mirror of https://gitlab.com/QEF/q-e.git
387 lines
9.9 KiB
Fortran
387 lines
9.9 KiB
Fortran
!
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! Copyright (C) 2001 PWSCF group
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! This file is distributed under the terms of the
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! GNU General Public License. See the file 'License'
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! in the root directory of the present distribution,
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! or http://www.gnu.org/copyleft/gpl.txt .
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!
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!
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#include "f_defs.h"
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!---------------------------------------------------------------------
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program ncpp2upf
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!---------------------------------------------------------------------
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!
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! Convert a pseudopotential written in PWSCF format
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! (norm-conserving) to unified pseudopotential format
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implicit none
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character(len=256) filein, fileout
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!
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!
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call get_file ( filein )
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open(unit=1,file=filein,status='old',form='formatted')
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call read_ncpp(1)
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close (unit=1)
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! convert variables read from NCPP format into those needed
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! by the upf format - add missing quantities
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call convert_ncpp
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fileout=trim(filein)//'.UPF'
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print '(''Output PP file in US format : '',a)', fileout
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open(unit=2,file=fileout,status='unknown',form='formatted')
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call write_upf(2)
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close (unit=2)
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stop
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20 call errore ('ncpp2upf', 'Reading pseudo file name ', 1)
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end program ncpp2upf
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module ncpp
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!
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! All variables read from NCPP file format
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!
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! trailing underscore means that a variable with the same name
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! is used in module 'upf' containing variables to be written
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!
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character(len=20) :: dft_
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character(len=2) :: psd_
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real(8) :: zp_
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integer nlc, nnl, lmax_, lloc, nchi
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logical :: numeric, bhstype, nlcc_
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real(8) :: alpc(2), cc(2), alps(3,0:3), aps(6,0:3)
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real(8) :: a_nlcc, b_nlcc, alpha_nlcc
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real(8) :: zmesh, xmin, dx
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real(8), allocatable:: r_(:), rab_(:)
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integer :: mesh_
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real(8), allocatable:: vnl(:,:), rho_atc_(:), rho_at_(:)
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integer, allocatable:: lchi_(:)
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real(8), allocatable:: chi_(:,:), oc_(:)
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end module ncpp
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!
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! ----------------------------------------------------------
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subroutine read_ncpp(iunps)
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! ----------------------------------------------------------
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!
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use ncpp
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use upf , only : els
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implicit none
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integer :: iunps
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!
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character(len=1), dimension(0:3) :: convel=(/'S','P','D','F'/)
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character(len=2) :: label
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real (8) :: x, erf
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integer :: l, i, ir, nb, n
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character (len=255) line
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external erf
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read(iunps, '(a)', end=300, err=300 ) dft_
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if (dft_(1:2).eq.'**') dft_ = 'PZ'
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read (iunps, *, err=300) psd_, zp_, lmax_, nlc, nnl, nlcc_, &
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lloc, bhstype
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if ( nlc.gt.2 .or. nnl.gt.3) &
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call errore( 'read_ncpp','Wrong nlc or nnl',1 )
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if ( nlc* nnl .lt. 0 ) &
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call errore( 'read_ncpp','nlc*nnl < 0 ? ',1 )
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if ( zp_.le.0d0 ) &
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call errore( 'read_ncpp','Wrong zp ',1 )
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if ( lmax_.gt.3.or.lmax_.lt.0 ) &
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call errore( 'read_ncpp','Wrong lmax ',1 )
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if (lloc.eq.-1000) lloc=lmax_
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!
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! In numeric pseudopotentials both nlc and nnl are zero.
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!
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numeric = nlc.le.0 .and. nnl.le.0
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if (.not.numeric) then
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!
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! read pseudopotentials in analytic form
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!
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read(iunps, *, err=300) &
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( alpc(i), i=1, 2 ), ( cc(i), i=1,2 )
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if ( abs(cc(1)+cc(2)-1.d0).gt.1.0d-6) &
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call errore ('read_ncpp','wrong pseudopotential coefficients',1)
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do l = 0, lmax_
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read (iunps, *, err=300) &
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( alps(i,l),i=1,3 ), (aps(i,l),i=1,6)
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enddo
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if (nlcc_) then
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read(iunps, *, err=300) &
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a_nlcc, b_nlcc, alpha_nlcc
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if (alpha_nlcc.le.0.d0) &
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call errore('read_ncpp','nlcc but alpha=0',1)
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end if
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if (bhstype) call bachel(alps,aps,1,lmax_)
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end if
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read(iunps, *, err=300) zmesh, xmin, dx, mesh_, nchi
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if ( mesh_.le.0) call errore( 'read_ncpp', 'mesh too small', 1)
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if ( (nchi.lt.lmax_ .and. lloc.eq.lmax_).or. &
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(nchi.lt.lmax_+1 .and. lloc.ne.lmax_) ) &
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call errore( 'read_ncpp', 'wrong no. of wfcts', 1 )
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!
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! compute the radial mesh
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!
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allocate( r_(mesh_))
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allocate(rab_(mesh_))
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do ir = 1, mesh_
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x = xmin + DBLE(ir-1) * dx
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r_ (ir) = exp(x) / zmesh
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rab_(ir) = dx * r_(ir)
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end do
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allocate(vnl(mesh_,0:lmax_))
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if (numeric) then
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!
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! read pseudopotentials in numeric form
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!
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do l = 0, lmax_
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read(iunps, '(a)', err=300)
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read(iunps, *, err=300) (vnl(ir,l),ir=1,mesh_)
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enddo
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allocate(rho_atc_(mesh_))
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if(nlcc_) then
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read(iunps, *, err=300) ( rho_atc_(ir), ir=1,mesh_ )
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endif
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else
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!
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! convert analytic to numeric form
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!
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do l=0,lmax_
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!
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! DO NOT USE f90 ARRAY SYNTAX: erf IS NOT AN INTRINSIC FUNCTION!!!
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!
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do ir=1,mesh_
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vnl(ir,l)= - ( cc(1)*erf(sqrt(alpc(1))*r_(ir)) + &
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cc(2)*erf(sqrt(alpc(2))*r_(ir)) ) * zp_/r_(ir)
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end do
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do n=1,nnl
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vnl(:,l)= vnl(:,l)+ (aps(n,l)+ aps(n+3,l)*r_(:)**2 )* &
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exp(-alps(n,l)*r_(:)**2)
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end do
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!
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! convert to Rydberg
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!
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vnl(:,l) = vnl(:,l)*2.0d0
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end do
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allocate(rho_atc_(mesh_))
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if (nlcc_) then
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rho_atc_(:) =(a_nlcc+b_nlcc*(r_(:)**2))*exp(-alpha_nlcc*r_(:)**2)
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where(abs(rho_atc_) < 1.0d-15)
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rho_atc_ = 0
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end where
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end if
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endif
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!
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! subtract the local part
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!
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do l = 0, lmax_
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if ( l.ne.lloc ) vnl(:,l) = vnl(:,l) - vnl(:,lloc)
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enddo
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!
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! read pseudowavefunctions
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!
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allocate(lchi_(nchi), els(nchi))
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allocate(oc_(nchi))
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allocate(chi_(mesh_,nchi))
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do nb = 1, nchi
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! read wavefunction label and store for later
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read(iunps, '(a)', err=300) line
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read(iunps, *, err=300) lchi_( nb), oc_( nb )
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!
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! Test lchi and occupation numbers
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!
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if ( nb.le.lmax_.and.lchi_(nb)+1.ne.nb) &
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call errore('read_ncpp','order of wavefunctions',nb)
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if (lchi_(nb).gt.lmax_ .or. lchi_(nb).lt.0) &
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call errore('read_ncpp','wrong lchi',nb)
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if ( oc_(nb).lt.0.d0 .or. &
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oc_(nb).gt.2.d0*(2*lchi_(nb)+1)) &
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call errore('read_ncpp','wrong oc',nb)
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!
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! parse and check wavefunction label
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read(line,'(14x,a2)', err=222, end=222) label
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if (label(2:2).ne.convel(lchi_(nb))) goto 222
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do l = 0, lmax_
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if (label(2:2).eq.convel(l)) then
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els(nb) = label(1:2)
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goto 223
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endif
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end do
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222 continue
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els(nb) = '*'//convel(lchi_(nb))
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223 continue
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!
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! finally read the wavefunction
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read(iunps, *, err=300) (chi_(ir,nb),ir=1,mesh_)
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enddo
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!
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! compute the atomic charges
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!
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allocate(rho_at_(mesh_))
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rho_at_(:)=0.d0
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do nb = 1, nchi
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if( oc_(nb).ne.0.d0) &
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rho_at_(:) = rho_at_(:) + oc_(nb)*chi_(:,nb)**2
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end do
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! ----------------------------------------------------------
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write (6,'(a)') 'Pseudopotential successfully read'
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! ----------------------------------------------------------
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return
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300 call errore('read_ncpp','pseudo file is empty or wrong',1)
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end subroutine read_ncpp
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! ----------------------------------------------------------
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subroutine convert_ncpp
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! ----------------------------------------------------------
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use ncpp
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use upf
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use funct, ONLY : set_dft_from_name, get_iexch, get_icorr, get_igcx, get_igcc
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implicit none
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real(8), parameter :: rmax = 10.0d0
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real(8), allocatable :: aux(:)
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real(8) :: vll
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integer :: kkbeta, l, iv, ir, i
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write(generated, '("Generated using ld1 code (maybe, or maybe not)")')
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write(date_author,'("Author: unknown Generation date: as well")')
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comment = 'Info: automatically converted from PWSCF format'
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! reasonable assumption
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if (zmesh > 18) then
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rel = 1
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else
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rel = 0
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end if
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rcloc = 0.0d0
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nwfs = nchi
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allocate( oc(nwfs), epseu(nwfs))
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allocate(lchi(nwfs), nns(nwfs) )
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allocate(rcut (nwfs), rcutus (nwfs))
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do i=1, nwfs
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nns (i) = 0
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lchi(i) = lchi_(i)
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rcut(i) = 0.0d0
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rcutus(i)= 0.0d0
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oc (i) = oc_(i)
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epseu(i) = 0.0d0
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end do
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deallocate (lchi_, oc_)
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psd = psd_
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pseudotype = 'NC'
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nlcc = nlcc_
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zp = zp_
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etotps = 0.0d0
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ecutrho=0.0d0
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ecutwfc=0.0d0
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if ( lmax_ == lloc) then
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lmax = lmax_-1
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else
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lmax = lmax_
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end if
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nbeta= lmax_
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mesh = mesh_
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ntwfc= nchi
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allocate( elsw(ntwfc), ocw(ntwfc), lchiw(ntwfc) )
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do i=1, nchi
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lchiw(i) = lchi(i)
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ocw(i) = oc(i)
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elsw(i) = els(i)
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end do
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call set_dft_from_name(dft_)
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iexch = get_iexch()
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icorr = get_icorr()
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igcx = get_igcx()
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igcc = get_igcc()
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allocate(rab(mesh))
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allocate( r(mesh))
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rab = rab_
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r = r_
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allocate (rho_atc(mesh))
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rho_atc = rho_atc_
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deallocate (rho_atc_)
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allocate (vloc0(mesh))
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vloc0(:) = vnl(:,lloc)
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if (nbeta > 0) then
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allocate(ikk2(nbeta), lll(nbeta))
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kkbeta=mesh
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do ir = 1,mesh
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if ( r(ir) > rmax ) then
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kkbeta=ir
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exit
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end if
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end do
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! make sure kkbeta is odd as required for simpson
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if(mod(kkbeta,2) == 0) kkbeta=kkbeta-1
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ikk2(:) = kkbeta
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allocate(aux(kkbeta))
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allocate(betar(mesh,nbeta))
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allocate(qfunc(mesh,nbeta,nbeta))
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allocate(dion(nbeta,nbeta))
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allocate(qqq (nbeta,nbeta))
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qfunc(:,:,:)=0.0d0
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dion(:,:) =0.d0
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qqq(:,:) =0.d0
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iv=0
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do i=1,nchi
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l=lchi(i)
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if (l.ne.lloc) then
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iv=iv+1
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lll(iv)=l
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do ir=1,kkbeta
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betar(ir,iv)=chi_(ir,i)*vnl(ir,l)
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aux(ir) = chi_(ir,i)**2*vnl(ir,l)
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end do
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call simpson(kkbeta,aux,rab,vll)
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dion(iv,iv) = 1.0d0/vll
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end if
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if(iv >= nbeta) exit ! skip additional pseudo wfns
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enddo
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deallocate (vnl, aux)
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!
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! redetermine ikk2
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!
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do iv=1,nbeta
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ikk2(iv)=kkbeta
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do ir = kkbeta,1,-1
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if ( abs(betar(ir,iv)) > 1.d-12 ) then
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ikk2(iv)=ir
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exit
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end if
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end do
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end do
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end if
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allocate (rho_at(mesh))
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rho_at = rho_at_
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deallocate (rho_at_)
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allocate (chi(mesh,ntwfc))
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chi = chi_
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deallocate (chi_)
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return
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end subroutine convert_ncpp
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