trans_inq.F90 Source File


This file depends on

sourcefile~~trans_inq.f90~~EfferentGraph sourcefile~trans_inq.f90 trans_inq.F90 sourcefile~eq_regions_mod.f90 eq_regions_mod.F90 sourcefile~trans_inq.f90->sourcefile~eq_regions_mod.f90 sourcefile~tpm_dim.f90 tpm_dim.F90 sourcefile~trans_inq.f90->sourcefile~tpm_dim.f90 sourcefile~tpm_geometry.f90 tpm_geometry.F90 sourcefile~trans_inq.f90->sourcefile~tpm_geometry.f90 sourcefile~tpm_fields.f90 tpm_fields.F90 sourcefile~trans_inq.f90->sourcefile~tpm_fields.f90 sourcefile~set_resol_mod.f90 set_resol_mod.F90 sourcefile~trans_inq.f90->sourcefile~set_resol_mod.f90 sourcefile~parkind1.f90 parkind1.F90 sourcefile~trans_inq.f90->sourcefile~parkind1.f90 sourcefile~abort_trans_mod.f90 abort_trans_mod.F90 sourcefile~trans_inq.f90->sourcefile~abort_trans_mod.f90 sourcefile~tpm_gen.f90 tpm_gen.F90 sourcefile~trans_inq.f90->sourcefile~tpm_gen.f90 sourcefile~tpm_distr.f90 tpm_distr.F90 sourcefile~trans_inq.f90->sourcefile~tpm_distr.f90 sourcefile~eq_regions_mod.f90->sourcefile~parkind1.f90 sourcefile~tpm_dim.f90->sourcefile~parkind1.f90 sourcefile~tpm_geometry.f90->sourcefile~parkind1.f90 sourcefile~tpm_fields.f90->sourcefile~parkind1.f90 sourcefile~set_resol_mod.f90->sourcefile~tpm_dim.f90 sourcefile~set_resol_mod.f90->sourcefile~tpm_geometry.f90 sourcefile~set_resol_mod.f90->sourcefile~tpm_fields.f90 sourcefile~set_resol_mod.f90->sourcefile~parkind1.f90 sourcefile~set_resol_mod.f90->sourcefile~abort_trans_mod.f90 sourcefile~set_resol_mod.f90->sourcefile~tpm_gen.f90 sourcefile~set_resol_mod.f90->sourcefile~tpm_distr.f90 sourcefile~tpm_trans.f90 tpm_trans.F90 sourcefile~set_resol_mod.f90->sourcefile~tpm_trans.f90 sourcefile~tpm_fft.f90 tpm_fft.F90 sourcefile~set_resol_mod.f90->sourcefile~tpm_fft.f90 sourcefile~abort_trans_mod.f90->sourcefile~tpm_gen.f90 sourcefile~abort_trans_mod.f90->sourcefile~tpm_distr.f90 sourcefile~sdl_module.f90 sdl_module.F90 sourcefile~abort_trans_mod.f90->sourcefile~sdl_module.f90 sourcefile~tpm_gen.f90->sourcefile~parkind1.f90 sourcefile~tpm_distr.f90->sourcefile~parkind1.f90 sourcefile~tpm_trans.f90->sourcefile~parkind1.f90 sourcefile~tpm_fft.f90->sourcefile~parkind1.f90 sourcefile~sdl_module.f90->sourcefile~parkind1.f90 sourcefile~yomoml.f90 yomoml.F90 sourcefile~sdl_module.f90->sourcefile~yomoml.f90 sourcefile~yomhook_dummy.f90 yomhook_dummy.F90 sourcefile~sdl_module.f90->sourcefile~yomhook_dummy.f90 sourcefile~yomoml.f90->sourcefile~parkind1.f90

Contents

Subroutines

Source Code

trans_inq.F90

Source Code

SUBROUTINE TRANS_INQ(KRESOL,KSPEC,KSPEC2,KSPEC2G,KSPEC2MX,KNUMP,&
                    &KGPTOT,KGPTOTG,KGPTOTMX,KGPTOTL,&
                    &KMYMS,KASM0,KUMPP,KPOSSP,KPTRMS,KALLMS,KDIM0G,&
                    &KFRSTLAT,KLSTLAT,KFRSTLOFF,KPTRLAT,&
                    &KPTRFRSTLAT,KPTRLSTLAT,KPTRFLOFF,KSTA,KONL,&
                    &KULTPP,KPTRLS,&
                    &LDSPLITLAT,&
                    &PMU,PGW,PRPNM,KLEI3,KSPOLEGL,KPMS)

!**** *TRANS_INQ* - Extract information from the transform package

!     Purpose.
!     --------
!     Interface routine for extracting information from the T.P.

!**   Interface.
!     ----------
!     CALL TRANS_INQ(...)
!     Explicit arguments : All arguments are optional.
!     -------------------- 
!     KRESOL   - resolution tag for which info is required ,default is the
!                first defined resulution (input)

!                   SPECTRAL SPACE
!     KSPEC    - number of complex spectral coefficients on this PE
!     KSPEC2   - 2*KSPEC 
!     KSPEC2G  - global KSPEC2
!     KSPEC2MX - maximun KSPEC2 among all PEs
!     KNUMP    - Number of spectral waves handled by this PE
!     KGPTOT   - Total number of grid columns on this PE
!     KGPTOTG  - Total number of grid columns on the Globe
!     KGPTOTMX - Maximum number of grid columns on any of the PEs
!     KGPTOTL  - Number of grid columns one each PE (dimension N_REGIONS_NS:N_REGIONS_EW)
!     KMYMS    - This PEs spectral zonal wavenumbers
!     KASM0    - Address in a spectral array of (m, n=m)
!     KUMPP    - No. of wave numbers each wave set is responsible for
!     KPOSSP   - Defines partitioning of global spectral fields among PEs
!     KPTRMS   - Pointer to the first wave number of a given a-set
!     KALLMS   - Wave numbers for all wave-set concatenated together 
!                to give all wave numbers in wave-set order
!     KDIM0G   - Defines partitioning of global spectral fields among PEs

!                 GRIDPOINT SPACE                  
!     KFRSTLAT    - First latitude of each a-set in grid-point space
!     KLSTTLAT    - Last latitude of each a-set in grid-point space
!     KFRSTLOFF   - Offset for first lat of own a-set in grid-point space
!     KPTRLAT     - Pointer to the start of each latitude
!     KPTRFRSTLAT - Pointer to the first latitude of each a-set in 
!                   NSTA and NONL arrays
!     KPTRLSTLAT  - Pointer to the last latitude of each a-set in
!                   NSTA and NONL arrays
!     KPTRFLOFF   - Offset for pointer to the first latitude of own a-set
!                   NSTA and NONL arrays, i.e. nptrfrstlat(myseta)-1
!     KSTA        - Position of first grid column for the latitudes on a 
!                   processor. The information is available for all processors.
!                   The b-sets are distinguished by the last dimension of 
!                   nsta().The latitude band for each a-set is addressed by 
!                   nptrfrstlat(jaset),nptrlstlat(jaset), and 
!                   nptrfloff=nptrfrstlat(myseta) on this processors a-set.
!                   Each split latitude has two entries in nsta(,:) which 
!                   necessitates the rather complex addressing of nsta(,:)
!                   and the overdimensioning of nsta by N_REGIONS_NS.
!     KONL        - Number of grid columns for the latitudes on a processor.
!                   Similar to nsta() in data structure.
!     LDSPLITLAT  - TRUE if latitude is split in grid point space over 
!                   two a-sets

!                FOURIER SPACE
!     KULTPP   - number of latitudes for which each a-set is calculating 
!                the FFT's.
!     KPTRLS   - pointer to first global latitude of each a-set for which
!                it performs the Fourier calculations

!                 LEGENDRE
!     PMU      - sin(Gaussian latitudes)
!     PGW      - Gaussian weights
!     PRPNM    - Legendre polynomials
!     KLEI3    - First dimension of Legendre polynomials
!     KSPOLEGL - Second dimension of Legendre polynomials
!     KPMS     - Adress for legendre polynomial for given M (NSMAX)

!     Method.
!     -------

!     Externals.  SET_RESOL - set resolution
!     ----------  

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

!     Modifications.
!     --------------
!        Original : 00-03-03
!        M. Hortal : 2001-03-05 Dimensions of the Legendre polynomials

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

USE PARKIND1  ,ONLY : JPIM     ,JPRB

!ifndef INTERFACE

USE TPM_GEN
USE TPM_DIM
USE TPM_DISTR
USE TPM_GEOMETRY
USE TPM_FIELDS

USE SET_RESOL_MOD
USE ABORT_TRANS_MOD
USE EQ_REGIONS_MOD

!endif INTERFACE

IMPLICIT NONE

INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(IN)  :: KRESOL

INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KSPEC
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KSPEC2
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KSPEC2G
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KSPEC2MX
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KNUMP
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KGPTOT
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KGPTOTG
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KGPTOTMX
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KGPTOTL(:,:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KFRSTLOFF
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KPTRFLOFF

INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KMYMS(:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KASM0(0:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KUMPP(:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KPOSSP(:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KPTRMS(:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KALLMS(:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KDIM0G(0:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KFRSTLAT(:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KLSTLAT(:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KPTRLAT(:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KPTRFRSTLAT(:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KPTRLSTLAT(:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KSTA(:,:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KONL(:,:)
LOGICAL   ,OPTIONAL, INTENT(OUT) :: LDSPLITLAT(:)

INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KULTPP(:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KPTRLS(:)

REAL(KIND=JPRB)    ,OPTIONAL, INTENT(OUT) :: PMU(:)
REAL(KIND=JPRB)    ,OPTIONAL, INTENT(OUT) :: PGW(:)
REAL(KIND=JPRB)    ,OPTIONAL, INTENT(OUT) :: PRPNM(:,:)
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KLEI3
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KSPOLEGL
INTEGER(KIND=JPIM) ,OPTIONAL, INTENT(OUT) :: KPMS(0:)

!ifndef INTERFACE

INTEGER(KIND=JPIM) :: IU1,IU2
!     ------------------------------------------------------------------


! Set current resolution
CALL SET_RESOL(KRESOL)

IF(PRESENT(KSPEC))     KSPEC     = D%NSPEC
IF(PRESENT(KSPEC2))    KSPEC2    = D%NSPEC2
IF(PRESENT(KSPEC2G))   KSPEC2G   = R%NSPEC2_G
IF(PRESENT(KSPEC2MX))  KSPEC2MX  = D%NSPEC2MX
IF(PRESENT(KNUMP))     KNUMP     = D%NUMP
IF(PRESENT(KGPTOT))    KGPTOT    = D%NGPTOT
IF(PRESENT(KGPTOTG))   KGPTOTG   = D%NGPTOTG
IF(PRESENT(KGPTOTMX))  KGPTOTMX  = D%NGPTOTMX
IF(PRESENT(KFRSTLOFF)) KFRSTLOFF = D%NFRSTLOFF
IF(PRESENT(KPTRFLOFF)) KPTRFLOFF = D%NPTRFLOFF

IF(PRESENT(KGPTOTL)) THEN
  IF(UBOUND(KGPTOTL,1) < N_REGIONS_NS) THEN
    CALL ABORT_TRANS('TRANS_INQ: KGPTOTL DIM 1 TOO SMALL')
  ELSEIF(UBOUND(KGPTOTL,2) <  N_REGIONS_EW) THEN
    CALL ABORT_TRANS('TRANS_INQ: KGPTOTL DIM 2 TOO SMALL')
  ELSE
    KGPTOTL(1:N_REGIONS_NS,1:N_REGIONS_EW) = D%NGPTOTL(:,:)
  ENDIF
ENDIF

IF(PRESENT(KMYMS)) THEN
  IF(UBOUND(KMYMS,1) < D%NUMP) THEN
    CALL ABORT_TRANS('TRANS_INQ: KMYMS TOO SMALL')
  ELSE
    KMYMS(1:D%NUMP) = D%MYMS(:)
  ENDIF
ENDIF

IF(PRESENT(KASM0)) THEN
  IF(UBOUND(KASM0,1) < R%NSMAX) THEN
    CALL ABORT_TRANS('TRANS_INQ: KASM0 TOO SMALL')
  ELSE
    KASM0(0:R%NSMAX) = D%NASM0(:)
  ENDIF
ENDIF

IF(PRESENT(KUMPP)) THEN
  IF(UBOUND(KUMPP,1) < NPRTRW) THEN
    CALL ABORT_TRANS('TRANS_INQ: KUMPP TOO SMALL')
  ELSE
    KUMPP(1:NPRTRW) = D%NUMPP(:)
  ENDIF
ENDIF

IF(PRESENT(KPOSSP)) THEN
  IF(UBOUND(KPOSSP,1) < NPRTRW+1) THEN
    CALL ABORT_TRANS('TRANS_INQ: KPOSSP TOO SMALL')
  ELSE
    KPOSSP(1:NPRTRW+1) = D%NPOSSP(:)
  ENDIF
ENDIF

IF(PRESENT(KPTRMS)) THEN
  IF(UBOUND(KPTRMS,1) < NPRTRW) THEN
    CALL ABORT_TRANS('TRANS_INQ: KPTRMS TOO SMALL')
  ELSE
    KPTRMS(1:NPRTRW) = D%NPTRMS(:)
  ENDIF
ENDIF

IF(PRESENT(KALLMS)) THEN
  IF(UBOUND(KALLMS,1) < R%NSMAX+1) THEN
    CALL ABORT_TRANS('TRANS_INQ: KALLMS TOO SMALL')
  ELSE
    KALLMS(1:R%NSMAX+1) = D%NALLMS(:)
  ENDIF
ENDIF

IF(PRESENT(KDIM0G)) THEN
  IF(UBOUND(KDIM0G,1) < R%NSMAX) THEN
    CALL ABORT_TRANS('TRANS_INQ: KDIM0G TOO SMALL')
  ELSE
    KDIM0G(0:R%NSMAX) = D%NDIM0G(0:R%NSMAX)
  ENDIF
ENDIF

IF(PRESENT(KFRSTLAT)) THEN
  IF(UBOUND(KFRSTLAT,1) < N_REGIONS_NS) THEN
    CALL ABORT_TRANS('TRANS_INQ: KFRSTLAT TOO SMALL')
  ELSE
    KFRSTLAT(1:N_REGIONS_NS) = D%NFRSTLAT(:)
  ENDIF
ENDIF

IF(PRESENT(KLSTLAT)) THEN
  IF(UBOUND(KLSTLAT,1) < N_REGIONS_NS) THEN
    CALL ABORT_TRANS('TRANS_INQ: KLSTLAT TOO SMALL')
  ELSE
    KLSTLAT(1:N_REGIONS_NS) = D%NLSTLAT(:)
  ENDIF
ENDIF

IF(PRESENT(KPTRLAT)) THEN
  IF(UBOUND(KPTRLAT,1) < R%NDGL) THEN
    CALL ABORT_TRANS('TRANS_INQ: KPTRLAT TOO SMALL')
  ELSE
    KPTRLAT(1:R%NDGL) = D%NPTRLAT(:)
  ENDIF
ENDIF

IF(PRESENT(KPTRFRSTLAT)) THEN
  IF(UBOUND(KPTRFRSTLAT,1) < N_REGIONS_NS) THEN
    CALL ABORT_TRANS('TRANS_INQ: KPTRFRSTLAT TOO SMALL')
  ELSE
    KPTRFRSTLAT(1:N_REGIONS_NS) = D%NPTRFRSTLAT(:)
  ENDIF
ENDIF

IF(PRESENT(KPTRLSTLAT)) THEN
  IF(UBOUND(KPTRLSTLAT,1) < N_REGIONS_NS) THEN
    CALL ABORT_TRANS('TRANS_INQ: KPTRLSTLAT TOO SMALL')
  ELSE
    KPTRLSTLAT(1:N_REGIONS_NS) = D%NPTRLSTLAT(:)
  ENDIF
ENDIF

IF(PRESENT(KSTA)) THEN
  IF(UBOUND(KSTA,1) < R%NDGL+N_REGIONS_NS-1) THEN
    CALL ABORT_TRANS('TRANS_INQ: KSTA DIM 1 TOO SMALL')
  ELSEIF(UBOUND(KSTA,2) < N_REGIONS_EW) THEN
    CALL ABORT_TRANS('TRANS_INQ: KSTA DIM 2 TOO SMALL')
  ELSE
    KSTA(1:R%NDGL+N_REGIONS_NS-1,1:N_REGIONS_EW) = D%NSTA(:,:)
  ENDIF
ENDIF

IF(PRESENT(KONL)) THEN
  IF(UBOUND(KONL,1) < R%NDGL+N_REGIONS_NS-1) THEN
    CALL ABORT_TRANS('TRANS_INQ: KONL DIM 1 TOO SMALL')
  ELSEIF(UBOUND(KONL,2) < N_REGIONS_EW) THEN
    CALL ABORT_TRANS('TRANS_INQ: KONL DIM 2 TOO SMALL')
  ELSE
    KONL(1:R%NDGL+N_REGIONS_NS-1,1:N_REGIONS_EW) = D%NONL(:,:)
  ENDIF
ENDIF

IF(PRESENT(LDSPLITLAT)) THEN
  IF(UBOUND(LDSPLITLAT,1) < R%NDGL) THEN
    CALL ABORT_TRANS('TRANS_INQ: LDSPLITLAT TOO SMALL')
  ELSE
    LDSPLITLAT(1:R%NDGL) = D%LSPLITLAT(:)
  ENDIF
ENDIF

IF(PRESENT(KULTPP)) THEN
  IF(UBOUND(KULTPP,1) < NPRTRNS) THEN
    CALL ABORT_TRANS('TRANS_INQ: KULTPP TOO SMALL')
  ELSE
    KULTPP(1:NPRTRNS) = D%NULTPP(:)
  ENDIF
ENDIF

IF(PRESENT(KPTRLS)) THEN
  IF(UBOUND(KPTRLS,1) < NPRTRNS) THEN
    CALL ABORT_TRANS('TRANS_INQ: KPTRLS TOO SMALL')
  ELSE
    KPTRLS(1:NPRTRNS) = D%NPTRLS(:)
  ENDIF
ENDIF

IF(PRESENT(PMU)) THEN
  IF(UBOUND(PMU,1) < R%NDGL) THEN
    CALL ABORT_TRANS('TRANS_INQ: PMU TOO SMALL')
  ELSE
    PMU(1:R%NDGL) = F%RMU
  ENDIF
ENDIF

IF(PRESENT(PGW)) THEN
  IF(UBOUND(PGW,1) < R%NDGL) THEN
    CALL ABORT_TRANS('TRANS_INQ: PGW TOO SMALL')
  ELSE
    PGW(1:R%NDGL) = F%RW
  ENDIF
ENDIF

IF(PRESENT(PRPNM)) THEN
  IU1 = UBOUND(PRPNM,1)
  IU2 = UBOUND(PRPNM,2)
  IF(IU1 < R%NDGNH) THEN
    CALL ABORT_TRANS('TRANS_INQ:FIRST DIM. OF PRNM TOO SMALL')
  ELSE
    IU1 = MIN(IU1,R%NLEI3)
    IU2 = MIN(IU2,D%NSPOLEGL)
    PRPNM(1:IU1,1:IU2) = F%RPNM(1:IU1,1:IU2)
  ENDIF
ENDIF
IF(PRESENT(KLEI3)) THEN
  KLEI3=R%NLEI3
ENDIF
IF(PRESENT(KSPOLEGL)) THEN
  KSPOLEGL=D%NSPOLEGL
ENDIF
IF(PRESENT(KPMS)) THEN
  IF(UBOUND(KPMS,1) < R%NSMAX) THEN
    CALL ABORT_TRANS('TRANS_INQ: KPMS TOO SMALL')
  ELSE
    KPMS(0:R%NSMAX) = D%NPMS(0:R%NSMAX)
  ENDIF
ENDIF
!     ------------------------------------------------------------------

!endif INTERFACE

END SUBROUTINE TRANS_INQ