Fixes to element definitions

master
Alex Selimov 5 years ago
parent f0665ce3ef
commit 12aa13b94b

@ -363,7 +363,7 @@ module io
!NOTE: This code doesn't work for arbitrary number of basis atoms per node. It assumes that the !NOTE: This code doesn't work for arbitrary number of basis atoms per node. It assumes that the
!each element has only 1 atom type at the node. !each element has only 1 atom type at the node.
character(len=100), intent(in) :: file character(len=100), intent(in) :: file
integer :: interp_max, i, j, lat_size, inod, ibasis, ip integer :: interp_max, i, j, lat_size, inod, ibasis, ip, unique_index(10), unique_num
real(kind=dp) :: box_vec(3) real(kind=dp) :: box_vec(3)
1 format('time' / i16, f23.15) 1 format('time' / i16, f23.15)
@ -442,14 +442,21 @@ module io
!write the element information !write the element information
if(ele_num > 0) then if(ele_num > 0) then
write(11,12) write(11,12)
do i = 1, lattice_types !First figure out all of the unique element types
do j = 1, ele_num unique_num = 0
if (lat_ele(j) == i) then unique_index(:) = 0
lat_size = size_ele(j)-1 eleloop:do i = 1, ele_num
exit do j =1 , unique_num
if ( ( size_ele(i) == size_ele( unique_index(j) ) ).and. &
( lat_ele(i) == lat_ele(unique_index(j)) ) ) then
cycle eleloop
end if end if
end do end do
write(11,'(3i16)') i, lat_size, basis_type(1,i) unique_num = unique_num + 1
unique_index(unique_num) = i
end do eleloop
do i = 1, unique_num
write(11,'(3i16)') i, size_ele(i)-1, basis_type(1,i)
end do end do
ip = 0 ip = 0
write(11,13) write(11,13)
@ -600,8 +607,8 @@ module io
real(kind=dp), dimension(3), intent(in) :: displace real(kind=dp), dimension(3), intent(in) :: displace
real(kind = dp), dimension(6), intent(out) :: temp_box_bd real(kind = dp), dimension(6), intent(out) :: temp_box_bd
integer :: i, j, k, n, inod, ibasis, type, size, in_atoms, in_eles, new_atom_types, & integer :: i, j, k, l, n, inod, ibasis, type, size, in_atoms, in_eles, new_atom_types, &
new_type_to_type(10), new_lattice_types, sbox new_type_to_type(10), new_lattice_types, sbox, new_lattice_map(10)
character(len=100) :: etype character(len=100) :: etype
real(kind=dp) :: r(3), newdisplace(3) real(kind=dp) :: r(3), newdisplace(3)
real(kind=dp), allocatable :: r_innode(:,:,:) real(kind=dp), allocatable :: r_innode(:,:,:)
@ -665,6 +672,30 @@ module io
end do end do
!Read the lattice parameters for every lattice type !Read the lattice parameters for every lattice type
read(11,*) (lapa(i), i = lattice_types+1, lattice_types+new_lattice_types) read(11,*) (lapa(i), i = lattice_types+1, lattice_types+new_lattice_types)
!Now we loop over all new lattice types and check to see if they are exactly the same as any old lattice types
!If they are then we map the new type to the old type.
k = lattice_types + 1
new_lattice_map(:) = 0
new_loop:do i = 1, new_lattice_types
old_loop:do j = 1, lattice_types
!First check all the lattice level variables
if ((basisnum(i) == basisnum(j)).and. &
(ng_node(i) == ng_node(j))) then
!Now check the basis level variables
do ibasis =1, basisnum(i)
if(basis_type(ibasis,i) /= basis_type(ibasis,j)) then
cycle old_loop
end if
end do
new_lattice_map(i) = j
cycle new_loop
end if
end do old_loop
new_lattice_map(i) = k
k = k+1
end do new_loop
!Read number of elements and atoms and allocate arrays !Read number of elements and atoms and allocate arrays
read(11, *) in_atoms, in_eles read(11, *) in_atoms, in_eles
call grow_ele_arrays(in_eles, in_atoms) call grow_ele_arrays(in_eles, in_atoms)
@ -678,15 +709,14 @@ module io
!Read the elements !Read the elements
do i = 1, in_eles do i = 1, in_eles
read(11, *) n, type, size, sbox, etype read(11, *) l, type, size, sbox, etype
do inod = 1, ng_node(type) do inod = 1, ng_node(type)
do ibasis =1, basisnum(type) do ibasis =1, basisnum(type)
read(11,*) j, k, r_innode(:, ibasis, inod) read(11,*) j, k, r_innode(:, ibasis, inod)
r_innode(:,ibasis,inod) = r_innode(:, ibasis, inod) + newdisplace r_innode(:,ibasis,inod) = r_innode(:, ibasis, inod) + newdisplace
end do end do
end do end do
type = type + lattice_types call add_element(etype, size, new_lattice_map(type), sbox+n, r_innode)
call add_element(etype, size, type, sbox+n, r_innode)
end do end do
!Close the file being read !Close the file being read
@ -694,7 +724,7 @@ module io
!Only increment the lattice types if there are elements, if there are no elements then we !Only increment the lattice types if there are elements, if there are no elements then we
!just overwrite the arrays !just overwrite the arrays
if(in_eles > 0) lattice_types = lattice_types + new_lattice_types if(in_eles > 0) lattice_types = maxval(new_lattice_map)
sub_box_num = sub_box_num + n sub_box_num = sub_box_num + n

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