Merge pull request #6 from aselimov/ft-write-lammpscac

Ft write lammpscac
master
aselimov 5 years ago committed by GitHub
commit 889edfd314
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@ -1,6 +1,7 @@
FC=ifort FC=ifort
#FFLAGS=-mcmodel=large -g -O0 -stand f08 -fpe0 -traceback -check bounds,uninit -warn all -implicitnone -no-wrap-margin FFLAGS=-mcmodel=large -g -O0 -stand f08 -fpe0 -traceback -check bounds,uninit -warn all -implicitnone -no-wrap-margin
FFLAGS=-mcmodel=large -Ofast #FFLAGS=-mcmodel=large -Ofast
MODES=mode_create.o mode_merge.o mode_convert.o MODES=mode_create.o mode_merge.o mode_convert.o
OBJECTS=main.o elements.o io.o subroutines.o functions.o atoms.o call_mode.o box.o $(MODES) OBJECTS=main.o elements.o io.o subroutines.o functions.o atoms.o call_mode.o box.o $(MODES)
@ -8,7 +9,7 @@ OBJECTS=main.o elements.o io.o subroutines.o functions.o atoms.o call_mode.o box
.SUFFIXES: .c .f .f90 .F90 .o .SUFFIXES: .c .f .f90 .F90 .o
cacmb: $(OBJECTS) cacmb: $(OBJECTS)
$(FC) $(FFLAGS) $(OBJECTS) -o $@ $(FC) $(FFLAGS) $(OBJECTS) parameters.o -o $@
.f90.o: .f90.o:
$(FC) $(FFLAGS) -c $< $(FC) $(FFLAGS) -c $<

@ -101,10 +101,28 @@ module elements
real(kind=dp), dimension(3,max_ng_node), intent(out) :: cell_mat real(kind=dp), dimension(3,max_ng_node), intent(out) :: cell_mat
integer :: inod, i
real(kind=dp), dimension(3,max_ng_node) :: adjustVar
adjustVar(:,:) = 0.0_dp
select case(trim(ele_type)) select case(trim(ele_type))
case('fcc') case('fcc')
cell_mat(:,1:8) = lapa * ((esize-1)*matmul(orient_mat, fcc_cell)) if(lmpcac) then
do inod = 1, 8
do i = 1,3
if(is_equal(cubic_cell(i, inod),0.0_dp)) then
adjustVar(i,inod) = -0.5_dp
else
adjustVar(i, inod) = 0.5_dp
end if
end do
end do
adjustVar(:,1:8) = matmul(fcc_mat, adjustVar(:,1:8))
end if
cell_mat(:, 1:8) = fcc_cell + adjustVar(:,1:8)
cell_mat(:,1:8) = lapa * ((esize-1)*matmul(orient_mat, cell_mat(:,1:8)))
case default case default
print *, "Element type ", trim(ele_type), " currently not accepted" print *, "Element type ", trim(ele_type), " currently not accepted"
stop stop

@ -10,6 +10,7 @@ module io
integer :: outfilenum = 0, infilenum = 0 integer :: outfilenum = 0, infilenum = 0
character(len=100) :: outfiles(10), infiles(10) character(len=100) :: outfiles(10), infiles(10)
public public
contains contains
@ -62,9 +63,14 @@ module io
outfilenum=outfilenum+1 outfilenum=outfilenum+1
outfiles(outfilenum) = temp_outfile outfiles(outfilenum) = temp_outfile
exit exit
case('cac')
lmpcac = .true.
outfilenum=outfilenum+1
outfiles(outfilenum) = temp_outfile
exit
case default case default
print *, "File type: ", trim(temp_outfile(scan(temp_outfile,'.',.true.):)), "not currently accepted. ", & print *, "File type: ", trim(temp_outfile(scan(temp_outfile,'.',.true.):)), " not currently accepted. ", &
"please input a filename with extension from following list: xyz, lmp, vtk." "please input a filename with extension from following list: xyz, lmp, vtk, cac."
read(*,*) temp_outfile read(*,*) temp_outfile
end select end select
@ -72,7 +78,6 @@ module io
end subroutine get_out_file end subroutine get_out_file
subroutine write_out subroutine write_out
!This subroutine loops over alll of the outfile types defined and calls the correct writing subroutine !This subroutine loops over alll of the outfile types defined and calls the correct writing subroutine
@ -94,6 +99,8 @@ module io
call write_mb(outfiles(i)) call write_mb(outfiles(i))
case('restart') case('restart')
call write_pycac(outfiles(i)) call write_pycac(outfiles(i))
case('cac')
call write_lmpcac(outfiles(i))
case default case default
print *, "The extension ", trim(adjustl(outfiles(i)(scan(outfiles(i),'.',.true.)+1:))), & print *, "The extension ", trim(adjustl(outfiles(i)(scan(outfiles(i),'.',.true.)+1:))), &
" is not accepted for writing. Please select from: xyz and try again" " is not accepted for writing. Please select from: xyz and try again"
@ -193,6 +200,71 @@ module io
end do end do
end subroutine write_lmp end subroutine write_lmp
subroutine write_lmpcac(file)
!This subroutine writes out a .lmp style dump file
character(len=100), intent(in) :: file
integer :: write_num, i, inod, ibasis
real(kind=dp) :: mass
1 format(i16, ' Eight_Node', 4i16)
2 format(i16, ' Atom', 4i16)
3 format(3i16,3f23.15)
open(unit=11, file=trim(adjustl(file)), action='write', status='replace',position='rewind')
!Comment line
write(11, '(a)') '# CAC input file made with cacmb'
write(11, '(a)')
!Calculate total atom number
write_num = atom_num + ele_num
!Write total number of atoms + elements
write(11, '(i16, a)') write_num, ' cac elements'
!Write number of atom types
write(11, '(i16, a)') atom_types, ' atom types'
write(11,'(a)') ' '
!Write box bd
write(11, '(2f23.15, a)') box_bd(1:2), ' xlo xhi'
write(11, '(2f23.15, a)') box_bd(3:4), ' ylo yhi'
write(11, '(2f23.15, a)') box_bd(5:6), ' zlo zhi'
!Masses
write(11, '(a)') 'Masses'
write(11, '(a)') ' '
do i =1, atom_types
call atommass(type_to_name(i),mass)
write(11, '(i16, f23.15, 2a)') i, mass, ' # ', type_to_name(i)
end do
write(11, '(a)') ' '
write(11, '(a)') 'CAC Elements'
write(11, '(a)') ' '
!Write element nodal positions
do i = 1, ele_num
select case(trim(adjustl(type_ele(i))))
case('fcc')
!The first entry is the element specifier
write(11,1) i, basisnum(lat_ele(i)), size_ele(i), size_ele(i), size_ele(i)
do ibasis = 1, basisnum(lat_ele(i))
do inod = 1, 8
!Nodal information for every node
write(11,3) inod, ibasis, basis_type(ibasis,lat_ele(i)), r_node(:,ibasis,inod,i)
end do
end do
end select
end do
do i = 1, atom_num
!Element specifier dictating that it is an atom
write(11,2) ele_num+i, 1, 1, 1, 1
!Write the atomic information
write(11,3) 1, 1, type_atom(i), r_atom(:,i)
end do
end subroutine write_lmpcac
subroutine write_vtk(file) subroutine write_vtk(file)
!This subroutine writes out a vtk style dump file !This subroutine writes out a vtk style dump file
integer :: i, j, inod, ibasis integer :: i, j, inod, ibasis
@ -249,7 +321,7 @@ module io
do i = 1, ele_num do i = 1, ele_num
do inod=1, ng_node(lat_ele(i)) do inod=1, ng_node(lat_ele(i))
do ibasis = 1, basisnum(lat_ele(i)) do ibasis = 1, basisnum(lat_ele(i))
write(11, '(3f23.1)') sum(r_node(:,:,inod,i),2)/basisnum(lat_ele(i)) write(11, '(3f23.15)') sum(r_node(:,:,inod,i),2)/basisnum(lat_ele(i))
end do end do
end do end do
end do end do

@ -27,6 +27,17 @@ program main
! Command line parsing ! Command line parsing
arg_num = command_argument_count() arg_num = command_argument_count()
!First check if we are writing out to lammpscac format by looping over all arguments
do i = 1, arg_num
call get_command_argument(i, argument)
select case(argument(scan(argument,'.',.true.)+1:))
case('cac')
lmpcac = .true.
case default
continue
end select
end do
!Determine if a mode is being used and what it is. The first argument has to be the mode !Determine if a mode is being used and what it is. The first argument has to be the mode
!if a mode is being used !if a mode is being used
call get_command_argument(1, argument) call get_command_argument(1, argument)

@ -12,7 +12,7 @@ module mode_create
character(len=100) :: name, element_type character(len=100) :: name, element_type
real(kind = dp) :: lattice_parameter, orient(3,3), cell_mat(3,8), box_len(3), basis(3,3), origin(3), maxlen(3), & real(kind = dp) :: lattice_parameter, orient(3,3), cell_mat(3,8), box_len(3), basis(3,3), origin(3), maxlen(3), &
orient_inv(3,3), box_vert(3,8), maxbd(3), lattice_space(3), duplicate(3) orient_inv(3,3), box_vert(3,8), maxbd(3), lattice_space(3), duplicate(3), adjustVar(3,8)
integer :: esize, ix, iy, iz, box_lat_vert(3,8), lat_ele_num, lat_atom_num, bd_in_lat(6), & integer :: esize, ix, iy, iz, box_lat_vert(3,8), lat_ele_num, lat_atom_num, bd_in_lat(6), &
basis_pos(3,10) basis_pos(3,10)
logical :: dup_flag, dim_flag logical :: dup_flag, dim_flag
@ -299,7 +299,7 @@ module mode_create
!Internal variables !Internal variables
integer :: i, inod, bd_in_lat(6), bd_in_array(6), ix, iy, iz, numlatpoints, ele(3,8), rzero(3), & integer :: i, inod, bd_in_lat(6), bd_in_array(6), ix, iy, iz, numlatpoints, ele(3,8), rzero(3), &
vlat(3), temp_lat(3,8), m, n, o vlat(3), temp_lat(3,8), m, n, o
real(kind=dp) :: v(3), temp_nodes(3,1,8) real(kind=dp) :: v(3), temp_nodes(3,1,8), adjustVar(3,8)
real(kind=dp), allocatable :: resize_lat_array(:,:) real(kind=dp), allocatable :: resize_lat_array(:,:)
logical, allocatable :: lat_points(:,:,:) logical, allocatable :: lat_points(:,:,:)
logical :: node_in_bd(8) logical :: node_in_bd(8)
@ -307,6 +307,23 @@ module mode_create
!Do some value initialization !Do some value initialization
max_esize = esize max_esize = esize
!If we are writing out to lammpscac format then we have to adjust the nodal positions
if(lmpcac) then
do inod = 1, 8
do i = 1,3
if(is_equal(cubic_cell(i, inod),0.0_dp)) then
adjustVar(i,inod) = -0.5_dp
else
adjustVar(i, inod) = 0.5_dp
end if
end do
end do
adjustVar(:,1:8) = matmul(orient,matmul(fcc_mat,adjustVar(:,1:8)))
else
adjustVar(:,:)=0.0_dp
end if
!First find the bounding lattice points (min and max points for the box in each dimension) !First find the bounding lattice points (min and max points for the box in each dimension)
numlatpoints = 1 numlatpoints = 1
do i = 1, 3 do i = 1, 3
@ -324,7 +341,6 @@ module mode_create
continue continue
end select end select
!Loop over all of lattice points within the boundary, we choose between two loops. One for the atomistic case !Loop over all of lattice points within the boundary, we choose between two loops. One for the atomistic case
!and one for the regular case !and one for the regular case
if (esize==2) then if (esize==2) then
@ -438,7 +454,9 @@ module mode_create
if(all(node_in_bd)) then if(all(node_in_bd)) then
lat_ele_num = lat_ele_num+1 lat_ele_num = lat_ele_num+1
r_lat(:,:,lat_ele_num) = temp_nodes(:,1,:) do inod = 1, 8
r_lat(:,inod,lat_ele_num) = temp_nodes(:,1,inod) + adjustVar(:,inod)
end do
!Now set all the lattice points contained within an element to false !Now set all the lattice points contained within an element to false
do o = minval(temp_lat(3,:)), maxval(temp_lat(3,:)) do o = minval(temp_lat(3,:)), maxval(temp_lat(3,:))

@ -5,4 +5,6 @@ module parameters
integer, parameter :: dp= selected_real_kind(15,307) integer, parameter :: dp= selected_real_kind(15,307)
real(kind=dp), parameter :: lim_zero = epsilon(1.0_dp), & real(kind=dp), parameter :: lim_zero = epsilon(1.0_dp), &
lim_large = huge(1.0_dp) lim_large = huge(1.0_dp)
logical, save :: lmpcac
end module parameters end module parameters
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