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

Comparing trunk/OOPSE-4/src/UseTheForce/doForces.F90 (file contents):
Revision 2356 by chuckv, Wed Oct 12 19:55:26 2005 UTC vs.
Revision 2592 by gezelter, Thu Feb 16 21:40:20 2006 UTC

#	Line 45 \| Line 45
45
46		!! @author Charles F. Vardeman II
47		!! @author Matthew Meineke
48	<	!! @version $Id: doForces.F90,v 1.55 2005-10-12 19:55:26 chuckv Exp $, $Date: 2005-10-12 19:55:26 $, $Name: not supported by cvs2svn $, $Revision: 1.55 $
48	>	!! @version $Id: doForces.F90,v 1.76 2006-02-16 21:40:20 gezelter Exp $, $Date: 2006-02-16 21:40:20 $, $Name: not supported by cvs2svn $, $Revision: 1.76 $
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_module
62	<	use gb_pair
61	>	use gayberne
62		use shapes
63		use vector_class
64		use eam
65	+	use suttonchen
66		use status
67		#ifdef IS_MPI
68		use mpiSimulation
#	Line 87 \| Line 87 \| module doForces
87		logical, save :: haveInteractionHash = .false.
88		logical, save :: haveGtypeCutoffMap = .false.
89		logical, save :: haveDefaultCutoffs = .false.
90	<	logical, save :: haveRlist = .false.
90	>	logical, save :: haveSkinThickness = .false.
91	>	logical, save :: haveElectrostaticSummationMethod = .false.
92	>	logical, save :: haveCutoffPolicy = .false.
93	>	logical, save :: VisitCutoffsAfterComputing = .false.
94
95		logical, save :: FF_uses_DirectionalAtoms
96		logical, save :: FF_uses_Dipoles
97		logical, save :: FF_uses_GayBerne
98		logical, save :: FF_uses_EAM
99	+	logical, save :: FF_uses_SC
100	+	logical, save :: FF_uses_MEAM
101	+
102
103		logical, save :: SIM_uses_DirectionalAtoms
104		logical, save :: SIM_uses_EAM
105	+	logical, save :: SIM_uses_SC
106	+	logical, save :: SIM_uses_MEAM
107		logical, save :: SIM_requires_postpair_calc
108		logical, save :: SIM_requires_prepair_calc
109		logical, save :: SIM_uses_PBC
110
111		integer, save :: electrostaticSummationMethod
112	+	integer, save :: cutoffPolicy = TRADITIONAL_CUTOFF_POLICY
113
114	+	real(kind=dp), save :: defaultRcut, defaultRsw, largestRcut
115	+	real(kind=dp), save :: skinThickness
116	+	logical, save :: defaultDoShift
117	+
118		public :: init_FF
119	<	public :: setDefaultCutoffs
119	>	public :: setCutoffs
120	>	public :: cWasLame
121	>	public :: setElectrostaticMethod
122	>	public :: setCutoffPolicy
123	>	public :: setSkinThickness
124		public :: do_force_loop
108	–	public :: createInteractionHash
109	–	public :: createGtypeCutoffMap
110	–	public :: getStickyCut
111	–	public :: getStickyPowerCut
112	–	public :: getGayBerneCut
113	–	public :: getEAMCut
114	–	public :: getShapeCut
125
126		#ifdef PROFILE
127		public :: getforcetime
#	Line 139 \| Line 149 \| module doForces
149		end type gtypeCutoffs
150		type(gtypeCutoffs), dimension(:,:), allocatable :: gtypeCutoffMap
151
142	–	integer, save :: cutoffPolicy = TRADITIONAL_CUTOFF_POLICY
143	–	real(kind=dp),save :: defaultRcut, defaultRsw, defaultRlist
144	–	real(kind=dp),save :: listSkin
145	–
152		contains
153
154	<	subroutine createInteractionHash(status)
154	>	subroutine createInteractionHash()
155		integer :: nAtypes
150	–	integer, intent(out) :: status
156		integer :: i
157		integer :: j
158		integer :: iHash
#	Line 159 \| Line 164 \| contains
164		logical :: i_is_GB
165		logical :: i_is_EAM
166		logical :: i_is_Shape
167	+	logical :: i_is_SC
168	+	logical :: i_is_MEAM
169		logical :: j_is_LJ
170		logical :: j_is_Elect
171		logical :: j_is_Sticky
#	Line 166 \| Line 173 \| contains
173		logical :: j_is_GB
174		logical :: j_is_EAM
175		logical :: j_is_Shape
176	+	logical :: j_is_SC
177	+	logical :: j_is_MEAM
178		real(kind=dp) :: myRcut
179
171	–	status = 0
172	–
180		if (.not. associated(atypes)) then
181	<	call handleError("atype", "atypes was not present before call of createInteractionHash!")
175	<	status = -1
181	>	call handleError("doForces", "atypes was not present before call of createInteractionHash!")
182		return
183		endif
184
185		nAtypes = getSize(atypes)
186
187		if (nAtypes == 0) then
188	<	status = -1
188	>	call handleError("doForces", "nAtypes was zero during call of createInteractionHash!")
189		return
190		end if
191
#	Line 205 \| Line 211 \| contains
211		call getElementProperty(atypes, i, "is_GayBerne", i_is_GB)
212		call getElementProperty(atypes, i, "is_EAM", i_is_EAM)
213		call getElementProperty(atypes, i, "is_Shape", i_is_Shape)
214	+	call getElementProperty(atypes, i, "is_SC", i_is_SC)
215	+	call getElementProperty(atypes, i, "is_MEAM", i_is_MEAM)
216
217		do j = i, nAtypes
218
#	Line 218 \| Line 226 \| contains
226		call getElementProperty(atypes, j, "is_GayBerne", j_is_GB)
227		call getElementProperty(atypes, j, "is_EAM", j_is_EAM)
228		call getElementProperty(atypes, j, "is_Shape", j_is_Shape)
229	+	call getElementProperty(atypes, j, "is_SC", j_is_SC)
230	+	call getElementProperty(atypes, j, "is_MEAM", j_is_MEAM)
231
232		if (i_is_LJ .and. j_is_LJ) then
233		iHash = ior(iHash, LJ_PAIR)
#	Line 239 \| Line 249 \| contains
249		iHash = ior(iHash, EAM_PAIR)
250		endif
251
252	+	if (i_is_SC .and. j_is_SC) then
253	+	iHash = ior(iHash, SC_PAIR)
254	+	endif
255	+
256		if (i_is_GB .and. j_is_GB) iHash = ior(iHash, GAYBERNE_PAIR)
257		if (i_is_GB .and. j_is_LJ) iHash = ior(iHash, GAYBERNE_LJ)
258		if (i_is_LJ .and. j_is_GB) iHash = ior(iHash, GAYBERNE_LJ)
#	Line 258 \| Line 272 \| contains
272		haveInteractionHash = .true.
273		end subroutine createInteractionHash
274
275	<	subroutine createGtypeCutoffMap(stat)
275	>	subroutine createGtypeCutoffMap()
276
263	–	integer, intent(out), optional :: stat
277		logical :: i_is_LJ
278		logical :: i_is_Elect
279		logical :: i_is_Sticky
#	Line 268 \| Line 281 \| contains
281		logical :: i_is_GB
282		logical :: i_is_EAM
283		logical :: i_is_Shape
284	+	logical :: i_is_SC
285		logical :: GtypeFound
286
287		integer :: myStatus, nAtypes, i, j, istart, iend, jstart, jend
#	Line 275 \| Line 289 \| contains
289		integer :: nGroupsInRow
290		integer :: nGroupsInCol
291		integer :: nGroupTypesRow,nGroupTypesCol
292	<	real(kind=dp):: thisSigma, bigSigma, thisRcut, tradRcut, tol, skin
292	>	real(kind=dp):: thisSigma, bigSigma, thisRcut, tradRcut, tol
293		real(kind=dp) :: biggestAtypeCutoff
294
281	–	stat = 0
295		if (.not. haveInteractionHash) then
296	<	call createInteractionHash(myStatus)
284	<	if (myStatus .ne. 0) then
285	<	write(default_error, *) 'createInteractionHash failed in doForces!'
286	<	stat = -1
287	<	return
288	<	endif
296	>	call createInteractionHash()
297		endif
298		#ifdef IS_MPI
299		nGroupsInRow = getNgroupsInRow(plan_group_row)
#	Line 303 \| Line 311 \| contains
311		call getElementProperty(atypes, i, "is_GayBerne", i_is_GB)
312		call getElementProperty(atypes, i, "is_EAM", i_is_EAM)
313		call getElementProperty(atypes, i, "is_Shape", i_is_Shape)
314	<
314	>	call getElementProperty(atypes, i, "is_SC", i_is_SC)
315
316		if (haveDefaultCutoffs) then
317		atypeMaxCutoff(i) = defaultRcut
#	Line 334 \| Line 342 \| contains
342		endif
343		if (i_is_Shape) then
344		thisRcut = getShapeCut(i)
345	+	if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
346	+	endif
347	+	if (i_is_SC) then
348	+	thisRcut = getSCCut(i)
349		if (thisRCut .gt. atypeMaxCutoff(i)) atypeMaxCutoff(i) = thisRCut
350		endif
351		endif
352	<
341	<
352	>
353		if (atypeMaxCutoff(i).gt.biggestAtypeCutoff) then
354		biggestAtypeCutoff = atypeMaxCutoff(i)
355		endif
356
357		endif
358		enddo
348	–
349	–
359
360		istart = 1
361		jstart = 1
#	Line 390 \| Line 399 \| contains
399		allocate(groupToGtypeCol(jend))
400		end if
401
402	<	if(.not.associated(groupToGtypeCol)) then
403	<	allocate(groupToGtypeCol(jend))
402	>	if(.not.associated(groupMaxCutoffCol)) then
403	>	allocate(groupMaxCutoffCol(jend))
404		else
405	<	deallocate(groupToGtypeCol)
406	<	allocate(groupToGtypeCol(jend))
405	>	deallocate(groupMaxCutoffCol)
406	>	allocate(groupMaxCutoffCol(jend))
407		end if
408		if(.not.associated(gtypeMaxCutoffCol)) then
409		allocate(gtypeMaxCutoffCol(jend))
#	Line 417 \| Line 426 \| contains
426
427		tol = 1.0d-6
428		nGroupTypesRow = 0
429	<
429	>	nGroupTypesCol = 0
430		do i = istart, iend
431		n_in_i = groupStartRow(i+1) - groupStartRow(i)
432		groupMaxCutoffRow(i) = 0.0_dp
#	Line 432 \| Line 441 \| contains
441		groupMaxCutoffRow(i)=atypeMaxCutoff(me_i)
442		endif
443		enddo
435	–
444		if (nGroupTypesRow.eq.0) then
445		nGroupTypesRow = nGroupTypesRow + 1
446		gtypeMaxCutoffRow(nGroupTypesRow) = groupMaxCutoffRow(i)
#	Line 495 \| Line 503 \| contains
503		groupMaxCutoffCol => groupMaxCutoffRow
504		#endif
505
498	–
499	–
500	–
501	–
506		!! allocate the gtypeCutoffMap here.
507		allocate(gtypeCutoffMap(nGroupTypesRow,nGroupTypesCol))
508		!! then we do a double loop over all the group TYPES to find the cutoff
509		!! map between groups of two types
510		tradRcut = max(maxval(gtypeMaxCutoffRow),maxval(gtypeMaxCutoffCol))
511
512	<	do i = 1, nGroupTypesRow
512	>	do i = 1, nGroupTypesRow
513		do j = 1, nGroupTypesCol
514
515		select case(cutoffPolicy)
#	Line 520 \| Line 524 \| contains
524		return
525		end select
526		gtypeCutoffMap(i,j)%rcut = thisRcut
527	+
528	+	if (thisRcut.gt.largestRcut) largestRcut = thisRcut
529	+
530		gtypeCutoffMap(i,j)%rcutsq = thisRcut*thisRcut
524	–	skin = defaultRlist - defaultRcut
525	–	listSkin = skin ! set neighbor list skin thickness
526	–	gtypeCutoffMap(i,j)%rlistsq = (thisRcut + skin)**2
531
532	+	if (.not.haveSkinThickness) then
533	+	skinThickness = 1.0_dp
534	+	endif
535	+
536	+	gtypeCutoffMap(i,j)%rlistsq = (thisRcut + skinThickness)**2
537	+
538		! sanity check
539
540		if (haveDefaultCutoffs) then
#	Line 534 \| Line 544 \| contains
544		endif
545		enddo
546		enddo
547	+
548		if(allocated(gtypeMaxCutoffRow)) deallocate(gtypeMaxCutoffRow)
549		if(allocated(groupMaxCutoffRow)) deallocate(groupMaxCutoffRow)
550		if(allocated(atypeMaxCutoff)) deallocate(atypeMaxCutoff)
#	Line 547 \| Line 558 \| contains
558		haveGtypeCutoffMap = .true.
559		end subroutine createGtypeCutoffMap
560
561	<	subroutine setDefaultCutoffs(defRcut, defRsw, defRlist, cutPolicy)
551	<	real(kind=dp),intent(in) :: defRcut, defRsw, defRlist
552	<	integer, intent(in) :: cutPolicy
561	>	subroutine setCutoffs(defRcut, defRsw)
562
563	+	real(kind=dp),intent(in) :: defRcut, defRsw
564	+	character(len = statusMsgSize) :: errMsg
565	+	integer :: localError
566	+
567		defaultRcut = defRcut
568		defaultRsw = defRsw
569	<	defaultRlist = defRlist
570	<	cutoffPolicy = cutPolicy
569	>
570	>	defaultDoShift = .false.
571	>	if (abs(defaultRcut-defaultRsw) .lt. 0.0001) then
572	>
573	>	write(errMsg, *) &
574	>	'cutoffRadius and switchingRadius are set to the same', newline &
575	>	// tab, 'value. OOPSE will use shifted ', newline &
576	>	// tab, 'potentials instead of switching functions.'
577	>
578	>	call handleInfo("setCutoffs", errMsg)
579	>
580	>	defaultDoShift = .true.
581	>
582	>	endif
583
584	+	localError = 0
585	+	call setLJDefaultCutoff( defaultRcut, defaultDoShift )
586	+	call setElectrostaticCutoffRadius( defaultRcut, defaultRsw )
587	+	call setCutoffEAM( defaultRcut, localError)
588	+	if (localError /= 0) then
589	+	write(errMsg, *) 'An error has occured in setting the EAM cutoff'
590	+	call handleError("setCutoffs", errMsg)
591	+	end if
592	+	call set_switch(GROUP_SWITCH, defaultRsw, defaultRcut)
593	+	call setHmatDangerousRcutValue(defaultRcut)
594	+
595		haveDefaultCutoffs = .true.
596	<	end subroutine setDefaultCutoffs
596	>	haveGtypeCutoffMap = .false.
597	>	end subroutine setCutoffs
598
599	+	subroutine cWasLame()
600	+
601	+	VisitCutoffsAfterComputing = .true.
602	+	return
603	+
604	+	end subroutine cWasLame
605	+
606		subroutine setCutoffPolicy(cutPolicy)
607	<
607	>
608		integer, intent(in) :: cutPolicy
609	+
610		cutoffPolicy = cutPolicy
611	<	call createGtypeCutoffMap()
612	<	end subroutine setCutoffPolicy
568	<
611	>	haveCutoffPolicy = .true.
612	>	haveGtypeCutoffMap = .false.
613
614	<	subroutine setSimVariables()
615	<	SIM_uses_DirectionalAtoms = SimUsesDirectionalAtoms()
616	<	SIM_uses_EAM = SimUsesEAM()
573	<	SIM_requires_postpair_calc = SimRequiresPostpairCalc()
574	<	SIM_requires_prepair_calc = SimRequiresPrepairCalc()
575	<	SIM_uses_PBC = SimUsesPBC()
614	>	end subroutine setCutoffPolicy
615	>
616	>	subroutine setElectrostaticMethod( thisESM )
617
618	<	haveSIMvariables = .true.
618	>	integer, intent(in) :: thisESM
619
620	<	return
621	<	end subroutine setSimVariables
620	>	electrostaticSummationMethod = thisESM
621	>	haveElectrostaticSummationMethod = .true.
622	>
623	>	end subroutine setElectrostaticMethod
624
625	+	subroutine setSkinThickness( thisSkin )
626	+
627	+	real(kind=dp), intent(in) :: thisSkin
628	+
629	+	skinThickness = thisSkin
630	+	haveSkinThickness = .true.
631	+	haveGtypeCutoffMap = .false.
632	+
633	+	end subroutine setSkinThickness
634	+
635	+	subroutine setSimVariables()
636	+	SIM_uses_DirectionalAtoms = SimUsesDirectionalAtoms()
637	+	SIM_uses_EAM = SimUsesEAM()
638	+	SIM_requires_postpair_calc = SimRequiresPostpairCalc()
639	+	SIM_requires_prepair_calc = SimRequiresPrepairCalc()
640	+	SIM_uses_PBC = SimUsesPBC()
641	+	SIM_uses_SC = SimUsesSC()
642	+
643	+	haveSIMvariables = .true.
644	+
645	+	return
646	+	end subroutine setSimVariables
647	+
648		subroutine doReadyCheck(error)
649		integer, intent(out) :: error
650
#	Line 587 \| Line 653 \| contains
653		error = 0
654
655		if (.not. haveInteractionHash) then
656	<	myStatus = 0
591	<	call createInteractionHash(myStatus)
592	<	if (myStatus .ne. 0) then
593	<	write(default_error, *) 'createInteractionHash failed in doForces!'
594	<	error = -1
595	<	return
596	<	endif
656	>	call createInteractionHash()
657		endif
658
659		if (.not. haveGtypeCutoffMap) then
660	<	myStatus = 0
601	<	call createGtypeCutoffMap(myStatus)
602	<	if (myStatus .ne. 0) then
603	<	write(default_error, *) 'createGtypeCutoffMap failed in doForces!'
604	<	error = -1
605	<	return
606	<	endif
660	>	call createGtypeCutoffMap()
661		endif
662
663	+
664	+	if (VisitCutoffsAfterComputing) then
665	+	call set_switch(GROUP_SWITCH, largestRcut, largestRcut)
666	+	call setHmatDangerousRcutValue(largestRcut)
667	+	endif
668	+
669	+
670		if (.not. haveSIMvariables) then
671		call setSimVariables()
672		endif
#	Line 639 \| Line 700 \| contains
700		end subroutine doReadyCheck
701
702
703	<	subroutine init_FF(thisESM, thisStat)
703	>	subroutine init_FF(thisStat)
704
644	–	integer, intent(in) :: thisESM
705		integer, intent(out) :: thisStat
706		integer :: my_status, nMatches
707		integer, pointer :: MatchList(:) => null()
648	–	real(kind=dp) :: rcut, rrf, rt, dielect
708
709		!! assume things are copacetic, unless they aren't
710		thisStat = 0
711
653	–	electrostaticSummationMethod = thisESM
654	–
712		!! init_FF is called after all of the atom types have been
713		!! defined in atype_module using the new_atype subroutine.
714		!!
#	Line 662 \| Line 719 \| contains
719		FF_uses_Dipoles = .false.
720		FF_uses_GayBerne = .false.
721		FF_uses_EAM = .false.
722	+	FF_uses_SC = .false.
723
724		call getMatchingElementList(atypes, "is_Directional", .true., &
725		nMatches, MatchList)
#	Line 678 \| Line 736 \| contains
736		call getMatchingElementList(atypes, "is_EAM", .true., nMatches, MatchList)
737		if (nMatches .gt. 0) FF_uses_EAM = .true.
738
739	+	call getMatchingElementList(atypes, "is_SC", .true., nMatches, MatchList)
740	+	if (nMatches .gt. 0) FF_uses_SC = .true.
741
742	+
743		haveSaneForceField = .true.
744
684	–	!! check to make sure the reaction field setting makes sense
685	–
686	–	if (FF_uses_Dipoles) then
687	–	if (electrostaticSummationMethod == REACTION_FIELD) then
688	–	dielect = getDielect()
689	–	call initialize_rf(dielect)
690	–	endif
691	–	else
692	–	if (electrostaticSummationMethod == REACTION_FIELD) then
693	–	write(default_error,*) 'Using Reaction Field with no dipoles? Huh?'
694	–	thisStat = -1
695	–	haveSaneForceField = .false.
696	–	return
697	–	endif
698	–	endif
699	–
745		if (FF_uses_EAM) then
746		call init_EAM_FF(my_status)
747		if (my_status /= 0) then
#	Line 707 \| Line 752 \| contains
752		end if
753		endif
754
710	–	if (FF_uses_GayBerne) then
711	–	call check_gb_pair_FF(my_status)
712	–	if (my_status .ne. 0) then
713	–	thisStat = -1
714	–	haveSaneForceField = .false.
715	–	return
716	–	endif
717	–	endif
718	–
755		if (.not. haveNeighborList) then
756		!! Create neighbor lists
757		call expandNeighborList(nLocal, my_status)
#	Line 749 \| Line 785 \| contains
785
786		!! Stress Tensor
787		real( kind = dp), dimension(9) :: tau
788	<	real ( kind = dp ),dimension(POT_ARRAY_SIZE) :: pot
788	>	real ( kind = dp ),dimension(LR_POT_TYPES) :: pot
789		logical ( kind = 2) :: do_pot_c, do_stress_c
790		logical :: do_pot
791		logical :: do_stress
792		logical :: in_switching_region
793		#ifdef IS_MPI
794	<	real( kind = DP ), dimension(POT_ARRAY_SIZE) :: pot_local
794	>	real( kind = DP ), dimension(LR_POT_TYPES) :: pot_local
795		integer :: nAtomsInRow
796		integer :: nAtomsInCol
797		integer :: nprocs
#	Line 770 \| Line 806 \| contains
806		integer :: nlist
807		real( kind = DP ) :: ratmsq, rgrpsq, rgrp, vpair, vij
808		real( kind = DP ) :: sw, dswdr, swderiv, mf
809	+	real( kind = DP ) :: rVal
810		real(kind=dp),dimension(3) :: d_atm, d_grp, fpair, fij
811		real(kind=dp) :: rfpot, mu_i, virial
812	+	real(kind=dp):: rCut
813		integer :: me_i, me_j, n_in_i, n_in_j
814		logical :: is_dp_i
815		integer :: neighborListSize
#	Line 780 \| Line 818 \| contains
818		integer :: propPack_i, propPack_j
819		integer :: loopStart, loopEnd, loop
820		integer :: iHash
821	+	integer :: i1
822
823
824		!! initialize local variables
#	Line 844 \| Line 883 \| contains
883		! (but only on the first time through):
884		if (loop .eq. loopStart) then
885		#ifdef IS_MPI
886	<	call checkNeighborList(nGroupsInRow, q_group_row, listSkin, &
886	>	call checkNeighborList(nGroupsInRow, q_group_row, skinThickness, &
887		update_nlist)
888		#else
889	<	call checkNeighborList(nGroups, q_group, listSkin, &
889	>	call checkNeighborList(nGroups, q_group, skinThickness, &
890		update_nlist)
891		#endif
892		endif
#	Line 927 \| Line 966 \| contains
966
967		list(nlist) = j
968		endif
969	+
970
971	<	if (loop .eq. PAIR_LOOP) then
972	<	vij = 0.0d0
933	<	fij(1:3) = 0.0d0
934	<	endif
935	<
936	<	call get_switch(rgrpsq, sw, dswdr, rgrp, group_switch, &
937	<	in_switching_region)
971	>
972	>	if (rgrpsq < gtypeCutoffMap(groupToGtypeRow(i),groupToGtypeCol(j))%rCutsq) then
973
974	<	n_in_j = groupStartCol(j+1) - groupStartCol(j)
975	<
976	<	do ia = groupStartRow(i), groupStartRow(i+1)-1
977	<
978	<	atom1 = groupListRow(ia)
979	<
980	<	inner: do jb = groupStartCol(j), groupStartCol(j+1)-1
981	<
982	<	atom2 = groupListCol(jb)
983	<
984	<	if (skipThisPair(atom1, atom2)) cycle inner
985	<
986	<	if ((n_in_i .eq. 1).and.(n_in_j .eq. 1)) then
987	<	d_atm(1:3) = d_grp(1:3)
988	<	ratmsq = rgrpsq
989	<	else
974	>	rCut = gtypeCutoffMap(groupToGtypeRow(i),groupToGtypeCol(j))%rCut
975	>	if (loop .eq. PAIR_LOOP) then
976	>	vij = 0.0d0
977	>	fij(1:3) = 0.0d0
978	>	endif
979	>
980	>	call get_switch(rgrpsq, sw, dswdr, rgrp, &
981	>	group_switch, in_switching_region)
982	>
983	>	n_in_j = groupStartCol(j+1) - groupStartCol(j)
984	>
985	>	do ia = groupStartRow(i), groupStartRow(i+1)-1
986	>
987	>	atom1 = groupListRow(ia)
988	>
989	>	inner: do jb = groupStartCol(j), groupStartCol(j+1)-1
990	>
991	>	atom2 = groupListCol(jb)
992	>
993	>	if (skipThisPair(atom1, atom2)) cycle inner
994	>
995	>	if ((n_in_i .eq. 1).and.(n_in_j .eq. 1)) then
996	>	d_atm(1:3) = d_grp(1:3)
997	>	ratmsq = rgrpsq
998	>	else
999		#ifdef IS_MPI
1000	<	call get_interatomic_vector(q_Row(:,atom1), &
1001	<	q_Col(:,atom2), d_atm, ratmsq)
1000	>	call get_interatomic_vector(q_Row(:,atom1), &
1001	>	q_Col(:,atom2), d_atm, ratmsq)
1002		#else
1003	<	call get_interatomic_vector(q(:,atom1), &
1004	<	q(:,atom2), d_atm, ratmsq)
1003	>	call get_interatomic_vector(q(:,atom1), &
1004	>	q(:,atom2), d_atm, ratmsq)
1005		#endif
1006	<	endif
1007	<
1008	<	if (loop .eq. PREPAIR_LOOP) then
1006	>	endif
1007	>
1008	>	if (loop .eq. PREPAIR_LOOP) then
1009		#ifdef IS_MPI
1010	<	call do_prepair(atom1, atom2, ratmsq, d_atm, sw, &
1011	<	rgrpsq, d_grp, do_pot, do_stress, &
1012	<	eFrame, A, f, t, pot_local)
1010	>	call do_prepair(atom1, atom2, ratmsq, d_atm, sw, &
1011	>	rgrpsq, d_grp, rCut, do_pot, do_stress, &
1012	>	eFrame, A, f, t, pot_local)
1013		#else
1014	<	call do_prepair(atom1, atom2, ratmsq, d_atm, sw, &
1015	<	rgrpsq, d_grp, do_pot, do_stress, &
1016	<	eFrame, A, f, t, pot)
1014	>	call do_prepair(atom1, atom2, ratmsq, d_atm, sw, &
1015	>	rgrpsq, d_grp, rCut, do_pot, do_stress, &
1016	>	eFrame, A, f, t, pot)
1017		#endif
1018	<	else
1018	>	else
1019		#ifdef IS_MPI
1020	<	call do_pair(atom1, atom2, ratmsq, d_atm, sw, &
1021	<	do_pot, &
1022	<	eFrame, A, f, t, pot_local, vpair, fpair)
1020	>	call do_pair(atom1, atom2, ratmsq, d_atm, sw, &
1021	>	do_pot, eFrame, A, f, t, pot_local, vpair, &
1022	>	fpair, d_grp, rgrp, rCut)
1023		#else
1024	<	call do_pair(atom1, atom2, ratmsq, d_atm, sw, &
1025	<	do_pot, &
1026	<	eFrame, A, f, t, pot, vpair, fpair)
1024	>	call do_pair(atom1, atom2, ratmsq, d_atm, sw, &
1025	>	do_pot, eFrame, A, f, t, pot, vpair, fpair, &
1026	>	d_grp, rgrp, rCut)
1027		#endif
1028	+	vij = vij + vpair
1029	+	fij(1:3) = fij(1:3) + fpair(1:3)
1030	+	endif
1031	+	enddo inner
1032	+	enddo
1033
1034	<	vij = vij + vpair
1035	<	fij(1:3) = fij(1:3) + fpair(1:3)
1036	<	endif
1037	<	enddo inner
1038	<	enddo
1039	<
1040	<	if (loop .eq. PAIR_LOOP) then
1041	<	if (in_switching_region) then
1042	<	swderiv = vij*dswdr/rgrp
1043	<	fij(1) = fij(1) + swderiv*d_grp(1)
995	<	fij(2) = fij(2) + swderiv*d_grp(2)
996	<	fij(3) = fij(3) + swderiv*d_grp(3)
997	<
998	<	do ia=groupStartRow(i), groupStartRow(i+1)-1
999	<	atom1=groupListRow(ia)
1000	<	mf = mfactRow(atom1)
1034	>	if (loop .eq. PAIR_LOOP) then
1035	>	if (in_switching_region) then
1036	>	swderiv = vij*dswdr/rgrp
1037	>	fij(1) = fij(1) + swderiv*d_grp(1)
1038	>	fij(2) = fij(2) + swderiv*d_grp(2)
1039	>	fij(3) = fij(3) + swderiv*d_grp(3)
1040	>
1041	>	do ia=groupStartRow(i), groupStartRow(i+1)-1
1042	>	atom1=groupListRow(ia)
1043	>	mf = mfactRow(atom1)
1044		#ifdef IS_MPI
1045	<	f_Row(1,atom1) = f_Row(1,atom1) + swderivd_grp(1)mf
1046	<	f_Row(2,atom1) = f_Row(2,atom1) + swderivd_grp(2)mf
1047	<	f_Row(3,atom1) = f_Row(3,atom1) + swderivd_grp(3)mf
1045	>	f_Row(1,atom1) = f_Row(1,atom1) + swderivd_grp(1)mf
1046	>	f_Row(2,atom1) = f_Row(2,atom1) + swderivd_grp(2)mf
1047	>	f_Row(3,atom1) = f_Row(3,atom1) + swderivd_grp(3)mf
1048		#else
1049	<	f(1,atom1) = f(1,atom1) + swderivd_grp(1)mf
1050	<	f(2,atom1) = f(2,atom1) + swderivd_grp(2)mf
1051	<	f(3,atom1) = f(3,atom1) + swderivd_grp(3)mf
1049	>	f(1,atom1) = f(1,atom1) + swderivd_grp(1)mf
1050	>	f(2,atom1) = f(2,atom1) + swderivd_grp(2)mf
1051	>	f(3,atom1) = f(3,atom1) + swderivd_grp(3)mf
1052		#endif
1053	<	enddo
1054	<
1055	<	do jb=groupStartCol(j), groupStartCol(j+1)-1
1056	<	atom2=groupListCol(jb)
1057	<	mf = mfactCol(atom2)
1053	>	enddo
1054	>
1055	>	do jb=groupStartCol(j), groupStartCol(j+1)-1
1056	>	atom2=groupListCol(jb)
1057	>	mf = mfactCol(atom2)
1058		#ifdef IS_MPI
1059	<	f_Col(1,atom2) = f_Col(1,atom2) - swderivd_grp(1)mf
1060	<	f_Col(2,atom2) = f_Col(2,atom2) - swderivd_grp(2)mf
1061	<	f_Col(3,atom2) = f_Col(3,atom2) - swderivd_grp(3)mf
1059	>	f_Col(1,atom2) = f_Col(1,atom2) - swderivd_grp(1)mf
1060	>	f_Col(2,atom2) = f_Col(2,atom2) - swderivd_grp(2)mf
1061	>	f_Col(3,atom2) = f_Col(3,atom2) - swderivd_grp(3)mf
1062		#else
1063	<	f(1,atom2) = f(1,atom2) - swderivd_grp(1)mf
1064	<	f(2,atom2) = f(2,atom2) - swderivd_grp(2)mf
1065	<	f(3,atom2) = f(3,atom2) - swderivd_grp(3)mf
1063	>	f(1,atom2) = f(1,atom2) - swderivd_grp(1)mf
1064	>	f(2,atom2) = f(2,atom2) - swderivd_grp(2)mf
1065	>	f(3,atom2) = f(3,atom2) - swderivd_grp(3)mf
1066		#endif
1067	<	enddo
1068	<	endif
1067	>	enddo
1068	>	endif
1069
1070	<	if (do_stress) call add_stress_tensor(d_grp, fij)
1070	>	if (do_stress) call add_stress_tensor(d_grp, fij)
1071	>	endif
1072		endif
1073	<	end if
1073	>	endif
1074		enddo
1075	<
1075	>
1076		enddo outer
1077
1078		if (update_nlist) then
#	Line 1088 \| Line 1132 \| contains
1132
1133		if (do_pot) then
1134		! scatter/gather pot_row into the members of my column
1135	<	do i = 1,POT_ARRAY_SIZE
1135	>	do i = 1,LR_POT_TYPES
1136		call scatter(pot_Row(i,:), pot_Temp(i,:), plan_atom_row)
1137		end do
1138		! scatter/gather pot_local into all other procs
1139		! add resultant to get total pot
1140		do i = 1, nlocal
1141	<	pot_local(1:POT_ARRAY_SIZE) = pot_local(1:POT_ARRAY_SIZE &
1142	<	+ pot_Temp(1:POT_ARRAY_SIZE,i)
1141	>	pot_local(1:LR_POT_TYPES) = pot_local(1:LR_POT_TYPES) &
1142	>	+ pot_Temp(1:LR_POT_TYPES,i)
1143		enddo
1144
1145		pot_Temp = 0.0_DP
1146	<	do i = 1,POT_ARRAY_SIZE
1146	>	do i = 1,LR_POT_TYPES
1147		call scatter(pot_Col(i,:), pot_Temp(i,:), plan_atom_col)
1148		end do
1149		do i = 1, nlocal
1150	<	pot_local(1:POT_ARRAY_SIZE) = pot_local(1:POT_ARRAY_SIZE)&
1151	<	+ pot_Temp(1:POT_ARRAY_SIZE,i)
1150	>	pot_local(1:LR_POT_TYPES) = pot_local(1:LR_POT_TYPES)&
1151	>	+ pot_Temp(1:LR_POT_TYPES,i)
1152		enddo
1153
1154		endif
1155		#endif
1156
1157	<	if (FF_RequiresPostpairCalc() .and. SIM_requires_postpair_calc) then
1157	>	if (SIM_requires_postpair_calc) then
1158	>	do i = 1, nlocal
1159	>
1160	>	! we loop only over the local atoms, so we don't need row and column
1161	>	! lookups for the types
1162	>
1163	>	me_i = atid(i)
1164	>
1165	>	! is the atom electrostatic? See if it would have an
1166	>	! electrostatic interaction with itself
1167	>	iHash = InteractionHash(me_i,me_i)
1168
1169	<	if (electrostaticSummationMethod == REACTION_FIELD) then
1116	<
1169	>	if ( iand(iHash, ELECTROSTATIC_PAIR).ne.0 ) then
1170		#ifdef IS_MPI
1171	<	call scatter(rf_Row,rf,plan_atom_row_3d)
1172	<	call scatter(rf_Col,rf_Temp,plan_atom_col_3d)
1120	<	do i = 1,nlocal
1121	<	rf(1:3,i) = rf(1:3,i) + rf_Temp(1:3,i)
1122	<	end do
1123	<	#endif
1124	<
1125	<	do i = 1, nLocal
1126	<
1127	<	rfpot = 0.0_DP
1128	<	#ifdef IS_MPI
1129	<	me_i = atid_row(i)
1171	>	call self_self(i, eFrame, pot_local(ELECTROSTATIC_POT), &
1172	>	t, do_pot)
1173		#else
1174	<	me_i = atid(i)
1174	>	call self_self(i, eFrame, pot(ELECTROSTATIC_POT), &
1175	>	t, do_pot)
1176		#endif
1177	<	iHash = InteractionHash(me_i,me_j)
1177	>	endif
1178	>
1179	>
1180	>	if (electrostaticSummationMethod.eq.REACTION_FIELD) then
1181
1182	<	if ( iand(iHash, ELECTROSTATIC_PAIR).ne.0 ) then
1183	<
1184	<	mu_i = getDipoleMoment(me_i)
1185	<
1186	<	!! The reaction field needs to include a self contribution
1187	<	!! to the field:
1188	<	call accumulate_self_rf(i, mu_i, eFrame)
1189	<	!! Get the reaction field contribution to the
1190	<	!! potential and torques:
1191	<	call reaction_field_final(i, mu_i, eFrame, rfpot, t, do_pot)
1182	>	! loop over the excludes to accumulate RF stuff we've
1183	>	! left out of the normal pair loop
1184	>
1185	>	do i1 = 1, nSkipsForAtom(i)
1186	>	j = skipsForAtom(i, i1)
1187	>
1188	>	! prevent overcounting of the skips
1189	>	if (i.lt.j) then
1190	>	call get_interatomic_vector(q(:,i), &
1191	>	q(:,j), d_atm, ratmsq)
1192	>	rVal = dsqrt(ratmsq)
1193	>	call get_switch(ratmsq, sw, dswdr, rVal, group_switch, &
1194	>	in_switching_region)
1195		#ifdef IS_MPI
1196	<	pot_local(RF_POT) = pot_local(RF_POT) + rfpot
1196	>	call rf_self_excludes(i, j, sw, eFrame, d_atm, rVal, &
1197	>	vpair, pot_local(ELECTROSTATIC_POT), f, t, do_pot)
1198		#else
1199	<	pot(RF_POT) = pot(RF_POT) + rfpot
1200	<
1199	>	call rf_self_excludes(i, j, sw, eFrame, d_atm, rVal, &
1200	>	vpair, pot(ELECTROSTATIC_POT), f, t, do_pot)
1201		#endif
1202	<	endif
1203	<	enddo
1204	<	endif
1205	<	endif
1206	<
1207	<
1202	>	endif
1203	>	enddo
1204	>	endif
1205	>	enddo
1206	>	endif
1207	>
1208		#ifdef IS_MPI
1209	<
1209	>
1210		if (do_pot) then
1211	<	pot(1:SIZE_POT_ARRAY) = pot(1:SIZE_POT_ARRAY) &
1212	<	+ pot_local(1:SIZE_POT_ARRAY)
1162	<	!! we assume the c code will do the allreduce to get the total potential
1163	<	!! we could do it right here if we needed to...
1211	>	call mpi_allreduce(pot_local, pot, LR_POT_TYPES,mpi_double_precision,mpi_sum, &
1212	>	mpi_comm_world,mpi_err)
1213		endif
1214	<
1214	>
1215		if (do_stress) then
1216		call mpi_allreduce(tau_Temp, tau, 9,mpi_double_precision,mpi_sum, &
1217		mpi_comm_world,mpi_err)
1218		call mpi_allreduce(virial_Temp, virial,1,mpi_double_precision,mpi_sum, &
1219		mpi_comm_world,mpi_err)
1220		endif
1221	<
1221	>
1222		#else
1223	<
1223	>
1224		if (do_stress) then
1225		tau = tau_Temp
1226		virial = virial_Temp
1227		endif
1228	<
1228	>
1229		#endif
1230	<
1230	>
1231		end subroutine do_force_loop
1232
1233		subroutine do_pair(i, j, rijsq, d, sw, do_pot, &
1234	<	eFrame, A, f, t, pot, vpair, fpair)
1234	>	eFrame, A, f, t, pot, vpair, fpair, d_grp, r_grp, rCut)
1235
1236		real( kind = dp ) :: vpair, sw
1237	<	real( kind = dp ), dimension(POT_ARRAY_SIZE) :: pot
1237	>	real( kind = dp ), dimension(LR_POT_TYPES) :: pot
1238		real( kind = dp ), dimension(3) :: fpair
1239		real( kind = dp ), dimension(nLocal) :: mfact
1240		real( kind = dp ), dimension(9,nLocal) :: eFrame
#	Line 1196 \| Line 1245 \| contains
1245		logical, intent(inout) :: do_pot
1246		integer, intent(in) :: i, j
1247		real ( kind = dp ), intent(inout) :: rijsq
1248	<	real ( kind = dp ) :: r
1248	>	real ( kind = dp ), intent(inout) :: r_grp
1249		real ( kind = dp ), intent(inout) :: d(3)
1250	+	real ( kind = dp ), intent(inout) :: d_grp(3)
1251	+	real ( kind = dp ), intent(inout) :: rCut
1252	+	real ( kind = dp ) :: r
1253		integer :: me_i, me_j
1254
1255		integer :: iHash
#	Line 1215 \| Line 1267 \| contains
1267		#endif
1268
1269		iHash = InteractionHash(me_i, me_j)
1270	<
1270	>
1271		if ( iand(iHash, LJ_PAIR).ne.0 ) then
1272	<	call do_lj_pair(i, j, d, r, rijsq, sw, vpair, fpair, pot(LJ_POT), f, do_pot)
1272	>	call do_lj_pair(i, j, d, r, rijsq, rcut, sw, vpair, fpair, &
1273	>	pot(VDW_POT), f, do_pot)
1274		endif
1275	<
1275	>
1276		if ( iand(iHash, ELECTROSTATIC_PAIR).ne.0 ) then
1277	<	call doElectrostaticPair(i, j, d, r, rijsq, sw, vpair, fpair, &
1277	>	call doElectrostaticPair(i, j, d, r, rijsq, rcut, sw, vpair, fpair, &
1278		pot(ELECTROSTATIC_POT), eFrame, f, t, do_pot)
1226	–
1227	–	if (electrostaticSummationMethod == REACTION_FIELD) then
1228	–
1229	–	! CHECK ME (RF needs to know about all electrostatic types)
1230	–	call accumulate_rf(i, j, r, eFrame, sw)
1231	–	call rf_correct_forces(i, j, d, r, eFrame, sw, f, fpair)
1232	–	endif
1233	–
1279		endif
1280	<
1280	>
1281		if ( iand(iHash, STICKY_PAIR).ne.0 ) then
1282		call do_sticky_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1283	<	pot(STICKY_POT), A, f, t, do_pot)
1283	>	pot(HB_POT), A, f, t, do_pot)
1284		endif
1285	<
1285	>
1286		if ( iand(iHash, STICKYPOWER_PAIR).ne.0 ) then
1287		call do_sticky_power_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1288	<	pot(STICKYPOWER_POT), A, f, t, do_pot)
1288	>	pot(HB_POT), A, f, t, do_pot)
1289		endif
1290	<
1290	>
1291		if ( iand(iHash, GAYBERNE_PAIR).ne.0 ) then
1292		call do_gb_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1293	<	pot(GAYBERNE_POT), A, f, t, do_pot)
1293	>	pot(VDW_POT), A, f, t, do_pot)
1294		endif
1295
1296		if ( iand(iHash, GAYBERNE_LJ).ne.0 ) then
1297	<	! call do_gblj_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1298	<	! pot(GAYBERNE_LJ_POT), A, f, t, do_pot)
1297	>	call do_gb_lj_pair(i, j, d, r, rijsq, rcut, sw, vpair, fpair, &
1298	>	pot(VDW_POT), A, f, t, do_pot)
1299		endif
1300	<
1300	>
1301		if ( iand(iHash, EAM_PAIR).ne.0 ) then
1302	<	call do_eam_pair(i, j, d, r, rijsq, sw, vpair, fpair, pot(EAM_POT), f, &
1303	<	do_pot)
1302	>	call do_eam_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1303	>	pot(METALLIC_POT), f, do_pot)
1304		endif
1305	<
1305	>
1306		if ( iand(iHash, SHAPE_PAIR).ne.0 ) then
1307		call do_shape_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1308	<	pot(SHAPE_POT), A, f, t, do_pot)
1308	>	pot(VDW_POT), A, f, t, do_pot)
1309		endif
1310	<
1310	>
1311		if ( iand(iHash, SHAPE_LJ).ne.0 ) then
1312		call do_shape_pair(i, j, d, r, rijsq, sw, vpair, fpair, &
1313	<	pot(SHAPE_LJ_POT), A, f, t, do_pot)
1313	>	pot(VDW_POT), A, f, t, do_pot)
1314		endif
1315	+
1316	+	if ( iand(iHash, SC_PAIR).ne.0 ) then
1317	+	call do_SC_pair(i, j, d, r, rijsq, rcut, sw, vpair, fpair, &
1318	+	pot(METALLIC_POT), f, do_pot)
1319	+	endif
1320	+
1321
1322	+
1323		end subroutine do_pair
1324
1325	<	subroutine do_prepair(i, j, rijsq, d, sw, rcijsq, dc, &
1325	>	subroutine do_prepair(i, j, rijsq, d, sw, rcijsq, dc, rCut, &
1326		do_pot, do_stress, eFrame, A, f, t, pot)
1327
1328		real( kind = dp ) :: sw
1329	<	real( kind = dp ), dimension(POT_ARRAY_SIZE) :: pot
1329	>	real( kind = dp ), dimension(LR_POT_TYPES) :: pot
1330		real( kind = dp ), dimension(9,nLocal) :: eFrame
1331		real (kind=dp), dimension(9,nLocal) :: A
1332		real (kind=dp), dimension(3,nLocal) :: f
#	Line 1282 \| Line 1334 \| contains
1334
1335		logical, intent(inout) :: do_pot, do_stress
1336		integer, intent(in) :: i, j
1337	<	real ( kind = dp ), intent(inout) :: rijsq, rcijsq
1337	>	real ( kind = dp ), intent(inout) :: rijsq, rcijsq, rCut
1338		real ( kind = dp ) :: r, rc
1339		real ( kind = dp ), intent(inout) :: d(3), dc(3)
1340
#	Line 1301 \| Line 1353 \| contains
1353		iHash = InteractionHash(me_i, me_j)
1354
1355		if ( iand(iHash, EAM_PAIR).ne.0 ) then
1356	<	call calc_EAM_prepair_rho(i, j, d, r, rijsq )
1356	>	call calc_EAM_prepair_rho(i, j, d, r, rijsq)
1357		endif
1358	+
1359	+	if ( iand(iHash, SC_PAIR).ne.0 ) then
1360	+	call calc_SC_prepair_rho(i, j, d, r, rijsq, rcut )
1361	+	endif
1362
1363		end subroutine do_prepair
1364
1365
1366		subroutine do_preforce(nlocal,pot)
1367		integer :: nlocal
1368	<	real( kind = dp ),dimension(POT_ARRAY_SIZE) :: pot
1368	>	real( kind = dp ),dimension(LR_POT_TYPES) :: pot
1369
1370		if (FF_uses_EAM .and. SIM_uses_EAM) then
1371	<	call calc_EAM_preforce_Frho(nlocal,pot(EAM_POT))
1371	>	call calc_EAM_preforce_Frho(nlocal,pot(METALLIC_POT))
1372		endif
1373	+	if (FF_uses_SC .and. SIM_uses_SC) then
1374	+	call calc_SC_preforce_Frho(nlocal,pot(METALLIC_POT))
1375	+	endif
1376
1377
1378		end subroutine do_preforce
#	Line 1398 \| Line 1457 \| contains
1457		pot_Col = 0.0_dp
1458		pot_Temp = 0.0_dp
1459
1401	–	rf_Row = 0.0_dp
1402	–	rf_Col = 0.0_dp
1403	–	rf_Temp = 0.0_dp
1404	–
1460		#endif
1461
1462		if (FF_uses_EAM .and. SIM_uses_EAM) then
1463		call clean_EAM()
1464		endif
1465
1411	–	rf = 0.0_dp
1466		tau_Temp = 0.0_dp
1467		virial_Temp = 0.0_dp
1468		end subroutine zero_work_arrays
#	Line 1502 \| Line 1556 \| contains
1556
1557		function FF_RequiresPrepairCalc() result(doesit)
1558		logical :: doesit
1559	<	doesit = FF_uses_EAM
1559	>	doesit = FF_uses_EAM .or. FF_uses_SC &
1560	>	.or. FF_uses_MEAM
1561		end function FF_RequiresPrepairCalc
1562
1508	–	function FF_RequiresPostpairCalc() result(doesit)
1509	–	logical :: doesit
1510	–	if (electrostaticSummationMethod == REACTION_FIELD) doesit = .true.
1511	–	end function FF_RequiresPostpairCalc
1512	–
1563		#ifdef PROFILE
1564		function getforcetime() result(totalforcetime)
1565		real(kind=dp) :: totalforcetime

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Comparing trunk/OOPSE-4/src/UseTheForce/doForces.F90 (file contents): Revision 2356 by chuckv, Wed Oct 12 19:55:26 2005 UTC vs. Revision 2592 by gezelter, Thu Feb 16 21:40:20 2006 UTC

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Comparing trunk/OOPSE-4/src/UseTheForce/doForces.F90 (file contents):
Revision 2356 by chuckv, Wed Oct 12 19:55:26 2005 UTC vs.
Revision 2592 by gezelter, Thu Feb 16 21:40:20 2006 UTC