types_xcpot_libxc.F90 11.8 KB
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!--------------------------------------------------------------------------------
! Copyright (c) 2016 Peter Grünberg Institut, Forschungszentrum Jülich, Germany
! This file is part of FLEUR and available as free software under the conditions
! of the MIT license as expressed in the LICENSE file in more detail.
!--------------------------------------------------------------------------------

!>This module contains the xcpot-type providing an interface to libxc
MODULE m_types_xcpot_libxc
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#ifdef CPP_LIBXC
   USE xc_f03_lib_m
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#endif
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   USE m_types_xcpot
   USE m_judft
   IMPLICIT NONE
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#ifdef CPP_LIBXC
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   PRIVATE :: write_xc_info
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#endif
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   TYPE,EXTENDS(t_xcpot):: t_xcpot_libxc 
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#ifdef CPP_LIBXC    
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      TYPE(xc_f03_func_t)      :: vxc_func_x, vxc_func_c
      TYPE(xc_f03_func_t)      :: exc_func_x, exc_func_c
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#endif
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      INTEGER          :: func_vxc_id_c, func_vxc_id_x !> functionals to be used for potential & density convergence
      INTEGER          :: func_exc_id_c, func_exc_id_x !> functionals to be used in exc- & totale-calculations
      INTEGER          :: jspins
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   CONTAINS
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      PROCEDURE        :: is_gga              => xcpot_is_gga
      PROCEDURE        :: is_MetaGGA          => xcpot_is_MetaGGA
      PROCEDURE        :: is_hybrid           => xcpot_is_hybrid 
      PROCEDURE        :: get_exchange_weight => xcpot_get_exchange_weight
      PROCEDURE        :: get_vxc             => xcpot_get_vxc
      PROCEDURE        :: get_exc             => xcpot_get_exc
      PROCEDURE,NOPASS :: alloc_gradients     => xcpot_alloc_gradients
      !Not             overloeaded...
      PROCEDURE        :: init                => xcpot_init
   END TYPE t_xcpot_libxc
   PUBLIC t_xcpot_libxc
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CONTAINS

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   SUBROUTINE xcpot_init(xcpot,jspins,vxc_id_x,vxc_id_c,exc_id_x,exc_id_c)
      USE m_judft
      IMPLICIT NONE
   CLASS(t_xcpot_libxc),INTENT(OUT)    :: xcpot
      INTEGER, INTENT(IN)                 :: jspins
      INTEGER, INTENT(IN)                 :: vxc_id_x, vxc_id_c ! potential functional
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      INTEGER, INTENT(IN)                 :: exc_id_x, exc_id_c ! energy functionals
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      LOGICAL                             :: same_functionals   ! are vxc and exc equal

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#ifdef CPP_LIBXC
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      INTEGER :: err
      xcpot%jspins = jspins

      xcpot%func_vxc_id_x = vxc_id_x
      xcpot%func_vxc_id_c = vxc_id_c
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      xcpot%func_exc_id_x = exc_id_x
      xcpot%func_exc_id_c = exc_id_c
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      if(xcpot%func_vxc_id_x == 0 .or. xcpot%func_exc_id_x == 0 ) then
         CALL judft_error("LibXC exchange- and correlation-function indicies need to be set"&
            ,hint='Try this: ' // ACHAR(10) //&
            '<xcFunctional name="libxc" relativisticCorrections="F">' // ACHAR(10) //& 
            '  <libXC  exchange="1" correlation="1" /> ' // ACHAR(10) //& 
            '</xcFunctional> ')
      endif 

      IF (jspins==1) THEN
         ! potential functionals      
         CALL xc_f03_func_init(xcpot%vxc_func_x, xcpot%func_vxc_id_x, XC_UNPOLARIZED)
         IF (xcpot%func_vxc_id_c>0) CALL xc_f03_func_init(xcpot%vxc_func_c, xcpot%func_vxc_id_c, XC_UNPOLARIZED)

         ! energy functionals
         CALL xc_f03_func_init(xcpot%exc_func_x, xcpot%func_exc_id_x, XC_UNPOLARIZED)
         IF (xcpot%func_exc_id_c>0) CALL xc_f03_func_init(xcpot%exc_func_c, xcpot%func_exc_id_c, XC_UNPOLARIZED)
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      ELSE
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         ! potential functionals  
         CALL xc_f03_func_init(xcpot%vxc_func_x, xcpot%func_vxc_id_x, XC_POLARIZED)
         IF (xcpot%func_vxc_id_c>0) CALL xc_f03_func_init(xcpot%vxc_func_c, xcpot%func_vxc_id_c, XC_POLARIZED)

         !energy functionals
         CALL xc_f03_func_init(xcpot%exc_func_x, xcpot%func_exc_id_x, XC_POLARIZED)
         IF (xcpot%func_exc_id_c>0) CALL xc_f03_func_init(xcpot%exc_func_c, xcpot%func_exc_id_c, XC_POLARIZED)
      END IF

      CALL write_xc_info(xcpot%vxc_func_x)

      IF (xcpot%func_vxc_id_c>0) THEN
         CALL write_xc_info(xcpot%vxc_func_c)
      ELSE
         WRITE(*,*) "No Correlation functional"
      END IF

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      same_functionals =     (xcpot%func_vxc_id_x == xcpot%func_exc_id_x) &
                       .and. (xcpot%func_vxc_id_c == xcpot%func_exc_id_c)
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      IF(.not. same_functionals) THEN
         CALL write_xc_info(xcpot%exc_func_x)
         IF (xcpot%func_exc_id_c>0) THEN
            CALL write_xc_info(xcpot%exc_func_c)
         ELSE
            WRITE(*,*) "No Correlation functional for TotalE"
         ENDIF
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      ELSE
         write (*,*) "Using same functional for VXC and EXC"
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      END IF
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#else
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      CALL judft_error("You specified a libxc-exchange correlation potential but FLEUR is not linked against libxc", &
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         hint="Please recompile FLEUR with libxc support")
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#endif
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   END SUBROUTINE xcpot_init
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   LOGICAL FUNCTION xcpot_is_gga(xcpot)
      IMPLICIT NONE
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   CLASS(t_xcpot_libxc),INTENT(IN):: xcpot
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#ifdef CPP_LIBXC
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      TYPE(xc_f03_func_info_t)        :: xc_info

      xc_info = xc_f03_func_get_info(xcpot%exc_func_x)
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      xcpot_is_gga =       ANY([XC_FAMILY_GGA, XC_FAMILY_HYB_GGA]==xc_f03_func_info_get_family(xc_info)) &
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                     .or. xcpot%is_MetaGGA()
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#else
      xcpot_is_gga=.false.
#endif
   END FUNCTION xcpot_is_gga
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   LOGICAL FUNCTION xcpot_is_MetaGGA(xcpot)
      IMPLICIT NONE
   CLASS(t_xcpot_libxc),INTENT(IN):: xcpot
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#ifdef CPP_LIBXC    
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      TYPE(xc_f03_func_info_t)        :: xc_info
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      xc_info = xc_f03_func_get_info(xcpot%exc_func_x)
      xcpot_is_MetaGGA=ANY([XC_FAMILY_MGGA, XC_FAMILY_HYB_MGGA]==xc_f03_func_info_get_family(xc_info))
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#else
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      xcpot_is_MetaGGA =  .False.
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#endif
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   END FUNCTION xcpot_is_MetaGGA
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   LOGICAL FUNCTION xcpot_is_hybrid(xcpot)
      IMPLICIT NONE
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   CLASS(t_xcpot_libxc),INTENT(IN):: xcpot
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#ifdef CPP_LIBXC
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      TYPE(xc_f03_func_info_t)        :: xc_info
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      xc_info = xc_f03_func_get_info(xcpot%vxc_func_x)
      xcpot_is_hybrid=ANY([XC_FAMILY_HYB_MGGA, XC_FAMILY_HYB_GGA]==xc_f03_func_info_get_family(xc_info))
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#else
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      xcpot_is_hybrid = .False.
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#endif
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   END FUNCTION xcpot_is_hybrid
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   FUNCTION xcpot_get_exchange_weight(xcpot) RESULT(a_ex)
      USE m_judft
      IMPLICIT NONE
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   CLASS(t_xcpot_libxc),INTENT(IN):: xcpot
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      REAL:: a_ex
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#ifdef CPP_LIBXC    
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      a_ex=xc_f03_hyb_exx_coef(xcpot%vxc_func_x)
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#endif
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   END FUNCTION xcpot_get_exchange_weight

   !***********************************************************************
   SUBROUTINE xcpot_get_vxc(xcpot,jspins,rh, vxc,vx, grad)
      !***********************************************************************
      IMPLICIT NONE
   CLASS(t_xcpot_libxc),INTENT(IN) :: xcpot
      INTEGER, INTENT (IN)     :: jspins
      REAL,INTENT (IN)         :: rh(:,:)   !Dimensions here
      REAL, INTENT (OUT)       :: vx (:,:)  !points,spin
      REAL, INTENT (OUT  )     :: vxc(:,:)  !
      ! optional arguments for GGA
      TYPE(t_gradients),OPTIONAL,INTENT(INOUT)::grad
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#ifdef CPP_LIBXC    
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      REAL,ALLOCATABLE::vxc_tmp(:,:),vx_tmp(:,:),vsigma(:,:)
      !libxc uses the spin as a first index, hence we have to transpose....
      ALLOCATE(vxc_tmp(SIZE(vxc,2),SIZE(vxc,1)));vxc_tmp=0.0
      ALLOCATE(vx_tmp(SIZE(vx,2),SIZE(vx,1)));vx_tmp=0.0
      IF (xcpot%is_gga()) THEN
         IF (.NOT.PRESENT(grad)) CALL judft_error("Bug: You called get_vxc for a GGA potential without providing derivatives")
         ALLOCATE(vsigma,mold=grad%vsigma)
         !where(abs(grad%sigma)<1E-9) grad%sigma=1E-9
         CALL xc_f03_gga_vxc(xcpot%vxc_func_x, SIZE(rh,1), TRANSPOSE(rh),grad%sigma,vx_tmp,vsigma)
         IF (xcpot%func_vxc_id_c>0) THEN
            CALL xc_f03_gga_vxc(xcpot%vxc_func_c, SIZE(rh,1), TRANSPOSE(rh),grad%sigma,vxc_tmp,grad%vsigma)
            grad%vsigma=grad%vsigma+vsigma
            vxc_tmp=vxc_tmp+vx_tmp
         ELSE     
            vxc_tmp=vx_tmp
         ENDIF
      ELSE  !LDA potentials
         CALL xc_f03_lda_vxc(xcpot%vxc_func_x, SIZE(rh,1), TRANSPOSE(rh), vx_tmp)
         IF (xcpot%func_vxc_id_c>0) THEN
            CALL xc_f03_lda_vxc(xcpot%vxc_func_c, SIZE(rh,1), TRANSPOSE(rh), vxc_tmp)
            vxc_tmp=vxc_tmp+vx_tmp
         ENDIF
      ENDIF
      vx=TRANSPOSE(vx_tmp) 
      vxc=TRANSPOSE(vxc_tmp) 

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#endif
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   END SUBROUTINE xcpot_get_vxc


   SUBROUTINE xcpot_get_exc(xcpot,jspins,rh,exc,grad)
      IMPLICIT NONE
   CLASS(t_xcpot_libxc),INTENT(IN) :: xcpot
      INTEGER, INTENT (IN)     :: jspins
      REAL,INTENT (IN) :: rh(:,:)  !points,spin
      REAL, INTENT (OUT) :: exc(:) !points
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      ! optional arguments for GGA
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      TYPE(t_gradients),OPTIONAL,INTENT(IN)::grad

      REAL  :: excc(SIZE(exc))
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#ifdef CPP_LIBXC
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      IF (xcpot%is_gga()) THEN
         IF (.NOT.PRESENT(grad)) CALL judft_error("Bug: You called get_vxc for a GGA potential without providing derivatives")
         CALL xc_f03_gga_exc(xcpot%exc_func_x, SIZE(rh,1), TRANSPOSE(rh),grad%sigma,exc)
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         IF (xcpot%func_exc_id_c>0) THEN
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            CALL xc_f03_gga_exc(xcpot%exc_func_c, SIZE(rh,1), TRANSPOSE(rh),grad%sigma,excc)
            exc=exc+excc
         END IF
      ELSE  !LDA potentials
         CALL xc_f03_lda_exc(xcpot%exc_func_x, SIZE(rh,1), TRANSPOSE(rh), exc)
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         IF (xcpot%func_exc_id_c>0) THEN
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            CALL xc_f03_lda_exc(xcpot%exc_func_c, SIZE(rh,1), TRANSPOSE(rh), excc)
            exc=exc+excc
         END IF
      ENDIF

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#endif
   END SUBROUTINE xcpot_get_exc
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   SUBROUTINE xcpot_alloc_gradients(ngrid,jspins,grad)
      INTEGER, INTENT (IN)         :: jspins,ngrid
      TYPE(t_gradients),INTENT(INOUT):: grad
      !For libxc we only need the sigma array...
      IF (ALLOCATED(grad%sigma)) DEALLOCATE(grad%sigma,grad%gr,grad%laplace,grad%vsigma)
      ALLOCATE(grad%sigma(MERGE(1,3,jspins==1),ngrid))
      ALLOCATE(grad%gr(3,ngrid,jspins))
      ALLOCATE(grad%laplace(ngrid,jspins))
      ALLOCATE(grad%vsigma(MERGE(1,3,jspins==1),ngrid))
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   END SUBROUTINE xcpot_alloc_gradients
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#ifdef CPP_LIBXC  
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   SUBROUTINE write_xc_info(xc_func, is_E_func)
      IMPLICIT NONE
      LOGICAL,INTENT(IN),OPTIONAL         :: is_E_func
      INTEGER                             :: i
      CHARACTER(len=120)                  :: kind, family
      LOGICAL                             :: is_energy_func

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      TYPE(xc_f03_func_t),INTENT(IN)      :: xc_func
      TYPE(xc_f03_func_info_t)            :: xc_info

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      xc_info = xc_f03_func_get_info(xc_func)
      is_energy_func = merge(is_E_func, .False., PRESENT(is_E_func))

      SELECT CASE(xc_f03_func_info_get_kind(xc_info))
      CASE (XC_EXCHANGE)
         WRITE(kind, '(a)') 'an exchange functional'
      CASE (XC_CORRELATION)
         WRITE(kind, '(a)') 'a correlation functional'
      CASE (XC_EXCHANGE_CORRELATION)
         WRITE(kind, '(a)') 'an exchange-correlation functional'
      CASE (XC_KINETIC)
         WRITE(kind, '(a)') 'a kinetic energy functional'
      CASE default
         WRITE(kind, '(a)') 'of unknown kind'
      END SELECT
      SELECT CASE (xc_f03_func_info_get_family(xc_info))
      CASE (XC_FAMILY_LDA);
         WRITE(family,'(a)') "LDA"
      CASE (XC_FAMILY_GGA);
         WRITE(family,'(a)') "GGA"
      CASE (XC_FAMILY_HYB_GGA);
         WRITE(family,'(a)') "Hybrid GGA"
      CASE (XC_FAMILY_MGGA);
         WRITE(family,'(a)') "MGGA"
      CASE (XC_FAMILY_HYB_MGGA);
         WRITE(family,'(a)') "Hybrid MGGA"
      CASE default;
         WRITE(family,'(a)') "unknown"
      END SELECT

      IF(.not. is_energy_func) THEN
         WRITE(*,'("The functional ''", a, "'' is ", a, ", it belongs to the ''", a, "'' family and is defined in the reference(s):")') &
            TRIM(xc_f03_func_info_get_name(xc_info)), TRIM(kind), TRIM(family)
      ELSE
         WRITE(*,'("The functional used for TotalE ''", a, "'' is ", a, ", it belongs to the ''", a, "'' family and is defined in the reference(s):")') &
            TRIM(xc_f03_func_info_get_name(xc_info)), TRIM(kind), TRIM(family)
      ENDIF

      i = 0
      DO WHILE(i >= 0)
         WRITE(*, '(a,i1,2a)') '[', i+1, '] ', TRIM(xc_f03_func_reference_get_ref(xc_f03_func_info_get_references(xc_info, i)))
      END DO
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   END SUBROUTINE write_xc_info
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#endif
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END MODULE m_types_xcpot_libxc