[ViewVC] Diff of: group/trunk/mdtools/md_code/lj

Comparing trunk/mdtools/md_code/lj_FF.F90 (file contents):
Revision 239 by chuckv, Mon Jan 20 22:36:12 2003 UTC vs.
Revision 281 by chuckv, Mon Feb 24 21:25:15 2003 UTC

#	Line 2 \| Line 2
2		!! Corresponds to the force field defined in lj_FF.cpp
3		!! @author Charles F. Vardeman II
4		!! @author Matthew Meineke
5	<	!! @version $Id: lj_FF.F90,v 1.8 2003-01-20 22:36:12 chuckv Exp $, $Date: 2003-01-20 22:36:12 $, $Name: not supported by cvs2svn $, $Revision: 1.8 $
5	>	!! @version $Id: lj_FF.F90,v 1.19 2003-02-24 21:25:15 chuckv Exp $, $Date: 2003-02-24 21:25:15 $, $Name: not supported by cvs2svn $, $Revision: 1.19 $
6
7
8
9		module lj_ff
10		use simulation
11	<	use definitions, ONLY : dp, ndim
11	>	use definitions
12	>	use generic_atypes
13		#ifdef IS_MPI
14		use mpiSimulation
15		#endif
#	Line 18 \| Line 19 \| module lj_ff
19		!! Number of lj_atypes in lj_atype_list
20		integer, save :: n_lj_atypes = 0
21
22	<	!! Starting Size for ljMixed Array
23	<	integer, parameter :: ljMixed_blocksize = 10
22	>	!! Global list of lj atypes in simulation
23	>	type (lj_atype), pointer :: ljListHead => null()
24	>	type (lj_atype), pointer :: ljListTail => null()
25
24	–	!! Basic atom type for a Lennard-Jones Atom.
25	–	type, public :: lj_atype
26	–	private
27	–	sequence
28	–	!! Unique number for place in linked list
29	–	integer :: atype_number = 0
30	–	!! Unique indentifier number (ie atomic no, etc)
31	–	integer :: atype_ident = 0
32	–	!! Mass of Particle
33	–	real ( kind = dp ) :: mass = 0.0_dp
34	–	!! Lennard-Jones epslon
35	–	real ( kind = dp ) :: epslon = 0.0_dp
36	–	!! Lennard-Jones Sigma
37	–	real ( kind = dp ) :: sigma = 0.0_dp
38	–	!! Lennard-Jones Sigma Squared
39	–	real ( kind = dp ) :: sigma2 = 0.0_dp
40	–	!! Lennard-Jones Sigma to sixth
41	–	real ( kind = dp ) :: sigma6 = 0.0_dp
42	–	!! Pointer for linked list creation
43	–	type (lj_atype), pointer :: next => null()
44	–	end type lj_atype
26
46	–	!! Pointer type for atype ident array
47	–	type, public :: lj_atypePtr
48	–	type (lj_atype), pointer :: this => null()
49	–	end type lj_atypePtr
50	–
51	–	!! Global list of lj atypes in simulation
52	–	type (lj_atype), pointer :: lj_atype_list => null()
27		!! LJ mixing array
28	<	type (lj_atype), dimension(:,:), allocatable, pointer :: ljMixed =>null()
55	<	!! identity pointer list for force loop.
56	<	type (lj_atypePtr), dimension(:), allocatable :: identPtrList
28	>	type (lj_atype), dimension(:,:), pointer :: ljMixed => null()
29
30
31		!! Neighbor list and commom arrays
#	Line 64 \| Line 36 \| module lj_ff
36		integer :: nListAllocs = 0
37		integer, parameter :: maxListAllocs = 5
38
39	<	#ifdef IS_MPI
68	<	! Universal routines: All types of force calculations will need these arrays
69	<	! Arrays specific to a type of force calculation should be declared in that module.
70	<	real( kind = dp ), allocatable, dimension(:,:) :: qRow
71	<	real( kind = dp ), allocatable, dimension(:,:) :: qColumn
39	>	logical, save :: firstTime = .True.
40
41	<	real( kind = dp ), allocatable, dimension(:,:) :: fRow
42	<	real( kind = dp ), allocatable, dimension(:,:) :: fColumn
43	<
44	<	type (lj_atypePtr), dimension(:), allocatable :: identPtrListRow
45	<	type (lj_atypePtr), dimension(:), allocatable :: identPtrListColumn
41	>	!! Atype identity pointer lists
42	>	#ifdef IS_MPI
43	>	!! Row lj_atype pointer list
44	>	type (lj_identPtrList), dimension(:), pointer :: identPtrListRow => null()
45	>	!! Column lj_atype pointer list
46	>	type (lj_identPtrList), dimension(:), pointer :: identPtrListColumn => null()
47	>	#else
48	>	type( lj_identPtrList ), dimension(:), pointer :: identPtrList => null()
49		#endif
50
51
52	+	!! Logical has lj force field module been initialized?
53	+	logical, save :: isljFFinit = .false.
54
82	–	logical :: isljFFinit = .false.
55
84	–
56		!! Public methods and data
57		public :: new_lj_atype
58		public :: do_lj_ff
59		public :: getLjPot
60	<
60	>	public :: init_ljFF
61
62
63
64
65		contains
66
67	<	subroutine new_lj_atype(ident,mass,epslon,sigma,status)
67	>	!! Adds a new lj_atype to the list.
68	>	subroutine new_lj_atype(ident,mass,epsilon,sigma,status)
69		real( kind = dp ), intent(in) :: mass
70	<	real( kind = dp ), intent(in) :: epslon
70	>	real( kind = dp ), intent(in) :: epsilon
71		real( kind = dp ), intent(in) :: sigma
72		integer, intent(in) :: ident
73		integer, intent(out) :: status
74
75	<	type (lj_atype), pointer :: this_lj_atype
104	<	type (lj_atype), pointer :: lj_atype_ptr
105	<
106	<	type (lj_atype), allocatable, dimension(:,:), pointer :: thisMix
107	<	type (lj_atype), allocatable, dimension(:,:), pointer :: oldMix
75	>	type (lj_atype), pointer :: newLJ_atype
76		integer :: alloc_error
77		integer :: atype_counter = 0
78		integer :: alloc_size
79	<
79	>	integer :: err_stat
80		status = 0
81
82
83
84		! allocate a new atype
85	<	allocate(this_lj_atype,stat=alloc_error)
85	>	allocate(newLJ_atype,stat=alloc_error)
86		if (alloc_error /= 0 ) then
87		status = -1
88		return
89		end if
90
91		! assign our new lj_atype information
92	<	this_lj_atype%mass = mass
93	<	this_lj_atype%epslon = epslon
94	<	this_lj_atype%sigma = sigma
95	<	this_lj_atype%sigma2 = sigma * sigma
96	<	this_lj_atype%sigma6 = this_lj_atype%sigma2 * this_lj_atype%sigma2 &
97	<	* this_lj_atype%sigma2
92	>	newLJ_atype%mass = mass
93	>	newLJ_atype%epsilon = epsilon
94	>	newLJ_atype%sigma = sigma
95	>	newLJ_atype%sigma2 = sigma * sigma
96	>	newLJ_atype%sigma6 = newLJ_atype%sigma2 * newLJ_atype%sigma2 &
97	>	* newLJ_atype%sigma2
98		! assume that this atype will be successfully added
99	<	this_lj_atype%atype_ident = ident
100	<	this_lj_atype%number = n_lj_atypes + 1
99	>	newLJ_atype%atype_ident = ident
100	>	newLJ_atype%atype_number = n_lj_atypes + 1
101
102	<
103	<	! First time through allocate a array of size ljMixed_blocksize
104	<	if(.not. associated(ljMixed)) then
105	<	allocate(thisMix(ljMixed_blocksize,ljMixed_blocksize))
138	<	if (alloc_error /= 0 ) then
139	<	status = -1
140	<	return
141	<	end if
142	<	ljMixed => thisMix
143	<	! If we have outgrown ljMixed_blocksize, allocate a new matrix twice the size and
144	<	! point ljMix at the new matrix.
145	<	else if( (n_lj_atypes + 1) > size(ljMixed)) then
146	<	alloc_size = 2*size(ljMix)
147	<	allocate(thisMix(alloc_size,alloc_size))
148	<	if (alloc_error /= 0 ) then
149	<	status = -1
150	<	return
151	<	end if
152	<	! point oldMix at old ljMixed array
153	<	oldMix => ljMixed
154	<	! Copy oldMix into new Mixed array
155	<	thisMix = oldMix
156	<	! Point ljMixed at new array
157	<	ljMixed => thisMix
158	<	! Free old array so we don't have a memory leak
159	<	deallocate(oldMix)
102	>	call add_atype(newLJ_atype,ljListHead,ljListTail,err_stat)
103	>	if (err_stat /= 0 ) then
104	>	status = -1
105	>	return
106		endif
107
162	–
163	–
164	–
165	–
166	–	! Find bottom of atype master list
167	–	! if lj_atype_list is null then we are at the top of the list.
168	–	if (.not. associated(lj_atype_list)) then
169	–	lj_atype_ptr => this_lj_atype
170	–	atype_counter = 1
171	–
172	–	else ! we need to find the bottom of the list to insert new atype
173	–	lj_atype_ptr => lj_atype_list%next
174	–	atype_counter = 1
175	–	find_end: do
176	–	if (.not. associated(lj_atype_ptr%next)) then
177	–	exit find_end
178	–	end if
179	–	! Set up mixing for new atype and current atype in list
180	–	ljMix(this_lj_atype%atype_number,lj_atype_ptr%atype_number)%sigma = &
181	–	calcLJMix("sigma",this_lj_atype%sigma, &
182	–	lj_atype_prt%sigma)
183	–
184	–	ljMix(this_lj_atype%atype_number,lj_atype_ptr%atype_number)%sigma2 = &
185	–	ljMix(this_lj_atype%atype_number,lj_atype_ptr%atype_number)%sigma &
186	–	* ljMix(this_lj_atype%atype_number,lj_atype_ptr%atype_number)%sigma
187	–
188	–	ljMix(this_lj_atype%atype_number,lj_atype_ptr%atype_number)%sigma6 = &
189	–	ljMix(this_lj_atype%atype_number,lj_atype_ptr%atype_number)%sigma2 &
190	–	* ljMix(this_lj_atype%atype_number,lj_atype_ptr%atype_number)%sigma2 &
191	–	* ljMix(this_lj_atype%atype_number,lj_atype_ptr%atype_number)%sigma2
192	–
193	–	ljMix(this_lj_atype%atype_number,lj_atype_ptr%atype_number)%epslon = &
194	–	calcLJMix("epslon",this_lj_atype%epslon, &
195	–	lj_atype_prt%epslon)
196	–
197	–	! Advance to next pointer
198	–	lj_atype_ptr => lj_atype_ptr%next
199	–	atype_counter = atype_counter + 1
200	–
201	–	end do find_end
202	–	end if
203	–
204	–
205	–
206	–
207	–	! Insert new atype at end of list
208	–	lj_atype_ptr => this_lj_atype
209	–	! Increment number of atypes
210	–
108		n_lj_atypes = n_lj_atypes + 1
109
213	–	! Set up self mixing
110
215	–	ljMix(n_lj_atypes,n_lj_atypes)%sigma = this_lj_atype%sigma
216	–
217	–	ljMix(n_lj_atypes,n_lj_atypes)%sigma2 = ljMix(n_lj_atypes,n_lj_atypes)%sigma &
218	–	* ljMix(n_lj_atypes,n_lj_atypes)%sigma
219	–
220	–	ljMix(n_lj_atypes,n_lj_atypes)%sigma6 = ljMix(n_lj_atypes,n_lj_atypes)%sigma2 &
221	–	* ljMix(n_lj_atypes,n_lj_atypes)%sigma2 &
222	–	* ljMix(n_lj_atypes,n_lj_atypes)%sigma2
223	–
224	–	ljMix(n_lj_atypes,n_lj_atypes)%epslon = this_lj_atype%epslon
225	–
226	–
111		end subroutine new_lj_atype
112
113
#	Line 236 \| Line 120 \| contains
120		!! Result status, success = 0, error = -1
121		integer, intent(out) :: Status
122
123	+	integer :: alloc_stat
124	+
125		integer :: thisStat
126	+	integer :: i
127	+
128	+	integer :: myNode
129		#ifdef IS_MPI
130		integer, allocatable, dimension(:) :: identRow
131		integer, allocatable, dimension(:) :: identCol
132		integer :: nrow
133		integer :: ncol
245	–	integer :: alloc_stat
134		#endif
135		status = 0
136	+
137
138	+
139	+
140		!! if were're not in MPI, we just update ljatypePtrList
141		#ifndef IS_MPI
142	<	call new_ljatypePtrList(nComponents,ident,identPtrList,thisStat)
142	>	call create_IdentPtrlst(ident,ljListHead,identPtrList,thisStat)
143		if ( thisStat /= 0 ) then
144		status = -1
145		return
146		endif
147	+
148		!! Allocate pointer lists
149		allocate(point(nComponents),stat=alloc_stat)
150		if (alloc_stat /=0) then
#	Line 268 \| Line 160 \| contains
160
161		! if were're in MPI, we also have to worry about row and col lists
162		#else
163	+
164		! We can only set up forces if mpiSimulation has been setup.
165		if (.not. isMPISimSet()) then
166	+	write(default_error,*) "MPI is not set"
167		status = -1
168		return
169		endif
170	<	nrow = getNrow()
171	<	ncol = getNcol()
170	>	nrow = getNrow(plan_row)
171	>	ncol = getNcol(plan_col)
172	>	mynode = getMyNode()
173		!! Allocate temperary arrays to hold gather information
174		allocate(identRow(nrow),stat=alloc_stat)
175		if (alloc_stat /= 0 ) then
#	Line 287 \| Line 182 \| contains
182		status = -1
183		return
184		endif
185	+
186		!! Gather idents into row and column idents
187	+
188		call gather(ident,identRow,plan_row)
189		call gather(ident,identCol,plan_col)
190	<
190	>
191	>
192		!! Create row and col pointer lists
193	<	call new_ljatypePtrList(nrow,identRow,identPtrListRow,thisStat)
193	>
194	>	call create_IdentPtrlst(identRow,ljListHead,identPtrListRow,thisStat)
195		if (thisStat /= 0 ) then
196		status = -1
197		return
198		endif
199	<
200	<	call new_ljatypePtrList(ncol,identCol,identPtrListCol,thisStat)
199	>
200	>	call create_IdentPtrlst(identCol,ljListHead,identPtrListColumn,thisStat)
201		if (thisStat /= 0 ) then
202		status = -1
203		return
204		endif
205
206		!! free temporary ident arrays
207	<	deallocate(identCol)
208	<	deallocate(identRow)
209	<
210	<	!! Allocate Simulation arrays
211	<	!! NOTE: This bit of code should be fixed, it can cause large
313	<	!! memory fragmentation if call repeatedly
314	<
315	<	if (.not.allocated(qRow)) then
316	<	allocate(qRow(3,nrow),stat=alloc_stat)
317	<	if (alloc_stat /= 0 ) then
318	<	status = -1
319	<	return
320	<	endif
321	<	else
322	<	deallocate(qrow)
323	<	allocate(qRow(3,nrow),stat=alloc_stat)
324	<	if (alloc_stat /= 0 ) then
325	<	status = -1
326	<	return
327	<	endif
207	>	if (allocated(identCol)) then
208	>	deallocate(identCol)
209	>	end if
210	>	if (allocated(identCol)) then
211	>	deallocate(identRow)
212		endif
213
330	–	if (.not.allocated(3,qCol)) then
331	–	allocate(qCol(ncol),stat=alloc_stat)
332	–	if (alloc_stat /= 0 ) then
333	–	status = -1
334	–	return
335	–	endif
336	–	else
337	–	deallocate(qCol)
338	–	allocate(qCol(3,ncol),stat=alloc_stat)
339	–	if (alloc_stat /= 0 ) then
340	–	status = -1
341	–	return
342	–	endif
343	–	endif
344	–
345	–	if (.not.allocated(fRow)) then
346	–	allocate(fRow(3,nrow),stat=alloc_stat)
347	–	if (alloc_stat /= 0 ) then
348	–	status = -1
349	–	return
350	–	endif
351	–	else
352	–	deallocate(fRow)
353	–	allocate(fRow(3,nrow),stat=alloc_stat)
354	–	if (alloc_stat /= 0 ) then
355	–	status = -1
356	–	return
357	–	endif
358	–	endif
359	–
360	–	if (.not.allocated(fCol)) then
361	–	allocate(fCol(3,ncol),stat=alloc_stat)
362	–	if (alloc_stat /= 0 ) then
363	–	status = -1
364	–	return
365	–	endif
366	–	else
367	–	deallocate(fCol)
368	–	allocate(fCol(3,ncol),stat=alloc_stat)
369	–	if (alloc_stat /= 0 ) then
370	–	status = -1
371	–	return
372	–	endif
373	–	endif
214		!! Allocate neighbor lists for mpi simulations.
215		if (.not. allocated(point)) then
216		allocate(point(nrow),stat=alloc_stat)
#	Line 402 \| Line 242 \| contains
242
243		#endif
244
245	<
245	>	call createMixingList(thisStat)
246	>	if (thisStat /= 0) then
247	>	status = -1
248	>	return
249	>	endif
250		isljFFinit = .true.
251
252
#	Line 412 \| Line 256 \| contains
256
257
258
415	–	!! Takes an ident array and creates an atype pointer list
416	–	!! based on those identities
417	–	subroutine new_ljatypePtrList(mysize,ident,PtrList,status)
418	–	integer, intent(in) :: mysize
419	–	integer, intent(in) :: ident
420	–	integer, optional :: status
421	–	type(lj_atypePtr), dimension(:) :: PtrList
259
260	<	integer :: thisIdent
260	>	subroutine createMixingList(status)
261	>	integer :: listSize
262	>	integer :: status
263		integer :: i
264	<	integer :: alloc_error
426	<	type (lj_atype), pointer :: tmpPtr
264	>	integer :: j
265
266	<	if (present(status)) status = 0
266	>	integer :: outerCounter = 0
267	>	integer :: innerCounter = 0
268	>	type (lj_atype), pointer :: tmpPtrOuter => null()
269	>	type (lj_atype), pointer :: tmpPtrInner => null()
270	>	status = 0
271
272	<	! First time through, allocate list
273	<	if (.not.(allocated)) then
274	<	allocate(PtrList(mysize))
272	>	listSize = getListLen(ljListHead)
273	>	if (listSize == 0) then
274	>	status = -1
275	>	return
276	>	end if
277	>
278	>
279	>	if (.not. associated(ljMixed)) then
280	>	allocate(ljMixed(listSize,listSize))
281		else
282	<	! We want to creat a new ident list so free old list
283	<	deallocate(PrtList)
284	<	allocate(PtrList(mysize))
437	<	endif
282	>	status = -1
283	>	return
284	>	end if
285
286	<	! Match pointer list
287	<	do i = 1, mysize
288	<	thisIdent = ident(i)
289	<	call getLJatype(thisIdent,tmpPtr)
290	<
291	<	if (.not. associated(tmpPtr)) then
292	<	status = -1
293	<	return
286	>
287	>
288	>	tmpPtrOuter => ljListHead
289	>	tmpPtrInner => tmpPtrOuter%next
290	>	do while (associated(tmpPtrOuter))
291	>	outerCounter = outerCounter + 1
292	>	! do self mixing rule
293	>	ljMixed(outerCounter,outerCounter)%sigma = tmpPtrOuter%sigma
294	>
295	>	ljMixed(outerCounter,outerCounter)%sigma2 = ljMixed(outerCounter,outerCounter)%sigma &
296	>	* ljMixed(outerCounter,outerCounter)%sigma
297	>
298	>	ljMixed(outerCounter,outerCounter)%sigma6 = ljMixed(outerCounter,outerCounter)%sigma2 &
299	>	* ljMixed(outerCounter,outerCounter)%sigma2 &
300	>	* ljMixed(outerCounter,outerCounter)%sigma2
301	>
302	>	ljMixed(outerCounter,outerCounter)%epsilon = tmpPtrOuter%epsilon
303	>
304	>	innerCounter = outerCounter + 1
305	>	do while (associated(tmpPtrInner))
306	>
307	>	ljMixed(outerCounter,innerCounter)%sigma = &
308	>	calcLJMix("sigma",tmpPtrOuter%sigma, &
309	>	tmpPtrInner%sigma)
310	>
311	>	ljMixed(outerCounter,innerCounter)%sigma2 = &
312	>	ljMixed(outerCounter,innerCounter)%sigma &
313	>	* ljMixed(outerCounter,innerCounter)%sigma
314	>
315	>	ljMixed(outerCounter,innerCounter)%sigma6 = &
316	>	ljMixed(outerCounter,innerCounter)%sigma2 &
317	>	* ljMixed(outerCounter,innerCounter)%sigma2 &
318	>	* ljMixed(outerCounter,innerCounter)%sigma2
319	>
320	>	ljMixed(outerCounter,innerCounter)%epsilon = &
321	>	calcLJMix("epsilon",tmpPtrOuter%epsilon, &
322	>	tmpPtrInner%epsilon)
323	>	ljMixed(innerCounter,outerCounter)%sigma = ljMixed(outerCounter,innerCounter)%sigma
324	>	ljMixed(innerCounter,outerCounter)%sigma2 = ljMixed(outerCounter,innerCounter)%sigma2
325	>	ljMixed(innerCounter,outerCounter)%sigma6 = ljMixed(outerCounter,innerCounter)%sigma6
326	>	ljMixed(innerCounter,outerCounter)%epsilon = ljMixed(outerCounter,innerCounter)%epsilon
327	>
328	>
329	>	tmpPtrInner => tmpPtrInner%next
330	>	innerCounter = innerCounter + 1
331	>	end do
332	>	! advance pointers
333	>	tmpPtrOuter => tmpPtrOuter%next
334	>	if (associated(tmpPtrOuter)) then
335	>	tmpPtrInner => tmpPtrOuter%next
336		endif
337
449	–	PtrList(i)%this => tmpPtr
338		end do
339
340	<	end subroutine new_ljatypePtrList
340	>	end subroutine createMixingList
341
454	–	!! Finds a lj_atype based upon numerical ident
455	–	!! returns a null pointer if error
456	–	subroutine getLJatype(ident,ljAtypePtr)
457	–	integer, intent(in) :: ident
458	–	type (lj_atype), intent(out),pointer :: ljAtypePtr => null()
459	–
460	–	type (lj_atype), pointer :: tmplj_atype_ptr => null()
342
462	–	if(.not. associated(lj_atype_list)) return
343
344	<	! Point at head of list.
465	<	tmplj_atype_ptr => lj_atype_list
466	<	find_ident: do
467	<	if (.not.associated(tmplj_atype_ptr)) then
468	<	exit find_ident
469	<	else if( lj_atype_ptr%atype_ident == ident)
470	<	ljAtypePtr => tmplj_atype_ptr
471	<	exit find_ident
472	<	endif
473	<	tmplj_atype_ptr => tmplj_atype_ptr%next
474	<	end do find_ident
344	>
345
476	–	end subroutine getLJatype
346
347
348	+
349		!! FORCE routine Calculates Lennard Jones forces.
350		!------------------------------------------------------------->
351	<	subroutine do_lj_ff(q,f,potE,do_pot)
352	<	real ( kind = dp ), dimension(ndim,) :: q
353	<	real ( kind = dp ), dimension(ndim,nLRparticles) :: f
351	>	subroutine do_lj_ff(q,f,potE,tau,do_pot)
352	>	!! Position array provided by C, dimensioned by getNlocal
353	>	real ( kind = dp ), dimension(3,getNlocal()) :: q
354	>	!! Force array provided by C, dimensioned by getNlocal
355	>	real ( kind = dp ), dimension(3,getNlocal()) :: f
356	>	!! Stress Tensor
357	>	real( kind = dp), dimension(9) :: tau
358	>	real( kind = dp), dimension(9) :: tauTemp
359		real ( kind = dp ) :: potE
360		logical ( kind = 2) :: do_pot
361
362		type(lj_atype), pointer :: ljAtype_i
363		type(lj_atype), pointer :: ljAtype_j
364
365	<	#ifdef MPI
366	<	real( kind = DP ), dimension(3,ncol) :: efr
367	<	real( kind = DP ) :: pot_local
493	<	#else
494	<	! real( kind = DP ), dimension(3,natoms) :: efr
495	<	#endif
365	>
366	>
367	>
368
369	+
370	+	#ifdef IS_MPI
371	+	real( kind = DP ) :: pot_local
372	+
373	+	!! Local arrays needed for MPI
374	+	real(kind = dp), dimension(3,getNrow(plan_row)) :: qRow = 0.0_dp
375	+	real(kind = dp), dimension(3,getNcol(plan_col)) :: qCol = 0.0_dp
376	+
377	+	real(kind = dp), dimension(3,getNrow(plan_row)) :: fRow = 0.0_dp
378	+	real(kind = dp), dimension(3,getNcol(plan_col)) :: fCol = 0.0_dp
379	+	real(kind = dp), dimension(3,getNlocal()) :: fMPITemp = 0.0_dp
380	+
381	+	real(kind = dp), dimension(getNrow(plan_row)) :: eRow = 0.0_dp
382	+	real(kind = dp), dimension(getNcol(plan_col)) :: eCol = 0.0_dp
383	+
384	+	real(kind = dp), dimension(getNlocal()) :: eTemp = 0.0_dp
385	+
386	+	#endif
387	+
388	+
389	+
390		real( kind = DP ) :: pe
391	<	logical, :: update_nlist
391	>	logical :: update_nlist
392
393
394		integer :: i, j, jbeg, jend, jnab, idim, jdim, idim2, jdim2, dim, dim2
#	Line 503 \| Line 396 \| contains
396		integer :: j_start
397		integer :: tag_i,tag_j
398		real( kind = DP ) :: r, pot, ftmp, dudr, d2, drdx1, kt1, kt2, kt3, ktmp
399	+	real( kind = dp ) :: fx,fy,fz
400	+	real( kind = DP ) :: drdx, drdy, drdz
401		real( kind = DP ) :: rxi, ryi, rzi, rxij, ryij, rzij, rijsq
402	+	real( kind = DP ) :: rlistsq, rcutsq,rlist,rcut
403
404	+	! a rig that need to be fixed.
405	+	#ifdef IS_MPI
406	+	logical :: newtons_thrd = .true.
407	+	real( kind = dp ) :: pe_local
408	+	integer :: nlocal
409	+	#endif
410		integer :: nrow
411		integer :: ncol
412	+	integer :: natoms
413	+	!! should we calculate the stress tensor
414	+	logical :: do_stress = .false.
415
416	+
417	+
418	+	! Make sure we are properly initialized.
419		if (.not. isljFFInit) then
420		write(default_error,*) "ERROR: lj_FF has not been properly initialized"
421		return
422		endif
423	+	#ifdef IS_MPI
424	+	if (.not. isMPISimSet()) then
425	+	write(default_error,*) "ERROR: mpiSimulation has not been properly initialized"
426	+	return
427	+	endif
428	+	#endif
429
430	+	!! initialize local variables
431	+	natoms = getNlocal()
432	+	call getRcut(rcut,rcut2=rcutsq)
433	+	call getRlist(rlist,rlistsq)
434	+	!! Find ensemble
435	+	if (isEnsemble("NPT")) do_stress = .true.
436	+
437		#ifndef IS_MPI
438		nrow = natoms - 1
439		ncol = natoms
440		#else
441		nrow = getNrow(plan_row)
442		ncol = getNcol(plan_col)
443	+	nlocal = natoms
444		j_start = 1
445		#endif
446
447
448	+	!! See if we need to update neighbor lists
449	+	call check(q,update_nlist)
450	+	if (firstTime) then
451	+	update_nlist = .true.
452	+	firstTime = .false.
453	+	endif
454
527	–	call check(update_nlist)
528	–
455		!--------------WARNING...........................
456		! Zero variables, NOTE:::: Forces are zeroed in C
457		! Zeroing them here could delete previously computed
458		! Forces.
459		!------------------------------------------------
460		#ifndef IS_MPI
461	<	nloops = nloops + 1
462	<	pot = 0.0E0_DP
463	<	e = 0.0E0_DP
461	>	! nloops = nloops + 1
462	>	pe = 0.0E0_DP
463	>
464		#else
465	<	f_row = 0.0E0_DP
466	<	f_col = 0.0E0_DP
465	>	fRow = 0.0E0_DP
466	>	fCol = 0.0E0_DP
467
468	<	pot_local = 0.0E0_DP
468	>	pe_local = 0.0E0_DP
469
470	<	e_row = 0.0E0_DP
471	<	e_col = 0.0E0_DP
472	<	e_tmp = 0.0E0_DP
470	>	eRow = 0.0E0_DP
471	>	eCol = 0.0E0_DP
472	>	eTemp = 0.0E0_DP
473		#endif
548	–	efr = 0.0E0_DP
474
475		! communicate MPI positions
476	<	#ifdef MPI
477	<	call gather(q,qRow,plan_row3)
478	<	call gather(q,qCol,plan_col3)
476	>	#ifdef IS_MPI
477	>	call gather(q,qRow,plan_row3d)
478	>	call gather(q,qCol,plan_col3d)
479		#endif
480
556	–	#ifndef MPI
481
558	–	#endif
559	–
482		if (update_nlist) then
483
484		! save current configuration, contruct neighbor list,
485		! and calculate forces
486	<	call save_nlist()
486	>	call save_nlist(q)
487
488		nlist = 0
489
490	<
490	>
491
492		do i = 1, nrow
493		point(i) = nlist + 1
494	<	#ifdef MPI
494	>	#ifdef IS_MPI
495		ljAtype_i => identPtrListRow(i)%this
496		tag_i = tagRow(i)
497		rxi = qRow(1,i)
#	Line 584 \| Line 506 \| contains
506		#endif
507
508		inner: do j = j_start, ncol
509	<	#ifdef MPI
509	>	#ifdef IS_MPI
510		! Assign identity pointers and tags
511		ljAtype_j => identPtrListColumn(j)%this
512	<	tag_j = tagCol(j)
512	>	tag_j = tagColumn(j)
513		if (newtons_thrd) then
514		if (tag_i <= tag_j) then
515		if (mod(tag_i + tag_j,2) == 0) cycle inner
#	Line 608 \| Line 530 \| contains
530		#endif
531		rijsq = rxijrxij + ryijryij + rzij*rzij
532
533	<	#ifdef MPI
534	<	if (rijsq <= rlstsq .AND. &
533	>	#ifdef IS_MPI
534	>	if (rijsq <= rlistsq .AND. &
535		tag_j /= tag_i) then
536		#else
537	<	if (rijsq < rlstsq) then
537	>
538	>	if (rijsq < rlistsq) then
539		#endif
540
541		nlist = nlist + 1
542		if (nlist > size(list)) then
543	<	#warning "Change how nlist size is done"
543	>	!! "Change how nlist size is done"
544		write(DEFAULT_ERROR,*) "ERROR: nlist > list size"
545		endif
546		list(nlist) = j
547
548	<
548	>
549		if (rijsq < rcutsq) then
550
551		r = dsqrt(rijsq)
552
553		call getLJPot(r,pot,dudr,ljAtype_i,ljAtype_j)
554
555	<	#ifdef MPI
556	<	e_row(i) = e_row(i) + pot*0.5
557	<	e_col(i) = e_col(i) + pot*0.5
555	>	#ifdef IS_MPI
556	>	eRow(i) = eRow(i) + pot*0.5
557	>	eCol(i) = eCol(i) + pot*0.5
558		#else
559	<	pe = pe + pot
559	>	pe = pe + pot
560		#endif
561
562	<	efr(1,j) = -rxij
563	<	efr(2,j) = -ryij
564	<	efr(3,j) = -rzij
565	<
566	<	do dim = 1, 3
567	<
568	<
569	<	drdx1 = efr(dim,j) / r
570	<	ftmp = dudr * drdx1
571	<
572	<
573	<	#ifdef MPI
574	<	fCol(dim,j) = fCol(dim,j) - ftmp
575	<	fRow(dim,i) = fRow(dim,i) + ftmp
576	<	#else
577	<
578	<	f(dim,j) = f(dim,j) - ftmp
579	<	f(dim,i) = f(dim,i) + ftmp
580	<
581	<	#endif
582	<	enddo
583	<	endif
584	<	endif
585	<	enddo inner
562	>	drdx = -rxij / r
563	>	drdy = -ryij / r
564	>	drdz = -rzij / r
565	>
566	>	fx = dudr * drdx
567	>	fy = dudr * drdy
568	>	fz = dudr * drdz
569	>
570	>	#ifdef IS_MPI
571	>	fCol(1,j) = fCol(1,j) - fx
572	>	fCol(2,j) = fCol(2,j) - fy
573	>	fCol(3,j) = fCol(3,j) - fz
574	>
575	>	fRow(1,j) = fRow(1,j) + fx
576	>	fRow(2,j) = fRow(2,j) + fy
577	>	fRow(3,j) = fRow(3,j) + fz
578	>	#else
579	>	f(1,j) = f(1,j) - fx
580	>	f(2,j) = f(2,j) - fy
581	>	f(3,j) = f(3,j) - fz
582	>	f(1,i) = f(1,i) + fx
583	>	f(2,i) = f(2,i) + fy
584	>	f(3,i) = f(3,i) + fz
585	>	#endif
586	>
587	>	if (do_stress) then
588	>	tauTemp(1) = tauTemp(1) + fx * rxij
589	>	tauTemp(2) = tauTemp(2) + fx * ryij
590	>	tauTemp(3) = tauTemp(3) + fx * rzij
591	>	tauTemp(4) = tauTemp(4) + fy * rxij
592	>	tauTemp(5) = tauTemp(5) + fy * ryij
593	>	tauTemp(6) = tauTemp(6) + fy * rzij
594	>	tauTemp(7) = tauTemp(7) + fz * rxij
595	>	tauTemp(8) = tauTemp(8) + fz * ryij
596	>	tauTemp(9) = tauTemp(9) + fz * rzij
597	>	endif
598	>	endif
599	>	enddo inner
600		enddo
601
602	<	#ifdef MPI
602	>	#ifdef IS_MPI
603		point(nrow + 1) = nlist + 1
604		#else
605		point(natoms) = nlist + 1
#	Line 676 \| Line 613 \| contains
613		JEND = POINT(i+1) - 1
614		! check thiat molecule i has neighbors
615		if (jbeg .le. jend) then
616	<	#ifdef MPI
616	>	#ifdef IS_MPI
617		ljAtype_i => identPtrListRow(i)%this
618		rxi = qRow(1,i)
619		ryi = qRow(2,i)
#	Line 689 \| Line 626 \| contains
626		#endif
627		do jnab = jbeg, jend
628		j = list(jnab)
629	<	#ifdef MPI
629	>	#ifdef IS_MPI
630		ljAtype_j = identPtrListColumn(j)%this
631	<	rxij = wrap(rxi - q_col(1,j), 1)
632	<	ryij = wrap(ryi - q_col(2,j), 2)
633	<	rzij = wrap(rzi - q_col(3,j), 3)
631	>	rxij = wrap(rxi - qCol(1,j), 1)
632	>	ryij = wrap(ryi - qCol(2,j), 2)
633	>	rzij = wrap(rzi - qCol(3,j), 3)
634		#else
635		ljAtype_j = identPtrList(j)%this
636		rxij = wrap(rxi - q(1,j), 1)
#	Line 707 \| Line 644 \| contains
644		r = dsqrt(rijsq)
645
646		call getLJPot(r,pot,dudr,ljAtype_i,ljAtype_j)
647	<	#ifdef MPI
648	<	e_row(i) = e_row(i) + pot*0.5
649	<	e_col(i) = e_col(i) + pot*0.5
647	>	#ifdef IS_MPI
648	>	eRow(i) = eRow(i) + pot*0.5
649	>	eCol(i) = eCol(i) + pot*0.5
650		#else
651	<	if (do_pot) pe = pe + pot
651	>	pe = pe + pot
652		#endif
653	+
654	+	drdx = -rxij / r
655	+	drdy = -ryij / r
656	+	drdz = -rzij / r
657	+
658	+	fx = dudr * drdx
659	+	fy = dudr * drdy
660	+	fz = dudr * drdz
661	+
662	+	#ifdef IS_MPI
663	+	fCol(1,j) = fCol(1,j) - fx
664	+	fCol(2,j) = fCol(2,j) - fy
665	+	fCol(3,j) = fCol(3,j) - fz
666	+
667	+	fRow(1,j) = fRow(1,j) + fx
668	+	fRow(2,j) = fRow(2,j) + fy
669	+	fRow(3,j) = fRow(3,j) + fz
670	+	#else
671	+	f(1,j) = f(1,j) - fx
672	+	f(2,j) = f(2,j) - fy
673	+	f(3,j) = f(3,j) - fz
674	+	f(1,i) = f(1,i) + fx
675	+	f(2,i) = f(2,i) + fy
676	+	f(3,i) = f(3,i) + fz
677	+	#endif
678	+
679	+	if (do_stress) then
680	+	tauTemp(1) = tauTemp(1) + fx * rxij
681	+	tauTemp(2) = tauTemp(2) + fx * ryij
682	+	tauTemp(3) = tauTemp(3) + fx * rzij
683	+	tauTemp(4) = tauTemp(4) + fy * rxij
684	+	tauTemp(5) = tauTemp(5) + fy * ryij
685	+	tauTemp(6) = tauTemp(6) + fy * rzij
686	+	tauTemp(7) = tauTemp(7) + fz * rxij
687	+	tauTemp(8) = tauTemp(8) + fz * ryij
688	+	tauTemp(9) = tauTemp(9) + fz * rzij
689	+	endif
690	+
691	+
692	+	endif
693	+	enddo
694	+	endif
695	+	enddo
696	+	endif
697	+
698
717	–
718	–	efr(1,j) = -rxij
719	–	efr(2,j) = -ryij
720	–	efr(3,j) = -rzij
699
700	<	do dim = 1, 3
701	<
724	<	drdx1 = efr(dim,j) / r
725	<	ftmp = dudr * drdx1
726	<	#ifdef MPI
727	<	fCol(dim,j) = fCol(dim,j) - ftmp
728	<	fRow(dim,i) = fRow(dim,i) + ftmp
729	<	#else
730	<	f(dim,j) = f(dim,j) - ftmp
731	<	f(dim,i) = f(dim,i) + ftmp
732	<	#endif
733	<	enddo
734	<	endif
735	<	enddo
736	<	endif
737	<	enddo
738	<	endif
700	>	#ifdef IS_MPI
701	>	!!distribute forces
702
703	+	call scatter(fRow,f,plan_row3d)
704
705	+	call scatter(fCol,fMPITemp,plan_col3d)
706
742	–	#ifdef MPI
743	–	!!distribute forces
744	–	call scatter(fRow,f,plan_row3)
745	–
746	–	call scatter(fCol,f_tmp,plan_col3)
707		do i = 1,nlocal
708	<	do dim = 1,3
749	<	f(dim,i) = f(dim,i) + f_tmp(dim,i)
750	<	end do
708	>	f(1:3,i) = f(1:3,i) + fMPITemp(1:3,i)
709		end do
710
711
712
713		if (do_pot) then
714	<	! scatter/gather pot_row into the members of my column
715	<	call scatter(e_row,e_tmp,plan_row)
714	>	! scatter/gather pot_row into the members of my column
715	>	call scatter(eRow,eTemp,plan_row)
716
717		! scatter/gather pot_local into all other procs
718		! add resultant to get total pot
719		do i = 1, nlocal
720	<	pot_local = pot_local + e_tmp(i)
720	>	pe_local = pe_local + eTemp(i)
721		enddo
722		if (newtons_thrd) then
723	<	e_tmp = 0.0E0_DP
724	<	call scatter(e_col,e_tmp,plan_col)
723	>	eTemp = 0.0E0_DP
724	>	call scatter(eCol,eTemp,plan_col)
725		do i = 1, nlocal
726	<	pot_local = pot_local + e_tmp(i)
726	>	pe_local = pe_local + eTemp(i)
727		enddo
728		endif
729	+	pe = pe_local
730		endif
731	+
732		#endif
733
734	+	potE = pe
735
736
737	+	if (do_stress) then
738	+	#ifdef IS_MPI
739	+	mpi_allreduce = (tau,tauTemp,9,mpi_double_precision,mpi_sum, &
740	+	mpi_comm_world,mpi_err)
741	+	#else
742	+	tau = tauTemp
743	+	#endif
744	+	endif
745
746	+
747		end subroutine do_lj_ff
748
749		!! Calculates the potential between two lj particles based on two lj_atype pointers, optionally returns second
#	Line 789 \| Line 759 \| contains
759		!! Second Derivative, optional, used mainly for normal mode calculations.
760		real( kind = dp ), intent(out), optional :: d2
761
762	<	type (lj_atype), intent(in), pointer :: atype1
763	<	type (lj_atype), intent(in), pointer :: atype2
762	>	type (lj_atype), pointer :: atype1
763	>	type (lj_atype), pointer :: atype2
764
765		integer, intent(out), optional :: status
766
#	Line 798 \| Line 768 \| contains
768		real( kind = dp ) :: sigma
769		real( kind = dp ) :: sigma2
770		real( kind = dp ) :: sigma6
771	<	real( kind = dp ) :: epslon
771	>	real( kind = dp ) :: epsilon
772
773		real( kind = dp ) :: rcut
774		real( kind = dp ) :: rcut2
#	Line 823 \| Line 793 \| contains
793		if (present(status)) status = 0
794
795		! Look up the correct parameters in the mixing matrix
796	<	sigma = ljMixed(atype1%atype_ident,atype2_atype_ident)%sigma
797	<	sigma2 = ljMixed(atype1%atype_ident,atype2_atype_ident)%sigma2
798	<	sigma6 = ljMixed(atype1%atype_ident,atype2_atype_ident)%sigma6
799	<	epslon = ljMixed(atype1%atype_ident,atype2_atype_ident)%epslon
796	>	sigma = ljMixed(atype1%atype_ident,atype2%atype_ident)%sigma
797	>	sigma2 = ljMixed(atype1%atype_ident,atype2%atype_ident)%sigma2
798	>	sigma6 = ljMixed(atype1%atype_ident,atype2%atype_ident)%sigma6
799	>	epsilon = ljMixed(atype1%atype_ident,atype2%atype_ident)%epsilon
800
801
802	<
802	>
803	>
804		call getRcut(rcut,rcut2=rcut2,rcut6=rcut6,status=errorStat)
805
806		r2 = r * r
#	Line 846 \| Line 817 \| contains
817		delta = -4.0E0_DPepsilon (tp12 - tp6)
818
819		if (r.le.rcut) then
820	<	u = 4.0E0_DP * epsilon * (t12 - t6) + delta
820	>	pot = 4.0E0_DP * epsilon * (t12 - t6) + delta
821		dudr = 24.0E0_DP * epsilon * (t6 - 2.0E0_DP*t12) / r
822		if(doSec) d2 = 24.0E0_DP * epsilon * (26.0E0_DPt12 - 7.0E0_DPt6)/r/r
823		else
824	<	u = 0.0E0_DP
824	>	pot = 0.0E0_DP
825		dudr = 0.0E0_DP
826		if(doSec) d2 = 0.0E0_DP
827		endif
#	Line 868 \| Line 839 \| contains
839		real(kind = dp) :: param1
840		real(kind = dp) :: param2
841		real(kind = dp ) :: myMixParam
842	+	character(len = getStringLen()) :: thisMixingRule
843		integer, optional :: status
844
845	<
845	>	!! get the mixing rules from the simulation
846	>	thisMixingRule = returnMixingRules()
847		myMixParam = 0.0_dp
848
849		if (present(status)) status = 0
850	<
851	<	select case (thisParam)
852	<
853	<	case ("sigma")
854	<	myMixParam = 0.5_dp * (param1 + param2)
855	<	case ("epslon")
856	<	myMixParam = sqrt(param1 * param2)
850	>	select case (thisMixingRule)
851	>	case ("standard")
852	>	select case (thisParam)
853	>	case ("sigma")
854	>	myMixParam = 0.5_dp * (param1 + param2)
855	>	case ("epsilon")
856	>	myMixParam = sqrt(param1 * param2)
857	>	case default
858	>	status = -1
859	>	end select
860	>	case("LJglass")
861		case default
862		status = -1
863		end select
887	–
864		end function calcLJMix
865
866

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Comparing trunk/mdtools/md_code/lj_FF.F90 (file contents): Revision 239 by chuckv, Mon Jan 20 22:36:12 2003 UTC vs. Revision 281 by chuckv, Mon Feb 24 21:25:15 2003 UTC

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Comparing trunk/mdtools/md_code/lj_FF.F90 (file contents):
Revision 239 by chuckv, Mon Jan 20 22:36:12 2003 UTC vs.
Revision 281 by chuckv, Mon Feb 24 21:25:15 2003 UTC