quantum_package/src/Determinants/diagonalize_CI_mono.irp.f

 BEGIN_PROVIDER [ double precision, CI_electronic_energy_mono, (N_states_diag) ]
&BEGIN_PROVIDER [ double precision, CI_eigenvectors_mono, (N_det,N_states_diag) ]
&BEGIN_PROVIDER [ double precision, CI_eigenvectors_s2_mono, (N_states_diag) ]
  implicit none
  BEGIN_DOC
  ! Eigenvectors/values of the CI matrix
  END_DOC
  integer                        :: i,j
  
  do j=1,N_states_diag
    do i=1,N_det
      CI_eigenvectors_mono(i,j) = psi_coef(i,j)
    enddo
  enddo
  
  if (diag_algorithm == "Davidson") then
    
    call davidson_diag(psi_det,CI_eigenvectors_mono,CI_electronic_energy, &
        size(CI_eigenvectors_mono,1),N_det,N_states_diag,N_int,output_determinants)
    
  else if (diag_algorithm == "Lapack") then
    
    double precision, allocatable  :: eigenvectors(:,:), eigenvalues(:)
    allocate (eigenvectors(size(H_matrix_all_dets,1),N_det))
    allocate (eigenvalues(N_det))
    call lapack_diag(eigenvalues,eigenvectors,                       &
        H_matrix_all_dets,size(H_matrix_all_dets,1),N_det)
    CI_electronic_energy_mono(:) = 0.d0
    do i=1,N_det
       CI_eigenvectors_mono(i,1) = eigenvectors(i,1)
    enddo
    integer :: i_state
    double precision :: s2
    i_state = 0
    if (s2_eig) then
      do j=1,N_det
        call get_s2_u0(psi_det,eigenvectors(1,j),N_det,N_det,s2)
        if(dabs(s2-expected_s2).le.0.3d0)then
          print*,'j = ',j
          print*,'e = ',eigenvalues(j)
          print*,'c = ',dabs(eigenvectors(1,j))
          if(dabs(eigenvectors(1,j)).gt.0.9d0)then
            i_state += 1
            do i=1,N_det
              CI_eigenvectors_mono(i,i_state) = eigenvectors(i,j)
            enddo
            CI_electronic_energy_mono(i_state) = eigenvalues(j)
            CI_eigenvectors_s2_mono(i_state) = s2
          endif
        endif
        if (i_state.ge.N_states_diag) then
          exit
        endif
      enddo
    else
      do j=1,N_states_diag
        call get_s2_u0(psi_det,eigenvectors(1,j),N_det,N_det,s2)
        if(dabs(eigenvectors(1,j)).gt.0.9d0)then
          i_state += 1
          do i=1,N_det
            CI_eigenvectors_mono(i,i_state) = eigenvectors(i,j)
          enddo
          CI_electronic_energy_mono(i_state) = eigenvalues(j)
          CI_eigenvectors_s2_mono(i_state) = s2
        endif
      enddo
    endif
    deallocate(eigenvectors,eigenvalues)
  endif
  
END_PROVIDER

subroutine diagonalize_CI_mono
  implicit none
  BEGIN_DOC
!  Replace the coefficients of the CI states by the coefficients of the 
!  eigenstates of the CI matrix
  END_DOC
  integer :: i,j
  do j=1,N_states_diag
    do i=1,N_det
      psi_coef(i,j) = CI_eigenvectors_mono(i,j)
    enddo
  enddo
  SOFT_TOUCH psi_coef CI_electronic_energy_mono CI_eigenvectors_mono CI_eigenvectors_s2_mono
end
Add all the mising file... 2015-04-20 16:45:06 +02:00			`BEGIN_PROVIDER [ double precision, CI_electronic_energy_mono, (N_states_diag) ]`
			`&BEGIN_PROVIDER [ double precision, CI_eigenvectors_mono, (N_det,N_states_diag) ]`
			`&BEGIN_PROVIDER [ double precision, CI_eigenvectors_s2_mono, (N_states_diag) ]`
			`implicit none`
			`BEGIN_DOC`
			`! Eigenvectors/values of the CI matrix`
			`END_DOC`
			`integer :: i,j`

			`do j=1,N_states_diag`
			`do i=1,N_det`
			`CI_eigenvectors_mono(i,j) = psi_coef(i,j)`
			`enddo`
			`enddo`

			`if (diag_algorithm == "Davidson") then`

			`call davidson_diag(psi_det,CI_eigenvectors_mono,CI_electronic_energy, &`
			`size(CI_eigenvectors_mono,1),N_det,N_states_diag,N_int,output_determinants)`

			`else if (diag_algorithm == "Lapack") then`

			`double precision, allocatable :: eigenvectors(:,:), eigenvalues(:)`
			`allocate (eigenvectors(size(H_matrix_all_dets,1),N_det))`
			`allocate (eigenvalues(N_det))`
			`call lapack_diag(eigenvalues,eigenvectors, &`
			`H_matrix_all_dets,size(H_matrix_all_dets,1),N_det)`
			`CI_electronic_energy_mono(:) = 0.d0`
			`do i=1,N_det`
			`CI_eigenvectors_mono(i,1) = eigenvectors(i,1)`
			`enddo`
			`integer :: i_state`
			`double precision :: s2`
			`i_state = 0`
Added EZFIO.cfg and s2_eig test in diag 2015-05-06 15:05:08 +02:00			`if (s2_eig) then`
			`do j=1,N_det`
			`call get_s2_u0(psi_det,eigenvectors(1,j),N_det,N_det,s2)`
			`if(dabs(s2-expected_s2).le.0.3d0)then`
			`print*,'j = ',j`
			`print*,'e = ',eigenvalues(j)`
			`print*,'c = ',dabs(eigenvectors(1,j))`
			`if(dabs(eigenvectors(1,j)).gt.0.9d0)then`
			`i_state += 1`
			`do i=1,N_det`
			`CI_eigenvectors_mono(i,i_state) = eigenvectors(i,j)`
			`enddo`
			`CI_electronic_energy_mono(i_state) = eigenvalues(j)`
			`CI_eigenvectors_s2_mono(i_state) = s2`
			`endif`
			`endif`
			`if (i_state.ge.N_states_diag) then`
			`exit`
			`endif`
			`enddo`
			`else`
Fixed bugs 2015-05-06 18:26:36 +02:00			`do j=1,N_states_diag`
Added EZFIO.cfg and s2_eig test in diag 2015-05-06 15:05:08 +02:00			`call get_s2_u0(psi_det,eigenvectors(1,j),N_det,N_det,s2)`
			`if(dabs(eigenvectors(1,j)).gt.0.9d0)then`
			`i_state += 1`
			`do i=1,N_det`
			`CI_eigenvectors_mono(i,i_state) = eigenvectors(i,j)`
			`enddo`
			`CI_electronic_energy_mono(i_state) = eigenvalues(j)`
			`CI_eigenvectors_s2_mono(i_state) = s2`
			`endif`
			`enddo`
			`endif`
Add all the mising file... 2015-04-20 16:45:06 +02:00			`deallocate(eigenvectors,eigenvalues)`
			`endif`

			`END_PROVIDER`

			`subroutine diagonalize_CI_mono`
			`implicit none`
			`BEGIN_DOC`
			`! Replace the coefficients of the CI states by the coefficients of the`
			`! eigenstates of the CI matrix`
			`END_DOC`
			`integer :: i,j`
			`do j=1,N_states_diag`
			`do i=1,N_det`
			`psi_coef(i,j) = CI_eigenvectors_mono(i,j)`
			`enddo`
			`enddo`
			`SOFT_TOUCH psi_coef CI_electronic_energy_mono CI_eigenvectors_mono CI_eigenvectors_s2_mono`
			`end`