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

Comparing trunk/OOPSE-4/src/UseTheForce/DarkSide/electrostatic.F90 (file contents):
Revision 2395 by chrisfen, Mon Oct 24 14:06:36 2005 UTC vs.
Revision 2715 by chrisfen, Sun Apr 16 02:51:16 2006 UTC

#	Line 47 \| Line 47 \| module electrostatic_module
47		use vector_class
48		use simulation
49		use status
50	+	use interpolation
51		#ifdef IS_MPI
52		use mpiSimulation
53		#endif
#	Line 58 \| Line 59 \| module electrostatic_module
59		#define __FORTRAN90
60		#include "UseTheForce/DarkSide/fInteractionMap.h"
61		#include "UseTheForce/DarkSide/fElectrostaticSummationMethod.h"
62	+	#include "UseTheForce/DarkSide/fElectrostaticScreeningMethod.h"
63
64
65		!! these prefactors convert the multipole interactions into kcal / mol
#	Line 74 \| Line 76 \| module electrostatic_module
76		!! This unit is also known affectionately as an esu centi-barn.
77		real(kind=dp), parameter :: pre14 = 69.13373_dp
78
79	<	!! variables to handle different summation methods for long-range electrostatics:
79	>	!! variables to handle different summation methods for long-range
80	>	!! electrostatics:
81		integer, save :: summationMethod = NONE
82	+	integer, save :: screeningMethod = UNDAMPED
83		logical, save :: summationMethodChecked = .false.
84		real(kind=DP), save :: defaultCutoff = 0.0_DP
85		real(kind=DP), save :: defaultCutoff2 = 0.0_DP
86		logical, save :: haveDefaultCutoff = .false.
87		real(kind=DP), save :: dampingAlpha = 0.0_DP
88	+	real(kind=DP), save :: alpha2 = 0.0_DP
89		logical, save :: haveDampingAlpha = .false.
90		real(kind=DP), save :: dielectric = 1.0_DP
91		logical, save :: haveDielectric = .false.
87	–	real(kind=DP), save :: constERFC = 0.0_DP
92		real(kind=DP), save :: constEXP = 0.0_DP
89	–	logical, save :: haveDWAconstants = .false.
93		real(kind=dp), save :: rcuti = 0.0_DP
94		real(kind=dp), save :: rcuti2 = 0.0_DP
95		real(kind=dp), save :: rcuti3 = 0.0_DP
#	Line 98 \| Line 101 \| module electrostatic_module
101		real(kind=dp), save :: rrfsq = 1.0_DP
102		real(kind=dp), save :: preRF = 0.0_DP
103		real(kind=dp), save :: preRF2 = 0.0_DP
104	<	logical, save :: preRFCalculated = .false.
105	<
106	<	#ifdef __IFC
104	>	real(kind=dp), save :: f0 = 1.0_DP
105	>	real(kind=dp), save :: f1 = 1.0_DP
106	>	real(kind=dp), save :: f2 = 0.0_DP
107	>	real(kind=dp), save :: f3 = 0.0_DP
108	>	real(kind=dp), save :: f4 = 0.0_DP
109	>	real(kind=dp), save :: f0c = 1.0_DP
110	>	real(kind=dp), save :: f1c = 1.0_DP
111	>	real(kind=dp), save :: f2c = 0.0_DP
112	>	real(kind=dp), save :: f3c = 0.0_DP
113	>	real(kind=dp), save :: f4c = 0.0_DP
114	>
115	>	#if defined(__IFC) \|\| defined(__PGI)
116		! error function for ifc version > 7.
117		double precision, external :: derfc
118		#endif
119
120		public :: setElectrostaticSummationMethod
121	+	public :: setScreeningMethod
122		public :: setElectrostaticCutoffRadius
123	<	public :: setDampedWolfAlpha
123	>	public :: setDampingAlpha
124		public :: setReactionFieldDielectric
125	<	public :: setReactionFieldPrefactor
125	>	public :: buildElectroSplines
126		public :: newElectrostaticType
127		public :: setCharge
128		public :: setDipoleMoment
#	Line 119 \| Line 132 \| module electrostatic_module
132		public :: getCharge
133		public :: getDipoleMoment
134		public :: destroyElectrostaticTypes
135	<	public :: rf_self_self
135	>	public :: self_self
136	>	public :: rf_self_excludes
137
138	+
139		type :: Electrostatic
140		integer :: c_ident
141		logical :: is_Charge = .false.
#	Line 149 \| Line 164 \| contains
164
165		end subroutine setElectrostaticSummationMethod
166
167	+	subroutine setScreeningMethod(the_SM)
168	+	integer, intent(in) :: the_SM
169	+	screeningMethod = the_SM
170	+	end subroutine setScreeningMethod
171	+
172		subroutine setElectrostaticCutoffRadius(thisRcut, thisRsw)
173		real(kind=dp), intent(in) :: thisRcut
174		real(kind=dp), intent(in) :: thisRsw
175		defaultCutoff = thisRcut
176	+	defaultCutoff2 = defaultCutoff*defaultCutoff
177		rrf = defaultCutoff
178		rt = thisRsw
179		haveDefaultCutoff = .true.
180		end subroutine setElectrostaticCutoffRadius
181
182	<	subroutine setDampedWolfAlpha(thisAlpha)
182	>	subroutine setDampingAlpha(thisAlpha)
183		real(kind=dp), intent(in) :: thisAlpha
184		dampingAlpha = thisAlpha
185	+	alpha2 = dampingAlpha*dampingAlpha
186		haveDampingAlpha = .true.
187	<	end subroutine setDampedWolfAlpha
187	>	end subroutine setDampingAlpha
188
189		subroutine setReactionFieldDielectric(thisDielectric)
190		real(kind=dp), intent(in) :: thisDielectric
#	Line 170 \| Line 192 \| contains
192		haveDielectric = .true.
193		end subroutine setReactionFieldDielectric
194
195	<	subroutine setReactionFieldPrefactor
196	<	if (haveDefaultCutoff .and. haveDielectric) then
175	<	defaultCutoff2 = defaultCutoff*defaultCutoff
176	<	preRF = (dielectric-1.0d0) / &
177	<	((2.0d0dielectric+1.0d0)defaultCutoff2*defaultCutoff)
178	<	preRF2 = 2.0d0*preRF
179	<	preRFCalculated = .true.
180	<	else if (.not.haveDefaultCutoff) then
181	<	call handleError("setReactionFieldPrefactor", "Default cutoff not set")
182	<	else
183	<	call handleError("setReactionFieldPrefactor", "Dielectric not set")
184	<	endif
185	<	end subroutine setReactionFieldPrefactor
195	>	subroutine buildElectroSplines()
196	>	end subroutine buildElectroSplines
197
198		subroutine newElectrostaticType(c_ident, is_Charge, is_Dipole, &
199		is_SplitDipole, is_Quadrupole, is_Tap, status)
#	Line 405 \| Line 416 \| contains
416		rcuti3 = rcuti2*rcuti
417		rcuti4 = rcuti2*rcuti2
418
419	<	if (summationMethod .eq. DAMPED_WOLF) then
420	<	if (.not.haveDWAconstants) then
421	<
411	<	if (.not.haveDampingAlpha) then
412	<	call handleError("checkSummationMethod", "no Damping Alpha set!")
413	<	endif
414	<
415	<	if (.not.haveDefaultCutoff) then
416	<	call handleError("checkSummationMethod", "no Default Cutoff set!")
417	<	endif
418	<
419	<	constEXP = exp(-dampingAlphadampingAlphadefaultCutoff*defaultCutoff)
420	<	constERFC = derfc(dampingAlpha*defaultCutoff)
421	<	invRootPi = 0.56418958354775628695d0
422	<	alphaPi = 2dampingAlphainvRootPi
423	<
424	<	haveDWAconstants = .true.
419	>	if (screeningMethod .eq. DAMPED) then
420	>	if (.not.haveDampingAlpha) then
421	>	call handleError("checkSummationMethod", "no Damping Alpha set!")
422		endif
423	+
424	+	if (.not.haveDefaultCutoff) then
425	+	call handleError("checkSummationMethod", "no Default Cutoff set!")
426	+	endif
427	+
428	+	constEXP = exp(-alpha2*defaultCutoff2)
429	+	invRootPi = 0.56418958354775628695d0
430	+	alphaPi = 2.0d0dampingAlphainvRootPi
431	+	f0c = derfc(dampingAlpha*defaultCutoff)
432	+	f1c = alphaPidefaultCutoffconstEXP + f0c
433	+	f2c = alphaPi2.0d0alpha2*constEXP
434	+	f3c = alphaPi2.0d0alpha2constEXPdefaultCutoff2*defaultCutoff
435		endif
436
437		if (summationMethod .eq. REACTION_FIELD) then
438	<	if (.not.haveDielectric) then
439	<	call handleError("checkSummationMethod", "no reaction field Dielectric set!")
438	>	if (haveDielectric) then
439	>	defaultCutoff2 = defaultCutoff*defaultCutoff
440	>	preRF = (dielectric-1.0d0) / &
441	>	((2.0d0dielectric+1.0d0)defaultCutoff2*defaultCutoff)
442	>	preRF2 = 2.0d0*preRF
443	>	else
444	>	call handleError("checkSummationMethod", "Dielectric not set")
445		endif
446	+
447		endif
448
449		summationMethodChecked = .true.
450		end subroutine checkSummationMethod
451
452
453	<
439	<	subroutine doElectrostaticPair(atom1, atom2, d, rij, r2, sw, &
453	>	subroutine doElectrostaticPair(atom1, atom2, d, rij, r2, rcut, sw, &
454		vpair, fpair, pot, eFrame, f, t, do_pot)
455
456		logical, intent(in) :: do_pot
#	Line 444 \| Line 458 \| contains
458		integer, intent(in) :: atom1, atom2
459		integer :: localError
460
461	<	real(kind=dp), intent(in) :: rij, r2, sw
461	>	real(kind=dp), intent(in) :: rij, r2, sw, rcut
462		real(kind=dp), intent(in), dimension(3) :: d
463		real(kind=dp), intent(inout) :: vpair
464	<	real(kind=dp), intent(inout), dimension(3) :: fpair
464	>	real(kind=dp), intent(inout), dimension(3) :: fpair
465
466		real( kind = dp ) :: pot
467		real( kind = dp ), dimension(9,nLocal) :: eFrame
468		real( kind = dp ), dimension(3,nLocal) :: f
469	+	real( kind = dp ), dimension(3,nLocal) :: felec
470		real( kind = dp ), dimension(3,nLocal) :: t
471
472		real (kind = dp), dimension(3) :: ux_i, uy_i, uz_i
#	Line 469 \| Line 484 \| contains
484		real (kind=dp) :: cx_i, cy_i, cz_i
485		real (kind=dp) :: cx_j, cy_j, cz_j
486		real (kind=dp) :: cx2, cy2, cz2
487	<	real (kind=dp) :: ct_i, ct_j, ct_ij, a1
487	>	real (kind=dp) :: ct_i, ct_j, ct_ij, a0, a1
488		real (kind=dp) :: riji, ri, ri2, ri3, ri4
489		real (kind=dp) :: pref, vterm, epot, dudr, vterm1, vterm2
490		real (kind=dp) :: xhat, yhat, zhat
491		real (kind=dp) :: dudx, dudy, dudz
492		real (kind=dp) :: scale, sc2, bigR
493	<	real (kind=dp) :: varERFC, varEXP
494	<	real (kind=dp) :: limScale
493	>	real (kind=dp) :: varEXP
494	>	real (kind=dp) :: pot_term
495		real (kind=dp) :: preVal, rfVal
496	+	real (kind=dp) :: f13, f134
497
498		if (.not.allocated(ElectrostaticMap)) then
499		call handleError("electrostatic", "no ElectrostaticMap was present before first call of do_electrostatic_pair!")
#	Line 488 \| Line 504 \| contains
504		call checkSummationMethod()
505		endif
506
491	–	if (.not.preRFCalculated) then
492	–	call setReactionFieldPrefactor()
493	–	endif
494	–
507		#ifdef IS_MPI
508		me1 = atid_Row(atom1)
509		me2 = atid_Col(atom2)
#	Line 642 \| Line 654 \| contains
654		if (i_is_Charge) then
655
656		if (j_is_Charge) then
657	+	if (screeningMethod .eq. DAMPED) then
658	+	f0 = derfc(dampingAlpha*rij)
659	+	varEXP = exp(-alpha2rijrij)
660	+	f1 = alphaPirijvarEXP + f0
661	+	endif
662
663	<	if (summationMethod .eq. UNDAMPED_WOLF) then
647	<	vterm = pre11 * q_i * q_j * (riji - rcuti)
648	<	vpair = vpair + vterm
649	<	epot = epot + sw*vterm
650	<
651	<	dudr = -swpre11q_iq_j (rijiriji-rcuti2)riji
652	<
653	<	dudx = dudx + dudr * d(1)
654	<	dudy = dudy + dudr * d(2)
655	<	dudz = dudz + dudr * d(3)
663	>	preVal = pre11 * q_i * q_j
664
665	<	elseif (summationMethod .eq. DAMPED_WOLF) then
666	<	varERFC = derfc(dampingAlpha*rij)
659	<	varEXP = exp(-dampingAlphadampingAlpharij*rij)
660	<	vterm = pre11 * q_i * q_j * (varERFCriji - constERFCrcuti)
661	<	vpair = vpair + vterm
662	<	epot = epot + sw*vterm
665	>	if (summationMethod .eq. SHIFTED_POTENTIAL) then
666	>	vterm = preVal * (rijif0 - rcutif0c)
667
668	<	dudr = -swpre11q_iq_j ( riji((varERFCriji*riji &
669	<	+ alphaPi*varEXP) &
670	<	- (constERFC*rcuti2 &
671	<	+ alphaPi*constEXP)) )
668	>	dudr = -sw * preVal * riji * riji * f1
669	>
670	>	elseif (summationMethod .eq. SHIFTED_FORCE) then
671	>	vterm = preVal * ( rijif0 - rcutif0c + &
672	>	f1crcuti2(rij-defaultCutoff) )
673
674	<	dudx = dudx + dudr * d(1)
675	<	dudy = dudy + dudr * d(2)
671	<	dudz = dudz + dudr * d(3)
672	<
674	>	dudr = -swpreVal (rijirijif1 - rcuti2*f1c)
675	>
676		elseif (summationMethod .eq. REACTION_FIELD) then
674	–	preVal = pre11 * q_i * q_j
677		rfVal = preRFrijrij
678		vterm = preVal * ( riji + rfVal )
677	–	vpair = vpair + vterm
678	–	epot = epot + sw*vterm
679
680		dudr = sw * preVal * ( 2.0d0rfVal - riji )riji
681	<
682	<	dudx = dudx + dudr * xhat
683	<	dudy = dudy + dudr * yhat
684	<	dudz = dudz + dudr * zhat
685	<
681	>
682		else
683	<	vterm = pre11 * q_i * q_j * riji
688	<	vpair = vpair + vterm
689	<	epot = epot + sw*vterm
683	>	vterm = preVal * riji*f0
684
685	<	dudr = - sw * vterm * riji
686	<
693	<	dudx = dudx + dudr * xhat
694	<	dudy = dudy + dudr * yhat
695	<	dudz = dudz + dudr * zhat
696	<
685	>	dudr = - sw * preVal * rijirijif1
686	>
687		endif
688
689	+	vpair = vpair + vterm
690	+	epot = epot + sw*vterm
691	+
692	+	dudx = dudx + dudr * xhat
693	+	dudy = dudy + dudr * yhat
694	+	dudz = dudz + dudr * zhat
695	+
696		endif
697
698		if (j_is_Dipole) then
699	+	if (screeningMethod .eq. DAMPED) then
700	+	f0 = derfc(dampingAlpha*rij)
701	+	varEXP = exp(-alpha2rijrij)
702	+	f1 = alphaPirijvarEXP + f0
703	+	f3 = alphaPi2.0d0alpha2varEXPrijrijrij
704	+	endif
705
706		pref = pre12 * q_i * mu_j
707
708	<	if (summationMethod .eq. UNDAMPED_WOLF) then
708	>	if (summationMethod .eq. REACTION_FIELD) then
709		ri2 = riji * riji
710		ri3 = ri2 * riji
708	–
709	–	pref = pre12 * q_i * mu_j
710	–	vterm = - pref * ct_j * (ri2 - rcuti2)
711	–	vpair = vpair + vterm
712	–	epot = epot + sw*vterm
713	–
714	–	!! this has a + sign in the () because the rij vector is
715	–	!! r_j - r_i and the charge-dipole potential takes the origin
716	–	!! as the point dipole, which is atom j in this case.
717	–
718	–	dudx = dudx - swpref ( ri3( uz_j(1) - 3.0d0ct_j*xhat) &
719	–	- rcuti3( uz_j(1) - 3.0d0ct_jd(1)rcuti ) )
720	–	dudy = dudy - swpref ( ri3( uz_j(2) - 3.0d0ct_j*yhat) &
721	–	- rcuti3( uz_j(2) - 3.0d0ct_jd(2)rcuti ) )
722	–	dudz = dudz - swpref ( ri3( uz_j(3) - 3.0d0ct_j*zhat) &
723	–	- rcuti3( uz_j(3) - 3.0d0ct_jd(3)rcuti ) )
724	–
725	–	duduz_j(1) = duduz_j(1) - swpref( ri2xhat - d(1)rcuti3 )
726	–	duduz_j(2) = duduz_j(2) - swpref( ri2yhat - d(2)rcuti3 )
727	–	duduz_j(3) = duduz_j(3) - swpref( ri2zhat - d(3)rcuti3 )
728	–
729	–	elseif (summationMethod .eq. REACTION_FIELD) then
730	–	ri2 = ri * ri
731	–	ri3 = ri2 * ri
711
733	–	pref = pre12 * q_i * mu_j
712		vterm = - pref * ct_j * ( ri2 - preRF2*rij )
713		vpair = vpair + vterm
714		epot = epot + sw*vterm
#	Line 763 \| Line 741 \| contains
741		ri3 = ri2 * ri
742		sc2 = scale * scale
743
744	<	pref = pre12 * q_i * mu_j
745	<	vterm = - pref * ct_j * ri2 * scale
744	>	pot_term = ri2 * scale * f1
745	>	vterm = - pref * ct_j * pot_term
746		vpair = vpair + vterm
747		epot = epot + sw*vterm
748
#	Line 772 \| Line 750 \| contains
750		!! r_j - r_i and the charge-dipole potential takes the origin
751		!! as the point dipole, which is atom j in this case.
752
753	<	dudx = dudx - swpref ri3 * ( uz_j(1) - 3.0d0ct_jxhat*sc2)
754	<	dudy = dudy - swpref ri3 * ( uz_j(2) - 3.0d0ct_jyhat*sc2)
755	<	dudz = dudz - swpref ri3 * ( uz_j(3) - 3.0d0ct_jzhat*sc2)
756	<
757	<	duduz_j(1) = duduz_j(1) - swpref ri2 * xhat * scale
758	<	duduz_j(2) = duduz_j(2) - swpref ri2 * yhat * scale
759	<	duduz_j(3) = duduz_j(3) - swpref ri2 * zhat * scale
753	>	dudx = dudx - swpref ri3 * ( uz_j(1)*f1 - &
754	>	ct_jxhatsc2( 3.0d0f1 + f3 ) )
755	>	dudy = dudy - swpref ri3 * ( uz_j(2)*f1 - &
756	>	ct_jyhatsc2( 3.0d0f1 + f3 ) )
757	>	dudz = dudz - swpref ri3 * ( uz_j(3)*f1 - &
758	>	ct_jzhatsc2( 3.0d0f1 + f3 ) )
759	>
760	>	duduz_j(1) = duduz_j(1) - swpref pot_term * xhat
761	>	duduz_j(2) = duduz_j(2) - swpref pot_term * yhat
762	>	duduz_j(3) = duduz_j(3) - swpref pot_term * zhat
763
764		endif
765		endif
766
767		if (j_is_Quadrupole) then
768	+	if (screeningMethod .eq. DAMPED) then
769	+	f0 = derfc(dampingAlpha*rij)
770	+	varEXP = exp(-alpha2rijrij)
771	+	f1 = alphaPirijvarEXP + f0
772	+	f2 = alphaPi2.0d0alpha2*varEXP
773	+	f3 = f2rijrij*rij
774	+	f4 = 2.0d0alpha2f2*rij
775	+	endif
776	+
777		ri2 = riji * riji
778		ri3 = ri2 * riji
779		ri4 = ri2 * ri2
#	Line 791 \| Line 781 \| contains
781		cy2 = cy_j * cy_j
782		cz2 = cz_j * cz_j
783
784	<	if (summationMethod .eq. UNDAMPED_WOLF) then
785	<	pref = pre14 * q_i / 3.0_dp
786	<	vterm1 = pref * ri3( qxx_j (3.0_dp*cx2 - 1.0_dp) + &
787	<	qyy_j * (3.0_dp*cy2 - 1.0_dp) + &
788	<	qzz_j * (3.0_dp*cz2 - 1.0_dp) )
789	<	vterm2 = pref * rcuti3( qxx_j (3.0_dp*cx2 - 1.0_dp) + &
790	<	qyy_j * (3.0_dp*cy2 - 1.0_dp) + &
801	<	qzz_j * (3.0_dp*cz2 - 1.0_dp) )
802	<	vpair = vpair + ( vterm1 - vterm2 )
803	<	epot = epot + sw*( vterm1 - vterm2 )
804	<
805	<	dudx = dudx - (5.0_dp * &
806	<	(vterm1rijixhat - vterm2rcuti2d(1))) + swpref ( &
807	<	(ri4 - rcuti4)(qxx_j(6.0_dpcx_jux_j(1)) - &
808	<	qxx_j2.0_dp(xhat - rcuti*d(1))) + &
809	<	(ri4 - rcuti4)(qyy_j(6.0_dpcy_juy_j(1)) - &
810	<	qyy_j2.0_dp(xhat - rcuti*d(1))) + &
811	<	(ri4 - rcuti4)(qzz_j(6.0_dpcz_juz_j(1)) - &
812	<	qzz_j2.0_dp(xhat - rcuti*d(1))) )
813	<	dudy = dudy - (5.0_dp * &
814	<	(vterm1rijiyhat - vterm2rcuti2d(2))) + swpref ( &
815	<	(ri4 - rcuti4)(qxx_j(6.0_dpcx_jux_j(2)) - &
816	<	qxx_j2.0_dp(yhat - rcuti*d(2))) + &
817	<	(ri4 - rcuti4)(qyy_j(6.0_dpcy_juy_j(2)) - &
818	<	qyy_j2.0_dp(yhat - rcuti*d(2))) + &
819	<	(ri4 - rcuti4)(qzz_j(6.0_dpcz_juz_j(2)) - &
820	<	qzz_j2.0_dp(yhat - rcuti*d(2))) )
821	<	dudz = dudz - (5.0_dp * &
822	<	(vterm1rijizhat - vterm2rcuti2d(3))) + swpref ( &
823	<	(ri4 - rcuti4)(qxx_j(6.0_dpcx_jux_j(3)) - &
824	<	qxx_j2.0_dp(zhat - rcuti*d(3))) + &
825	<	(ri4 - rcuti4)(qyy_j(6.0_dpcy_juy_j(3)) - &
826	<	qyy_j2.0_dp(zhat - rcuti*d(3))) + &
827	<	(ri4 - rcuti4)(qzz_j(6.0_dpcz_juz_j(3)) - &
828	<	qzz_j2.0_dp(zhat - rcuti*d(3))) )
829	<
830	<	dudux_j(1) = dudux_j(1) + swpref(ri3(qxx_j6.0_dpcx_jxhat) -&
831	<	rcuti4(qxx_j6.0_dpcx_jd(1)))
832	<	dudux_j(2) = dudux_j(2) + swpref(ri3(qxx_j6.0_dpcx_jyhat) -&
833	<	rcuti4(qxx_j6.0_dpcx_jd(2)))
834	<	dudux_j(3) = dudux_j(3) + swpref(ri3(qxx_j6.0_dpcx_jzhat) -&
835	<	rcuti4(qxx_j6.0_dpcx_jd(3)))
836	<
837	<	duduy_j(1) = duduy_j(1) + swpref(ri3(qyy_j6.0_dpcy_jxhat) -&
838	<	rcuti4(qyy_j6.0_dpcx_jd(1)))
839	<	duduy_j(2) = duduy_j(2) + swpref(ri3(qyy_j6.0_dpcy_jyhat) -&
840	<	rcuti4(qyy_j6.0_dpcx_jd(2)))
841	<	duduy_j(3) = duduy_j(3) + swpref(ri3(qyy_j6.0_dpcy_jzhat) -&
842	<	rcuti4(qyy_j6.0_dpcx_jd(3)))
843	<
844	<	duduz_j(1) = duduz_j(1) + swpref(ri3(qzz_j6.0_dpcz_jxhat) -&
845	<	rcuti4(qzz_j6.0_dpcx_jd(1)))
846	<	duduz_j(2) = duduz_j(2) + swpref(ri3(qzz_j6.0_dpcz_jyhat) -&
847	<	rcuti4(qzz_j6.0_dpcx_jd(2)))
848	<	duduz_j(3) = duduz_j(3) + swpref(ri3(qzz_j6.0_dpcz_jzhat) -&
849	<	rcuti4(qzz_j6.0_dpcx_jd(3)))
850	<
851	<	else
852	<	pref = pre14 * q_i / 3.0_dp
853	<	vterm = pref * ri3 * (qxx_j * (3.0_dp*cx2 - 1.0_dp) + &
854	<	qyy_j * (3.0_dp*cy2 - 1.0_dp) + &
855	<	qzz_j * (3.0_dp*cz2 - 1.0_dp))
856	<	vpair = vpair + vterm
857	<	epot = epot + sw*vterm
858	<
859	<	dudx = dudx - 5.0_dpswvtermrijixhat + swpref ri4 * ( &
860	<	qxx_j(6.0_dpcx_jux_j(1) - 2.0_dpxhat) + &
861	<	qyy_j(6.0_dpcy_juy_j(1) - 2.0_dpxhat) + &
862	<	qzz_j(6.0_dpcz_juz_j(1) - 2.0_dpxhat) )
863	<	dudy = dudy - 5.0_dpswvtermrijiyhat + swpref ri4 * ( &
864	<	qxx_j(6.0_dpcx_jux_j(2) - 2.0_dpyhat) + &
865	<	qyy_j(6.0_dpcy_juy_j(2) - 2.0_dpyhat) + &
866	<	qzz_j(6.0_dpcz_juz_j(2) - 2.0_dpyhat) )
867	<	dudz = dudz - 5.0_dpswvtermrijizhat + swpref ri4 * ( &
868	<	qxx_j(6.0_dpcx_jux_j(3) - 2.0_dpzhat) + &
869	<	qyy_j(6.0_dpcy_juy_j(3) - 2.0_dpzhat) + &
870	<	qzz_j(6.0_dpcz_juz_j(3) - 2.0_dpzhat) )
871	<
872	<	dudux_j(1) = dudux_j(1) + swpref ri3(qxx_j6.0_dpcx_jxhat)
873	<	dudux_j(2) = dudux_j(2) + swpref ri3(qxx_j6.0_dpcx_jyhat)
874	<	dudux_j(3) = dudux_j(3) + swpref ri3(qxx_j6.0_dpcx_jzhat)
875	<
876	<	duduy_j(1) = duduy_j(1) + swpref ri3(qyy_j6.0_dpcy_jxhat)
877	<	duduy_j(2) = duduy_j(2) + swpref ri3(qyy_j6.0_dpcy_jyhat)
878	<	duduy_j(3) = duduy_j(3) + swpref ri3(qyy_j6.0_dpcy_jzhat)
879	<
880	<	duduz_j(1) = duduz_j(1) + swpref ri3(qzz_j6.0_dpcz_jxhat)
881	<	duduz_j(2) = duduz_j(2) + swpref ri3(qzz_j6.0_dpcz_jyhat)
882	<	duduz_j(3) = duduz_j(3) + swpref ri3(qzz_j6.0_dpcz_jzhat)
784	>	pref = pre14 * q_i / 3.0_dp
785	>	pot_term = ri3(qxx_j (3.0_dp*cx2 - 1.0_dp) + &
786	>	qyy_j * (3.0_dp*cy2 - 1.0_dp) + &
787	>	qzz_j * (3.0_dp*cz2 - 1.0_dp))
788	>	vterm = pref * (pot_termf1 + (qxx_jcx2 + qyy_jcy2 + qzz_jcz2)*f2)
789	>	vpair = vpair + vterm
790	>	epot = epot + sw*vterm
791
792	<	endif
792	>	dudx = dudx - swprefpot_termrijixhat(5.0d0f1 + f3) + &
793	>	swprefri4 * ( &
794	>	qxx_j(2.0_dpcx_jux_j(1)(3.0d0f1 + f3) - 2.0_dpxhat*f1) + &
795	>	qyy_j(2.0_dpcy_juy_j(1)(3.0d0f1 + f3) - 2.0_dpxhat*f1) + &
796	>	qzz_j(2.0_dpcz_juz_j(1)(3.0d0f1 + f3) - 2.0_dpxhat*f1) ) &
797	>	+ (qxx_jcx2 + qyy_jcy2 + qzz_jcz2)f4
798	>	dudy = dudy - swprefpot_termrijiyhat(5.0d0f1 + f3) + &
799	>	swprefri4 * ( &
800	>	qxx_j(2.0_dpcx_jux_j(2)(3.0d0f1 + f3) - 2.0_dpyhat*f1) + &
801	>	qyy_j(2.0_dpcy_juy_j(2)(3.0d0f1 + f3) - 2.0_dpyhat*f1) + &
802	>	qzz_j(2.0_dpcz_juz_j(2)(3.0d0f1 + f3) - 2.0_dpyhat*f1) ) &
803	>	+ (qxx_jcx2 + qyy_jcy2 + qzz_jcz2)f4
804	>	dudz = dudz - swprefpot_termrijizhat(5.0d0f1 + f3) + &
805	>	swprefri4 * ( &
806	>	qxx_j(2.0_dpcx_jux_j(3)(3.0d0f1 + f3) - 2.0_dpzhat*f1) + &
807	>	qyy_j(2.0_dpcy_juy_j(3)(3.0d0f1 + f3) - 2.0_dpzhat*f1) + &
808	>	qzz_j(2.0_dpcz_juz_j(3)(3.0d0f1 + f3) - 2.0_dpzhat*f1) ) &
809	>	+ (qxx_jcx2 + qyy_jcy2 + qzz_jcz2)f4
810	>
811	>	dudux_j(1) = dudux_j(1) + swprefri3( (qxx_j2.0_dpcx_jxhat) &
812	>	* (3.0d0*f1 + f3) )
813	>	dudux_j(2) = dudux_j(2) + swprefri3( (qxx_j2.0_dpcx_jyhat) &
814	>	* (3.0d0*f1 + f3) )
815	>	dudux_j(3) = dudux_j(3) + swprefri3( (qxx_j2.0_dpcx_jzhat) &
816	>	* (3.0d0*f1 + f3) )
817	>
818	>	duduy_j(1) = duduy_j(1) + swprefri3( (qyy_j2.0_dpcy_jxhat) &
819	>	* (3.0d0*f1 + f3) )
820	>	duduy_j(2) = duduy_j(2) + swprefri3( (qyy_j2.0_dpcy_jyhat) &
821	>	* (3.0d0*f1 + f3) )
822	>	duduy_j(3) = duduy_j(3) + swprefri3( (qyy_j2.0_dpcy_jzhat) &
823	>	* (3.0d0*f1 + f3) )
824	>
825	>	duduz_j(1) = duduz_j(1) + swprefri3( (qzz_j2.0_dpcz_jxhat) &
826	>	* (3.0d0*f1 + f3) )
827	>	duduz_j(2) = duduz_j(2) + swprefri3( (qzz_j2.0_dpcz_jyhat) &
828	>	* (3.0d0*f1 + f3) )
829	>	duduz_j(3) = duduz_j(3) + swprefri3( (qzz_j2.0_dpcz_jzhat) &
830	>	* (3.0d0*f1 + f3) )
831	>
832		endif
833		endif
834	<
834	>
835		if (i_is_Dipole) then
836
837		if (j_is_Charge) then
838	+	if (screeningMethod .eq. DAMPED) then
839	+	f0 = derfc(dampingAlpha*rij)
840	+	varEXP = exp(-alpha2rijrij)
841	+	f1 = alphaPirijvarEXP + f0
842	+	f3 = alphaPi2.0d0alpha2varEXPrijrijrij
843	+	endif
844
845		pref = pre12 * q_j * mu_i
846
847	<	if (summationMethod .eq. UNDAMPED_WOLF) then
847	>	if (summationMethod .eq. SHIFTED_POTENTIAL) then
848		ri2 = riji * riji
849		ri3 = ri2 * riji
850	<
851	<	pref = pre12 * q_j * mu_i
852	<	vterm = pref * ct_i * (ri2 - rcuti2)
850	>
851	>	pot_term = ri2f1 - rcuti2f1c
852	>	vterm = pref * ct_i * pot_term
853		vpair = vpair + vterm
854		epot = epot + sw*vterm
855
856	<	!! this has a + sign in the () because the rij vector is
857	<	!! r_j - r_i and the charge-dipole potential takes the origin
858	<	!! as the point dipole, which is atom j in this case.
856	>	dudx = dudx + swpref( ri3(uz_i(1)f1-ct_ixhat(3.0d0*f1+f3)) )
857	>	dudy = dudy + swpref( ri3(uz_i(2)f1-ct_iyhat(3.0d0*f1+f3)) )
858	>	dudz = dudz + swpref( ri3(uz_i(3)f1-ct_izhat(3.0d0*f1+f3)) )
859
860	<	dudx = dudx + swpref ( ri3( uz_i(1) - 3.0d0ct_i*xhat) &
861	<	- rcuti3( uz_i(1) - 3.0d0ct_id(1)rcuti ) )
862	<	dudy = dudy + swpref ( ri3( uz_i(2) - 3.0d0ct_i*yhat) &
910	<	- rcuti3( uz_i(2) - 3.0d0ct_id(2)rcuti ) )
911	<	dudz = dudz + swpref ( ri3( uz_i(3) - 3.0d0ct_i*zhat) &
912	<	- rcuti3( uz_i(3) - 3.0d0ct_id(3)rcuti ) )
913	<
914	<	duduz_i(1) = duduz_i(1) - swpref( ri2xhat - d(1)rcuti3 )
915	<	duduz_i(2) = duduz_i(2) - swpref( ri2yhat - d(2)rcuti3 )
916	<	duduz_i(3) = duduz_i(3) - swpref( ri2zhat - d(3)rcuti3 )
860	>	duduz_i(1) = duduz_i(1) + swpref xhat * pot_term
861	>	duduz_i(2) = duduz_i(2) + swpref yhat * pot_term
862	>	duduz_i(3) = duduz_i(3) + swpref zhat * pot_term
863
864	+	elseif (summationMethod .eq. SHIFTED_FORCE) then
865	+	ri2 = riji * riji
866	+	ri3 = ri2 * riji
867	+
868	+	!! might need a -(f1c-f0c) or dct_i/dr in the derivative term...
869	+	pot_term = ri2f1 - rcuti2f1c + &
870	+	(2.0d0rcuti3f1c + f2c)*( rij - defaultCutoff )
871	+	vterm = pref * ct_i * pot_term
872	+	vpair = vpair + vterm
873	+	epot = epot + sw*vterm
874	+
875	+	dudx = dudx + swpref( ri3(uz_i(1)f1-ct_ixhat(3.0d0*f1+f3)) &
876	+	- rcuti3(uz_i(1)f1c-ct_ixhat(3.0d0*f1c+f3c)) )
877	+	dudy = dudy + swpref( ri3(uz_i(2)f1-ct_iyhat(3.0d0*f1+f3)) &
878	+	- rcuti3(uz_i(1)f1c-ct_ixhat(3.0d0*f1c+f3c)) )
879	+	dudz = dudz + swpref( ri3(uz_i(3)f1-ct_izhat(3.0d0*f1+f3)) &
880	+	- rcuti3(uz_i(1)f1c-ct_ixhat(3.0d0*f1c+f3c)) )
881	+
882	+	duduz_i(1) = duduz_i(1) + swpref xhat * pot_term
883	+	duduz_i(2) = duduz_i(2) + swpref yhat * pot_term
884	+	duduz_i(3) = duduz_i(3) + swpref zhat * pot_term
885	+
886		elseif (summationMethod .eq. REACTION_FIELD) then
887	<	ri2 = ri * ri
888	<	ri3 = ri2 * ri
887	>	ri2 = riji * riji
888	>	ri3 = ri2 * riji
889
890	<	pref = pre12 * q_j * mu_i
923	<	vterm = pref * ct_i * ( ri2 - preRF*rij )
890	>	vterm = pref * ct_i * ( ri2 - preRF2*rij )
891		vpair = vpair + vterm
892		epot = epot + sw*vterm
893
894	<	dudx = dudx + swpref ri3 * ( uz_i(1) - 3.0d0ct_ixhat - &
895	<	preRF*uz_i(1) )
896	<	dudy = dudy + swpref ri3 * ( uz_i(2) - 3.0d0ct_iyhat - &
897	<	preRF*uz_i(2) )
898	<	dudz = dudz + swpref ri3 * ( uz_i(3) - 3.0d0ct_izhat - &
899	<	preRF*uz_i(3) )
894	>	dudx = dudx + swpref ( ri3(uz_i(1) - 3.0d0ct_i*xhat) - &
895	>	preRF2*uz_i(1) )
896	>	dudy = dudy + swpref ( ri3(uz_i(2) - 3.0d0ct_i*yhat) - &
897	>	preRF2*uz_i(2) )
898	>	dudz = dudz + swpref ( ri3(uz_i(3) - 3.0d0ct_i*zhat) - &
899	>	preRF2*uz_i(3) )
900
901	<	duduz_i(1) = duduz_i(1) + swpref xhat * ( ri2 - preRF*rij )
902	<	duduz_i(2) = duduz_i(2) + swpref yhat * ( ri2 - preRF*rij )
903	<	duduz_i(3) = duduz_i(3) + swpref zhat * ( ri2 - preRF*rij )
901	>	duduz_i(1) = duduz_i(1) + swpref xhat * ( ri2 - preRF2*rij )
902	>	duduz_i(2) = duduz_i(2) + swpref yhat * ( ri2 - preRF2*rij )
903	>	duduz_i(3) = duduz_i(3) + swpref zhat * ( ri2 - preRF2*rij )
904
905		else
906		if (i_is_SplitDipole) then
#	Line 949 \| Line 916 \| contains
916		ri3 = ri2 * ri
917		sc2 = scale * scale
918
919	<	pref = pre12 * q_j * mu_i
920	<	vterm = pref * ct_i * ri2 * scale
919	>	pot_term = ri2 * f1 * scale
920	>	vterm = pref * ct_i * pot_term
921		vpair = vpair + vterm
922		epot = epot + sw*vterm
923
924	<	dudx = dudx + swpref ri3 * ( uz_i(1) - 3.0d0 * ct_i * xhat*sc2)
925	<	dudy = dudy + swpref ri3 * ( uz_i(2) - 3.0d0 * ct_i * yhat*sc2)
926	<	dudz = dudz + swpref ri3 * ( uz_i(3) - 3.0d0 * ct_i * zhat*sc2)
924	>	dudx = dudx + swpref ri3 * ( uz_i(1)*f1 - &
925	>	ct_ixhatsc2( 3.0d0f1 + f3 ) )
926	>	dudy = dudy + swpref ri3 * ( uz_i(2)*f1 - &
927	>	ct_iyhatsc2( 3.0d0f1 + f3 ) )
928	>	dudz = dudz + swpref ri3 * ( uz_i(3)*f1 - &
929	>	ct_izhatsc2( 3.0d0f1 + f3 ) )
930
931	<	duduz_i(1) = duduz_i(1) + swpref ri2 * xhat * scale
932	<	duduz_i(2) = duduz_i(2) + swpref ri2 * yhat * scale
933	<	duduz_i(3) = duduz_i(3) + swpref ri2 * zhat * scale
931	>	duduz_i(1) = duduz_i(1) + swpref pot_term * xhat
932	>	duduz_i(2) = duduz_i(2) + swpref pot_term * yhat
933	>	duduz_i(3) = duduz_i(3) + swpref pot_term * zhat
934		endif
935		endif
936
937		if (j_is_Dipole) then
938	+	if (screeningMethod .eq. DAMPED) then
939	+	f0 = derfc(dampingAlpha*rij)
940	+	varEXP = exp(-alpha2rijrij)
941	+	f1 = alphaPirijvarEXP + f0
942	+	f2 = alphaPi2.0d0alpha2*varEXP
943	+	f3 = f2rijrij*rij
944	+	f4 = 2.0d0alpha2f3rijrij
945	+	endif
946
947	<	if (summationMethod .eq. UNDAMPED_WOLF) then
948	<	ri2 = riji * riji
949	<	ri3 = ri2 * riji
950	<	ri4 = ri2 * ri2
947	>	ct_ij = uz_i(1)uz_j(1) + uz_i(2)uz_j(2) + uz_i(3)*uz_j(3)
948	>
949	>	ri2 = riji * riji
950	>	ri3 = ri2 * riji
951	>	ri4 = ri2 * ri2
952	>
953	>	pref = pre22 * mu_i * mu_j
954
955	<	pref = pre22 * mu_i * mu_j
975	<	vterm = pref * (ri3 - rcuti3) * (ct_ij - 3.0d0 * ct_i * ct_j)
976	<	vpair = vpair + vterm
977	<	epot = epot + sw*vterm
978	<
979	<	a1 = 5.0d0 * ct_i * ct_j - ct_ij
980	<
981	<	dudx = dudx + swpref3.0d0*ri4 &
982	<	* (a1xhat-ct_iuz_j(1)-ct_j*uz_i(1)) &
983	<	- swpref3.0d0*rcuti4 &
984	<	* (a1rcutid(1)-ct_iuz_j(1)-ct_juz_i(1))
985	<	dudy = dudy + swpref3.0d0*ri4 &
986	<	* (a1yhat-ct_iuz_j(2)-ct_j*uz_i(2)) &
987	<	- swpref3.0d0*rcuti4 &
988	<	* (a1rcutid(2)-ct_iuz_j(2)-ct_juz_i(2))
989	<	dudz = dudz + swpref3.0d0*ri4 &
990	<	* (a1zhat-ct_iuz_j(3)-ct_j*uz_i(3)) &
991	<	- swpref3.0d0*rcuti4 &
992	<	* (a1rcutid(3)-ct_iuz_j(3)-ct_juz_i(3))
993	<
994	<	duduz_i(1) = duduz_i(1) + swpref(ri3(uz_j(1)-3.0d0ct_j*xhat) &
995	<	- rcuti3(uz_j(1) - 3.0d0ct_jd(1)rcuti))
996	<	duduz_i(2) = duduz_i(2) + swpref(ri3(uz_j(2)-3.0d0ct_j*yhat) &
997	<	- rcuti3(uz_j(2) - 3.0d0ct_jd(2)rcuti))
998	<	duduz_i(3) = duduz_i(3) + swpref(ri3(uz_j(3)-3.0d0ct_j*zhat) &
999	<	- rcuti3(uz_j(3) - 3.0d0ct_jd(3)rcuti))
1000	<	duduz_j(1) = duduz_j(1) + swpref(ri3(uz_i(1)-3.0d0ct_i*xhat) &
1001	<	- rcuti3(uz_i(1) - 3.0d0ct_id(1)rcuti))
1002	<	duduz_j(2) = duduz_j(2) + swpref(ri3(uz_i(2)-3.0d0ct_i*yhat) &
1003	<	- rcuti3(uz_i(2) - 3.0d0ct_id(2)rcuti))
1004	<	duduz_j(3) = duduz_j(3) + swpref(ri3(uz_i(3)-3.0d0ct_i*zhat) &
1005	<	- rcuti3(uz_i(3) - 3.0d0ct_id(3)rcuti))
1006	<
1007	<	elseif (summationMethod .eq. REACTION_FIELD) then
1008	<	ct_ij = uz_i(1)uz_j(1) + uz_i(2)uz_j(2) + uz_i(3)*uz_j(3)
1009	<
1010	<	ri2 = riji * riji
1011	<	ri3 = ri2 * riji
1012	<	ri4 = ri2 * ri2
1013	<
1014	<	pref = pre22 * mu_i * mu_j
1015	<
955	>	if (summationMethod .eq. REACTION_FIELD) then
956		vterm = pref( ri3(ct_ij - 3.0d0 * ct_i * ct_j) - &
957		preRF2*ct_ij )
958		vpair = vpair + vterm
#	Line 1060 \| Line 1000 \| contains
1000		endif
1001		endif
1002
1063	–	ct_ij = uz_i(1)uz_j(1) + uz_i(2)uz_j(2) + uz_i(3)*uz_j(3)
1064	–
1065	–	ri2 = ri * ri
1066	–	ri3 = ri2 * ri
1067	–	ri4 = ri2 * ri2
1003		sc2 = scale * scale
1004	<
1005	<	pref = pre22 * mu_i * mu_j
1006	<	vterm = pref * ri3 * (ct_ij - 3.0d0 * ct_i * ct_j * sc2)
1004	>
1005	>	pot_term = (ct_ij - 3.0d0 * ct_i * ct_j * sc2)
1006	>	vterm = pref * ( ri3pot_termf1 + (ct_i * ct_j)*f2 )
1007		vpair = vpair + vterm
1008		epot = epot + sw*vterm
1009
1010	<	a1 = 5.0d0 * ct_i * ct_j * sc2 - ct_ij
1010	>	f13 = f1+f3
1011	>	f134 = f13 + f4
1012
1013	<	dudx = dudx + swpref3.0d0ri4scale &
1014	<	(a1xhat-ct_iuz_j(1)-ct_juz_i(1))
1015	<	dudy = dudy + swpref3.0d0ri4scale &
1016	<	(a1yhat-ct_iuz_j(2)-ct_juz_i(2))
1017	<	dudz = dudz + swpref3.0d0ri4scale &
1018	<	(a1zhat-ct_iuz_j(3)-ct_juz_i(3))
1013	>	!!$ dudx = dudx + swpref ( ri4scale( &
1014	>	!!$ 3.0d0(a1xhat-ct_iuz_j(1)-ct_juz_i(1))*f1 &
1015	>	!!$ - pot_term*f3) &
1016	>	!!$ + 2.0d0ct_ict_jxhat(ct_iuz_j(1)+ct_juz_i(1))*f3 &
1017	>	!!$ + (ct_i * ct_j)*f4 )
1018	>	!!$ dudy = dudy + swpref ( ri4scale( &
1019	>	!!$ 3.0d0(a1yhat-ct_iuz_j(2)-ct_juz_i(2))*f1 &
1020	>	!!$ - pot_term*f3) &
1021	>	!!$ + 2.0d0ct_ict_jyhat(ct_iuz_j(2)+ct_juz_i(2))*f3 &
1022	>	!!$ + (ct_i * ct_j)*f4 )
1023	>	!!$ dudz = dudz + swpref ( ri4scale( &
1024	>	!!$ 3.0d0(a1zhat-ct_iuz_j(3)-ct_juz_i(3))*f1 &
1025	>	!!$ - pot_term*f3) &
1026	>	!!$ + 2.0d0ct_ict_jzhat(ct_iuz_j(3)+ct_juz_i(3))*f3 &
1027	>	!!$ + (ct_i * ct_j)*f4 )
1028	>
1029	>	dudx = dudx + swpref ( ri4scale( &
1030	>	15.0d0(ct_i ct_j * sc2)xhatf134 - &
1031	>	3.0d0(ct_iuz_j(1) + ct_juz_i(1) + ct_ijxhat)*f134) )
1032	>	dudy = dudy + swpref ( ri4scale( &
1033	>	15.0d0(ct_i ct_j * sc2)yhatf134 - &
1034	>	3.0d0(ct_iuz_j(2) + ct_juz_i(2) + ct_ijyhat)*f134) )
1035	>	dudz = dudz + swpref ( ri4scale( &
1036	>	15.0d0(ct_i ct_j * sc2)zhatf134 - &
1037	>	3.0d0(ct_iuz_j(3) + ct_juz_i(3) + ct_ijzhat)*f134) )
1038
1039	<	duduz_i(1) = duduz_i(1) + swprefri3 &
1040	<	(uz_j(1) - 3.0d0ct_jxhatsc2)
1041	<	duduz_i(2) = duduz_i(2) + swprefri3 &
1042	<	(uz_j(2) - 3.0d0ct_jyhatsc2)
1043	<	duduz_i(3) = duduz_i(3) + swprefri3 &
1044	<	(uz_j(3) - 3.0d0ct_jzhatsc2)
1039	>	duduz_i(1) = duduz_i(1) + swpref &
1040	>	( ri3(uz_j(1) - 3.0d0ct_jxhatsc2)f1 + (ct_jxhat)*f2 )
1041	>	duduz_i(2) = duduz_i(2) + swpref &
1042	>	( ri3(uz_j(2) - 3.0d0ct_jyhatsc2)f1 + (ct_jyhat)*f2 )
1043	>	duduz_i(3) = duduz_i(3) + swpref &
1044	>	( ri3(uz_j(3) - 3.0d0ct_jzhatsc2)f1 + (ct_jzhat)*f2 )
1045
1046	<	duduz_j(1) = duduz_j(1) + swprefri3 &
1047	<	(uz_i(1) - 3.0d0ct_ixhatsc2)
1048	<	duduz_j(2) = duduz_j(2) + swprefri3 &
1049	<	(uz_i(2) - 3.0d0ct_iyhatsc2)
1050	<	duduz_j(3) = duduz_j(3) + swprefri3 &
1051	<	(uz_i(3) - 3.0d0ct_izhatsc2)
1046	>	duduz_j(1) = duduz_j(1) + swpref &
1047	>	( ri3(uz_i(1) - 3.0d0ct_ixhatsc2)f1 + (ct_ixhat)*f2 )
1048	>	duduz_j(2) = duduz_j(2) + swpref &
1049	>	( ri3(uz_i(2) - 3.0d0ct_iyhatsc2)f1 + (ct_iyhat)*f2 )
1050	>	duduz_j(3) = duduz_j(3) + swpref &
1051	>	( ri3(uz_i(3) - 3.0d0ct_izhatsc2)f1 + (ct_izhat)*f2 )
1052		endif
1053		endif
1054		endif
1055
1056		if (i_is_Quadrupole) then
1057		if (j_is_Charge) then
1058	+	if (screeningMethod .eq. DAMPED) then
1059	+	f0 = derfc(dampingAlpha*rij)
1060	+	varEXP = exp(-alpha2rijrij)
1061	+	f1 = alphaPirijvarEXP + f0
1062	+	f2 = alphaPi2.0d0alpha2*varEXP
1063	+	f3 = f2rijrij*rij
1064	+	f4 = 2.0d0alpha2f2*rij
1065	+	endif
1066
1067		ri2 = riji * riji
1068		ri3 = ri2 * riji
#	Line 1108 \| Line 1071 \| contains
1071		cy2 = cy_i * cy_i
1072		cz2 = cz_i * cz_i
1073
1074	<	if (summationMethod .eq. UNDAMPED_WOLF) then
1075	<	pref = pre14 * q_j / 3.0_dp
1076	<	vterm1 = pref * ri3( qxx_i (3.0_dp*cx2 - 1.0_dp) + &
1077	<	qyy_i * (3.0_dp*cy2 - 1.0_dp) + &
1078	<	qzz_i * (3.0_dp*cz2 - 1.0_dp) )
1079	<	vterm2 = pref * rcuti3( qxx_i (3.0_dp*cx2 - 1.0_dp) + &
1080	<	qyy_i * (3.0_dp*cy2 - 1.0_dp) + &
1081	<	qzz_i * (3.0_dp*cz2 - 1.0_dp) )
1082	<	vpair = vpair + ( vterm1 - vterm2 )
1083	<	epot = epot + sw*( vterm1 - vterm2 )
1084	<
1085	<	dudx = dudx - sw(5.0_dp(vterm1rijixhat-vterm2rcuti2d(1))) +&
1086	<	swpref ( (ri4 - rcuti4)(qxx_i(6.0_dpcx_iux_i(1)) - &
1087	<	qxx_i2.0_dp(xhat - rcuti*d(1))) + &
1088	<	(ri4 - rcuti4)(qyy_i(6.0_dpcy_iuy_i(1)) - &
1089	<	qyy_i2.0_dp(xhat - rcuti*d(1))) + &
1090	<	(ri4 - rcuti4)(qzz_i(6.0_dpcz_iuz_i(1)) - &
1091	<	qzz_i2.0_dp(xhat - rcuti*d(1))) )
1092	<	dudy = dudy - sw(5.0_dp(vterm1rijiyhat-vterm2rcuti2d(2))) +&
1093	<	swpref ( (ri4 - rcuti4)(qxx_i(6.0_dpcx_iux_i(2)) - &
1094	<	qxx_i2.0_dp(yhat - rcuti*d(2))) + &
1095	<	(ri4 - rcuti4)(qyy_i(6.0_dpcy_iuy_i(2)) - &
1096	<	qyy_i2.0_dp(yhat - rcuti*d(2))) + &
1097	<	(ri4 - rcuti4)(qzz_i(6.0_dpcz_iuz_i(2)) - &
1098	<	qzz_i2.0_dp(yhat - rcuti*d(2))) )
1099	<	dudz = dudz - sw(5.0_dp(vterm1rijizhat-vterm2rcuti2d(3))) +&
1100	<	swpref ( (ri4 - rcuti4)(qxx_i(6.0_dpcx_iux_i(3)) - &
1101	<	qxx_i2.0_dp(zhat - rcuti*d(3))) + &
1102	<	(ri4 - rcuti4)(qyy_i(6.0_dpcy_iuy_i(3)) - &
1103	<	qyy_i2.0_dp(zhat - rcuti*d(3))) + &
1104	<	(ri4 - rcuti4)(qzz_i(6.0_dpcz_iuz_i(3)) - &
1105	<	qzz_i2.0_dp(zhat - rcuti*d(3))) )
1106	<
1107	<	dudux_i(1) = dudux_i(1) + swpref(ri3(qxx_i6.0_dpcx_ixhat) -&
1108	<	rcuti4(qxx_i6.0_dpcx_id(1)))
1109	<	dudux_i(2) = dudux_i(2) + swpref(ri3(qxx_i6.0_dpcx_iyhat) -&
1110	<	rcuti4(qxx_i6.0_dpcx_id(2)))
1111	<	dudux_i(3) = dudux_i(3) + swpref(ri3(qxx_i6.0_dpcx_izhat) -&
1112	<	rcuti4(qxx_i6.0_dpcx_id(3)))
1113	<
1114	<	duduy_i(1) = duduy_i(1) + swpref(ri3(qyy_i6.0_dpcy_ixhat) -&
1115	<	rcuti4(qyy_i6.0_dpcx_id(1)))
1116	<	duduy_i(2) = duduy_i(2) + swpref(ri3(qyy_i6.0_dpcy_iyhat) -&
1117	<	rcuti4(qyy_i6.0_dpcx_id(2)))
1118	<	duduy_i(3) = duduy_i(3) + swpref(ri3(qyy_i6.0_dpcy_izhat) -&
1119	<	rcuti4(qyy_i6.0_dpcx_id(3)))
1120	<
1158	<	duduz_i(1) = duduz_i(1) + swpref(ri3(qzz_i6.0_dpcz_ixhat) -&
1159	<	rcuti4(qzz_i6.0_dpcx_id(1)))
1160	<	duduz_i(2) = duduz_i(2) + swpref(ri3(qzz_i6.0_dpcz_iyhat) -&
1161	<	rcuti4(qzz_i6.0_dpcx_id(2)))
1162	<	duduz_i(3) = duduz_i(3) + swpref(ri3(qzz_i6.0_dpcz_izhat) -&
1163	<	rcuti4(qzz_i6.0_dpcx_id(3)))
1074	>	pref = pre14 * q_j / 3.0_dp
1075	>	pot_term = ri3 * (qxx_i * (3.0_dp*cx2 - 1.0_dp) + &
1076	>	qyy_i * (3.0_dp*cy2 - 1.0_dp) + &
1077	>	qzz_i * (3.0_dp*cz2 - 1.0_dp))
1078	>	vterm = pref * (pot_termf1 + (qxx_icx2 + qyy_icy2 + qzz_icz2)*f2)
1079	>	vpair = vpair + vterm
1080	>	epot = epot + sw*vterm
1081	>
1082	>	dudx = dudx - swprefpot_termrijixhat(5.0d0f1 + f3) + &
1083	>	swprefri4 * ( &
1084	>	qxx_i(2.0_dpcx_iux_i(1)(3.0d0f1 + f3) - 2.0_dpxhat*f1) + &
1085	>	qyy_i(2.0_dpcy_iuy_i(1)(3.0d0f1 + f3) - 2.0_dpxhat*f1) + &
1086	>	qzz_i(2.0_dpcz_iuz_i(1)(3.0d0f1 + f3) - 2.0_dpxhat*f1) ) &
1087	>	+ (qxx_icx2 + qyy_icy2 + qzz_icz2)f4
1088	>	dudy = dudy - swprefpot_termrijiyhat(5.0d0f1 + f3) + &
1089	>	swprefri4 * ( &
1090	>	qxx_i(2.0_dpcx_iux_i(2)(3.0d0f1 + f3) - 2.0_dpyhat*f1) + &
1091	>	qyy_i(2.0_dpcy_iuy_i(2)(3.0d0f1 + f3) - 2.0_dpyhat*f1) + &
1092	>	qzz_i(2.0_dpcz_iuz_i(2)(3.0d0f1 + f3) - 2.0_dpyhat*f1) ) &
1093	>	+ (qxx_icx2 + qyy_icy2 + qzz_icz2)f4
1094	>	dudz = dudz - swprefpot_termrijizhat(5.0d0f1 + f3) + &
1095	>	swprefri4 * ( &
1096	>	qxx_i(2.0_dpcx_iux_i(3)(3.0d0f1 + f3) - 2.0_dpzhat*f1) + &
1097	>	qyy_i(2.0_dpcy_iuy_i(3)(3.0d0f1 + f3) - 2.0_dpzhat*f1) + &
1098	>	qzz_i(2.0_dpcz_iuz_i(3)(3.0d0f1 + f3) - 2.0_dpzhat*f1) ) &
1099	>	+ (qxx_icx2 + qyy_icy2 + qzz_icz2)f4
1100	>
1101	>	dudux_i(1) = dudux_i(1) + swpref( ri3(qxx_i2.0_dpcx_ixhat) &
1102	>	* (3.0d0*f1 + f3) )
1103	>	dudux_i(2) = dudux_i(2) + swpref( ri3(qxx_i2.0_dpcx_iyhat) &
1104	>	* (3.0d0*f1 + f3) )
1105	>	dudux_i(3) = dudux_i(3) + swpref( ri3(qxx_i2.0_dpcx_izhat) &
1106	>	* (3.0d0*f1 + f3) )
1107	>
1108	>	duduy_i(1) = duduy_i(1) + swpref( ri3(qyy_i2.0_dpcy_ixhat) &
1109	>	* (3.0d0*f1 + f3) )
1110	>	duduy_i(2) = duduy_i(2) + swpref( ri3(qyy_i2.0_dpcy_iyhat) &
1111	>	* (3.0d0*f1 + f3) )
1112	>	duduy_i(3) = duduy_i(3) + swpref( ri3(qyy_i2.0_dpcy_izhat) &
1113	>	* (3.0d0*f1 + f3) )
1114	>
1115	>	duduz_i(1) = duduz_i(1) + swpref( ri3(qzz_i2.0_dpcz_ixhat) &
1116	>	* (3.0d0*f1 + f3) )
1117	>	duduz_i(2) = duduz_i(2) + swpref( ri3(qzz_i2.0_dpcz_iyhat) &
1118	>	* (3.0d0*f1 + f3) )
1119	>	duduz_i(3) = duduz_i(3) + swpref( ri3(qzz_i2.0_dpcz_izhat) &
1120	>	* (3.0d0*f1 + f3) )
1121
1165	–	else
1166	–	pref = pre14 * q_j / 3.0_dp
1167	–	vterm = pref * ri3 * (qxx_i * (3.0_dp*cx2 - 1.0_dp) + &
1168	–	qyy_i * (3.0_dp*cy2 - 1.0_dp) + &
1169	–	qzz_i * (3.0_dp*cz2 - 1.0_dp))
1170	–	vpair = vpair + vterm
1171	–	epot = epot + sw*vterm
1172	–
1173	–	dudx = dudx - 5.0_dpswvtermrijixhat + swprefri4 * ( &
1174	–	qxx_i(6.0_dpcx_iux_i(1) - 2.0_dpxhat) + &
1175	–	qyy_i(6.0_dpcy_iuy_i(1) - 2.0_dpxhat) + &
1176	–	qzz_i(6.0_dpcz_iuz_i(1) - 2.0_dpxhat) )
1177	–	dudy = dudy - 5.0_dpswvtermrijiyhat + swprefri4 * ( &
1178	–	qxx_i(6.0_dpcx_iux_i(2) - 2.0_dpyhat) + &
1179	–	qyy_i(6.0_dpcy_iuy_i(2) - 2.0_dpyhat) + &
1180	–	qzz_i(6.0_dpcz_iuz_i(2) - 2.0_dpyhat) )
1181	–	dudz = dudz - 5.0_dpswvtermrijizhat + swprefri4 * ( &
1182	–	qxx_i(6.0_dpcx_iux_i(3) - 2.0_dpzhat) + &
1183	–	qyy_i(6.0_dpcy_iuy_i(3) - 2.0_dpzhat) + &
1184	–	qzz_i(6.0_dpcz_iuz_i(3) - 2.0_dpzhat) )
1185	–
1186	–	dudux_i(1) = dudux_i(1) + swprefri3(qxx_i6.0_dpcx_ixhat)
1187	–	dudux_i(2) = dudux_i(2) + swprefri3(qxx_i6.0_dpcx_iyhat)
1188	–	dudux_i(3) = dudux_i(3) + swprefri3(qxx_i6.0_dpcx_izhat)
1189	–
1190	–	duduy_i(1) = duduy_i(1) + swprefri3(qyy_i6.0_dpcy_ixhat)
1191	–	duduy_i(2) = duduy_i(2) + swprefri3(qyy_i6.0_dpcy_iyhat)
1192	–	duduy_i(3) = duduy_i(3) + swprefri3(qyy_i6.0_dpcy_izhat)
1193	–
1194	–	duduz_i(1) = duduz_i(1) + swprefri3(qzz_i6.0_dpcz_ixhat)
1195	–	duduz_i(2) = duduz_i(2) + swprefri3(qzz_i6.0_dpcz_iyhat)
1196	–	duduz_i(3) = duduz_i(3) + swprefri3(qzz_i6.0_dpcz_izhat)
1197	–	endif
1122		endif
1123		endif
1124
#	Line 1313 \| Line 1237 \| contains
1237
1238		end subroutine destroyElectrostaticTypes
1239
1240	<	subroutine rf_self_self(atom1, eFrame, rfpot, t, do_pot)
1240	>	subroutine self_self(atom1, eFrame, mypot, t, do_pot)
1241		logical, intent(in) :: do_pot
1242		integer, intent(in) :: atom1
1243		integer :: atid1
1244		real(kind=dp), dimension(9,nLocal) :: eFrame
1245		real(kind=dp), dimension(3,nLocal) :: t
1246	<	real(kind=dp) :: mu1
1247	<	real(kind=dp) :: preVal, epot, rfpot
1246	>	real(kind=dp) :: mu1, c1
1247	>	real(kind=dp) :: preVal, epot, mypot
1248		real(kind=dp) :: eix, eiy, eiz
1249
1250		! this is a local only array, so we use the local atom type id's:
1251		atid1 = atid(atom1)
1252	+
1253	+	if (.not.summationMethodChecked) then
1254	+	call checkSummationMethod()
1255	+	endif
1256
1257	<	if (ElectrostaticMap(atid1)%is_Dipole) then
1258	<	mu1 = getDipoleMoment(atid1)
1259	<
1260	<	preVal = pre22 * preRF2 * mu1*mu1
1261	<	rfpot = rfpot - 0.5d0*preVal
1257	>	if (summationMethod .eq. REACTION_FIELD) then
1258	>	if (ElectrostaticMap(atid1)%is_Dipole) then
1259	>	mu1 = getDipoleMoment(atid1)
1260	>
1261	>	preVal = pre22 * preRF2 * mu1*mu1
1262	>	mypot = mypot - 0.5d0*preVal
1263	>
1264	>	! The self-correction term adds into the reaction field vector
1265	>
1266	>	eix = preVal * eFrame(3,atom1)
1267	>	eiy = preVal * eFrame(6,atom1)
1268	>	eiz = preVal * eFrame(9,atom1)
1269	>
1270	>	! once again, this is self-self, so only the local arrays are needed
1271	>	! even for MPI jobs:
1272	>
1273	>	t(1,atom1)=t(1,atom1) - eFrame(6,atom1)*eiz + &
1274	>	eFrame(9,atom1)*eiy
1275	>	t(2,atom1)=t(2,atom1) - eFrame(9,atom1)*eix + &
1276	>	eFrame(3,atom1)*eiz
1277	>	t(3,atom1)=t(3,atom1) - eFrame(3,atom1)*eiy + &
1278	>	eFrame(6,atom1)*eix
1279	>
1280	>	endif
1281
1282	<	! The self-correction term adds into the reaction field vector
1283	<
1284	<	eix = preVal * eFrame(3,atom1)
1285	<	eiy = preVal * eFrame(6,atom1)
1286	<	eiz = preVal * eFrame(9,atom1)
1282	>	elseif ( (summationMethod .eq. SHIFTED_FORCE) .or. &
1283	>	(summationMethod .eq. SHIFTED_POTENTIAL) ) then
1284	>	if (ElectrostaticMap(atid1)%is_Charge) then
1285	>	c1 = getCharge(atid1)
1286	>
1287	>	if (screeningMethod .eq. DAMPED) then
1288	>	mypot = mypot - (f0c * rcuti * 0.5_dp + &
1289	>	dampingAlphainvRootPi) c1 * c1
1290	>
1291	>	else
1292	>	mypot = mypot - (rcuti * 0.5_dp * c1 * c1)
1293	>
1294	>	endif
1295	>	endif
1296	>	endif
1297	>
1298	>	return
1299	>	end subroutine self_self
1300
1301	<	! once again, this is self-self, so only the local arrays are needed
1302	<	! even for MPI jobs:
1303	<
1304	<	t(1,atom1)=t(1,atom1) - eFrame(6,atom1)*eiz + &
1305	<	eFrame(9,atom1)*eiy
1306	<	t(2,atom1)=t(2,atom1) - eFrame(9,atom1)*eix + &
1307	<	eFrame(3,atom1)*eiz
1308	<	t(3,atom1)=t(3,atom1) - eFrame(3,atom1)*eiy + &
1309	<	eFrame(6,atom1)*eix
1301	>	subroutine rf_self_excludes(atom1, atom2, sw, eFrame, d, rij, vpair, myPot, &
1302	>	f, t, do_pot)
1303	>	logical, intent(in) :: do_pot
1304	>	integer, intent(in) :: atom1
1305	>	integer, intent(in) :: atom2
1306	>	logical :: i_is_Charge, j_is_Charge
1307	>	logical :: i_is_Dipole, j_is_Dipole
1308	>	integer :: atid1
1309	>	integer :: atid2
1310	>	real(kind=dp), intent(in) :: rij
1311	>	real(kind=dp), intent(in) :: sw
1312	>	real(kind=dp), intent(in), dimension(3) :: d
1313	>	real(kind=dp), intent(inout) :: vpair
1314	>	real(kind=dp), dimension(9,nLocal) :: eFrame
1315	>	real(kind=dp), dimension(3,nLocal) :: f
1316	>	real(kind=dp), dimension(3,nLocal) :: t
1317	>	real (kind = dp), dimension(3) :: duduz_i
1318	>	real (kind = dp), dimension(3) :: duduz_j
1319	>	real (kind = dp), dimension(3) :: uz_i
1320	>	real (kind = dp), dimension(3) :: uz_j
1321	>	real(kind=dp) :: q_i, q_j, mu_i, mu_j
1322	>	real(kind=dp) :: xhat, yhat, zhat
1323	>	real(kind=dp) :: ct_i, ct_j
1324	>	real(kind=dp) :: ri2, ri3, riji, vterm
1325	>	real(kind=dp) :: pref, preVal, rfVal, myPot
1326	>	real(kind=dp) :: dudx, dudy, dudz, dudr
1327
1328	+	if (.not.summationMethodChecked) then
1329	+	call checkSummationMethod()
1330		endif
1331	+
1332	+	dudx = 0.0d0
1333	+	dudy = 0.0d0
1334	+	dudz = 0.0d0
1335	+
1336	+	riji = 1.0d0/rij
1337	+
1338	+	xhat = d(1) * riji
1339	+	yhat = d(2) * riji
1340	+	zhat = d(3) * riji
1341	+
1342	+	! this is a local only array, so we use the local atom type id's:
1343	+	atid1 = atid(atom1)
1344	+	atid2 = atid(atom2)
1345	+	i_is_Charge = ElectrostaticMap(atid1)%is_Charge
1346	+	j_is_Charge = ElectrostaticMap(atid2)%is_Charge
1347	+	i_is_Dipole = ElectrostaticMap(atid1)%is_Dipole
1348	+	j_is_Dipole = ElectrostaticMap(atid2)%is_Dipole
1349	+
1350	+	if (i_is_Charge.and.j_is_Charge) then
1351	+	q_i = ElectrostaticMap(atid1)%charge
1352	+	q_j = ElectrostaticMap(atid2)%charge
1353	+
1354	+	preVal = pre11 * q_i * q_j
1355	+	rfVal = preRFrijrij
1356	+	vterm = preVal * rfVal
1357	+
1358	+	myPot = myPot + sw*vterm
1359	+
1360	+	dudr = swpreVal 2.0d0rfValriji
1361	+
1362	+	dudx = dudx + dudr * xhat
1363	+	dudy = dudy + dudr * yhat
1364	+	dudz = dudz + dudr * zhat
1365	+
1366	+	elseif (i_is_Charge.and.j_is_Dipole) then
1367	+	q_i = ElectrostaticMap(atid1)%charge
1368	+	mu_j = ElectrostaticMap(atid2)%dipole_moment
1369	+	uz_j(1) = eFrame(3,atom2)
1370	+	uz_j(2) = eFrame(6,atom2)
1371	+	uz_j(3) = eFrame(9,atom2)
1372	+	ct_j = uz_j(1)xhat + uz_j(2)yhat + uz_j(3)*zhat
1373	+
1374	+	ri2 = riji * riji
1375	+	ri3 = ri2 * riji
1376	+
1377	+	pref = pre12 * q_i * mu_j
1378	+	vterm = - pref * ct_j * ( ri2 - preRF2*rij )
1379	+	myPot = myPot + sw*vterm
1380	+
1381	+	dudx = dudx - swpref( ri3(uz_j(1)-3.0d0ct_j*xhat) &
1382	+	- preRF2*uz_j(1) )
1383	+	dudy = dudy - swpref( ri3(uz_j(2)-3.0d0ct_j*yhat) &
1384	+	- preRF2*uz_j(2) )
1385	+	dudz = dudz - swpref( ri3(uz_j(3)-3.0d0ct_j*zhat) &
1386	+	- preRF2*uz_j(3) )
1387	+
1388	+	duduz_j(1) = duduz_j(1) - sw * pref * xhat * ( ri2 - preRF2*rij )
1389	+	duduz_j(2) = duduz_j(2) - sw * pref * yhat * ( ri2 - preRF2*rij )
1390	+	duduz_j(3) = duduz_j(3) - sw * pref * zhat * ( ri2 - preRF2*rij )
1391	+
1392	+	elseif (i_is_Dipole.and.j_is_Charge) then
1393	+	mu_i = ElectrostaticMap(atid1)%dipole_moment
1394	+	q_j = ElectrostaticMap(atid2)%charge
1395	+	uz_i(1) = eFrame(3,atom1)
1396	+	uz_i(2) = eFrame(6,atom1)
1397	+	uz_i(3) = eFrame(9,atom1)
1398	+	ct_i = uz_i(1)xhat + uz_i(2)yhat + uz_i(3)*zhat
1399	+
1400	+	ri2 = riji * riji
1401	+	ri3 = ri2 * riji
1402	+
1403	+	pref = pre12 * q_j * mu_i
1404	+	vterm = pref * ct_i * ( ri2 - preRF2*rij )
1405	+	myPot = myPot + sw*vterm
1406	+
1407	+	dudx = dudx + swpref( ri3(uz_i(1)-3.0d0ct_i*xhat) &
1408	+	- preRF2*uz_i(1) )
1409	+	dudy = dudy + swpref( ri3(uz_i(2)-3.0d0ct_i*yhat) &
1410	+	- preRF2*uz_i(2) )
1411	+	dudz = dudz + swpref( ri3(uz_i(3)-3.0d0ct_i*zhat) &
1412	+	- preRF2*uz_i(3) )
1413	+
1414	+	duduz_i(1) = duduz_i(1) + sw * pref * xhat * ( ri2 - preRF2*rij )
1415	+	duduz_i(2) = duduz_i(2) + sw * pref * yhat * ( ri2 - preRF2*rij )
1416	+	duduz_i(3) = duduz_i(3) + sw * pref * zhat * ( ri2 - preRF2*rij )
1417	+
1418	+	endif
1419	+
1420	+
1421	+	! accumulate the forces and torques resulting from the self term
1422	+	f(1,atom1) = f(1,atom1) + dudx
1423	+	f(2,atom1) = f(2,atom1) + dudy
1424	+	f(3,atom1) = f(3,atom1) + dudz
1425
1426	+	f(1,atom2) = f(1,atom2) - dudx
1427	+	f(2,atom2) = f(2,atom2) - dudy
1428	+	f(3,atom2) = f(3,atom2) - dudz
1429	+
1430	+	if (i_is_Dipole) then
1431	+	t(1,atom1)=t(1,atom1) - uz_i(2)duduz_i(3) + uz_i(3)duduz_i(2)
1432	+	t(2,atom1)=t(2,atom1) - uz_i(3)duduz_i(1) + uz_i(1)duduz_i(3)
1433	+	t(3,atom1)=t(3,atom1) - uz_i(1)duduz_i(2) + uz_i(2)duduz_i(1)
1434	+	elseif (j_is_Dipole) then
1435	+	t(1,atom2)=t(1,atom2) - uz_j(2)duduz_j(3) + uz_j(3)duduz_j(2)
1436	+	t(2,atom2)=t(2,atom2) - uz_j(3)duduz_j(1) + uz_j(1)duduz_j(3)
1437	+	t(3,atom2)=t(3,atom2) - uz_j(1)duduz_j(2) + uz_j(2)duduz_j(1)
1438	+	endif
1439	+
1440		return
1441	<	end subroutine rf_self_self
1441	>	end subroutine rf_self_excludes
1442
1443		end module electrostatic_module

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Comparing trunk/OOPSE-4/src/UseTheForce/DarkSide/electrostatic.F90 (file contents): Revision 2395 by chrisfen, Mon Oct 24 14:06:36 2005 UTC vs. Revision 2715 by chrisfen, Sun Apr 16 02:51:16 2006 UTC

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Comparing trunk/OOPSE-4/src/UseTheForce/DarkSide/electrostatic.F90 (file contents):
Revision 2395 by chrisfen, Mon Oct 24 14:06:36 2005 UTC vs.
Revision 2715 by chrisfen, Sun Apr 16 02:51:16 2006 UTC