mirror of
https://github.com/LCPQ/quantum_package
synced 2024-12-29 15:45:51 +01:00
377 lines
11 KiB
Fortran
377 lines
11 KiB
Fortran
BEGIN_PROVIDER [ logical, molecule_is_linear ]
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implicit none
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BEGIN_DOC
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! True if the molecule is linear
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END_DOC
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molecule_is_linear = (minval(inertia_tensor_eigenvalues) < 1.d-5)
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END_PROVIDER
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BEGIN_PROVIDER [ logical, molecule_has_center_of_inversion ]
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implicit none
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BEGIN_DOC
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! If true, there is a center of inversion in the WF
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END_DOC
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molecule_has_center_of_inversion = .True.
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integer :: i,j,k
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double precision :: point(3)
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logical :: found
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double precision, external :: u_dot_u
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do i=1,nucl_num
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found = .False.
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do j=1,nucl_num
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if (nucl_charge(i) /= nucl_charge(j)) cycle
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point(:) = nucl_coord_sym_transp(:,i) + nucl_coord_sym_transp(:,j)
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if (u_dot_u(point,3) < 1.d-5) then
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found = .True.
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exit
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endif
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enddo
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if (.not.found) then
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molecule_has_center_of_inversion = .False.
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exit
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endif
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enddo
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END_PROVIDER
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BEGIN_PROVIDER [ integer, sym_rotation_axis, (3) ]
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implicit none
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BEGIN_DOC
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! Order of the rotation axis
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END_DOC
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include 'constants.include.F'
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integer :: i,j,k
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double precision :: point(3), point2(3)
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logical :: found
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double precision, external :: u_dot_u
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integer :: iorder, iaxis
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do iaxis=1,3
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do iorder=12,2,-1
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sym_rotation_axis(iaxis) = iorder
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do i=1,nucl_num
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found = .False.
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call sym_apply_rotation(dble(iorder),iaxis,nucl_coord_sym_transp(1,i),point)
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do j=1,nucl_num
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if (nucl_charge(i) /= nucl_charge(j)) cycle
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point2(:) = nucl_coord_sym_transp(:,j) - point(:)
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if (u_dot_u(point2,3) < 1.d-5) then
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found = .True.
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exit
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endif
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enddo
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if (.not.found) then
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sym_rotation_axis(iaxis) = 1
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exit
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endif
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enddo
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if (sym_rotation_axis(iaxis) /= 1) then
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exit
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endif
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enddo
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enddo
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END_PROVIDER
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BEGIN_PROVIDER [ integer, molecule_principal_axis ]
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&BEGIN_PROVIDER [ integer, molecule_secondary_axis ]
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&BEGIN_PROVIDER [ integer, molecule_ternary_axis ]
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&BEGIN_PROVIDER [ logical, molecule_has_secondary_c2_rotation ]
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implicit none
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BEGIN_DOC
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! Which axis is the Z axis
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END_DOC
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molecule_principal_axis = maxloc(sym_rotation_axis,1)
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if (molecule_principal_axis == 1) then
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if (sym_rotation_axis(2) > sym_rotation_axis(3)) then
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molecule_secondary_axis = 2
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molecule_ternary_axis = 3
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else
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molecule_secondary_axis = 3
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molecule_ternary_axis = 2
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endif
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else if (molecule_principal_axis == 2) then
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if (sym_rotation_axis(1) > sym_rotation_axis(3)) then
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molecule_secondary_axis = 1
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molecule_ternary_axis = 3
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else
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molecule_secondary_axis = 3
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molecule_ternary_axis = 1
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endif
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else if (molecule_principal_axis == 3) then
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if (sym_rotation_axis(1) > sym_rotation_axis(2)) then
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molecule_secondary_axis = 1
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molecule_ternary_axis = 2
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else
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molecule_secondary_axis = 2
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molecule_ternary_axis = 1
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endif
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endif
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if (molecule_principal_axis == 1) then
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molecule_has_secondary_c2_rotation = (sym_rotation_axis(2)==2) .or. (sym_rotation_axis(3)==2)
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else if (molecule_principal_axis == 2) then
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molecule_has_secondary_c2_rotation = (sym_rotation_axis(1)==2) .or. (sym_rotation_axis(3)==2)
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else if (molecule_principal_axis == 3) then
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molecule_has_secondary_c2_rotation = (sym_rotation_axis(1)==2) .or. (sym_rotation_axis(2)==2)
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endif
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if (molecule_has_secondary_c2_rotation) then
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integer :: swap
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if ( (sym_rotation_axis(molecule_secondary_axis) /= 2).and. &
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(sym_rotation_axis(molecule_ternary_axis) == 2) ) then
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swap = molecule_secondary_axis
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molecule_secondary_axis = molecule_ternary_axis
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molecule_ternary_axis = swap
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endif
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endif
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END_PROVIDER
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BEGIN_PROVIDER [ logical, molecule_has_improper_rotation ]
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implicit none
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BEGIN_DOC
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! Order of the rotation axis
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END_DOC
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include 'constants.include.F'
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integer :: i,j,k
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double precision :: point(3), point2(3)
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logical :: found
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double precision, external :: u_dot_u
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integer :: iorder, iaxis
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iaxis=molecule_principal_axis
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iorder = 2*sym_rotation_axis(iaxis)
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molecule_has_improper_rotation = .True.
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do i=1,nucl_num
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found = .False.
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call sym_apply_improper_rotation(dble(iorder),iaxis,nucl_coord_sym_transp(1,i),point)
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do j=1,nucl_num
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if (nucl_charge(i) /= nucl_charge(j)) cycle
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point2(:) = nucl_coord_sym_transp(:,j) - point(:)
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if (u_dot_u(point2,3) < 1.d-5) then
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found = .True.
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exit
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endif
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enddo
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if (.not.found) then
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molecule_has_improper_rotation = .False.
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exit
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endif
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enddo
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END_PROVIDER
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BEGIN_PROVIDER [ logical, molecule_has_center_of_inversion ]
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implicit none
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BEGIN_DOC
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! If true, there is a center of inversion in the WF
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END_DOC
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molecule_has_center_of_inversion = .True.
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integer :: i,j,k
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double precision :: point(3)
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logical :: found
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double precision, external :: u_dot_u
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do i=1,nucl_num
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found = .False.
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do j=1,nucl_num
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if (nucl_charge(i) /= nucl_charge(j)) cycle
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point(:) = nucl_coord_sym_transp(:,i) + nucl_coord_sym_transp(:,j)
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if (u_dot_u(point,3) < 1.d-5) then
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found = .True.
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exit
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endif
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enddo
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if (.not.found) then
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molecule_has_center_of_inversion = .False.
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exit
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endif
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enddo
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END_PROVIDER
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BEGIN_PROVIDER [ logical, molecule_has_sigma_plane, (3) ]
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implicit none
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BEGIN_DOC
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! If true, there is a symmetry plane perpendicular to the main axis
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END_DOC
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integer :: i,j,k
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double precision :: point(3), point2(3)
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logical :: found
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double precision, external :: u_dot_u
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integer :: iaxis
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do iaxis=1,3
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molecule_has_sigma_plane(iaxis) = .True.
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do i=1,nucl_num
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found = .False.
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point(:) = nucl_coord_sym_transp(:,i)
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point(iaxis) = -point(iaxis)
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do j=1,nucl_num
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if (nucl_charge(i) /= nucl_charge(j)) cycle
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point2(:) = nucl_coord_sym_transp(:,j) - point(:)
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if (u_dot_u(point2,3) < 1.d-5) then
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found = .True.
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exit
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endif
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enddo
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if (.not.found) then
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molecule_has_sigma_plane(iaxis) = .False.
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exit
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endif
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enddo
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enddo
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END_PROVIDER
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BEGIN_PROVIDER [ character*16, point_group ]
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implicit none
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BEGIN_DOC
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! Point group of the molecule
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END_DOC
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character*2, save :: i_to_a(24) = (/ '1 ', '2 ', '3 ', '4 ', '5 ', '6 ', '7 ', '8 ', '9 ', &
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'10', '11', '12', '13', '14', '15', '16', '17', '18', '19', '20', &
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'21', '22', '23', '24' /)
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point_group = 'C1'
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if (molecule_is_linear) then
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if (molecule_has_center_of_inversion) then
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point_group = 'Dinfh'
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else
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point_group = 'Cinfv'
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endif
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else
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if (maxval(sym_rotation_axis) == 1) then
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if (molecule_has_sigma_plane(1).or.molecule_has_sigma_plane(2).or.&
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molecule_has_sigma_plane(3) ) then
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point_group = 'Cs'
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else
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if (molecule_has_center_of_inversion) then
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point_group = 'Ci'
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endif
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endif
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else
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if (molecule_has_secondary_c2_rotation) then
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if (molecule_has_sigma_plane(molecule_principal_axis)) then
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point_group = 'D'//trim(i_to_a(sym_rotation_axis(molecule_principal_axis)))//'h'
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else
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if (molecule_has_sigma_plane(molecule_secondary_axis)) then
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point_group = 'D'//trim(i_to_a(sym_rotation_axis(molecule_principal_axis)))//'d'
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else
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if (molecule_has_sigma_plane(molecule_ternary_axis)) then
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point_group = 'D'//trim(i_to_a(sym_rotation_axis(molecule_principal_axis)))//'d'
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else
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if ( (sym_rotation_axis(1) == 2).and. &
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(sym_rotation_axis(2) == 2).and. &
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(sym_rotation_axis(3) == 2).and. &
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(inertia_tensor_eigenvalues(1) == inertia_tensor_eigenvalues(2)).and. &
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(inertia_tensor_eigenvalues(1) == inertia_tensor_eigenvalues(3)) ) then
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point_group = 'Td'
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else
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point_group = 'D'//trim(i_to_a(sym_rotation_axis(molecule_principal_axis)))
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endif
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endif
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endif
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endif
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else
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if (molecule_has_sigma_plane(molecule_principal_axis)) then
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point_group = 'C'//trim(i_to_a(sym_rotation_axis(molecule_principal_axis)))//'h'
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else
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if (molecule_has_sigma_plane(molecule_secondary_axis)) then
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point_group = 'C'//trim(i_to_a(sym_rotation_axis(molecule_principal_axis)))//'v'
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else
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if (molecule_has_sigma_plane(molecule_ternary_axis)) then
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point_group = 'C'//trim(i_to_a(sym_rotation_axis(molecule_principal_axis)))//'v'
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else
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if (molecule_has_improper_rotation) then
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point_group = 'S'//trim(i_to_a(2*sym_rotation_axis(molecule_principal_axis)))
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else
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point_group = 'C'//trim(i_to_a(sym_rotation_axis(molecule_principal_axis)))
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endif
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endif
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endif
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endif
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endif
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endif
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endif
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END_PROVIDER
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BEGIN_PROVIDER [ integer, n_irrep ]
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implicit none
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BEGIN_DOC
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! Number of Irreducible representations
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END_DOC
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integer :: iunit, n, i
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character*(256) :: qproot, buffer
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integer, external :: getUnitAndOpen
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call getenv('QP_ROOT',qproot)
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iunit = getUnitAndOpen(trim(qproot)//'/data/Symmetry/'//trim(point_group),'r')
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read(iunit,*) ! 1st line
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read(iunit,*) buffer, n_irrep
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close(iunit)
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END_PROVIDER
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BEGIN_PROVIDER [ character*8, sym_irrep, (n_irrep) ]
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&BEGIN_PROVIDER [ character*8, sym_operation, (n_irrep) ]
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&BEGIN_PROVIDER [ double precision, character_table, (n_irrep,n_irrep) ]
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implicit none
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BEGIN_DOC
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! Irreducible representation labels, labels of symmetry operations and
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! Character table : columns are sym operations and lines are Irreps
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END_DOC
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integer :: iunit, n, i
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character*(256) :: qproot, buffer
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integer, external :: getUnitAndOpen
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call getenv('QP_ROOT',qproot)
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iunit = getUnitAndOpen(trim(qproot)//'/data/Symmetry/'//trim(point_group),'r')
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buffer = ''
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read(iunit,*) ! 1st line
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read(iunit,*) buffer, n
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read(iunit,*) ! empty line
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read(iunit,*) ! Irred Operation
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do i=1,n
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read(iunit,*) buffer, sym_irrep(i), sym_operation(i)
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enddo
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read(iunit,*) ! empty line
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read(iunit,*) ! Table
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read(iunit,*) ! 1 2 3 ...
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do i=1,n
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read(iunit,*) buffer, character_table(i,1:n)
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enddo
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close(iunit)
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END_PROVIDER
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BEGIN_PROVIDER [ integer, mo_sym, (mo_tot_num) ]
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implicit none
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BEGIN_DOC
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! Symmetry operations applied on MOs
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END_DOC
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double precision, allocatable :: sym_points(:,:), ref_points(:,:)
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double precision, allocatable :: val(:,:,:)
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integer :: iangle, n_sym_points
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double precision :: angle
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integer :: iop, imo, ipoint, l, i
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double precision :: sym_operations_on_mos(mo_tot_num)
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logical :: possible_irrep(n_irrep,mo_tot_num)
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do imo=1,mo_tot_num
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print *, 'MO ', imo
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do i=1,n_irrep
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if (possible_irrep(i,imo)) then
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print *, sym_irrep(i)
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endif
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enddo
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print *, ''
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enddo
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END_PROVIDER
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