edir_transad.F90 Source File


This file depends on

sourcefile~~edir_transad.f90~~EfferentGraph sourcefile~edir_transad.f90 edir_transad.F90 sourcefile~abort_trans_mod.f90 abort_trans_mod.F90 sourcefile~edir_transad.f90->sourcefile~abort_trans_mod.f90 sourcefile~edir_trans_ctlad_mod.f90 edir_trans_ctlad_mod.F90 sourcefile~edir_transad.f90->sourcefile~edir_trans_ctlad_mod.f90 sourcefile~eset_resol_mod.f90 eset_resol_mod.F90 sourcefile~edir_transad.f90->sourcefile~eset_resol_mod.f90 sourcefile~tpm_distr.f90 tpm_distr.F90 sourcefile~edir_transad.f90->sourcefile~tpm_distr.f90 sourcefile~tpm_gen.f90 tpm_gen.F90 sourcefile~edir_transad.f90->sourcefile~tpm_gen.f90 sourcefile~tpm_trans.f90 tpm_trans.F90 sourcefile~edir_transad.f90->sourcefile~tpm_trans.f90 sourcefile~abort_trans_mod.f90->sourcefile~tpm_gen.f90 sourcefile~edir_trans_ctlad_mod.f90->sourcefile~tpm_gen.f90 sourcefile~eftdir_ctlad_mod.f90 eftdir_ctlad_mod.F90 sourcefile~edir_trans_ctlad_mod.f90->sourcefile~eftdir_ctlad_mod.f90 sourcefile~eltdir_ctlad_mod.f90 eltdir_ctlad_mod.F90 sourcefile~edir_trans_ctlad_mod.f90->sourcefile~eltdir_ctlad_mod.f90 sourcefile~field_split_mod.f90 field_split_mod.F90 sourcefile~edir_trans_ctlad_mod.f90->sourcefile~field_split_mod.f90 sourcefile~shuffle_mod.f90 shuffle_mod.F90 sourcefile~edir_trans_ctlad_mod.f90->sourcefile~shuffle_mod.f90 sourcefile~eset_resol_mod.f90->sourcefile~abort_trans_mod.f90 sourcefile~eset_resol_mod.f90->sourcefile~tpm_distr.f90 sourcefile~eset_resol_mod.f90->sourcefile~tpm_gen.f90 sourcefile~tpm_dim.f90 tpm_dim.F90 sourcefile~eset_resol_mod.f90->sourcefile~tpm_dim.f90 sourcefile~tpm_fftw.f90 tpm_fftw.F90 sourcefile~eset_resol_mod.f90->sourcefile~tpm_fftw.f90 sourcefile~tpm_fields.f90 tpm_fields.F90 sourcefile~eset_resol_mod.f90->sourcefile~tpm_fields.f90 sourcefile~tpm_geometry.f90 tpm_geometry.F90 sourcefile~eset_resol_mod.f90->sourcefile~tpm_geometry.f90 sourcefile~tpmald_dim.f90 tpmald_dim.F90 sourcefile~eset_resol_mod.f90->sourcefile~tpmald_dim.f90 sourcefile~tpmald_distr.f90 tpmald_distr.F90 sourcefile~eset_resol_mod.f90->sourcefile~tpmald_distr.f90 sourcefile~tpmald_fields.f90 tpmald_fields.F90 sourcefile~eset_resol_mod.f90->sourcefile~tpmald_fields.f90 sourcefile~tpmald_geo.f90 tpmald_geo.F90 sourcefile~eset_resol_mod.f90->sourcefile~tpmald_geo.f90 sourcefile~growing_allocator_mod.f90 growing_allocator_mod.F90 sourcefile~tpm_trans.f90->sourcefile~growing_allocator_mod.f90 sourcefile~parkind_ectrans.f90 parkind_ectrans.F90 sourcefile~tpm_trans.f90->sourcefile~parkind_ectrans.f90 sourcefile~eftdir_ctlad_mod.f90->sourcefile~tpm_distr.f90 sourcefile~eftdir_ctlad_mod.f90->sourcefile~tpm_gen.f90 sourcefile~eftdirad_mod.f90 eftdirad_mod.F90 sourcefile~eftdir_ctlad_mod.f90->sourcefile~eftdirad_mod.f90 sourcefile~fourier_outad_mod.f90 fourier_outad_mod.F90 sourcefile~eftdir_ctlad_mod.f90->sourcefile~fourier_outad_mod.f90 sourcefile~trltog_mod.f90 trltog_mod.F90 sourcefile~eftdir_ctlad_mod.f90->sourcefile~trltog_mod.f90 sourcefile~eltdir_ctlad_mod.f90->sourcefile~tpm_distr.f90 sourcefile~eltdir_ctlad_mod.f90->sourcefile~tpm_gen.f90 sourcefile~eltdir_ctlad_mod.f90->sourcefile~tpm_trans.f90 sourcefile~eltdirad_mod.f90 eltdirad_mod.F90 sourcefile~eltdir_ctlad_mod.f90->sourcefile~eltdirad_mod.f90 sourcefile~trmtol_mod.f90 trmtol_mod.F90 sourcefile~eltdir_ctlad_mod.f90->sourcefile~trmtol_mod.f90 sourcefile~field_split_mod.f90->sourcefile~tpm_distr.f90 sourcefile~field_split_mod.f90->sourcefile~tpm_gen.f90 sourcefile~growing_allocator_mod.f90->sourcefile~abort_trans_mod.f90 sourcefile~growing_allocator_mod.f90->sourcefile~tpm_gen.f90 sourcefile~shuffle_mod.f90->sourcefile~tpm_distr.f90 sourcefile~eftdirad_mod.f90->sourcefile~abort_trans_mod.f90 sourcefile~eftdirad_mod.f90->sourcefile~tpm_distr.f90 sourcefile~eftdirad_mod.f90->sourcefile~tpm_dim.f90 sourcefile~eftdirad_mod.f90->sourcefile~tpm_fftw.f90 sourcefile~eftdirad_mod.f90->sourcefile~tpm_geometry.f90 sourcefile~eltdirad_mod.f90->sourcefile~tpm_dim.f90 sourcefile~eltdirad_mod.f90->sourcefile~tpmald_dim.f90 sourcefile~eledirad_mod.f90 eledirad_mod.F90 sourcefile~eltdirad_mod.f90->sourcefile~eledirad_mod.f90 sourcefile~eprfi2ad_mod.f90 eprfi2ad_mod.F90 sourcefile~eltdirad_mod.f90->sourcefile~eprfi2ad_mod.f90 sourcefile~eupdspad_mod.f90 eupdspad_mod.F90 sourcefile~eltdirad_mod.f90->sourcefile~eupdspad_mod.f90 sourcefile~euvtvdad_mod.f90 euvtvdad_mod.F90 sourcefile~eltdirad_mod.f90->sourcefile~euvtvdad_mod.f90 sourcefile~fourier_outad_mod.f90->sourcefile~tpm_distr.f90 sourcefile~fourier_outad_mod.f90->sourcefile~tpm_trans.f90 sourcefile~fourier_outad_mod.f90->sourcefile~tpm_geometry.f90 sourcefile~trltog_mod.f90->sourcefile~abort_trans_mod.f90 sourcefile~trltog_mod.f90->sourcefile~tpm_distr.f90 sourcefile~trltog_mod.f90->sourcefile~tpm_gen.f90 sourcefile~trltog_mod.f90->sourcefile~tpm_trans.f90 sourcefile~trltog_mod.f90->sourcefile~parkind_ectrans.f90 sourcefile~buffered_allocator_mod.f90 buffered_allocator_mod.F90 sourcefile~trltog_mod.f90->sourcefile~buffered_allocator_mod.f90 sourcefile~eq_regions_mod.f90 eq_regions_mod.F90 sourcefile~trltog_mod.f90->sourcefile~eq_regions_mod.f90 sourcefile~pe2set_mod.f90 pe2set_mod.F90 sourcefile~trltog_mod.f90->sourcefile~pe2set_mod.f90 sourcefile~tpm_stats.f90 tpm_stats.F90 sourcefile~trltog_mod.f90->sourcefile~tpm_stats.f90 sourcefile~trmtol_mod.f90->sourcefile~tpm_distr.f90 sourcefile~buffered_allocator_mod.f90->sourcefile~abort_trans_mod.f90 sourcefile~buffered_allocator_mod.f90->sourcefile~growing_allocator_mod.f90 sourcefile~eledirad_mod.f90->sourcefile~abort_trans_mod.f90 sourcefile~eledirad_mod.f90->sourcefile~tpm_dim.f90 sourcefile~eledirad_mod.f90->sourcefile~tpm_fftw.f90 sourcefile~eledirad_mod.f90->sourcefile~tpmald_dim.f90 sourcefile~eprfi2bad_mod.f90 eprfi2bad_mod.F90 sourcefile~eprfi2ad_mod.f90->sourcefile~eprfi2bad_mod.f90 sourcefile~eupdspad_mod.f90->sourcefile~tpm_trans.f90 sourcefile~eupdspbad_mod.f90 eupdspbad_mod.F90 sourcefile~eupdspad_mod.f90->sourcefile~eupdspbad_mod.f90 sourcefile~euvtvdad_mod.f90->sourcefile~tpm_dim.f90 sourcefile~euvtvdad_mod.f90->sourcefile~tpmald_distr.f90 sourcefile~euvtvdad_mod.f90->sourcefile~tpmald_geo.f90 sourcefile~pe2set_mod.f90->sourcefile~abort_trans_mod.f90 sourcefile~pe2set_mod.f90->sourcefile~tpm_distr.f90 sourcefile~pe2set_mod.f90->sourcefile~eq_regions_mod.f90 sourcefile~eprfi2bad_mod.f90->sourcefile~tpm_distr.f90 sourcefile~eprfi2bad_mod.f90->sourcefile~tpm_trans.f90 sourcefile~eprfi2bad_mod.f90->sourcefile~tpm_dim.f90 sourcefile~eupdspbad_mod.f90->sourcefile~tpmald_distr.f90

Source Code

! (C) Copyright 2001- ECMWF.
! (C) Copyright 2001- Meteo-France.
! 
! This software is licensed under the terms of the Apache Licence Version 2.0
! which can be obtained at http://www.apache.org/licenses/LICENSE-2.0.
! In applying this licence, ECMWF does not waive the privileges and immunities
! granted to it by virtue of its status as an intergovernmental organisation
! nor does it submit to any jurisdiction.
! 


SUBROUTINE EDIR_TRANSAD(PSPVOR,PSPDIV,PSPSCALAR,PSPSC3A,PSPSC3B,PSPSC2,&
 & KPROMA,KVSETUV,KVSETSC,KRESOL,KVSETSC3A,KVSETSC3B,KVSETSC2,&
 & PGP,PGPUV,PGP3A,PGP3B,PGP2,PMEANU,PMEANV)

!**** *EDIR_TRANSAD* - Direct spectral transform - adjoint.

!     Purpose.
!     --------
!        Interface routine for the direct spectral transform - adjoint

!**   Interface.
!     ----------
!     CALL EDIR_TRANSAD(...)

!     Explicit arguments : All arguments except from PGP are optional.
!     --------------------
!     PSPVOR(:,:) - spectral vorticity (output)
!     PSPDIV(:,:) - spectral divergence (output)
!     PSPSCALAR(:,:) - spectral scalarvalued fields (output)
!     PSPSC3A(:,:,:) - alternative to use of PSPSCALAR, see PGP3A below (input)
!     PSPSC3B(:,:,:) - alternative to use of PSPSCALAR, see PGP3B below (input)
!     PSPSC2(:,:)  - alternative to use of PSPSCALAR, see PGP2 below (input)
!     KPROMA      - required blocking factor for gridpoint output
!     KVSETUV(:)  - indicating which 'b-set' in spectral space owns a
!                   vor/div field. Equivalant to NBSETLEV in the IFS.
!                   The length of KVSETUV should be the GLOBAL number
!                   of u/v fields which is the dimension of u and v releated
!                   fields in grid-point space.
!     KVESETSC(:) - indicating which 'b-set' in spectral space owns a
!                   scalar field. As for KVSETUV this argument is required
!                   if the total number of processors is greater than
!                   the number of processors used for distribution in
!                   spectral wave space.
!     KVSETSC3A(:) - as KVESETSC for PSPSC3A (distribution on first dimension)
!     KVSETSC3B(:) - as KVESETSC for PSPSC3B (distribution on first dimension)
!     KVSETSC2(:) - as KVESETSC for PSPSC2 (distribution on first dimension)
!     KRESOL   - resolution tag  which is required ,default is the
!                first defined resulution (input)
!     PGP(:,:,:) - gridpoint fields (input)
!                  PGP need to  dimensioned (NPROMA,IF_GP,NGPBLKS) where
!                  NPROMA is the blocking factor, IF_GP the total number
!                  of output fields and NGPBLKS the number of NPROMA blocks.
!                  The ordering of the output fields is as follows (all
!                  parts are optional depending on the input switches):

!     u             : IF_UV_G fields (if psvor present)
!     v             : IF_UV_G fields (if psvor present)
!     scalar fields : IF_SCALARS_G fields (if pspscalar present)

!     Here IF_UV_G is the GLOBAL number of u/v fields as given by the length
!     of KVSETUV (or by PSPVOR if no split in spectral 'b-set' direction
!     IF_SCALARS_G is the GLOBAL number of scalar fields as giben by the
!     length of KVESETSC (or by number of fields in PSPSCALAR if no spectral
!     'b-set' split

!     As an alternative to using PGP you can also use a combination of the
!     following arrays. The reason for introducing these alternative ways
!     of calling DIR_TRANS is to avoid uneccessary copies where your data
!     structures don't fit in to the 'PSPVOR,PSPDIV, PSPSCALAR, PGP' layout.
!     The use of any of these precludes the use of PGP and vice versa.

!     PGPUV(:,:,:,:) - the 'u-v' related grid-point variables in the order
!                      described for PGP. The second dimension of PGPUV should
!                      be the same as the "global" first dimension of
!                      PSPVOR,PSPDIV (in the IFS this is the number of levels)
!                      PGPUV need to be dimensioned(NPROMA,ILEVS,IFLDS,NGPBLKS)
!                      IFLDS is the number of 'variables' (u,v)
!     PGP3A(:,:,:,:) - grid-point array directly connected with PSPSC3A
!                      dimensioned(NPROMA,ILEVS,IFLDS,NGPBLKS)
!                      IFLDS is the number of 'variables' (the same as in
!                      PSPSC3A )
!     PGP3B(:,:,:,:) - grid-point array directly connected with PSPSC3B
!                      dimensioned(NPROMA,ILEVS,IFLDS,NGPBLKS)
!                      IFLDS is the number of 'variables' (the same as in
!                      PSPSC3B)
!     PGP2(:,:,:)    - grid-point array directly connected with PSPSC2
!                      dimensioned(NPROMA,IFLDS,NGPBLKS)
!                      IFLDS is the number of 'variables' (the same as in
!                      PSPSC2 )

!     Method.
!     -------

!     Externals.  ESET_RESOL   - set resolution
!     ----------  EDIR_TRANS_CTLAD - control routine

!     Author.
!     -------
!        Mats Hamrud *ECMWF*

!     Modifications.
!     --------------
!        Original : 00-03-03
!        M.Hamrud      01-Oct-2003 CY28 Cleaning

!     ------------------------------------------------------------------

USE PARKIND1  ,ONLY : JPIM     ,JPRB
USE YOMHOOK   ,ONLY : LHOOK,   DR_HOOK, JPHOOK

!ifndef INTERFACE

USE TPM_GEN         ,ONLY : NERR, NOUT
USE TPM_TRANS       ,ONLY : LDIVGP, LSCDERS, LUVDER, LVORGP,          &
     &                      NF_SC2, NF_SC3A, NF_SC3B, NGPBLKS, NPROMA
USE TPM_DISTR       ,ONLY : D, NPRTRV, MYSETV

USE ESET_RESOL_MOD  ,ONLY : ESET_RESOL
USE EDIR_TRANS_CTLAD_MOD ,ONLY : EDIR_TRANS_CTLAD
USE ABORT_TRANS_MOD ,ONLY : ABORT_TRANS

!endif INTERFACE

IMPLICIT NONE

! Declaration of arguments

REAL(KIND=JPRB)   ,OPTIONAL,INTENT(INOUT) :: PSPVOR(:,:)
REAL(KIND=JPRB)   ,OPTIONAL,INTENT(INOUT) :: PSPDIV(:,:)
REAL(KIND=JPRB)   ,OPTIONAL,INTENT(INOUT) :: PSPSCALAR(:,:)
REAL(KIND=JPRB)   ,OPTIONAL,INTENT(INOUT) :: PSPSC3A(:,:,:)
REAL(KIND=JPRB)   ,OPTIONAL,INTENT(INOUT) :: PSPSC3B(:,:,:)
REAL(KIND=JPRB)   ,OPTIONAL,INTENT(INOUT) :: PSPSC2(:,:)
INTEGER(KIND=JPIM),OPTIONAL,INTENT(IN)    :: KPROMA
INTEGER(KIND=JPIM),OPTIONAL,INTENT(IN)    :: KVSETUV(:)
INTEGER(KIND=JPIM),OPTIONAL,INTENT(IN)    :: KVSETSC(:)
INTEGER(KIND=JPIM),OPTIONAL,INTENT(IN)    :: KRESOL
INTEGER(KIND=JPIM),OPTIONAL,INTENT(IN)    :: KVSETSC3A(:)
INTEGER(KIND=JPIM),OPTIONAL,INTENT(IN)    :: KVSETSC3B(:)
INTEGER(KIND=JPIM),OPTIONAL,INTENT(IN)    :: KVSETSC2(:)
REAL(KIND=JPRB)   ,OPTIONAL,INTENT(OUT)   :: PGP(:,:,:)
REAL(KIND=JPRB)   ,OPTIONAL,INTENT(OUT)   :: PGPUV(:,:,:,:)
REAL(KIND=JPRB)   ,OPTIONAL,INTENT(OUT)   :: PGP3A(:,:,:,:)
REAL(KIND=JPRB)   ,OPTIONAL,INTENT(OUT)   :: PGP3B(:,:,:,:)
REAL(KIND=JPRB)   ,OPTIONAL,INTENT(OUT)   :: PGP2(:,:,:)
REAL(KIND=JPRB)   ,OPTIONAL,INTENT(INOUT) :: PMEANU(:)
REAL(KIND=JPRB)   ,OPTIONAL,INTENT(INOUT) :: PMEANV(:)
!ifndef INTERFACE

! Local variables
INTEGER(KIND=JPIM) :: IUBOUND(4),J
INTEGER(KIND=JPIM) :: IF_UV,IF_UV_G,IF_SCALARS,IF_SCALARS_G,IF_FS,IF_GP
INTEGER(KIND=JPIM) :: IF_SC2_G,IF_SC3A_G,IF_SC3B_G
REAL(KIND=JPHOOK) :: ZHOOK_HANDLE

!     ------------------------------------------------------------------

IF (LHOOK) CALL DR_HOOK('EDIR_TRANSAD',0,ZHOOK_HANDLE)

CALL GSTATS(1810,0)

! Set current resolution
CALL ESET_RESOL(KRESOL)

! Set defaults

IF_UV = 0
IF_UV_G = 0
IF_SCALARS = 0
IF_SCALARS_G = 0
NF_SC2 = 0
NF_SC3A = 0
NF_SC3B = 0
IF_SC2_G = 0
IF_SC3A_G = 0
IF_SC3B_G = 0
NPROMA = D%NGPTOT
LSCDERS=.FALSE. ! This is for use in TRLTOG which is shared with inverse transform
LVORGP=.FALSE.
LDIVGP=.FALSE.
LUVDER=.FALSE.

! Decide requirements

IF(PRESENT(KVSETUV)) THEN
  IF_UV_G = UBOUND(KVSETUV,1)
  DO J=1,IF_UV_G
    IF(KVSETUV(J) > NPRTRV) THEN
      WRITE(NERR,*) 'DIR_TRANSAD:KVSETUV(J) > NPRTRV ',J,KVSETUV(J),NPRTRV
      CALL ABORT_TRANS('DIR_TRANSAD:KVSETUV  CONTAINS VALUES OUTSIDE RANGE')
    ENDIF
    IF(KVSETUV(J) == MYSETV) THEN
      IF_UV = IF_UV+1
    ENDIF
  ENDDO
ELSEIF(PRESENT(PSPVOR)) THEN
  IF_UV = UBOUND(PSPVOR,1)
  IF_UV_G = IF_UV
ENDIF

IF(PRESENT(KVSETSC)) THEN
  IF_SCALARS_G = UBOUND(KVSETSC,1)
  DO J=1,IF_SCALARS_G
    IF(KVSETSC(J) > NPRTRV) THEN
      WRITE(NERR,*) 'DIR_TRANSAD:KVSETSC(J) > NPRTRV ',J,KVSETSC(J),NPRTRV
      CALL ABORT_TRANS('DIR_TRANSAD:KVSETSC CONTAINS VALUES OUTSIDE RANGE')
    ENDIF
    IF(KVSETSC(J) == MYSETV) THEN
      IF_SCALARS = IF_SCALARS+1
    ENDIF
  ENDDO
ELSEIF(PRESENT(PSPSCALAR)) THEN
  IF_SCALARS = UBOUND(PSPSCALAR,1)
  IF_SCALARS_G = IF_SCALARS
ENDIF

IF(PRESENT(KVSETSC2)) THEN
  IF(.NOT.PRESENT(PSPSC2)) THEN
    CALL ABORT_TRANS('DIR_TRANS:KVSETSC2 BUT NOT PSPSC2')
  ENDIF
  IF_SC2_G = UBOUND(KVSETSC2,1)
  IF_SCALARS_G = IF_SCALARS_G+IF_SC2_G
  DO J=1,UBOUND(KVSETSC2,1)
    IF(KVSETSC2(J) > NPRTRV .OR. KVSETSC2(J) < 1) THEN
      WRITE(NERR,*) 'DIR_TRANS:KVSETSC2(J) > NPRTRV ',J,KVSETSC2(J),NPRTRV
      CALL ABORT_TRANS('DIR_TRANS:KVSETSC2 TOO LONG OR CONTAINS VALUES OUTSIDE RANGE')
    ENDIF
    IF(KVSETSC2(J) == MYSETV) THEN
      IF_SCALARS = IF_SCALARS+1
      NF_SC2 = NF_SC2+1
    ENDIF
  ENDDO
ELSEIF(PRESENT(PSPSC2)) THEN
  IF_SC2_G = UBOUND(PSPSC2,1)
  NF_SC2   = UBOUND(PSPSC2,1)
  IF_SCALARS = IF_SCALARS+NF_SC2
  IF_SCALARS_G = IF_SCALARS_G +IF_SC2_G
ENDIF

IF(PRESENT(KVSETSC3A)) THEN
  IF(.NOT.PRESENT(PSPSC3A)) THEN
    CALL ABORT_TRANS('DIR_TRANS:KVSETSC3A BUT NOT PSPSC3A')
  ENDIF
  IF_SC3A_G = UBOUND(KVSETSC3A,1)
  IF_SCALARS_G = IF_SCALARS_G+IF_SC3A_G*UBOUND(PSPSC3A,3)
  DO J=1,UBOUND(KVSETSC3A,1)
    IF(KVSETSC3A(J) > NPRTRV .OR. KVSETSC3A(J) < 1) THEN
      WRITE(NERR,*) 'DIR_TRANS:KVSETSC3A(J) > NPRTRV ',J,KVSETSC3A(J),NPRTRV
      CALL ABORT_TRANS('DIR_TRANS:KVSETSC3A TOO LONG OR CONTAINS VALUES OUTSIDE RANGE')
    ENDIF
    IF(KVSETSC3A(J) == MYSETV) THEN
      IF_SCALARS = IF_SCALARS+UBOUND(PSPSC3A,3)
      NF_SC3A = NF_SC3A+1
    ENDIF
  ENDDO
ELSEIF(PRESENT(PSPSC3A)) THEN
  IF_SCALARS = IF_SCALARS+UBOUND(PSPSC3A,1)*UBOUND(PSPSC3A,3)
  IF_SC3A_G = UBOUND(PSPSC3A,1)
  IF_SCALARS_G = IF_SCALARS_G +IF_SC3A_G*UBOUND(PSPSC3A,3)
  NF_SC3A = UBOUND(PSPSC3A,1)
ENDIF

IF(PRESENT(KVSETSC3B)) THEN
  IF(.NOT.PRESENT(PSPSC3B)) THEN
    CALL ABORT_TRANS('DIR_TRANS:KVSETSC3B BUT NOT PSPSC3B')
  ENDIF
  IF_SC3B_G = UBOUND(KVSETSC3B,1)
  IF_SCALARS_G = IF_SCALARS_G+IF_SC3B_G*UBOUND(PSPSC3B,3)
  DO J=1,UBOUND(KVSETSC3B,1)
    IF(KVSETSC3B(J) > NPRTRV .OR. KVSETSC3B(J) < 1) THEN
      WRITE(NERR,*) 'DIR_TRANS:KVSETSC3B(J) > NPRTRV ',J,KVSETSC3B(J),NPRTRV
      CALL ABORT_TRANS('DIR_TRANS:KVSETSC3B TOO LONG OR CONTAINS VALUES OUTSIDE RANGE')
    ENDIF
    IF(KVSETSC3B(J) == MYSETV) THEN
      IF_SCALARS = IF_SCALARS+UBOUND(PSPSC3B,3)
      NF_SC3B = NF_SC3B+1
    ENDIF
  ENDDO
ELSEIF(PRESENT(PSPSC3B)) THEN
  IF_SCALARS = IF_SCALARS+UBOUND(PSPSC3B,1)*UBOUND(PSPSC3B,3)
  IF_SC3B_G = UBOUND(PSPSC3B,1)
  IF_SCALARS_G = IF_SCALARS_G +IF_SC3B_G*UBOUND(PSPSC3B,3)
  NF_SC3B = UBOUND(PSPSC3B,1)
ENDIF

IF(PRESENT(KPROMA)) THEN
  NPROMA = KPROMA
ENDIF

! Compute derived variables

NGPBLKS = (D%NGPTOT-1)/NPROMA+1

IF_FS = 2*IF_UV + IF_SCALARS

IF_GP = 2*IF_UV_G+IF_SCALARS_G

! Consistency checks

IF (IF_UV > 0) THEN
  IF(.NOT. PRESENT(PSPVOR) ) THEN
    CALL ABORT_TRANS('DIR_TRANSAD : IF_UV > 0 BUT PSPVOR MISSING')
  ENDIF
  IF(UBOUND(PSPVOR,1) < IF_UV) THEN
    WRITE(NERR,*)'DIR_TRANSAD : UBOUND(PSPVOR,1) < IF_UV ',&
     & UBOUND(PSPVOR,1),IF_UV
    CALL ABORT_TRANS('DIR_TRANSAD : PSPVOR TOO SHORT')
  ENDIF
  IF(.NOT. PRESENT(PSPDIV) ) THEN
    CALL ABORT_TRANS('DIR_TRANSAD : PSPVOR PRESENT BUT PSPDIV MISSING')
  ENDIF
  IF(UBOUND(PSPDIV,1) /= IF_UV) THEN
    WRITE(NERR,*)'DIR_TRANSAD : UBOUND(PSPDIV,1) < IF_UV ',&
     & UBOUND(PSPDIV,1),IF_UV
    CALL ABORT_TRANS('DIR_TRANSAD : INCONSISTENT FIRST DIM. OF PSPVOR AND PSPDIV')
  ENDIF
ENDIF

IF (IF_SCALARS > 0) THEN
  IF(PRESENT(PSPSCALAR)) THEN
    IF(UBOUND(PSPSCALAR,1) < IF_SCALARS) THEN
      WRITE(NERR,*)'DIR_TRANS : UBOUND(PSPSCALAR,1) < IF_SCALARS) ',&
       & UBOUND(PSPSCALAR,1),IF_SCALARS
      CALL ABORT_TRANS('DIR_TRANS : PSPSCALAR TOO SHORT')
    ENDIF
    IF(PRESENT(PSPSC3A))THEN
      CALL ABORT_TRANS('DIR_TRANS : PSPSCALAR AND PSPSC3A BOTH PRESENT')
    ENDIF
    IF(PRESENT(PSPSC3B))THEN
      CALL ABORT_TRANS('DIR_TRANS : PSPSCALAR AND PSPSC3B BOTH PRESENT')
    ENDIF
    IF(PRESENT(PSPSC2))THEN
      CALL ABORT_TRANS('DIR_TRANS : PSPSCALAR AND PSPSC2 BOTH PRESENT')
    ENDIF
  ENDIF
ENDIF

IF(NPRTRV >1) THEN
  IF(IF_UV > 0 .AND. .NOT. PRESENT(KVSETUV)) THEN
    WRITE(NERR,*)'NPRTRV >1 AND IF_UV > 0 AND NOT PRESENT(KVSETUV)',&
     & NPRTRV,IF_UV
    CALL ABORT_TRANS('DIR_TRANS: SPECIFY VERTICAL SPECTRAL DISTRIBUTION!')
  ENDIF
  IF(PRESENT(PSPSCALAR) .AND. .NOT. PRESENT(KVSETSC)) THEN
    WRITE(NERR,*)'NPRTRV >1 AND PRESENT(PSPSCALAR) AND NOT PRESENT(KVSETSC)',&
     & NPRTRV
    CALL ABORT_TRANS('DIR_TRANS: SPECIFY VERTICAL SPECTRAL DISTRIBUTION!')
  ENDIF
  IF(PRESENT(PSPSC2) .AND. .NOT. PRESENT(KVSETSC2)) THEN
    WRITE(NERR,*)'NPRTRV >1 AND PRESENT(PSPSC2) AND NOT PRESENT(KVSETSC2)',&
     & NPRTRV
    CALL ABORT_TRANS('DIR_TRANS: SPECIFY VERTICAL SPECTRAL DISTRIBUTION!')
  ENDIF
  IF(PRESENT(PSPSC3A) .AND. .NOT. PRESENT(KVSETSC3A)) THEN
    WRITE(NERR,*)'NPRTRV >1 AND PRESENT(PSPSC3A) AND NOT PRESENT(KVSETSC3A)',&
     & NPRTRV
    CALL ABORT_TRANS('DIR_TRANS: SPECIFY VERTICAL SPECTRAL DISTRIBUTION!')
  ENDIF
  IF(PRESENT(PSPSC3B) .AND. .NOT. PRESENT(KVSETSC3B)) THEN
    WRITE(NERR,*)'NPRTRV >1 AND PRESENT(PSPSC3B) AND NOT PRESENT(KVSETSC3B)',&
     & NPRTRV
    CALL ABORT_TRANS('DIR_TRANS: SPECIFY VERTICAL SPECTRAL DISTRIBUTION!')
  ENDIF
ENDIF

IF(PRESENT(PGP)) THEN
  IUBOUND(1:3)=UBOUND(PGP)
  IF(IUBOUND(1) < NPROMA) THEN
    WRITE(NOUT,*)'DIR_TRANS:FIRST DIM. OF PGP TOO SMALL ',IUBOUND(1),NPROMA
    CALL ABORT_TRANS('DIR_TRANS:FIRST DIMENSION OF PGP TOO SMALL ')
  ENDIF
  IF(IUBOUND(2) < IF_GP) THEN
    WRITE(NOUT,*)'DIR_TRANS:SEC. DIM. OF PGP TOO SMALL ',IUBOUND(2),IF_GP
    CALL ABORT_TRANS('DIR_TRANS:SECOND DIMENSION OF PGP TOO SMALL ')
  ENDIF
  IF(IUBOUND(3) < NGPBLKS) THEN
    WRITE(NOUT,*)'DIR_TRANS:THIRD DIM. OF PGP TOO SMALL ',IUBOUND(3),NGPBLKS
    CALL ABORT_TRANS('DIR_TRANS:THIRD DIMENSION OF PGP TOO SMALL ')
  ENDIF
ENDIF

IF(PRESENT(PGPUV)) THEN
  IF(.NOT.PRESENT(PSPVOR)) THEN
    CALL ABORT_TRANS('DIR_TRANS:PSPVOR HAS TO BE PRESENT WHEN PGPUV IS')
  ENDIF
  IUBOUND=UBOUND(PGPUV)
  IF(IUBOUND(1) < NPROMA) THEN
    WRITE(NOUT,*)'DIR_TRANS:FIRST DIM. OF PGPUV TOO SMALL ',IUBOUND(1),NPROMA
    CALL ABORT_TRANS('DIR_TRANS:FIRST DIMENSION OF PGPUV TOO SMALL ')
  ENDIF
  IF(IUBOUND(2) /= IF_UV_G) THEN
    WRITE(NOUT,*)'DIR_TRANS:SEC. DIM. OF PGPUV INCONSISTENT ',IUBOUND(2),IF_UV_G
    CALL ABORT_TRANS('DIR_TRANS:SEC. DIMENSION OF PGPUV INCONSISTENT ')
  ENDIF
  IF(IUBOUND(3) < 2) THEN
    WRITE(NOUT,*)'DIR_TRANS:THIRD DIM. OF PGPUV TOO SMALL ',IUBOUND(3),2
    CALL ABORT_TRANS('DIR_TRANS:THIRD DIMENSION OF PGPUV TOO SMALL ')
  ENDIF
  IF(IUBOUND(4) < NGPBLKS) THEN
    WRITE(NOUT,*)'DIR_TRANS:FOURTH DIM. OF PGPUV TOO SMALL ',IUBOUND(4),NGPBLKS
    CALL ABORT_TRANS('DIR_TRANS:FOURTH DIMENSION OF PGPUV TOO SMALL ')
  ENDIF
ENDIF

IF(PRESENT(PGP2)) THEN
  IF(.NOT.PRESENT(PSPSC2)) THEN
    CALL ABORT_TRANS('DIR_TRANS:PSPSC2 HAS TO BE PRESENT WHEN PGP2 IS')
  ENDIF
ENDIF
IF(IF_SC2_G > 0) THEN
  IF(PRESENT(PGP2)) THEN
    IUBOUND(1:3)=UBOUND(PGP2)
    IF(IUBOUND(1) < NPROMA) THEN
      WRITE(NOUT,*)'DIR_TRANS:FIRST DIM. OF PGP2 TOO SMALL ',IUBOUND(1),NPROMA
      CALL ABORT_TRANS('DIR_TRANS:FIRST DIMENSION OF PGP2 TOO SMALL ')
    ENDIF
    IF(IUBOUND(2) /= IF_SC2_G) THEN
      WRITE(NOUT,*)'DIR_TRANS:SEC. DIM. OF PGP2 INCONSISTENT ',IUBOUND(2),IF_SC2_G
      CALL ABORT_TRANS('DIR_TRANS:SEC. DIMENSION OF PGP2 INCONSISTENT')
    ENDIF
    IF(IUBOUND(3) < NGPBLKS) THEN
      WRITE(NOUT,*)'DIR_TRANS:THIRD DIM. OF PGP2 TOO SMALL ',IUBOUND(3),NGPBLKS
      CALL ABORT_TRANS('DIR_TRANS:THIRD DIMENSION OF PGP2 TOO SMALL ')
    ENDIF
  ELSE
    CALL ABORT_TRANS('DIR_TRANS:PGP2 MISSING')
  ENDIF
ENDIF

IF(PRESENT(PGP3A)) THEN
  IF(.NOT.PRESENT(PSPSC3A)) THEN
    CALL ABORT_TRANS('DIR_TRANS:PSPSC3A HAS TO BE PRESENT WHEN PGP3A IS')
  ENDIF
ENDIF
IF(IF_SC3A_G > 0) THEN
  IF(PRESENT(PGP3A)) THEN
    IUBOUND=UBOUND(PGP3A)
    IF(IUBOUND(1) < NPROMA) THEN
      WRITE(NOUT,*)'DIR_TRANS:FIRST DIM. OF PGP3A TOO SMALL ',IUBOUND(1),NPROMA
      CALL ABORT_TRANS('DIR_TRANS:FIRST DIMENSION OF PGP3A TOO SMALL ')
    ENDIF
    IF(IUBOUND(2) /= IF_SC3A_G) THEN
      WRITE(NOUT,*)'DIR_TRANS:SEC DIM. OF PGP3A INCONSISTENT ',IUBOUND(2),IF_SC3A_G
      CALL ABORT_TRANS('DIR_TRANS:SEC. DIMENSION OF PGP3A INCONSISTENT ')
    ENDIF
    IF(IUBOUND(3) /= UBOUND(PSPSC3A,3) ) THEN
      WRITE(NOUT,*)'DIR_TRANS:THIRD DIM. OF PGP3A INCONSISTENT ',&
       & IUBOUND(3),UBOUND(PSPSC3A,3)
      CALL ABORT_TRANS('DIR_TRANS:THIRD DIMENSION OF PGP3A INCONSISTENT ')
    ENDIF
    IF(IUBOUND(4) < NGPBLKS) THEN
      WRITE(NOUT,*)'DIR_TRANS:FOURTH DIM. OF PGP3A TOO SMALL ',IUBOUND(4),NGPBLKS
      CALL ABORT_TRANS('DIR_TRANS:FOURTH DIMENSION OF PGP3A TOO SMALL ')
    ENDIF
  ELSE
    CALL ABORT_TRANS('DIR_TRANS:PGP3A MISSING')
  ENDIF
ENDIF

IF(PRESENT(PGP3B)) THEN
  IF(.NOT.PRESENT(PSPSC3B)) THEN
    CALL ABORT_TRANS('DIR_TRANS:PSPSC3B HAS TO BE PRESENT WHEN PGP3B IS')
  ENDIF
ENDIF
IF(IF_SC3B_G > 0) THEN
  IF(PRESENT(PGP3B)) THEN
    IUBOUND=UBOUND(PGP3B)
    IF(IUBOUND(1) < NPROMA) THEN
      WRITE(NOUT,*)'DIR_TRANS:FIRST DIM. OF PGP3B TOO SMALL ',IUBOUND(1),NPROMA
      CALL ABORT_TRANS('DIR_TRANS:FIRST DIMENSION OF PGP3B TOO SMALL ')
    ENDIF
    IF(IUBOUND(2) /= IF_SC3B_G) THEN
      WRITE(NOUT,*)'DIR_TRANS:SEC DIM. OF PGP3B INCONSISTENT ',IUBOUND(2),IF_SC3B_G
      CALL ABORT_TRANS('DIR_TRANS:SEC. DIMENSION OF PGP3B INCONSISTENT ')
    ENDIF
    IF(IUBOUND(3) /= UBOUND(PSPSC3B,3) ) THEN
      WRITE(NOUT,*)'DIR_TRANS:THIRD DIM. OF PGP3B INCONSISTENT ',&
       & IUBOUND(3),UBOUND(PSPSC3B,3)
      CALL ABORT_TRANS('DIR_TRANS:THIRD DIMENSION OF PGP3B INCONSISTENT ')
    ENDIF
    IF(IUBOUND(4) < NGPBLKS) THEN
      WRITE(NOUT,*)'DIR_TRANS:FOURTH DIM. OF PGP3B TOO SMALL ',IUBOUND(4),NGPBLKS
      CALL ABORT_TRANS('DIR_TRANS:FOURTH DIMENSION OF PGP3B TOO SMALL ')
    ENDIF
  ELSE
    CALL ABORT_TRANS('DIR_TRANS:PGP3B MISSING')
  ENDIF
ENDIF
CALL GSTATS(1810,1)

! Perform transform

CALL EDIR_TRANS_CTLAD(IF_UV_G,IF_SCALARS_G,IF_GP,IF_FS,IF_UV,IF_SCALARS,&
 & PSPVOR,PSPDIV,PSPSCALAR,KVSETUV,KVSETSC,PGP,&
 & PSPSC3A,PSPSC3B,PSPSC2,KVSETSC3A,KVSETSC3B,KVSETSC2,PGPUV,PGP3A,PGP3B,PGP2,&
 & PMEANU,PMEANV)
IF (LHOOK) CALL DR_HOOK('EDIR_TRANSAD',1,ZHOOK_HANDLE)

!     ------------------------------------------------------------------
!endif INTERFACE

END SUBROUTINE EDIR_TRANSAD