OOPSE/libmdtools/neighborLists.F90

!! Module neighborLists
!! Implements verlet neighbor lists for force modules.
!! Automagically expands neighbor list if size too small
!! up to maxAllocations times. If after maxAllocations we try to
!! expand the neighbor list, we get an error message and quit.
!! @author Charles F. Vardeman II
!! @author Matthew Meineke
!! @author J. Daniel Gezelter
!! @version $Id: neighborLists.F90,v 1.12 2004-06-01 21:45:22 gezelter Exp $, 

module neighborLists
  
  use definitions
#ifdef IS_MPI
  use mpiSimulation
#endif
  
  implicit none
  PRIVATE
  
  !--------------MODULE VARIABLES---------------------->
  !! Parameter for size > # of long range particles neighbor list
  !! should be.
  integer, parameter :: listMultiplier = 80
  !! Maximum number of times we should reallocate neighbor list.
  integer, parameter :: maxAllocations = 5
  !! Number of times we have allocated the neighbor list.
  integer, save       :: nAllocations = 0
  !! Pointer array to location in list for atom i.
  integer, dimension(:),public, pointer :: point => null()
  !! Neighbor list for atom i.
  integer, dimension(:),public, pointer :: list  => null()
  !! Position array of previous positions for check. Allocated first time
  !! into saveNeighborList.
  real( kind = dp ), dimension(:,:), allocatable, save  :: q0
  !! Current list size
  integer, save :: listSize
  !--------------MODULE ACCESS-------------------------->
  public :: expandNeighborList
  public :: checkNeighborList
  public :: saveNeighborList
  public :: getNeighborListSize
  
contains


  subroutine expandNeighborList(nGroups, error)
    integer, intent(out) :: error
    integer :: nGroups
    integer :: alloc_error
    integer :: oldSize = 0
    integer :: newSize = 0
    integer :: i
    integer, dimension(:), pointer :: newList => null()
    error = 0   

    !! First time through we should allocate point and list.
    !! If one is associated and one is not, something is wrong
    !! and return a error.

#ifdef IS_MPI !! // MPI
    if (.not. associated(point) .and. &
         .not. associated(list) ) then
       allocate(point(getNgroupsInRow(plan_group_row)+1),stat=alloc_error)
       if (alloc_error /= 0) then
          write(default_error,*) &
               "ExpandNeighborLists: Error in allocating MPI point"
           error = -1
          return
       end if
       allocate(list(listMultiplier * getNgroupsInCol(plan_group_col)),stat=alloc_error)
       if (alloc_error /= 0) then
          write(default_error,*) &
               "ExpandNeighborLists: Error in allocating MPI list"
          error = -1
          return
       end if
       listSize = size(list)
       nAllocations = nAllocations + 1
       return
    end if
#else !! // NONMPI
    if (.not. associated(point) .and. &
         .not. associated(list) ) then
       allocate(point(nGroups),stat=alloc_error)
       if (alloc_error /= 0) then
          write(default_error,*) &
               "ExpandNeighborLists: Error in allocating point"
          error = -1
          return
       end if
       allocate(list(listMultiplier * nGroups),stat=alloc_error)
       if (alloc_error /= 0) then
          write(default_error,*) &
               "ExpandNeighborLists: Error in allocating list"
          error = -1
          return
       end if
       listSize = size(list)
       nAllocations = nAllocations + 1
       return
    end if
#endif !! //MPI
    
    ! Expand the neighbor list
    
    ! Check to see if we have exceeded the maximum number of allocations.
    if (nAllocations > maxAllocations) then
       write(default_error,*) & 
            "ExpandNeighborList: exceeded maximum number of re-allocations"
       error = -1
       return
    else !! Expand the list.
       oldSize = size(list)


#ifdef IS_MPI !! MPI
       newSize = listMultiplier * getNgroupsInCol(plan_group_col) + oldSize
#else
       newSize = listMultiplier * nGroups + oldSize
#endif !! MPI

       
       allocate(newList(newSize), stat=alloc_error)
       if (alloc_error /= 0) then
          write(*,*) "Error allocating new neighborlist"
          error = -1
          return
       end if

       !! Copy old list to new list
       do i = 1, oldSize
          newList(i) = list(i)
       end do
       !! Free old list
       if(associated(list)) deallocate(list,stat=alloc_error)
       if (alloc_error /= 0) then
          error = -1
          return
       end if
       
       !! Point list at new list
       
       list => newList
    end if

    nAllocations = nAllocations + 1
    listSize = size(list)
  end subroutine expandNeighborList
  
  !! checks to see if any long range particle has moved
  !! through the neighbor list skin thickness.
  subroutine checkNeighborList(nGroups, q, listSkin, update_nlist)
    integer :: nGroups
    real(kind = dp), intent(in) :: listSkin
    real( kind = dp ), dimension(:,:)  :: q 
    integer :: i
    real( kind = DP ) :: dispmx 
    logical, intent(out) :: update_nlist
    real( kind = DP ) :: dispmx_tmp

    dispmx = 0.0E0_DP
    !! calculate the largest displacement of any atom in any direction
    
    !! If we have changed the particle idents, then we need to update    
    if (.not. allocated(q0)) then       
       update_nlist = .true.
       return
    end if

    if (size(q0,2) /= nGroups) then
       update_nlist = .true.
       return
    end if


#ifdef MPI 
    
    dispmx_tmp = 0.0E0_DP
    do i = 1, nGroups
       dispmx_tmp = max( abs ( q(1,i) - q0(1,i) ), dispmx_tmp )
       dispmx_tmp = max( abs ( q(2,i) - q0(2,i) ), dispmx_tmp )
       dispmx_tmp = max( abs ( q(3,i) - q0(3,i) ), dispmx_tmp )
    end do
    call mpi_allreduce(dispmx_tmp,dispmx,1,mpi_double_precision, & 
         mpi_max,mpi_comm_world,mpi_err)

#else
    
    dispmx = 0.0_DP
    do i = 1, nGroups
       dispmx = max( abs ( q(1,i) - q0(1,i) ), dispmx )
       dispmx = max( abs ( q(2,i) - q0(2,i) ), dispmx )
       dispmx = max( abs ( q(3,i) - q0(3,i) ), dispmx )
    end do

#endif   

    !! a conservative test of list skin crossings
    dispmx = 2.0E0_DP * sqrt (3.0E0_DP * dispmx * dispmx)   

    update_nlist = (dispmx.gt.listSkin)
 
   end subroutine checkNeighborList
  
  
  !! Saves neighbor list for comparison in check.
  !! Save_neighborList will work even if the number of
  !! local atoms has changed.
  subroutine saveNeighborList(nGroups, q)

    integer :: nGroups
    real(kind = dp ), dimension(3,nGroups), intent(in)  :: q
    integer :: list_size
    
    !! get size of list
    list_size = nGroups
    
    if (.not. allocated(q0)) then
       allocate(q0(3,list_size))
    else if( list_size > size(q0,2)) then
       deallocate(q0)
       allocate(q0(3,list_size))
    endif
    q0 = q
  end subroutine saveNeighborList
  
  
  function getNeighborListSize() result(returnListSize)
    integer :: returnListSize
    returnListSize = listSize
  end function getNeighborListSize
    
end module neighborLists
Revision:	1217
Committed:	Tue Jun 1 21:45:22 2004 UTC (20 years, 11 months ago) by gezelter
File size:	6943 byte(s)
Log Message:	Bug fix (fixes of skipList and neighbor list under MPI)
#	Content
1	!! Module neighborLists
2	!! Implements verlet neighbor lists for force modules.
3	!! Automagically expands neighbor list if size too small
4	!! up to maxAllocations times. If after maxAllocations we try to
5	!! expand the neighbor list, we get an error message and quit.
6	!! @author Charles F. Vardeman II
7	!! @author Matthew Meineke
8	!! @author J. Daniel Gezelter
9	!! @version $Id: neighborLists.F90,v 1.12 2004-06-01 21:45:22 gezelter Exp $,
10
11	module neighborLists
12
13	use definitions
14	#ifdef IS_MPI
15	use mpiSimulation
16	#endif
17
18	implicit none
19	PRIVATE
20
21	!--------------MODULE VARIABLES---------------------->
22	!! Parameter for size > # of long range particles neighbor list
23	!! should be.
24	integer, parameter :: listMultiplier = 80
25	!! Maximum number of times we should reallocate neighbor list.
26	integer, parameter :: maxAllocations = 5
27	!! Number of times we have allocated the neighbor list.
28	integer, save :: nAllocations = 0
29	!! Pointer array to location in list for atom i.
30	integer, dimension(:),public, pointer :: point => null()
31	!! Neighbor list for atom i.
32	integer, dimension(:),public, pointer :: list => null()
33	!! Position array of previous positions for check. Allocated first time
34	!! into saveNeighborList.
35	real( kind = dp ), dimension(:,:), allocatable, save :: q0
36	!! Current list size
37	integer, save :: listSize
38	!--------------MODULE ACCESS-------------------------->
39	public :: expandNeighborList
40	public :: checkNeighborList
41	public :: saveNeighborList
42	public :: getNeighborListSize
43
44	contains
45
46
47	subroutine expandNeighborList(nGroups, error)
48	integer, intent(out) :: error
49	integer :: nGroups
50	integer :: alloc_error
51	integer :: oldSize = 0
52	integer :: newSize = 0
53	integer :: i
54	integer, dimension(:), pointer :: newList => null()
55	error = 0
56
57	!! First time through we should allocate point and list.
58	!! If one is associated and one is not, something is wrong
59	!! and return a error.
60
61	#ifdef IS_MPI !! // MPI
62	if (.not. associated(point) .and. &
63	.not. associated(list) ) then
64	allocate(point(getNgroupsInRow(plan_group_row)+1),stat=alloc_error)
65	if (alloc_error /= 0) then
66	write(default_error,*) &
67	"ExpandNeighborLists: Error in allocating MPI point"
68	error = -1
69	return
70	end if
71	allocate(list(listMultiplier * getNgroupsInCol(plan_group_col)),stat=alloc_error)
72	if (alloc_error /= 0) then
73	write(default_error,*) &
74	"ExpandNeighborLists: Error in allocating MPI list"
75	error = -1
76	return
77	end if
78	listSize = size(list)
79	nAllocations = nAllocations + 1
80	return
81	end if
82	#else !! // NONMPI
83	if (.not. associated(point) .and. &
84	.not. associated(list) ) then
85	allocate(point(nGroups),stat=alloc_error)
86	if (alloc_error /= 0) then
87	write(default_error,*) &
88	"ExpandNeighborLists: Error in allocating point"
89	error = -1
90	return
91	end if
92	allocate(list(listMultiplier * nGroups),stat=alloc_error)
93	if (alloc_error /= 0) then
94	write(default_error,*) &
95	"ExpandNeighborLists: Error in allocating list"
96	error = -1
97	return
98	end if
99	listSize = size(list)
100	nAllocations = nAllocations + 1
101	return
102	end if
103	#endif !! //MPI
104
105	! Expand the neighbor list
106
107	! Check to see if we have exceeded the maximum number of allocations.
108	if (nAllocations > maxAllocations) then
109	write(default_error,*) &
110	"ExpandNeighborList: exceeded maximum number of re-allocations"
111	error = -1
112	return
113	else !! Expand the list.
114	oldSize = size(list)
115
116
117	#ifdef IS_MPI !! MPI
118	newSize = listMultiplier * getNgroupsInCol(plan_group_col) + oldSize
119	#else
120	newSize = listMultiplier * nGroups + oldSize
121	#endif !! MPI
122
123
124
125	allocate(newList(newSize), stat=alloc_error)
126	if (alloc_error /= 0) then
127	write(,) "Error allocating new neighborlist"
128	error = -1
129	return
130	end if
131
132	!! Copy old list to new list
133	do i = 1, oldSize
134	newList(i) = list(i)
135	end do
136	!! Free old list
137	if(associated(list)) deallocate(list,stat=alloc_error)
138	if (alloc_error /= 0) then
139	error = -1
140	return
141	end if
142
143	!! Point list at new list
144
145	list => newList
146	end if
147
148	nAllocations = nAllocations + 1
149	listSize = size(list)
150	end subroutine expandNeighborList
151
152	!! checks to see if any long range particle has moved
153	!! through the neighbor list skin thickness.
154	subroutine checkNeighborList(nGroups, q, listSkin, update_nlist)
155	integer :: nGroups
156	real(kind = dp), intent(in) :: listSkin
157	real( kind = dp ), dimension(:,:) :: q
158	integer :: i
159	real( kind = DP ) :: dispmx
160	logical, intent(out) :: update_nlist
161	real( kind = DP ) :: dispmx_tmp
162
163	dispmx = 0.0E0_DP
164	!! calculate the largest displacement of any atom in any direction
165
166	!! If we have changed the particle idents, then we need to update
167	if (.not. allocated(q0)) then
168	update_nlist = .true.
169	return
170	end if
171
172	if (size(q0,2) /= nGroups) then
173	update_nlist = .true.
174	return
175	end if
176
177
178	#ifdef MPI
179
180	dispmx_tmp = 0.0E0_DP
181	do i = 1, nGroups
182	dispmx_tmp = max( abs ( q(1,i) - q0(1,i) ), dispmx_tmp )
183	dispmx_tmp = max( abs ( q(2,i) - q0(2,i) ), dispmx_tmp )
184	dispmx_tmp = max( abs ( q(3,i) - q0(3,i) ), dispmx_tmp )
185	end do
186	call mpi_allreduce(dispmx_tmp,dispmx,1,mpi_double_precision, &
187	mpi_max,mpi_comm_world,mpi_err)
188
189	#else
190
191	dispmx = 0.0_DP
192	do i = 1, nGroups
193	dispmx = max( abs ( q(1,i) - q0(1,i) ), dispmx )
194	dispmx = max( abs ( q(2,i) - q0(2,i) ), dispmx )
195	dispmx = max( abs ( q(3,i) - q0(3,i) ), dispmx )
196	end do
197
198	#endif
199
200	!! a conservative test of list skin crossings
201	dispmx = 2.0E0_DP * sqrt (3.0E0_DP * dispmx * dispmx)
202
203	update_nlist = (dispmx.gt.listSkin)
204
205	end subroutine checkNeighborList
206
207
208	!! Saves neighbor list for comparison in check.
209	!! Save_neighborList will work even if the number of
210	!! local atoms has changed.
211	subroutine saveNeighborList(nGroups, q)
212
213	integer :: nGroups
214	real(kind = dp ), dimension(3,nGroups), intent(in) :: q
215	integer :: list_size
216
217	!! get size of list
218	list_size = nGroups
219
220	if (.not. allocated(q0)) then
221	allocate(q0(3,list_size))
222	else if( list_size > size(q0,2)) then
223	deallocate(q0)
224	allocate(q0(3,list_size))
225	endif
226	q0 = q
227	end subroutine saveNeighborList
228
229
230	function getNeighborListSize() result(returnListSize)
231	integer :: returnListSize
232	returnListSize = listSize
233	end function getNeighborListSize
234
235	end module neighborLists