<	me_i = atid(i)
1105	>	call self_self(i, eFrame, pot(ELECTROSTATIC_POT), &
1106	>	t, do_pot)
1107		#endif
1108	<	iHash = InteractionHash(me_i,me_j)
1108	>	endif
1109	>
1110	>
1111	>	!!$ if (electrostaticSummationMethod.eq.REACTION_FIELD) then
1112
1113	<	if ( iand(iHash, ELECTROSTATIC_PAIR).ne.0 ) then
1114	<
1115	<	mu_i = getDipoleMoment(me_i)
1116	<
1117	<	!! The reaction field needs to include a self contribution
1118	<	!! to the field:
1119	<	call accumulate_self_rf(i, mu_i, eFrame)
1120	<	!! Get the reaction field contribution to the
1121	<	!! potential and torques:
1122	<	call reaction_field_final(i, mu_i, eFrame, rfpot, t, do_pot)
1113	>	! loop over the excludes to accumulate RF stuff we've
1114	>	! left out of the normal pair loop
1115	>
1116	>	do i1 = 1, nSkipsForAtom(i)
1117	>	j = skipsForAtom(i, i1)
1118	>
1119	>	! prevent overcounting of the skips
1120	>	if (i.lt.j) then
1121	>	call get_interatomic_vector(q(:,i), &
1122	>	q(:,j), d_atm, ratmsq)
1123	>	rVal = dsqrt(ratmsq)
1124	>	call get_switch(ratmsq, sw, dswdr, rVal, group_switch, &
1125	>	in_switching_region)
1126		#ifdef IS_MPI
1127	<	pot_local = pot_local + rfpot
1127	>	call rf_self_excludes(i, j, sw, eFrame, d_atm, rVal, &
1128	>	vpair, pot_local(ELECTROSTATIC_POT), f, t, do_pot)
1129		#else
1130	<	pot = pot + rfpot
1131	<
1130	>	call rf_self_excludes(i, j, sw, eFrame, d_atm, rVal, &
1131	>	vpair, pot(ELECTROSTATIC_POT), f, t, do_pot)
1132		#endif
1133	<	endif
1134	<	enddo
1135	<	endif
1133	>	endif
1134	>	enddo
1135	>	!!$ endif
1136	>	enddo
1137		endif
1138	<
950	<
1138	>
1139		#ifdef IS_MPI
1140	<
1140	>
1141		if (do_pot) then
1142	<	pot = pot + pot_local
1143	<	!! we assume the c code will do the allreduce to get the total potential
956	<	!! we could do it right here if we needed to...
1142	>	call mpi_allreduce(pot_local, pot, LR_POT_TYPES,mpi_double_precision,mpi_sum, &
1143	>	mpi_comm_world,mpi_err)
1144		endif
1145	<
1145	>
1146		if (do_stress) then
1147		call mpi_allreduce(tau_Temp, tau, 9,mpi_double_precision,mpi_sum, &
1148		mpi_comm_world,mpi_err)
1149		call mpi_allreduce(virial_Temp, virial,1,mpi_double_precision,mpi_sum, &
1150		mpi_comm_world,mpi_err)
1151		endif
1152	<
1152	>
1153		#else
1154	<
1154	>
1155		if (do_stress) then
1156		tau = tau_Temp
1157		virial = virial_Temp
1158		endif
1159	<
1159	>
1160		#endif
1161	<
1161	>
1162		end subroutine do_force_loop
1163
1164		subroutine do_pair(i, j, rijsq, d, sw, do_pot, &
1165	<	eFrame, A, f, t, pot, vpair, fpair)
1165	>	eFrame, A, f, t, pot, vpair, fpair, d_grp, r_grp)
1166	>	!!$ subroutine do_pair(i, j, rijsq, d, sw, do_pot, &
1167	>	!!$ eFrame, A, f, t, pot, vpair, fpair, d_grp, r_grp, felec)
1168
1169	<	real( kind = dp ) :: pot, vpair, sw
1169	>	real( kind = dp ) :: vpair, sw
1170	>	real( kind = dp ), dimension(LR_POT_TYPES) :: pot
1171		real( kind = dp ), dimension(3) :: fpair
1172	+	real( kind = dp ), dimension(3) :: felec
1173		real( kind = dp ), dimension(nLocal) :: mfact
1174		real( kind = dp ), dimension(9,nLocal) :: eFrame
1175		real( kind = dp ), dimension(9,nLocal) :: A
#	Line 988 \| Line 1179 \| contains
1179		logical, intent(inout) :: do_pot
1180		integer, intent(in) :: i, j
1181		real ( kind = dp ), intent(inout) :: rijsq
1182	<	real ( kind = dp ) :: r
1182	>	real ( kind = dp ), intent(inout) :: r_grp
1183		real ( kind = dp ), intent(inout) :: d(3)
1184	<	real ( kind = dp ) :: ebalance
1184	>	real ( kind = dp ), intent(inout) :: d_grp(3)
1185	>	real ( kind = dp ) :: r
1186		integer :: me_i, me_j
1187
1188		integer :: iHash
#	Line 1008 \| Line 1200 \| contains
1200		#endif
1201
1202		iHash = InteractionHash(me_i, me_j)
1203	<
1203	>
1204		if ( iand(iHash, LJ_PAIR).ne.0 ) then
1205	<	call do_lj_pair(i, j, d, r, rijsq, sw, vpair, fpair, pot, f, do_pot)
1205	>	call do_lj_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1206	>	pot(VDW_POT), f, do_pot)
1207		endif
1208	<
1208	>
1209		if ( iand(iHash, ELECTROSTATIC_PAIR).ne.0 ) then
1210		call doElectrostaticPair(i, j, d, r, rijsq, sw, vpair, fpair, &
1211	<	pot, eFrame, f, t, do_pot)
1212	<
1213	<	if (FF_uses_RF .and. SIM_uses_RF) then
1021	<
1022	<	! CHECK ME (RF needs to know about all electrostatic types)
1023	<	call accumulate_rf(i, j, r, eFrame, sw)
1024	<	call rf_correct_forces(i, j, d, r, eFrame, sw, f, fpair)
1025	<	endif
1026	<
1211	>	pot(ELECTROSTATIC_POT), eFrame, f, t, do_pot)
1212	>	!!$ call doElectrostaticPair(i, j, d, r, rijsq, sw, vpair, fpair, &
1213	>	!!$ pot(ELECTROSTATIC_POT), eFrame, f, t, do_pot, felec)
1214		endif
1215	<
1215	>
1216		if ( iand(iHash, STICKY_PAIR).ne.0 ) then
1217		call do_sticky_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1218	<	pot, A, f, t, do_pot)
1218	>	pot(HB_POT), A, f, t, do_pot)
1219		endif
1220	<
1220	>
1221		if ( iand(iHash, STICKYPOWER_PAIR).ne.0 ) then
1222		call do_sticky_power_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1223	<	pot, A, f, t, do_pot)
1223	>	pot(HB_POT), A, f, t, do_pot)
1224		endif
1225	<
1225	>
1226		if ( iand(iHash, GAYBERNE_PAIR).ne.0 ) then
1227		call do_gb_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1228	<	pot, A, f, t, do_pot)
1228	>	pot(VDW_POT), A, f, t, do_pot)
1229		endif
1230
1231		if ( iand(iHash, GAYBERNE_LJ).ne.0 ) then
1232	<	! call do_gblj_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1233	<	! pot, A, f, t, do_pot)
1232	>	call do_gb_lj_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1233	>	pot(VDW_POT), A, f, t, do_pot)
1234		endif
1235	<
1235	>
1236		if ( iand(iHash, EAM_PAIR).ne.0 ) then
1237	<	call do_eam_pair(i, j, d, r, rijsq, sw, vpair, fpair, pot, f, &
1238	<	do_pot)
1237	>	call do_eam_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1238	>	pot(METALLIC_POT), f, do_pot)
1239		endif
1240	<
1240	>
1241		if ( iand(iHash, SHAPE_PAIR).ne.0 ) then
1242		call do_shape_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1243	<	pot, A, f, t, do_pot)
1243	>	pot(VDW_POT), A, f, t, do_pot)
1244		endif
1245	<
1245	>
1246		if ( iand(iHash, SHAPE_LJ).ne.0 ) then
1247		call do_shape_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1248	<	pot, A, f, t, do_pot)
1248	>	pot(VDW_POT), A, f, t, do_pot)
1249		endif
1250	<
1250	>
1251		end subroutine do_pair
1252
1253		subroutine do_prepair(i, j, rijsq, d, sw, rcijsq, dc, &
1254		do_pot, do_stress, eFrame, A, f, t, pot)
1255
1256	<	real( kind = dp ) :: pot, sw
1256	>	real( kind = dp ) :: sw
1257	>	real( kind = dp ), dimension(LR_POT_TYPES) :: pot
1258		real( kind = dp ), dimension(9,nLocal) :: eFrame
1259		real (kind=dp), dimension(9,nLocal) :: A
1260		real (kind=dp), dimension(3,nLocal) :: f
#	Line 1080 \| Line 1268 \| contains
1268
1269		integer :: me_i, me_j, iHash
1270
1271	+	r = sqrt(rijsq)
1272	+
1273		#ifdef IS_MPI
1274		me_i = atid_row(i)
1275		me_j = atid_col(j)
#	Line 1099 \| Line 1289 \| contains
1289
1290		subroutine do_preforce(nlocal,pot)
1291		integer :: nlocal
1292	<	real( kind = dp ) :: pot
1292	>	real( kind = dp ),dimension(LR_POT_TYPES) :: pot
1293
1294		if (FF_uses_EAM .and. SIM_uses_EAM) then
1295	<	call calc_EAM_preforce_Frho(nlocal,pot)
1295	>	call calc_EAM_preforce_Frho(nlocal,pot(METALLIC_POT))
1296		endif
1297
1298
#	Line 1188 \| Line 1378 \| contains
1378		pot_Col = 0.0_dp
1379		pot_Temp = 0.0_dp
1380
1191	–	rf_Row = 0.0_dp
1192	–	rf_Col = 0.0_dp
1193	–	rf_Temp = 0.0_dp
1194	–
1381		#endif
1382
1383		if (FF_uses_EAM .and. SIM_uses_EAM) then
#	Line 1295 \| Line 1481 \| contains
1481		doesit = FF_uses_EAM
1482		end function FF_RequiresPrepairCalc
1483
1298	–	function FF_RequiresPostpairCalc() result(doesit)
1299	–	logical :: doesit
1300	–	doesit = FF_uses_RF
1301	–	end function FF_RequiresPostpairCalc
1302	–
1484		#ifdef PROFILE
1485		function getforcetime() result(totalforcetime)
1486		real(kind=dp) :: totalforcetime

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Comparing trunk/OOPSE-4/src/UseTheForce/doForces.F90 (file contents): Revision 2277 by chrisfen, Fri Aug 26 21:30:41 2005 UTC vs. Revision 2402 by chrisfen, Tue Nov 1 19:09:30 2005 UTC

Diff Legend

Comparing trunk/OOPSE-4/src/UseTheForce/doForces.F90 (file contents):
Revision 2277 by chrisfen, Fri Aug 26 21:30:41 2005 UTC vs.
Revision 2402 by chrisfen, Tue Nov 1 19:09:30 2005 UTC