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root/group/trunk/mdtools/md_code/simulation_module.F90
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Comparing trunk/mdtools/md_code/simulation_module.F90 (file contents):
Revision 215 by chuckv, Thu Dec 19 21:59:51 2002 UTC vs.
Revision 252 by chuckv, Tue Jan 28 22:16:55 2003 UTC

# Line 1 | Line 1
1   module simulation
2    use definitions, ONLY :dp
3 <  use force_wrappers, ONLY : alloc_force_wrappers
3 > #ifdef IS_MPI
4 >  use mpiSimulation
5 > #endif
6  
7    implicit none
8    PRIVATE
9  
10  
9  
10  real ( kind = dp ), public, dimension(3) :: box
11  
12 +  type, public :: simtype
13 +     PRIVATE
14 + !     SEQUENCE
15 + !! Number of particles on this processor
16 +     integer :: nLRparticles
17 + !! Periodic Box    
18 +     real ( kind = dp ), dimension(3) :: box
19 + !! List Cutoff    
20 +     real ( kind = dp ) :: rlist = 0.0_dp
21 + !! Radial cutoff
22 +     real ( kind = dp ) :: rcut  = 0.0_dp
23 + !! List cutoff squared
24 +     real ( kind = dp ) :: rlistsq = 0.0_dp
25 + !! Radial Cutoff squared
26 +     real ( kind = dp ) :: rcutsq  = 0.0_dp
27 + !! Radial Cutoff^6
28 +     real ( kind = dp ) :: rcut6  = 0.0_dp
29  
30 <  real ( kind = dp ), public :: rlist
14 <  real ( kind = dp ), public :: rcut
15 <  real ( kind = dp ), public :: rlistsq
16 <  real ( kind = dp ), public :: rcutsq
30 >  end type simtype
31  
32 <  integer,public, allocatable, dimension(:)   :: point
33 <  integer,public, allocatable, dimension(:)   :: list
32 >  type (simtype), public :: thisSim
33 > !! Tag for MPI calculations  
34 >  integer, allocatable, dimension(:) :: tag
35  
36 + #ifdef IS_MPI
37 +  integer, allocatable, dimension(:) :: tag_row
38 +  integer, allocatable, dimension(:) :: tag_column
39 + #endif
40  
41 < !MPI dependent routines
41 > !! WARNING: use_pbc hardcoded, fixme
42 >  logical :: use_pbc = .true.
43 >  logical :: setSim = .false.
44  
45 < #ifdef IS_MPI
46 < ! Universal routines: All types of force calculations will need these arrays
26 < ! Arrays specific to a type of force calculation should be declared in that module.
27 <  real( kind = dp ), allocatable, dimension(:,:) :: qRow
28 <  real( kind = dp ), allocatable, dimension(:,:) :: qColumn
45 > !! array for saving previous positions for neighbor lists.  
46 >  real( kind = dp ), allocatable,dimension(:,:),save :: q0
47  
30  real( kind = dp ), allocatable, dimension(:,:) :: fRow
31  real( kind = dp ), allocatable, dimension(:,:) :: fColumn
48  
49 <  real( kind = dp ), allocatable, dimension(:,:) :: tRow
50 <  real( kind = dp ), allocatable, dimension(:,:) :: tColumn
49 >  public :: check
50 >  public :: save_nlist
51 >  public :: wrap
52 >  public :: getBox
53 >  public :: getRcut
54 >  public :: getRlist
55 >  public :: getNlocal
56 >  public :: setSimulation
57 > !  public :: setRcut
58  
59 < #endif
59 >  interface wrap
60 >     module procedure wrap_1d
61 >     module procedure wrap_3d
62 >  end interface
63  
64 +  interface getBox
65 +     module procedure getBox_3d
66 +     module procedure getBox_dim
67 +  end interface
68  
69  
70  
71  
72  
73 +
74 +
75 +
76 +
77 +
78   contains
79  
80 < #ifdef MPI
81 < ! Allocated work arrays for MPI
82 <  subroutine allocate_mpi_arrays(nDimensions,numComponents)
83 <    integer, intent(in) :: nDimensions
84 <    integer, intent(in) :: numComponents
80 >  subroutine setSimulation(nLRParticles,box,rlist,rcut)
81 >    integer, intent(in) :: nLRParticles
82 >    real(kind = dp ), intent(in), dimension(3) :: box
83 >    real(kind = dp ), intent(in) :: rlist
84 >    real(kind = dp ), intent(in) :: rcut
85 >    integer :: alloc_stat
86 >    if( setsim ) return  ! simulation is already initialized
87 >    setSim = .true.
88  
89 +    thisSim%nLRParticles = nLRParticles
90 +    thisSim%box          = box
91 +    thisSim%rlist        = rlist
92 +    thisSim%rcut         = rcut
93 +    thisSim%rcutsq       = rcut * rcut
94 +    thisSim%rcut6        = thisSim%rcutsq * thisSim%rcutsq * thisSim%rcutsq
95 +    
96 +    if (.not. allocated(q0)) then
97 +       allocate(q0(3,nLRParticles),stat=alloc_stat)
98 +    endif
99 +  end subroutine setSimulation
100  
101 +  function getNparticles() result(nparticles)
102 +    integer :: nparticles
103 +    nparticles = thisSim%nLRparticles
104 +  end function getNparticles
105  
106  
107 +  subroutine change_box_size(new_box_size)
108 +    real(kind=dp), dimension(3) :: new_box_size
109  
110 <  end subroutine allocate_mpi_arrays
110 >    thisSim%box = new_box_size
111 >
112 >  end subroutine change_box_size
113 >
114 >
115 >  function getBox_3d() result(thisBox)
116 >    real( kind = dp ), dimension(3) :: thisBox
117 >    thisBox = thisSim%box
118 >  end function getBox_3d
119 >
120 >  function getBox_dim(dim) result(thisBox)
121 >    integer, intent(in) :: dim
122 >    real( kind = dp ) :: thisBox
123 >
124 >    thisBox = thisSim%box(dim)
125 >  end function getBox_dim
126 >    
127 >  subroutine check(q,update_nlist)
128 >    real( kind = dp ), dimension(:,:)  :: q
129 >    integer :: i
130 >    real( kind = DP ) :: dispmx
131 >    logical, intent(out) :: update_nlist
132 >    real( kind = DP ) :: dispmx_tmp
133 >    real( kind = dp ) :: skin_thickness
134 >    integer :: natoms
135 >
136 >    natoms = thisSim%nLRparticles
137 >    skin_thickness = thisSim%rlist
138 >    dispmx = 0.0E0_DP
139 >    !! calculate the largest displacement of any atom in any direction
140 >    
141 > #ifdef MPI
142 >    dispmx_tmp = 0.0E0_DP
143 >    do i = 1, thisSim%nLRparticles
144 >       dispmx_tmp = max( abs ( q(1,i) - q0(1,i) ), dispmx )
145 >       dispmx_tmp = max( abs ( q(2,i) - q0(2,i) ), dispmx )
146 >       dispmx_tmp = max( abs ( q(3,i) - q0(3,i) ), dispmx )
147 >    end do
148 >    call mpi_allreduce(dispmx_tmp,dispmx,1,mpi_double_precision, &
149 >       mpi_max,mpi_comm_world,mpi_err)
150 > #else
151 >
152 >    do i = 1, thisSim%nLRparticles
153 >       dispmx = max( abs ( q(1,i) - q0(1,i) ), dispmx )
154 >       dispmx = max( abs ( q(2,i) - q0(2,i) ), dispmx )
155 >       dispmx = max( abs ( q(3,i) - q0(3,i) ), dispmx )
156 >    end do
157   #endif
158 +  
159 +    !! a conservative test of list skin crossings
160 +    dispmx = 2.0E0_DP * sqrt (3.0E0_DP * dispmx * dispmx)
161 +    
162 +    update_nlist = (dispmx.gt.(skin_thickness))
163 +    
164 +  end subroutine check
165 +  
166 +  subroutine save_nlist(q)
167 +    real(kind = dp ), dimension(:,:), intent(in)  :: q
168 +    integer :: list_size
169 +    
170  
171 <  subroutine set_simulation(box,rlist,rcut)
171 >    list_size = size(q)
172 >
173 >    if (.not. allocated(q0)) then
174 >       allocate(q0(3,list_size))
175 >    else if( list_size > size(q0)) then
176 >       deallocate(q0)
177 >       allocate(q0(3,list_size))
178 >    endif
179 >
180 >    q0 = q
181 >
182 >  end subroutine save_nlist
183 >  
184 >
185 >  function wrap_1d(r,dim) result(this_wrap)
186      
187 +    
188 +    real( kind = DP ) :: r
189 +    real( kind = DP ) :: this_wrap
190 +    integer           :: dim
191 +    
192 +    if (use_pbc) then
193 +       !     this_wrap = r - box(dim)*dsign(1.0E0_DP,r)*int(abs(r/box(dim)) + 0.5E0_DP)
194 +       this_wrap = r - thisSim%box(dim)*nint(r/thisSim%box(dim))
195 +    else
196 +       this_wrap = r
197 +    endif
198 +    
199 +    return
200 +  end function wrap_1d
201  
202 +  function wrap_3d(r) result(this_wrap)
203 +    real( kind = dp ), dimension(3), intent(in) :: r
204 +    real( kind = dp ), dimension(3) :: this_wrap
205  
206 <  end subroutine set_simulation
206 >    
207 >    if (use_pbc) then
208 >       !     this_wrap = r - box(dim)*dsign(1.0E0_DP,r)*int(abs(r/box(dim)) + 0.5E0_DP)
209 >       this_wrap = r - thisSim%box*nint(r/thisSim%box)
210 >    else
211 >       this_wrap = r
212 >    endif
213 >  end function wrap_3d
214  
215 +  
216 +
217 +  subroutine getRcut(thisrcut,rcut2,rcut6,status)
218 +    real( kind = dp ), intent(out) :: thisrcut
219 +    real( kind = dp ), intent(out), optional :: rcut2
220 +    real( kind = dp ), intent(out), optional :: rcut6
221 +    integer, optional :: status
222  
223 +    if (present(status)) status = 0
224  
225 <  subroutine change_box_size(new_box_size)
226 <    real(kind=dp), dimension(3) :: new_box_size
225 >    if (.not.setSim ) then
226 >       if (present(status)) status = -1
227 >       return
228 >    end if
229 >    
230 >    thisrcut = thisSim%rcut
231 >    if(present(rcut2)) rcut2 = thisSim%rcutsq
232 >    if(present(rcut6)) rcut6 = thisSim%rcut6
233  
234 <    box = new_box_size
234 >  end subroutine getRcut
235 >  
236 >  
237 >  
238 >
239 >  subroutine getRlist(thisrlist,rlist2,status)
240 >    real( kind = dp ), intent(out) :: thisrlist
241 >    real( kind = dp ), intent(out), optional :: rlist2
242  
243 <  end subroutine change_box_size
243 >    integer, optional :: status
244  
245 +    if (present(status)) status = 0
246 +
247 +    if (.not.setSim ) then
248 +       if (present(status)) status = -1
249 +       return
250 +    end if
251 +    
252 +    thisrlist = thisSim%rlist
253 +    if(present(rlist2)) rlist2 = thisSim%rlistsq
254 +
255 +  end subroutine getRlist
256    
257 +  
258 +
259 + pure function getNlocal() result(nlocal)
260 +    integer :: nlocal
261 +    nlocal = thisSim%nLRparticles
262 +  end function getNlocal
263 +
264 +
265 +
266   end module simulation

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