use bitmasks BEGIN_PROVIDER [ integer, N_int ] implicit none BEGIN_DOC ! Number of 64-bit integers needed to represent determinants as binary strings END_DOC N_int = (mo_tot_num-1)/bit_kind_size + 1 END_PROVIDER BEGIN_PROVIDER [ integer(bit_kind), full_ijkl_bitmask, (N_int,4) ] implicit none BEGIN_DOC ! Bitmask to include all possible MOs END_DOC integer :: i,j,n n = mod(mo_tot_num-1,bit_kind_size)+1 full_ijkl_bitmask = 0_bit_kind do j=1,4 do i=1,N_int-1 full_ijkl_bitmask(i,j) = not(0_bit_kind) enddo do i=1,n full_ijkl_bitmask(N_int,j) = ibset(full_ijkl_bitmask(N_int,j),i-1) enddo enddo END_PROVIDER BEGIN_PROVIDER [ integer(bit_kind), cis_ijkl_bitmask, (N_int,4) ] implicit none BEGIN_DOC ! Bitmask to include all possible single excitations from Hartree-Fock END_DOC integer :: i,j,n cis_ijkl_bitmask = full_ijkl_bitmask cis_ijkl_bitmask(:,1) = HF_bitmask(:,1) END_PROVIDER BEGIN_PROVIDER [ integer(bit_kind), HF_bitmask, (N_int,2)] implicit none BEGIN_DOC ! Hartree Fock bit mask END_DOC integer :: i,j,n integer :: occ(elec_alpha_num) HF_bitmask = 0_bit_kind do i=1,elec_alpha_num occ(i) = i enddo call list_to_bitstring( HF_bitmask(1,1), occ, elec_alpha_num, N_int) ! elec_alpha_num <= elec_beta_num, so occ is already OK. call list_to_bitstring( HF_bitmask(1,2), occ, elec_beta_num, N_int) END_PROVIDER BEGIN_PROVIDER [ integer(bit_kind), ref_bitmask, (N_int,2)] implicit none BEGIN_DOC ! Reference bit mask, used in Slater rules, chosen as Hartree-Fock bitmask END_DOC ref_bitmask = HF_bitmask END_PROVIDER BEGIN_PROVIDER [ integer, N_generators_bitmask ] implicit none BEGIN_DOC ! Number of bitmasks for generators END_DOC logical :: exists PROVIDE ezfio_filename call ezfio_has_bitmasks_N_mask_gen(exists) if (exists) then call ezfio_get_bitmasks_N_mask_gen(N_generators_bitmask) integer :: N_int_check integer :: bit_kind_check call ezfio_get_bitmasks_bit_kind(bit_kind_check) if (bit_kind_check /= bit_kind) then print *, bit_kind_check, bit_kind print *, 'Error: bit_kind is not correct in EZFIO file' endif call ezfio_get_bitmasks_N_int(N_int_check) if (N_int_check /= N_int) then print *, N_int_check, N_int print *, 'Error: N_int is not correct in EZFIO file' endif else N_generators_bitmask = 1 endif ASSERT (N_generators_bitmask > 0) END_PROVIDER BEGIN_PROVIDER [ integer(bit_kind), generators_bitmask, (N_int,2,6,N_generators_bitmask) ] implicit none BEGIN_DOC ! Bitmasks for generator determinants. ! (N_int, alpha/beta, hole/particle, generator). ! ! 3rd index is : ! ! * 1 : hole for single exc ! ! * 2 : particle for single exc ! ! * 3 : hole for 1st exc of double ! ! * 4 : particle for 1st exc of double ! ! * 5 : hole for 2nd exc of double ! ! * 6 : particle for 2nd exc of double ! END_DOC logical :: exists PROVIDE ezfio_filename call ezfio_has_bitmasks_generators(exists) if (exists) then call ezfio_get_bitmasks_generators(generators_bitmask) else integer :: k, ispin do k=1,N_generators_bitmask do ispin=1,2 generators_bitmask(:,ispin,s_hole ,k) = full_ijkl_bitmask(:,d_hole1) generators_bitmask(:,ispin,s_part ,k) = full_ijkl_bitmask(:,d_part1) generators_bitmask(:,ispin,d_hole1,k) = full_ijkl_bitmask(:,d_hole1) generators_bitmask(:,ispin,d_part1,k) = full_ijkl_bitmask(:,d_part1) generators_bitmask(:,ispin,d_hole2,k) = full_ijkl_bitmask(:,d_hole2) generators_bitmask(:,ispin,d_part2,k) = full_ijkl_bitmask(:,d_part2) enddo enddo endif END_PROVIDER BEGIN_PROVIDER [ integer, N_cas_bitmask ] implicit none BEGIN_DOC ! Number of bitmasks for CAS END_DOC logical :: exists PROVIDE ezfio_filename call ezfio_has_bitmasks_N_mask_cas(exists) if (exists) then call ezfio_get_bitmasks_N_mask_cas(N_cas_bitmask) integer :: N_int_check integer :: bit_kind_check call ezfio_get_bitmasks_bit_kind(bit_kind_check) if (bit_kind_check /= bit_kind) then print *, bit_kind_check, bit_kind print *, 'Error: bit_kind is not correct in EZFIO file' endif call ezfio_get_bitmasks_N_int(N_int_check) if (N_int_check /= N_int) then print *, N_int_check, N_int print *, 'Error: N_int is not correct in EZFIO file' endif else N_cas_bitmask = 1 endif ASSERT (N_cas_bitmask > 0) END_PROVIDER BEGIN_PROVIDER [ integer(bit_kind), cas_bitmask, (N_int,2,N_cas_bitmask) ] implicit none BEGIN_DOC ! Bitmasks for CAS reference determinants. (N_int, alpha/beta, CAS reference) END_DOC logical :: exists integer :: i PROVIDE ezfio_filename call ezfio_has_bitmasks_cas(exists) print*,'exists = ',exists if (exists) then call ezfio_get_bitmasks_cas(cas_bitmask) else do i=1,N_cas_bitmask cas_bitmask(:,:,i) = iand(not(HF_bitmask(:,:)),full_ijkl_bitmask(:,:)) enddo endif END_PROVIDER BEGIN_PROVIDER [ integer, i_bitmask_gen ] implicit none BEGIN_DOC ! Current bitmask for the generators END_DOC i_bitmask_gen = 1 END_PROVIDER