MODULE iom !!===================================================================== !! *** MODULE iom *** !! Input/Output manager : Library to read input files !!==================================================================== !! History : 2.0 ! 2005-12 (J. Belier) Original code !! 2.0 ! 2006-02 (S. Masson) Adaptation to NEMO !! 3.0 ! 2007-07 (D. Storkey) Changes to iom_gettime !! 3.4 ! 2012-12 (R. Bourdalle-Badie and G. Reffray) add C1D case !!-------------------------------------------------------------------- !!-------------------------------------------------------------------- !! iom_open : open a file read only !! iom_close : close a file or all files opened by iom !! iom_get : read a field (interfaced to several routines) !! iom_gettime : read the time axis cdvar in the file !! iom_varid : get the id of a variable in a file !! iom_rstput : write a field in a restart file (interfaced to several routines) !!-------------------------------------------------------------------- USE dom_oce ! ocean space and time domain USE c1d ! 1D vertical configuration USE flo_oce ! floats module declarations USE lbclnk ! lateal boundary condition / mpp exchanges USE iom_def ! iom variables definitions USE iom_ioipsl ! NetCDF format with IOIPSL library USE iom_nf90 ! NetCDF format with native NetCDF library USE iom_rstdimg ! restarts access direct format "dimg" style... USE in_out_manager ! I/O manager USE lib_mpp ! MPP library #if defined key_iomput USE sbc_oce, ONLY : nn_fsbc ! ocean space and time domain USE trc_oce, ONLY : nn_dttrc ! !: frequency of step on passive tracers USE icb_oce, ONLY : nclasses, class_num ! !: iceberg classes #if defined key_lim3 USE ice , ONLY : jpl #elif defined key_lim2 USE par_ice_2 #endif USE domngb ! ocean space and time domain USE phycst ! physical constants USE dianam ! build name of file USE xios # endif USE ioipsl, ONLY : ju2ymds ! for calendar USE crs ! Grid coarsening USE dom_xios IMPLICIT NONE PUBLIC ! must be public to be able to access iom_def through iom #if defined key_iomput LOGICAL, PUBLIC, PARAMETER :: lk_iomput = .TRUE. !: iom_put flag #else LOGICAL, PUBLIC, PARAMETER :: lk_iomput = .FALSE. !: iom_put flag #endif PUBLIC iom_init, iom_swap, iom_open, iom_close, iom_setkt, iom_varid, iom_get, iom_gettime, iom_rstput, iom_put PUBLIC iom_getatt, iom_use, iom_context_finalize, iom_miss_val #if defined key_iomput PUBLIC dom_xios_read_coordinates PRIVATE dom_xios_create_coordinates, dom_xios_write_coordinates #endif PRIVATE iom_rp0d, iom_rp1d, iom_rp2d, iom_rp3d PRIVATE iom_g0d, iom_g1d, iom_g2d, iom_g3d, iom_get_123d PRIVATE iom_p1d, iom_p2d, iom_p3d, iom_p4d #if defined key_iomput PRIVATE iom_set_domain_attr, iom_set_axis_attr, iom_set_field_attr, iom_set_file_attr, iom_get_file_attr, iom_set_grid_attr PRIVATE set_grid, set_grid_bounds, set_scalar, set_xmlatt, set_mooring, iom_update_file_name, iom_sdate PRIVATE set_grid_xios, set_grid_znl, set_grid_xios_znl # endif INTERFACE iom_get MODULE PROCEDURE iom_g0d, iom_g1d, iom_g2d, iom_g3d END INTERFACE INTERFACE iom_getatt MODULE PROCEDURE iom_g0d_intatt END INTERFACE INTERFACE iom_rstput MODULE PROCEDURE iom_rp0d, iom_rp1d, iom_rp2d, iom_rp3d END INTERFACE INTERFACE iom_put MODULE PROCEDURE iom_p0d, iom_p1d, iom_p2d, iom_p3d, iom_p4d END INTERFACE LOGICAL, SAVE :: ll_noland !!---------------------------------------------------------------------- !! NEMO/OPA 3.3 , NEMO Consortium (2010) !! $Id: iom.F90 6315 2016-02-15 12:24:20Z cetlod $ !! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt) !!---------------------------------------------------------------------- CONTAINS SUBROUTINE iom_init( cdname ) !!---------------------------------------------------------------------- !! *** ROUTINE *** !! !! ** Purpose : !! !!---------------------------------------------------------------------- CHARACTER(len=*), INTENT(in) :: cdname #if defined key_iomput #if ! defined key_xios2 TYPE(xios_time) :: dtime = xios_time(0, 0, 0, 0, 0, 0) CHARACTER(len=19) :: cldate #else TYPE(xios_duration) :: dtime = xios_duration(0, 0, 0, 0, 0, 0) TYPE(xios_date) :: start_date #endif CHARACTER(len=10) :: clname INTEGER :: irefyear ! REAL(wp), ALLOCATABLE, DIMENSION(:,:) :: z_bnds REAL(wp), DIMENSION(jpi,jpj,jpk) :: zmask REAL(wp), DIMENSION(jpi,jpj) :: zmaskutil LOGICAL, ALLOCATABLE, DIMENSION(:,:,:) :: zmask_xios INTEGER :: ib,ie,jb,je INTEGER :: ji,jj,jk,ikt !!---------------------------------------------------------------------- ll_noland = jpni*jpnj /= jpnij #if ! defined key_xios2 ALLOCATE( z_bnds(jpk,2) ) #else ALLOCATE( z_bnds(2,jpk) ) #endif clname = cdname IF( TRIM(Agrif_CFixed()) /= '0' ) clname = TRIM(Agrif_CFixed())//"_"//TRIM(cdname) CALL xios_context_initialize(TRIM(clname), mpi_comm_opa) CALL iom_swap( cdname ) ! calendar parameters #if ! defined key_xios2 SELECT CASE ( nleapy ) ! Choose calendar for IOIPSL CASE ( 1) ; CALL xios_set_context_attr(TRIM(clname), calendar_type= "Gregorian") CASE ( 0) ; CALL xios_set_context_attr(TRIM(clname), calendar_type= "NoLeap") CASE (30) ; CALL xios_set_context_attr(TRIM(clname), calendar_type= "D360") END SELECT WRITE(cldate,"(i4.4,'-',i2.2,'-',i2.2,' 00:00:00')") nyear,nmonth,nday CALL xios_set_context_attr(TRIM(clname), start_date=cldate ) #else ! Calendar type is now defined in xml file IF (.NOT.(xios_getvar('ref_year',irefyear))) irefyear = 1900 SELECT CASE ( nleapy ) ! Choose calendar for IOIPSL CASE ( 1) ; CALL xios_define_calendar( TYPE = "Gregorian", time_origin = xios_date(irefyear,01,01,00,00,00), & & start_date = xios_date(nyear,nmonth,nday,0,0,0) ) CASE ( 0) ; CALL xios_define_calendar( TYPE = "NoLeap" , time_origin = xios_date(irefyear,01,01,00,00,00), & & start_date = xios_date(nyear,nmonth,nday,0,0,0) ) CASE (30) ; CALL xios_define_calendar( TYPE = "D360" , time_origin = xios_date(irefyear,01,01,00,00,00), & & start_date = xios_date(nyear,nmonth,nday,0,0,0) ) END SELECT #endif ! horizontal grid definition CALL set_scalar IF( TRIM(cdname) == TRIM(cxios_context) ) THEN IF( ll_noland .AND. using_xios_coordinates ) THEN ALLOCATE(zmask_xios(n_ni,n_nj,jpk)) ! ib=nimpp+nldi-n_ibegin ie=nimpp+nlei-n_ibegin jb=njmpp+nldj-n_jbegin je=njmpp+nlej-n_jbegin zmask_xios=.FALSE. zmask(:,:,:) = tmask(:,:,:) IF( ln_mskutil ) CALL dom_msk_util( zmask, 'T' ) zmask_xios(ib:ie,jb:je,:) = zmask(nldi:nlei,nldj:nlej,:)/=0. CALL set_grid_xios("grid_T",lon_grid_T, lat_grid_T, bounds_lon_grid_T, bounds_lat_grid_T, area_grid_T, zmask_xios) CALL set_grid_xios_znl( lat_grid_T ) zmask_xios=.FALSE. zmask(:,:,2:jpk ) = tmask(:,:,1:jpkm1) + tmask(:,:,2:jpk) ; zmask(:,:,1) = tmask(:,:,1) IF( ln_mskutil ) CALL dom_msk_util( zmask, 'W' ) zmask_xios(ib:ie,jb:je,:) = zmask(nldi:nlei,nldj:nlej,:)/=0. CALL set_grid_xios("grid_W",lon_grid_W, lat_grid_W, bounds_lon_grid_W, bounds_lat_grid_W, area_grid_W, zmask_xios) zmask_xios=.FALSE. zmask(2:jpim1,:,:) = tmask(2:jpim1,:,:) + tmask(3:jpi,:,:) ; CALL lbc_lnk( zmask, 'U', 1. ) IF( ln_mskutil ) CALL dom_msk_util( zmask, 'U' ) zmask_xios(ib:ie,jb:je,:) = zmask(nldi:nlei,nldj:nlej,:)/=0. CALL set_grid_xios("grid_U",lon_grid_U, lat_grid_U, bounds_lon_grid_U, bounds_lat_grid_U, area_grid_U, zmask_xios) zmask_xios=.FALSE. zmask(:,2:jpjm1,:) = tmask(:,2:jpjm1,:) + tmask(:,3:jpj,:) ; CALL lbc_lnk( zmask, 'V', 1. ) IF( ln_mskutil ) CALL dom_msk_util( zmask, 'V' ) zmask_xios(ib:ie,jb:je,:) = zmask(nldi:nlei,nldj:nlej,:)/=0. CALL set_grid_xios("grid_V",lon_grid_V, lat_grid_V, bounds_lon_grid_V, bounds_lat_grid_V, area_grid_V, zmask_xios) ELSE ! zmask(:,:,:) = tmask(:,:,:) IF( ln_mskutil ) CALL dom_msk_util( zmask, 'T' ) CALL set_grid( "T", glamt, gphit, zmask ) zmask(:,:,2:jpk ) = tmask(:,:,1:jpkm1) + tmask(:,:,2:jpk) ; zmask(:,:,1) = tmask(:,:,1) IF( ln_mskutil ) CALL dom_msk_util( zmask, 'W' ) CALL set_grid( "W", glamt, gphit, zmask ) zmask(2:jpim1,:,:) = tmask(2:jpim1,:,:) + tmask(3:jpi,:,:) ; CALL lbc_lnk( zmask, 'U', 1. ) IF( ln_mskutil ) CALL dom_msk_util( zmask, 'U' ) CALL set_grid( "U", glamu, gphiu, zmask ) zmask(:,2:jpjm1,:) = tmask(:,2:jpjm1,:) + tmask(:,3:jpj,:) ; CALL lbc_lnk( zmask, 'V', 1. ) IF( ln_mskutil ) CALL dom_msk_util( zmask, 'V' ) CALL set_grid( "V", glamv, gphiv, zmask ) ! CALL set_grid_znl( gphit ) ! IF( ln_cfmeta ) THEN ! Add additional grid metadata CALL iom_set_domain_attr("grid_T", area = e12t(nldi:nlei, nldj:nlej)) CALL iom_set_domain_attr("grid_U", area = e12u(nldi:nlei, nldj:nlej)) CALL iom_set_domain_attr("grid_V", area = e12v(nldi:nlei, nldj:nlej)) CALL iom_set_domain_attr("grid_W", area = e12t(nldi:nlei, nldj:nlej)) CALL set_grid_bounds( "T", glamf, gphif, glamt, gphit ) CALL set_grid_bounds( "U", glamv, gphiv, glamu, gphiu ) CALL set_grid_bounds( "V", glamu, gphiu, glamv, gphiv ) CALL set_grid_bounds( "W", glamf, gphif, glamt, gphit ) ENDIF ENDIF ENDIF IF( TRIM(cdname) == TRIM(cxios_context)//"_crs" ) THEN CALL dom_grid_crs ! Save the parent grid information & Switch to coarse grid domain ! zmask(:,:,:) = tmask(:,:,:) CALL set_grid( "T", glamt_crs, gphit_crs, zmask ) ! zmask(2:jpim1,:,:) = tmask(2:jpim1,:,:) + tmask(3:jpi,:,:) ; CALL lbc_lnk( zmask, 'U', 1. ) CALL set_grid( "U", glamu_crs, gphiu_crs, zmask ) ! zmask(:,2:jpjm1,:) = tmask(:,2:jpjm1,:) + tmask(:,3:jpj,:) ; CALL lbc_lnk( zmask, 'V', 1. ) CALL set_grid( "V", glamv_crs, gphiv_crs, zmask ) ! zmask(:,:,2:jpk ) = tmask(:,:,1:jpkm1) + tmask(:,:,2:jpk) ; zmask(:,:,1) = tmask(:,:,1) CALL set_grid( "W", glamt_crs, gphit_crs, zmask ) ! CALL set_grid_znl( gphit_crs ) ! CALL dom_grid_glo ! Return to parent grid domain ! IF( ln_cfmeta ) THEN ! Add additional grid metadata CALL iom_set_domain_attr("grid_T", area = e1e2t_crs(nldi:nlei, nldj:nlej)) CALL iom_set_domain_attr("grid_U", area = e1u_crs(nldi:nlei, nldj:nlej) * e2u_crs(nldi:nlei, nldj:nlej)) CALL iom_set_domain_attr("grid_V", area = e1v_crs(nldi:nlei, nldj:nlej) * e2v_crs(nldi:nlei, nldj:nlej)) CALL iom_set_domain_attr("grid_W", area = e1e2t_crs(nldi:nlei, nldj:nlej)) CALL set_grid_bounds( "T", glamf_crs, gphif_crs, glamt_crs, gphit_crs ) CALL set_grid_bounds( "U", glamv_crs, gphiv_crs, glamu_crs, gphiu_crs ) CALL set_grid_bounds( "V", glamu_crs, gphiu_crs, glamv_crs, gphiv_crs ) CALL set_grid_bounds( "W", glamf_crs, gphif_crs, glamt_crs, gphit_crs ) ENDIF ENDIF ! vertical grid definition CALL iom_set_axis_attr( "deptht", gdept_1d ) CALL iom_set_axis_attr( "depthu", gdept_1d ) CALL iom_set_axis_attr( "depthv", gdept_1d ) CALL iom_set_axis_attr( "depthw", gdepw_1d ) ! Add vertical grid bounds #if ! defined key_xios2 z_bnds(: ,1) = gdepw_1d(:) z_bnds(1:jpkm1,2) = gdepw_1d(2:jpk) z_bnds(jpk: ,2) = gdepw_1d(jpk) + e3t_1d(jpk) #else z_bnds(1 ,:) = gdepw_1d(:) z_bnds(2,1:jpkm1) = gdepw_1d(2:jpk) z_bnds(2,jpk: ) = gdepw_1d(jpk) + e3t_1d(jpk) #endif CALL iom_set_axis_attr( "deptht", bounds=z_bnds ) CALL iom_set_axis_attr( "depthu", bounds=z_bnds ) CALL iom_set_axis_attr( "depthv", bounds=z_bnds ) #if ! defined key_xios2 z_bnds(: ,2) = gdept_1d(:) z_bnds(2:jpk,1) = gdept_1d(1:jpkm1) z_bnds(1 ,1) = gdept_1d(1) - e3w_1d(1) #else z_bnds(2,: ) = gdept_1d(:) z_bnds(1,2:jpk) = gdept_1d(1:jpkm1) z_bnds(1,1 ) = gdept_1d(1) - e3w_1d(1) #endif CALL iom_set_axis_attr( "depthw", bounds=z_bnds ) # if defined key_floats CALL iom_set_axis_attr( "nfloat", (/ (REAL(ji,wp), ji=1,nfloat) /) ) # endif #if defined key_lim3 || defined key_lim2 CALL iom_set_axis_attr( "ncatice", (/ (REAL(ji,wp), ji=1,jpl) /) ) CALL iom_set_axis_attr( "nstrait", (/ (REAL(ji,wp), ji=1,4) /) ) #endif CALL iom_set_axis_attr( "icbcla", class_num ) CALL iom_set_axis_attr( "iax_20C", (/ REAL(20,wp) /) ) CALL iom_set_axis_attr( "iax_28C", (/ REAL(28,wp) /) ) CALL iom_set_axis_attr( "basin" , (/ (REAL(ji,wp), ji=1,5) /) ) ! automatic definitions of some of the xml attributs CALL set_xmlatt ! end file definition dtime%second = rdt CALL xios_set_timestep(dtime) IF( .NOT. ll_noland .AND. .NOT. using_xios_coordinates) CALL dom_xios_create_coordinates CALL xios_close_context_definition() CALL xios_update_calendar(0) DEALLOCATE( z_bnds ) #endif END SUBROUTINE iom_init SUBROUTINE iom_swap( cdname ) !!--------------------------------------------------------------------- !! *** SUBROUTINE iom_swap *** !! !! ** Purpose : swap context between different agrif grid for xmlio_server !!--------------------------------------------------------------------- CHARACTER(len=*), INTENT(in) :: cdname #if defined key_iomput TYPE(xios_context) :: nemo_hdl IF( TRIM(Agrif_CFixed()) == '0' ) THEN CALL xios_get_handle(TRIM(cdname),nemo_hdl) ELSE CALL xios_get_handle(TRIM(Agrif_CFixed())//"_"//TRIM(cdname),nemo_hdl) ENDIF ! CALL xios_set_current_context(nemo_hdl) #endif ! END SUBROUTINE iom_swap SUBROUTINE iom_open( cdname, kiomid, ldwrt, kdom, kiolib, ldstop, ldiof ) !!--------------------------------------------------------------------- !! *** SUBROUTINE iom_open *** !! !! ** Purpose : open an input file (return 0 if not found) !!--------------------------------------------------------------------- CHARACTER(len=*), INTENT(in ) :: cdname ! File name INTEGER , INTENT( out) :: kiomid ! iom identifier of the opened file LOGICAL , INTENT(in ), OPTIONAL :: ldwrt ! open in write modeb (default = .FALSE.) INTEGER , INTENT(in ), OPTIONAL :: kdom ! Type of domain to be written (default = jpdom_local_noovlap) INTEGER , INTENT(in ), OPTIONAL :: kiolib ! library used to open the file (default = jpnf90) LOGICAL , INTENT(in ), OPTIONAL :: ldstop ! stop if open to read a non-existing file (default = .TRUE.) LOGICAL , INTENT(in ), OPTIONAL :: ldiof ! Interp On the Fly, needed for AGRIF (default = .FALSE.) CHARACTER(LEN=256) :: clname ! the name of the file based on cdname [[+clcpu]+clcpu] CHARACTER(LEN=256) :: cltmpn ! tempory name to store clname (in writting mode) CHARACTER(LEN=10) :: clsuffix ! ".nc" or ".dimg" CHARACTER(LEN=15) :: clcpu ! the cpu number (max jpmax_digits digits) CHARACTER(LEN=256) :: clinfo ! info character LOGICAL :: llok ! check the existence LOGICAL :: llwrt ! local definition of ldwrt LOGICAL :: llnoov ! local definition to read overlap LOGICAL :: llstop ! local definition of ldstop LOGICAL :: lliof ! local definition of ldiof INTEGER :: iolib ! library do we use to open the file INTEGER :: icnt ! counter for digits in clcpu (max = jpmax_digits) INTEGER :: iln, ils ! lengths of character INTEGER :: idom ! type of domain INTEGER :: istop ! INTEGER, DIMENSION(2,5) :: idompar ! domain parameters: ! local number of points for x,y dimensions ! position of first local point for x,y dimensions ! position of last local point for x,y dimensions ! start halo size for x,y dimensions ! end halo size for x,y dimensions !--------------------------------------------------------------------- ! Initializations and control ! ============= kiomid = -1 clinfo = ' iom_open ~~~ ' istop = nstop ! if iom_open is called for the first time: initialize iom_file(:)%nfid to 0 ! (could be done when defining iom_file in f95 but not in f90) IF( Agrif_Root() ) THEN IF( iom_open_init == 0 ) THEN iom_file(:)%nfid = 0 iom_open_init = 1 ENDIF ENDIF ! do we read or write the file? IF( PRESENT(ldwrt) ) THEN ; llwrt = ldwrt ELSE ; llwrt = .FALSE. ENDIF ! do we call ctl_stop if we try to open a non-existing file in read mode? IF( PRESENT(ldstop) ) THEN ; llstop = ldstop ELSE ; llstop = .TRUE. ENDIF ! what library do we use to open the file? IF( PRESENT(kiolib) ) THEN ; iolib = kiolib ELSE ; iolib = jpnf90 ENDIF ! are we using interpolation on the fly? IF( PRESENT(ldiof) ) THEN ; lliof = ldiof ELSE ; lliof = .FALSE. ENDIF ! do we read the overlap ! ugly patch SM+JMM+RB to overwrite global definition in some cases llnoov = (jpni * jpnj ) == jpnij .AND. .NOT. lk_agrif ! create the file name by added, if needed, TRIM(Agrif_CFixed()) and TRIM(clsuffix) ! ============= clname = trim(cdname) IF ( .NOT. Agrif_Root() .AND. .NOT. lliof ) THEN iln = INDEX(clname,'/') cltmpn = clname(1:iln) clname = clname(iln+1:LEN_TRIM(clname)) clname=TRIM(cltmpn)//TRIM(Agrif_CFixed())//'_'//TRIM(clname) ENDIF ! which suffix should we use? SELECT CASE (iolib) CASE (jpioipsl ) ; clsuffix = '.nc' CASE (jpnf90 ) ; clsuffix = '.nc' CASE (jprstdimg) ; clsuffix = '.dimg' CASE DEFAULT ; clsuffix = '' CALL ctl_stop( TRIM(clinfo), 'accepted IO library are only jpioipsl, jpnf90 and jprstdimg' ) END SELECT ! Add the suffix if needed iln = LEN_TRIM(clname) ils = LEN_TRIM(clsuffix) IF( iln <= ils .OR. INDEX( TRIM(clname), TRIM(clsuffix), back = .TRUE. ) /= iln - ils + 1 ) & & clname = TRIM(clname)//TRIM(clsuffix) cltmpn = clname ! store this name ! try to find if the file to be opened already exist ! ============= INQUIRE( FILE = clname, EXIST = llok ) IF( .NOT.llok ) THEN ! we try to add the cpu number to the name IF( iolib == jprstdimg ) THEN ; WRITE(clcpu,*) narea ELSE ; WRITE(clcpu,*) narea-1 ENDIF clcpu = TRIM(ADJUSTL(clcpu)) iln = INDEX(clname,TRIM(clsuffix), back = .TRUE.) clname = clname(1:iln-1)//'_'//TRIM(clcpu)//TRIM(clsuffix) icnt = 0 INQUIRE( FILE = clname, EXIST = llok ) ! we try different formats for the cpu number by adding 0 DO WHILE( .NOT.llok .AND. icnt < jpmax_digits ) clcpu = "0"//trim(clcpu) clname = clname(1:iln-1)//'_'//TRIM(clcpu)//TRIM(clsuffix) INQUIRE( FILE = clname, EXIST = llok ) icnt = icnt + 1 END DO ENDIF IF( llwrt ) THEN ! check the domain definition ! JMM + SM: ugly patch before getting the new version of lib_mpp) ! idom = jpdom_local_noovlap ! default definition IF( llnoov ) THEN ; idom = jpdom_local_noovlap ! default definition ELSE ; idom = jpdom_local_full ! default definition ENDIF IF( PRESENT(kdom) ) idom = kdom ! create the domain informations ! ============= SELECT CASE (idom) CASE (jpdom_local_full) idompar(:,1) = (/ jpi , jpj /) idompar(:,2) = (/ nimpp , njmpp /) idompar(:,3) = (/ nimpp + jpi - 1 , njmpp + jpj - 1 /) idompar(:,4) = (/ nldi - 1 , nldj - 1 /) idompar(:,5) = (/ jpi - nlei , jpj - nlej /) CASE (jpdom_local_noextra) idompar(:,1) = (/ nlci , nlcj /) idompar(:,2) = (/ nimpp , njmpp /) idompar(:,3) = (/ nimpp + nlci - 1, njmpp + nlcj - 1 /) idompar(:,4) = (/ nldi - 1 , nldj - 1 /) idompar(:,5) = (/ nlci - nlei , nlcj - nlej /) CASE (jpdom_local_noovlap) idompar(:,1) = (/ nlei - nldi + 1, nlej - nldj + 1 /) idompar(:,2) = (/ nimpp + nldi - 1, njmpp + nldj - 1 /) idompar(:,3) = (/ nimpp + nlei - 1, njmpp + nlej - 1 /) idompar(:,4) = (/ 0 , 0 /) idompar(:,5) = (/ 0 , 0 /) CASE DEFAULT CALL ctl_stop( TRIM(clinfo), 'wrong value of kdom, only jpdom_local* cases are accepted' ) END SELECT ENDIF ! Open the NetCDF or RSTDIMG file ! ============= ! do we have some free file identifier? IF( MINVAL(iom_file(:)%nfid) /= 0 ) & & CALL ctl_stop( TRIM(clinfo), 'No more free file identifier', 'increase jpmax_files in iom_def' ) ! if no file was found... IF( .NOT. llok ) THEN IF( .NOT. llwrt ) THEN ! we are in read mode IF( llstop ) THEN ; CALL ctl_stop( TRIM(clinfo), 'File '//TRIM(cltmpn)//'* not found' ) ELSE ; istop = nstop + 1 ! make sure that istop /= nstop so we don't open the file ENDIF ELSE ! we are in write mode so we clname = cltmpn ! get back the file name without the cpu number ENDIF ELSE IF( llwrt .AND. .NOT. ln_clobber ) THEN ! we stop as we want to write in a new file CALL ctl_stop( TRIM(clinfo), 'We want to write in a new file but '//TRIM(clname)//' already exists...' ) istop = nstop + 1 ! make sure that istop /= nstop so we don't open the file ELSEIF( llwrt ) THEN ! the file exists and we are in write mode with permission to clname = cltmpn ! overwrite so get back the file name without the cpu number ENDIF ENDIF IF( istop == nstop ) THEN ! no error within this routine SELECT CASE (iolib) CASE (jpioipsl ) ; CALL iom_ioipsl_open( clname, kiomid, llwrt, llok, idompar ) CASE (jpnf90 ) ; CALL iom_nf90_open( clname, kiomid, llwrt, llok, idompar ) CASE (jprstdimg) ; CALL iom_rstdimg_open( clname, kiomid, llwrt, llok, idompar ) CASE DEFAULT CALL ctl_stop( TRIM(clinfo)//' accepted IO library are only jpioipsl, jpnf90 and jprstdimg' ) END SELECT ENDIF ! END SUBROUTINE iom_open SUBROUTINE iom_close( kiomid ) !!-------------------------------------------------------------------- !! *** SUBROUTINE iom_close *** !! !! ** Purpose : close an input file, or all files opened by iom !!-------------------------------------------------------------------- INTEGER, INTENT(inout), OPTIONAL :: kiomid ! iom identifier of the file to be closed ! ! return 0 when file is properly closed ! ! No argument: all files opened by iom are closed INTEGER :: jf ! dummy loop indices INTEGER :: i_s, i_e ! temporary integer CHARACTER(LEN=100) :: clinfo ! info character !--------------------------------------------------------------------- ! clinfo = ' iom_close ~~~ ' IF( PRESENT(kiomid) ) THEN i_s = kiomid i_e = kiomid ELSE i_s = 1 i_e = jpmax_files ENDIF IF( i_s > 0 ) THEN DO jf = i_s, i_e IF( iom_file(jf)%nfid > 0 ) THEN SELECT CASE (iom_file(jf)%iolib) CASE (jpioipsl ) ; CALL iom_ioipsl_close( jf ) CASE (jpnf90 ) ; CALL iom_nf90_close( jf ) CASE (jprstdimg) ; CALL iom_rstdimg_close( jf ) CASE DEFAULT CALL ctl_stop( TRIM(clinfo)//' accepted IO library are only jpioipsl, jpnf90 and jprstdimg' ) END SELECT iom_file(jf)%nfid = 0 ! free the id IF( PRESENT(kiomid) ) kiomid = 0 ! return 0 as id to specify that the file was closed IF(lwp) WRITE(numout,*) TRIM(clinfo)//' close file: '//TRIM(iom_file(jf)%name)//' ok' ELSEIF( PRESENT(kiomid) ) THEN WRITE(ctmp1,*) '--->', kiomid CALL ctl_stop( TRIM(clinfo)//' Invalid file identifier', ctmp1 ) ENDIF END DO ENDIF ! END SUBROUTINE iom_close FUNCTION iom_varid ( kiomid, cdvar, kdimsz, kndims, ldstop ) !!----------------------------------------------------------------------- !! *** FUNCTION iom_varid *** !! !! ** Purpose : get the id of a variable in a file (return 0 if not found) !!----------------------------------------------------------------------- INTEGER , INTENT(in ) :: kiomid ! file Identifier CHARACTER(len=*) , INTENT(in ) :: cdvar ! name of the variable INTEGER, DIMENSION(:), INTENT( out), OPTIONAL :: kdimsz ! size of the dimensions INTEGER, INTENT( out), OPTIONAL :: kndims ! size of the dimensions LOGICAL , INTENT(in ), OPTIONAL :: ldstop ! stop if looking for non-existing variable (default = .TRUE.) ! INTEGER :: iom_varid, iiv, i_nvd LOGICAL :: ll_fnd CHARACTER(LEN=100) :: clinfo ! info character LOGICAL :: llstop ! local definition of ldstop !!----------------------------------------------------------------------- iom_varid = 0 ! default definition ! do we call ctl_stop if we look for non-existing variable? IF( PRESENT(ldstop) ) THEN ; llstop = ldstop ELSE ; llstop = .TRUE. ENDIF ! IF( kiomid > 0 ) THEN clinfo = 'iom_varid, file: '//trim(iom_file(kiomid)%name)//', var: '//trim(cdvar) IF( iom_file(kiomid)%nfid == 0 ) THEN CALL ctl_stop( trim(clinfo), 'the file is not open' ) ELSE ll_fnd = .FALSE. iiv = 0 ! DO WHILE ( .NOT.ll_fnd .AND. iiv < iom_file(kiomid)%nvars ) iiv = iiv + 1 ll_fnd = ( TRIM(cdvar) == TRIM(iom_file(kiomid)%cn_var(iiv)) ) END DO ! IF( .NOT.ll_fnd ) THEN iiv = iiv + 1 IF( iiv <= jpmax_vars ) THEN SELECT CASE (iom_file(kiomid)%iolib) CASE (jpioipsl ) ; iom_varid = iom_ioipsl_varid( kiomid, cdvar, iiv, kdimsz ) CASE (jpnf90 ) ; iom_varid = iom_nf90_varid ( kiomid, cdvar, iiv, kdimsz, kndims ) CASE (jprstdimg) ; iom_varid = -1 ! all variables are listed in iom_file CASE DEFAULT CALL ctl_stop( TRIM(clinfo)//' accepted IO library are only jpioipsl, jpnf90 and jprstdimg' ) END SELECT ELSE CALL ctl_stop( trim(clinfo), 'Too many variables in the file '//iom_file(kiomid)%name, & & 'increase the parameter jpmax_vars') ENDIF IF( llstop .AND. iom_varid == -1 ) CALL ctl_stop( TRIM(clinfo)//' not found' ) ELSE iom_varid = iiv IF( PRESENT(kdimsz) ) THEN i_nvd = iom_file(kiomid)%ndims(iiv) IF( i_nvd == size(kdimsz) ) THEN kdimsz(:) = iom_file(kiomid)%dimsz(1:i_nvd,iiv) ELSE WRITE(ctmp1,*) i_nvd, size(kdimsz) CALL ctl_stop( trim(clinfo), 'error in kdimsz size'//trim(ctmp1) ) ENDIF ENDIF IF( PRESENT(kndims) ) kndims = iom_file(kiomid)%ndims(iiv) ENDIF ENDIF ENDIF ! END FUNCTION iom_varid !!---------------------------------------------------------------------- !! INTERFACE iom_get !!---------------------------------------------------------------------- SUBROUTINE iom_g0d( kiomid, cdvar, pvar, ktime ) INTEGER , INTENT(in ) :: kiomid ! Identifier of the file CHARACTER(len=*), INTENT(in ) :: cdvar ! Name of the variable REAL(wp) , INTENT( out) :: pvar ! read field INTEGER , INTENT(in ), OPTIONAL :: ktime ! record number ! INTEGER :: idvar ! variable id INTEGER :: idmspc ! number of spatial dimensions INTEGER , DIMENSION(1) :: itime ! record number CHARACTER(LEN=100) :: clinfo ! info character CHARACTER(LEN=100) :: clname ! file name CHARACTER(LEN=1) :: cldmspc ! ! itime = 1 IF( PRESENT(ktime) ) itime = ktime ! clname = iom_file(kiomid)%name clinfo = ' iom_g0d, file: '//trim(clname)//', var: '//trim(cdvar) ! IF( kiomid > 0 ) THEN idvar = iom_varid( kiomid, cdvar ) IF( iom_file(kiomid)%nfid > 0 .AND. idvar > 0 ) THEN idmspc = iom_file ( kiomid )%ndims( idvar ) IF( iom_file(kiomid)%luld(idvar) ) idmspc = idmspc - 1 WRITE(cldmspc , fmt='(i1)') idmspc IF( idmspc > 0 ) CALL ctl_stop( TRIM(clinfo), 'When reading to a 0D array, we do not accept data', & & 'with 1 or more spatial dimensions: '//cldmspc//' were found.' , & & 'Use ncwa -a to suppress the unnecessary dimensions' ) SELECT CASE (iom_file(kiomid)%iolib) CASE (jpioipsl ) ; CALL iom_ioipsl_get( kiomid, idvar, pvar, itime ) CASE (jpnf90 ) ; CALL iom_nf90_get( kiomid, idvar, pvar, itime ) CASE (jprstdimg) ; CALL iom_rstdimg_get( kiomid, idvar, pvar ) CASE DEFAULT CALL ctl_stop( 'iom_g0d: accepted IO library are only jpioipsl, jpnf90 and jprstdimg' ) END SELECT ENDIF ENDIF END SUBROUTINE iom_g0d SUBROUTINE iom_g1d( kiomid, kdom, cdvar, pvar, ktime, kstart, kcount ) INTEGER , INTENT(in ) :: kiomid ! Identifier of the file INTEGER , INTENT(in ) :: kdom ! Type of domain to be read CHARACTER(len=*), INTENT(in ) :: cdvar ! Name of the variable REAL(wp) , INTENT( out), DIMENSION(:) :: pvar ! read field INTEGER , INTENT(in ) , OPTIONAL :: ktime ! record number INTEGER , INTENT(in ), DIMENSION(1), OPTIONAL :: kstart ! start axis position of the reading INTEGER , INTENT(in ), DIMENSION(1), OPTIONAL :: kcount ! number of points in each axis ! IF( kiomid > 0 ) THEN IF( iom_file(kiomid)%nfid > 0 ) CALL iom_get_123d( kiomid, kdom , cdvar , pv_r1d=pvar, & & ktime=ktime, kstart=kstart, kcount=kcount ) ENDIF END SUBROUTINE iom_g1d SUBROUTINE iom_g2d( kiomid, kdom, cdvar, pvar, ktime, kstart, kcount, lrowattr ) INTEGER , INTENT(in ) :: kiomid ! Identifier of the file INTEGER , INTENT(in ) :: kdom ! Type of domain to be read CHARACTER(len=*), INTENT(in ) :: cdvar ! Name of the variable REAL(wp) , INTENT( out), DIMENSION(:,:) :: pvar ! read field INTEGER , INTENT(in ) , OPTIONAL :: ktime ! record number INTEGER , INTENT(in ), DIMENSION(2) , OPTIONAL :: kstart ! start axis position of the reading INTEGER , INTENT(in ), DIMENSION(2) , OPTIONAL :: kcount ! number of points in each axis LOGICAL , INTENT(in ) , OPTIONAL :: lrowattr ! logical flag telling iom_get to ! look for and use a file attribute ! called open_ocean_jstart to set the start ! value for the 2nd dimension (netcdf only) ! IF( kiomid > 0 ) THEN IF( iom_file(kiomid)%nfid > 0 ) CALL iom_get_123d( kiomid, kdom , cdvar , pv_r2d=pvar, & & ktime=ktime, kstart=kstart, kcount=kcount, & & lrowattr=lrowattr ) ENDIF END SUBROUTINE iom_g2d SUBROUTINE iom_g3d( kiomid, kdom, cdvar, pvar, ktime, kstart, kcount, lrowattr ) INTEGER , INTENT(in ) :: kiomid ! Identifier of the file INTEGER , INTENT(in ) :: kdom ! Type of domain to be read CHARACTER(len=*), INTENT(in ) :: cdvar ! Name of the variable REAL(wp) , INTENT( out), DIMENSION(:,:,:) :: pvar ! read field INTEGER , INTENT(in ) , OPTIONAL :: ktime ! record number INTEGER , INTENT(in ), DIMENSION(3) , OPTIONAL :: kstart ! start axis position of the reading INTEGER , INTENT(in ), DIMENSION(3) , OPTIONAL :: kcount ! number of points in each axis LOGICAL , INTENT(in ) , OPTIONAL :: lrowattr ! logical flag telling iom_get to ! look for and use a file attribute ! called open_ocean_jstart to set the start ! value for the 2nd dimension (netcdf only) ! IF( kiomid > 0 ) THEN IF( iom_file(kiomid)%nfid > 0 ) CALL iom_get_123d( kiomid, kdom , cdvar , pv_r3d=pvar, & & ktime=ktime, kstart=kstart, kcount=kcount, & & lrowattr=lrowattr ) ENDIF END SUBROUTINE iom_g3d !!---------------------------------------------------------------------- SUBROUTINE iom_get_123d( kiomid, kdom , cdvar , & & pv_r1d, pv_r2d, pv_r3d, & & ktime , kstart, kcount, & & lrowattr ) !!----------------------------------------------------------------------- !! *** ROUTINE iom_get_123d *** !! !! ** Purpose : read a 1D/2D/3D variable !! !! ** Method : read ONE record at each CALL !!----------------------------------------------------------------------- INTEGER , INTENT(in ) :: kiomid ! Identifier of the file INTEGER , INTENT(in ) :: kdom ! Type of domain to be read CHARACTER(len=*) , INTENT(in ) :: cdvar ! Name of the variable REAL(wp), DIMENSION(:) , INTENT( out), OPTIONAL :: pv_r1d ! read field (1D case) REAL(wp), DIMENSION(:,:) , INTENT( out), OPTIONAL :: pv_r2d ! read field (2D case) REAL(wp), DIMENSION(:,:,:) , INTENT( out), OPTIONAL :: pv_r3d ! read field (3D case) INTEGER , INTENT(in ), OPTIONAL :: ktime ! record number INTEGER , DIMENSION(:) , INTENT(in ), OPTIONAL :: kstart ! start position of the reading in each axis INTEGER , DIMENSION(:) , INTENT(in ), OPTIONAL :: kcount ! number of points to be read in each axis LOGICAL , INTENT(in ), OPTIONAL :: lrowattr ! logical flag telling iom_get to ! look for and use a file attribute ! called open_ocean_jstart to set the start ! value for the 2nd dimension (netcdf only) ! LOGICAL :: llnoov ! local definition to read overlap LOGICAL :: luse_jattr ! local definition to read open_ocean_jstart file attribute INTEGER :: jstartrow ! start point for 2nd dimension optionally set by file attribute INTEGER :: jl ! loop on number of dimension INTEGER :: idom ! type of domain INTEGER :: idvar ! id of the variable INTEGER :: inbdim ! number of dimensions of the variable INTEGER :: idmspc ! number of spatial dimensions INTEGER :: itime ! record number INTEGER :: istop ! temporary value of nstop INTEGER :: ix1, ix2, iy1, iy2 ! subdomain indexes INTEGER :: ji, jj ! loop counters INTEGER :: irankpv ! INTEGER :: ind1, ind2 ! substring index INTEGER, DIMENSION(jpmax_dims) :: istart ! starting point to read for each axis INTEGER, DIMENSION(jpmax_dims) :: icnt ! number of value to read along each axis INTEGER, DIMENSION(jpmax_dims) :: idimsz ! size of the dimensions of the variable INTEGER, DIMENSION(jpmax_dims) :: ishape ! size of the dimensions of the variable REAL(wp) :: zscf, zofs ! sacle_factor and add_offset INTEGER :: itmp ! temporary integer CHARACTER(LEN=256) :: clinfo ! info character CHARACTER(LEN=256) :: clname ! file name CHARACTER(LEN=1) :: clrankpv, cldmspc ! !--------------------------------------------------------------------- ! clname = iom_file(kiomid)%name ! esier to read clinfo = ' iom_get_123d, file: '//trim(clname)//', var: '//trim(cdvar) ! local definition of the domain ? idom = kdom ! do we read the overlap ! ugly patch SM+JMM+RB to overwrite global definition in some cases llnoov = (jpni * jpnj ) == jpnij .AND. .NOT. lk_agrif ! check kcount and kstart optionals parameters... IF( PRESENT(kcount) .AND. (.NOT. PRESENT(kstart)) ) CALL ctl_stop(trim(clinfo), 'kcount present needs kstart present') IF( PRESENT(kstart) .AND. (.NOT. PRESENT(kcount)) ) CALL ctl_stop(trim(clinfo), 'kstart present needs kcount present') IF( PRESENT(kstart) .AND. idom /= jpdom_unknown ) CALL ctl_stop(trim(clinfo), 'kstart present needs kdom = jpdom_unknown') luse_jattr = .false. IF( PRESENT(lrowattr) ) THEN IF( lrowattr .AND. idom /= jpdom_data ) CALL ctl_stop(trim(clinfo), 'lrowattr present and true needs kdom = jpdom_data') IF( lrowattr .AND. idom == jpdom_data ) luse_jattr = .true. ENDIF IF( luse_jattr ) THEN SELECT CASE (iom_file(kiomid)%iolib) CASE (jpioipsl, jprstdimg ) CALL ctl_warn(trim(clinfo), 'lrowattr present and true but this only works with netcdf (jpnf90)') luse_jattr = .false. CASE (jpnf90 ) ! Ok CASE DEFAULT CALL ctl_stop( TRIM(clinfo)//' accepted IO library are only jpioipsl, jpnf90 and jprstdimg' ) END SELECT ENDIF ! Search for the variable in the data base (eventually actualize data) istop = nstop idvar = iom_varid( kiomid, cdvar ) ! IF( idvar > 0 ) THEN ! to write iom_file(kiomid)%dimsz in a shorter way ! idimsz(:) = iom_file(kiomid)%dimsz(:, idvar) inbdim = iom_file(kiomid)%ndims(idvar) ! number of dimensions in the file idmspc = inbdim ! number of spatial dimensions in the file IF( iom_file(kiomid)%luld(idvar) ) idmspc = inbdim - 1 IF( idmspc > 3 ) CALL ctl_stop(trim(clinfo), 'the file has more than 3 spatial dimensions this case is not coded...') ! ! update idom definition... ! Identify the domain in case of jpdom_auto(glo/dta) definition IF( idom == jpdom_autoglo .OR. idom == jpdom_autodta ) THEN IF( idom == jpdom_autoglo ) THEN ; idom = jpdom_global ELSE ; idom = jpdom_data ENDIF ind1 = INDEX( clname, '_', back = .TRUE. ) + 1 ind2 = INDEX( clname, '.', back = .TRUE. ) - 1 IF( ind2 > ind1 ) THEN ; IF( VERIFY( clname(ind1:ind2), '0123456789' ) == 0 ) idom = jpdom_local ; ENDIF ENDIF ! Identify the domain in case of jpdom_local definition IF( idom == jpdom_local ) THEN IF( idimsz(1) == jpi .AND. idimsz(2) == jpj ) THEN ; idom = jpdom_local_full ELSEIF( idimsz(1) == nlci .AND. idimsz(2) == nlcj ) THEN ; idom = jpdom_local_noextra ELSEIF( idimsz(1) == (nlei - nldi + 1) .AND. idimsz(2) == (nlej - nldj + 1) ) THEN ; idom = jpdom_local_noovlap ELSE ; CALL ctl_stop( trim(clinfo), 'impossible to identify the local domain' ) ENDIF ENDIF ! ! check the consistency between input array and data rank in the file ! ! initializations itime = 1 IF( PRESENT(ktime) ) itime = ktime irankpv = 1 * COUNT( (/PRESENT(pv_r1d)/) ) + 2 * COUNT( (/PRESENT(pv_r2d)/) ) + 3 * COUNT( (/PRESENT(pv_r3d)/) ) WRITE(clrankpv, fmt='(i1)') irankpv WRITE(cldmspc , fmt='(i1)') idmspc ! IF( idmspc < irankpv ) THEN CALL ctl_stop( TRIM(clinfo), 'The file has only '//cldmspc//' spatial dimension', & & 'it is impossible to read a '//clrankpv//'D array from this file...' ) ELSEIF( idmspc == irankpv ) THEN IF( PRESENT(pv_r1d) .AND. idom /= jpdom_unknown ) & & CALL ctl_stop( TRIM(clinfo), 'case not coded...You must use jpdom_unknown' ) ELSEIF( idmspc > irankpv ) THEN IF( PRESENT(pv_r2d) .AND. itime == 1 .AND. idimsz(3) == 1 .AND. idmspc == 3 ) THEN CALL ctl_warn( trim(clinfo), '2D array but 3 spatial dimensions for the data...' , & & 'As the size of the z dimension is 1 and as we try to read the first record, ', & & 'we accept this case, even if there is a possible mix-up between z and time dimension' ) idmspc = idmspc - 1 ELSE CALL ctl_stop( TRIM(clinfo), 'To keep iom lisibility, when reading a '//clrankpv//'D array,' , & & 'we do not accept data with '//cldmspc//' spatial dimensions', & & 'Use ncwa -a to suppress the unnecessary dimensions' ) ENDIF ENDIF ! ! definition of istart and icnt ! icnt (:) = 1 istart(:) = 1 istart(idmspc+1) = itime IF( PRESENT(kstart) ) THEN ; istart(1:idmspc) = kstart(1:idmspc) ; icnt(1:idmspc) = kcount(1:idmspc) ELSE IF( idom == jpdom_unknown ) THEN ; icnt(1:idmspc) = idimsz(1:idmspc) ELSE IF( .NOT. PRESENT(pv_r1d) ) THEN ! not a 1D array IF( idom == jpdom_data ) THEN jstartrow = 1 IF( luse_jattr ) THEN CALL iom_getatt(kiomid, 'open_ocean_jstart', jstartrow ) ! -999 is returned if the attribute is not found jstartrow = MAX(1,jstartrow) ENDIF istart(1:2) = (/ mig(1), mjg(1) + jstartrow - 1 /) ! icnt(1:2) done below ELSEIF( idom == jpdom_global ) THEN ; istart(1:2) = (/ nimpp , njmpp /) ! icnt(1:2) done below ENDIF ! we do not read the overlap -> we start to read at nldi, nldj ! JMM + SM: ugly patch before getting the new version of lib_mpp) ! IF( idom /= jpdom_local_noovlap ) istart(1:2) = istart(1:2) + (/ nldi - 1, nldj - 1 /) IF( llnoov .AND. idom /= jpdom_local_noovlap ) istart(1:2) = istart(1:2) + (/ nldi - 1, nldj - 1 /) ! we do not read the overlap and the extra-halos -> from nldi to nlei and from nldj to nlej ! JMM + SM: ugly patch before getting the new version of lib_mpp) ! icnt(1:2) = (/ nlei - nldi + 1, nlej - nldj + 1 /) IF( llnoov ) THEN ; icnt(1:2) = (/ nlei - nldi + 1, nlej - nldj + 1 /) ELSE ; icnt(1:2) = (/ nlci , nlcj /) ENDIF IF( PRESENT(pv_r3d) ) THEN IF( idom == jpdom_data ) THEN ; icnt(3) = jpkdta ELSE ; icnt(3) = jpk ENDIF ENDIF ENDIF ENDIF ENDIF ! check that istart and icnt can be used with this file !- DO jl = 1, jpmax_dims itmp = istart(jl)+icnt(jl)-1 IF( itmp > idimsz(jl) .AND. idimsz(jl) /= 0 ) THEN WRITE( ctmp1, FMT="('(istart(', i1, ') + icnt(', i1, ') - 1) = ', i5)" ) jl, jl, itmp WRITE( ctmp2, FMT="(' is larger than idimsz(', i1,') = ', i5)" ) jl, idimsz(jl) CALL ctl_stop( trim(clinfo), 'start and count too big regarding to the size of the data, ', ctmp1, ctmp2 ) ENDIF END DO ! check that icnt matches the input array !- IF( idom == jpdom_unknown ) THEN IF( irankpv == 1 ) ishape(1:1) = SHAPE(pv_r1d) IF( irankpv == 2 ) ishape(1:2) = SHAPE(pv_r2d) IF( irankpv == 3 ) ishape(1:3) = SHAPE(pv_r3d) ctmp1 = 'd' ELSE IF( irankpv == 2 ) THEN ! JMM + SM: ugly patch before getting the new version of lib_mpp) ! ishape(1:2) = SHAPE(pv_r2d(nldi:nlei,nldj:nlej )) ; ctmp1 = 'd(nldi:nlei,nldj:nlej)' IF( llnoov ) THEN ; ishape(1:2)=SHAPE(pv_r2d(nldi:nlei,nldj:nlej )) ; ctmp1='d(nldi:nlei,nldj:nlej)' ELSE ; ishape(1:2)=SHAPE(pv_r2d(1 :nlci,1 :nlcj )) ; ctmp1='d(1:nlci,1:nlcj)' ENDIF ENDIF IF( irankpv == 3 ) THEN ! JMM + SM: ugly patch before getting the new version of lib_mpp) ! ishape(1:3) = SHAPE(pv_r3d(nldi:nlei,nldj:nlej,:)) ; ctmp1 = 'd(nldi:nlei,nldj:nlej,:)' IF( llnoov ) THEN ; ishape(1:3)=SHAPE(pv_r3d(nldi:nlei,nldj:nlej,:)) ; ctmp1='d(nldi:nlei,nldj:nlej,:)' ELSE ; ishape(1:3)=SHAPE(pv_r3d(1 :nlci,1 :nlcj,:)) ; ctmp1='d(1:nlci,1:nlcj,:)' ENDIF ENDIF ENDIF DO jl = 1, irankpv WRITE( ctmp2, FMT="(', ', i1,'): ', i5,' /= icnt(', i1,'):', i5)" ) jl, ishape(jl), jl, icnt(jl) IF( ishape(jl) /= icnt(jl) ) CALL ctl_stop( TRIM(clinfo), 'size(pv_r'//clrankpv//TRIM(ctmp1)//TRIM(ctmp2) ) END DO ENDIF ! read the data !- IF( idvar > 0 .AND. istop == nstop ) THEN ! no additional errors until this point... ! ! find the right index of the array to be read ! JMM + SM: ugly patch before getting the new version of lib_mpp) ! IF( idom /= jpdom_unknown ) THEN ; ix1 = nldi ; ix2 = nlei ; iy1 = nldj ; iy2 = nlej ! ELSE ; ix1 = 1 ; ix2 = icnt(1) ; iy1 = 1 ; iy2 = icnt(2) ! ENDIF IF( llnoov ) THEN IF( idom /= jpdom_unknown ) THEN ; ix1 = nldi ; ix2 = nlei ; iy1 = nldj ; iy2 = nlej ELSE ; ix1 = 1 ; ix2 = icnt(1) ; iy1 = 1 ; iy2 = icnt(2) ENDIF ELSE IF( idom /= jpdom_unknown ) THEN ; ix1 = 1 ; ix2 = nlci ; iy1 = 1 ; iy2 = nlcj ELSE ; ix1 = 1 ; ix2 = icnt(1) ; iy1 = 1 ; iy2 = icnt(2) ENDIF ENDIF SELECT CASE (iom_file(kiomid)%iolib) CASE (jpioipsl ) ; CALL iom_ioipsl_get( kiomid, idvar, inbdim, istart, icnt, ix1, ix2, iy1, iy2, & & pv_r1d, pv_r2d, pv_r3d ) CASE (jpnf90 ) ; CALL iom_nf90_get( kiomid, idvar, inbdim, istart, icnt, ix1, ix2, iy1, iy2, & & pv_r1d, pv_r2d, pv_r3d ) CASE (jprstdimg) ; CALL iom_rstdimg_get( kiomid, idom, idvar, ix1, ix2, iy1, iy2, & & pv_r1d, pv_r2d, pv_r3d ) CASE DEFAULT CALL ctl_stop( TRIM(clinfo)//' accepted IO library are only jpioipsl, jpnf90 and jprstdimg' ) END SELECT IF( istop == nstop ) THEN ! no additional errors until this point... IF(lwp) WRITE(numout,"(10x,' read ',a,' (rec: ',i6,') in ',a,' ok')") TRIM(cdvar), itime, TRIM(iom_file(kiomid)%name) !--- overlap areas and extra hallows (mpp) IF( PRESENT(pv_r2d) .AND. idom /= jpdom_unknown ) THEN CALL lbc_lnk( pv_r2d,'Z',-999.,'no0' ) ELSEIF( PRESENT(pv_r3d) .AND. idom /= jpdom_unknown ) THEN ! this if could be simplified with the new lbc_lnk that works with any size of the 3rd dimension IF( icnt(3) == jpk ) THEN CALL lbc_lnk( pv_r3d,'Z',-999.,'no0' ) ELSE ! put some arbitrary value (a call to lbc_lnk will be done later...) DO jj = nlcj+1, jpj ; pv_r3d(1:nlci, jj, :) = pv_r3d(1:nlci, nlej, :) ; END DO DO ji = nlci+1, jpi ; pv_r3d(ji , : , :) = pv_r3d(nlei , : , :) ; END DO ENDIF ENDIF ! C1D case : always call lbc_lnk to replicate the central value over the whole 3X3 domain IF( lk_c1d .AND. PRESENT(pv_r2d) ) CALL lbc_lnk( pv_r2d,'Z',1. ) IF( lk_c1d .AND. PRESENT(pv_r3d) ) CALL lbc_lnk( pv_r3d,'Z',1. ) !--- Apply scale_factor and offset zscf = iom_file(kiomid)%scf(idvar) ! scale factor zofs = iom_file(kiomid)%ofs(idvar) ! offset IF( PRESENT(pv_r1d) ) THEN IF( zscf /= 1. ) pv_r1d(:) = pv_r1d(:) * zscf IF( zofs /= 0. ) pv_r1d(:) = pv_r1d(:) + zofs ELSEIF( PRESENT(pv_r2d) ) THEN !CDIR COLLAPSE IF( zscf /= 1.) pv_r2d(:,:) = pv_r2d(:,:) * zscf !CDIR COLLAPSE IF( zofs /= 0.) pv_r2d(:,:) = pv_r2d(:,:) + zofs ELSEIF( PRESENT(pv_r3d) ) THEN !CDIR COLLAPSE IF( zscf /= 1.) pv_r3d(:,:,:) = pv_r3d(:,:,:) * zscf !CDIR COLLAPSE IF( zofs /= 0.) pv_r3d(:,:,:) = pv_r3d(:,:,:) + zofs ENDIF ! ENDIF ! ENDIF ! END SUBROUTINE iom_get_123d SUBROUTINE iom_gettime( kiomid, ptime, cdvar, kntime, cdunits, cdcalendar ) !!-------------------------------------------------------------------- !! *** SUBROUTINE iom_gettime *** !! !! ** Purpose : read the time axis cdvar in the file !!-------------------------------------------------------------------- INTEGER , INTENT(in ) :: kiomid ! file Identifier REAL(wp), DIMENSION(:) , INTENT( out) :: ptime ! the time axis CHARACTER(len=*), OPTIONAL , INTENT(in ) :: cdvar ! time axis name INTEGER , OPTIONAL , INTENT( out) :: kntime ! number of times in file CHARACTER(len=*), OPTIONAL , INTENT( out) :: cdunits ! units attribute of time coordinate CHARACTER(len=*), OPTIONAL , INTENT( out) :: cdcalendar ! calendar attribute of ! INTEGER, DIMENSION(1) :: kdimsz INTEGER :: idvar ! id of the variable CHARACTER(LEN=32) :: tname ! local name of time coordinate CHARACTER(LEN=100) :: clinfo ! info character !--------------------------------------------------------------------- ! IF ( PRESENT(cdvar) ) THEN tname = cdvar ELSE tname = iom_file(kiomid)%uldname ENDIF IF( kiomid > 0 ) THEN clinfo = 'iom_gettime, file: '//trim(iom_file(kiomid)%name)//', var: '//trim(tname) IF ( PRESENT(kntime) ) THEN idvar = iom_varid( kiomid, tname, kdimsz = kdimsz ) kntime = kdimsz(1) ELSE idvar = iom_varid( kiomid, tname ) ENDIF ! ptime(:) = 0. ! default definition IF( idvar > 0 ) THEN IF( iom_file(kiomid)%ndims(idvar) == 1 ) THEN IF( iom_file(kiomid)%luld(idvar) ) THEN IF( iom_file(kiomid)%dimsz(1,idvar) <= size(ptime) ) THEN SELECT CASE (iom_file(kiomid)%iolib) CASE (jpioipsl ) ; CALL iom_ioipsl_gettime( kiomid, idvar, ptime, cdunits, cdcalendar ) CASE (jpnf90 ) ; CALL iom_nf90_gettime( kiomid, idvar, ptime, cdunits, cdcalendar ) CASE (jprstdimg) ; CALL ctl_stop( TRIM(clinfo)//' case IO library == jprstdimg not coded...' ) CASE DEFAULT CALL ctl_stop( TRIM(clinfo)//' accepted IO library are only jpioipsl, jpnf90 and jprstdimg' ) END SELECT ELSE WRITE(ctmp1,*) 'error with the size of ptime ',size(ptime),iom_file(kiomid)%dimsz(1,idvar) CALL ctl_stop( trim(clinfo), trim(ctmp1) ) ENDIF ELSE CALL ctl_stop( trim(clinfo), 'variable dimension is not unlimited... use iom_get' ) ENDIF ELSE CALL ctl_stop( trim(clinfo), 'the variable has more than 1 dimension' ) ENDIF ELSE CALL ctl_stop( trim(clinfo), 'variable not found in '//iom_file(kiomid)%name ) ENDIF ENDIF ! END SUBROUTINE iom_gettime !!---------------------------------------------------------------------- !! INTERFACE iom_getatt !!---------------------------------------------------------------------- SUBROUTINE iom_g0d_intatt( kiomid, cdatt, pvar ) INTEGER , INTENT(in ) :: kiomid ! Identifier of the file CHARACTER(len=*), INTENT(in ) :: cdatt ! Name of the attribute INTEGER , INTENT( out) :: pvar ! read field ! IF( kiomid > 0 ) THEN IF( iom_file(kiomid)%nfid > 0 ) THEN SELECT CASE (iom_file(kiomid)%iolib) CASE (jpioipsl ) ; CALL ctl_stop('iom_getatt: only nf90 available') CASE (jpnf90 ) ; CALL iom_nf90_getatt( kiomid, cdatt, pvar ) CASE (jprstdimg) ; CALL ctl_stop('iom_getatt: only nf90 available') CASE DEFAULT CALL ctl_stop( 'iom_g0d_att: accepted IO library are only jpioipsl, jpnf90 and jprstdimg' ) END SELECT ENDIF ENDIF END SUBROUTINE iom_g0d_intatt !!---------------------------------------------------------------------- !! INTERFACE iom_rstput !!---------------------------------------------------------------------- SUBROUTINE iom_rp0d( kt, kwrite, kiomid, cdvar, pvar, ktype ) INTEGER , INTENT(in) :: kt ! ocean time-step INTEGER , INTENT(in) :: kwrite ! writing time-step INTEGER , INTENT(in) :: kiomid ! Identifier of the file CHARACTER(len=*), INTENT(in) :: cdvar ! time axis name REAL(wp) , INTENT(in) :: pvar ! written field INTEGER , INTENT(in), OPTIONAL :: ktype ! variable external type INTEGER :: ivid ! variable id IF( kiomid > 0 ) THEN IF( iom_file(kiomid)%nfid > 0 ) THEN ivid = iom_varid( kiomid, cdvar, ldstop = .FALSE. ) SELECT CASE (iom_file(kiomid)%iolib) CASE (jpioipsl ) ; CALL iom_ioipsl_rstput( kt, kwrite, kiomid, cdvar, ivid, ktype, pv_r0d = pvar ) CASE (jpnf90 ) ; CALL iom_nf90_rstput( kt, kwrite, kiomid, cdvar, ivid, ktype, pv_r0d = pvar ) CASE (jprstdimg) ; IF( kt == kwrite ) CALL iom_rstdimg_rstput( kiomid, cdvar, ivid, pvar ) CASE DEFAULT CALL ctl_stop( 'iom_rp0d: accepted IO library are only jpioipsl, jpnf90 and jprstdimg' ) END SELECT ENDIF ENDIF END SUBROUTINE iom_rp0d SUBROUTINE iom_rp1d( kt, kwrite, kiomid, cdvar, pvar, ktype ) INTEGER , INTENT(in) :: kt ! ocean time-step INTEGER , INTENT(in) :: kwrite ! writing time-step INTEGER , INTENT(in) :: kiomid ! Identifier of the file CHARACTER(len=*), INTENT(in) :: cdvar ! time axis name REAL(wp) , INTENT(in), DIMENSION( :) :: pvar ! written field INTEGER , INTENT(in), OPTIONAL :: ktype ! variable external type INTEGER :: ivid ! variable id IF( kiomid > 0 ) THEN IF( iom_file(kiomid)%nfid > 0 ) THEN ivid = iom_varid( kiomid, cdvar, ldstop = .FALSE. ) SELECT CASE (iom_file(kiomid)%iolib) CASE (jpioipsl ) ; CALL iom_ioipsl_rstput( kt, kwrite, kiomid, cdvar, ivid, ktype, pv_r1d = pvar ) CASE (jpnf90 ) ; CALL iom_nf90_rstput( kt, kwrite, kiomid, cdvar, ivid, ktype, pv_r1d = pvar ) CASE (jprstdimg) ; IF( kt == kwrite ) CALL iom_rstdimg_rstput( kiomid, cdvar, ivid, pv_r1d = pvar ) CASE DEFAULT CALL ctl_stop( 'iom_rp1d: accepted IO library are only jpioipsl, jpnf90 and jprstdimg' ) END SELECT ENDIF ENDIF END SUBROUTINE iom_rp1d SUBROUTINE iom_rp2d( kt, kwrite, kiomid, cdvar, pvar, ktype ) INTEGER , INTENT(in) :: kt ! ocean time-step INTEGER , INTENT(in) :: kwrite ! writing time-step INTEGER , INTENT(in) :: kiomid ! Identifier of the file CHARACTER(len=*), INTENT(in) :: cdvar ! time axis name REAL(wp) , INTENT(in), DIMENSION(:, : ) :: pvar ! written field INTEGER , INTENT(in), OPTIONAL :: ktype ! variable external type INTEGER :: ivid ! variable id IF( kiomid > 0 ) THEN IF( iom_file(kiomid)%nfid > 0 ) THEN ivid = iom_varid( kiomid, cdvar, ldstop = .FALSE. ) SELECT CASE (iom_file(kiomid)%iolib) CASE (jpioipsl ) ; CALL iom_ioipsl_rstput( kt, kwrite, kiomid, cdvar, ivid, ktype, pv_r2d = pvar ) CASE (jpnf90 ) ; CALL iom_nf90_rstput( kt, kwrite, kiomid, cdvar, ivid, ktype, pv_r2d = pvar ) CASE (jprstdimg) ; IF( kt == kwrite ) CALL iom_rstdimg_rstput( kiomid, cdvar, ivid, pv_r2d = pvar ) CASE DEFAULT CALL ctl_stop( 'iom_rp2d: accepted IO library are only jpioipsl, jpnf90 and jprstdimg' ) END SELECT ENDIF ENDIF END SUBROUTINE iom_rp2d SUBROUTINE iom_rp3d( kt, kwrite, kiomid, cdvar, pvar, ktype ) INTEGER , INTENT(in) :: kt ! ocean time-step INTEGER , INTENT(in) :: kwrite ! writing time-step INTEGER , INTENT(in) :: kiomid ! Identifier of the file CHARACTER(len=*), INTENT(in) :: cdvar ! time axis name REAL(wp) , INTENT(in), DIMENSION(:,:,:) :: pvar ! written field INTEGER , INTENT(in), OPTIONAL :: ktype ! variable external type INTEGER :: ivid ! variable id IF( kiomid > 0 ) THEN IF( iom_file(kiomid)%nfid > 0 ) THEN ivid = iom_varid( kiomid, cdvar, ldstop = .FALSE. ) SELECT CASE (iom_file(kiomid)%iolib) CASE (jpioipsl ) ; CALL iom_ioipsl_rstput( kt, kwrite, kiomid, cdvar, ivid, ktype, pv_r3d = pvar ) CASE (jpnf90 ) ; CALL iom_nf90_rstput( kt, kwrite, kiomid, cdvar, ivid, ktype, pv_r3d = pvar ) CASE (jprstdimg) ; IF( kt == kwrite ) CALL iom_rstdimg_rstput( kiomid, cdvar, ivid, pv_r3d = pvar ) CASE DEFAULT CALL ctl_stop( 'iom_rp3d: accepted IO library are only jpioipsl and jprstdimg' ) END SELECT ENDIF ENDIF END SUBROUTINE iom_rp3d !!---------------------------------------------------------------------- !! INTERFACE iom_put !!---------------------------------------------------------------------- SUBROUTINE iom_p0d( cdname, pfield0d ) CHARACTER(LEN=*), INTENT(in) :: cdname REAL(wp) , INTENT(in) :: pfield0d REAL(wp) , DIMENSION(jpi,jpj) :: zz ! masson #if defined key_iomput zz(:,:)=pfield0d CALL xios_send_field(cdname, zz) !CALL xios_send_field(cdname, (/pfield0d/)) #else IF( .FALSE. ) WRITE(numout,*) cdname, pfield0d ! useless test to avoid compilation warnings #endif END SUBROUTINE iom_p0d SUBROUTINE iom_p1d( cdname, pfield1d ) CHARACTER(LEN=*) , INTENT(in) :: cdname REAL(wp), DIMENSION(:), INTENT(in) :: pfield1d #if defined key_iomput CALL xios_send_field( cdname, RESHAPE( (/pfield1d/), (/1,1,SIZE(pfield1d)/) ) ) #else IF( .FALSE. ) WRITE(numout,*) cdname, pfield1d ! useless test to avoid compilation warnings #endif END SUBROUTINE iom_p1d SUBROUTINE iom_p2d( cdname, pfield2d ) CHARACTER(LEN=*) , INTENT(in) :: cdname REAL(wp), DIMENSION(:,:), INTENT(in) :: pfield2d #if defined key_iomput CALL xios_send_field(cdname, pfield2d) #else IF( .FALSE. ) WRITE(numout,*) cdname, pfield2d ! useless test to avoid compilation warnings #endif END SUBROUTINE iom_p2d SUBROUTINE iom_p3d( cdname, pfield3d ) CHARACTER(LEN=*) , INTENT(in) :: cdname REAL(wp), DIMENSION(:,:,:), INTENT(in) :: pfield3d #if defined key_iomput CALL xios_send_field(cdname, pfield3d) #else IF( .FALSE. ) WRITE(numout,*) cdname, pfield3d ! useless test to avoid compilation warnings #endif END SUBROUTINE iom_p3d SUBROUTINE iom_p4d( cdname, pfield4d ) CHARACTER(LEN=*) , INTENT(in) :: cdname REAL(wp), DIMENSION(:,:,:,:), INTENT(in) :: pfield4d #if defined key_iomput CALL xios_send_field(cdname, pfield4d) #else IF( .FALSE. ) WRITE(numout,*) cdname, pfield4d ! useless test to avoid compilation warnings #endif END SUBROUTINE iom_p4d !!---------------------------------------------------------------------- #if defined key_iomput SUBROUTINE iom_set_domain_attr( cdid, ni_glo, nj_glo, ibegin, jbegin, ni, nj, zoom_ibegin, zoom_jbegin, zoom_ni, zoom_nj, & & data_dim, data_ibegin, data_ni, data_jbegin, data_nj, lonvalue, latvalue, mask, & & nvertex, bounds_lon, bounds_lat, area ) CHARACTER(LEN=*) , INTENT(in) :: cdid INTEGER , OPTIONAL, INTENT(in) :: ni_glo, nj_glo, ibegin, jbegin, ni, nj INTEGER , OPTIONAL, INTENT(in) :: data_dim, data_ibegin, data_ni, data_jbegin, data_nj INTEGER , OPTIONAL, INTENT(in) :: zoom_ibegin, zoom_jbegin, zoom_ni, zoom_nj, nvertex REAL(wp), DIMENSION(:) , OPTIONAL, INTENT(in) :: lonvalue, latvalue REAL(wp), DIMENSION(:,:) , OPTIONAL, INTENT(in) :: bounds_lon, bounds_lat, area #if ! defined key_xios2 LOGICAL, DIMENSION(:,:) , OPTIONAL, INTENT(in) :: mask #else LOGICAL, DIMENSION(:) , OPTIONAL, INTENT(in) :: mask #endif #if ! defined key_xios2 IF ( xios_is_valid_domain (cdid) ) THEN CALL xios_set_domain_attr ( cdid, ni_glo=ni_glo, nj_glo=nj_glo, ibegin=ibegin, jbegin=jbegin, ni=ni, nj=nj, & & data_dim=data_dim, data_ibegin=data_ibegin, data_ni=data_ni, data_jbegin=data_jbegin, data_nj=data_nj , & & zoom_ibegin=zoom_ibegin, zoom_jbegin=zoom_jbegin, zoom_ni=zoom_ni, zoom_nj=zoom_nj, & & lonvalue=lonvalue, latvalue=latvalue, mask=mask, nvertex=nvertex, bounds_lon=bounds_lon, & & bounds_lat=bounds_lat, area=area ) ENDIF IF ( xios_is_valid_domaingroup(cdid) ) THEN CALL xios_set_domaingroup_attr( cdid, ni_glo=ni_glo, nj_glo=nj_glo, ibegin=ibegin, jbegin=jbegin, ni=ni, nj=nj, & & data_dim=data_dim, data_ibegin=data_ibegin, data_ni=data_ni, data_jbegin=data_jbegin, data_nj=data_nj , & & zoom_ibegin=zoom_ibegin, zoom_jbegin=zoom_jbegin, zoom_ni=zoom_ni, zoom_nj=zoom_nj, & & lonvalue=lonvalue, latvalue=latvalue, mask=mask, nvertex=nvertex, bounds_lon=bounds_lon, & & bounds_lat=bounds_lat, area=area ) ENDIF #else IF ( xios_is_valid_domain (cdid) ) THEN CALL xios_set_domain_attr ( cdid, ni_glo=ni_glo, nj_glo=nj_glo, ibegin=ibegin, jbegin=jbegin, ni=ni, nj=nj, & & data_dim=data_dim, data_ibegin=data_ibegin, data_ni=data_ni, data_jbegin=data_jbegin, data_nj=data_nj , & & lonvalue_1D=lonvalue, latvalue_1D=latvalue, mask_1D=mask, nvertex=nvertex, bounds_lon_1D=bounds_lon, & & bounds_lat_1D=bounds_lat, area=area, type='curvilinear') ENDIF IF ( xios_is_valid_domaingroup(cdid) ) THEN CALL xios_set_domaingroup_attr( cdid, ni_glo=ni_glo, nj_glo=nj_glo, ibegin=ibegin, jbegin=jbegin, ni=ni, nj=nj, & & data_dim=data_dim, data_ibegin=data_ibegin, data_ni=data_ni, data_jbegin=data_jbegin, data_nj=data_nj , & & lonvalue_1D=lonvalue, latvalue_1D=latvalue, mask_1D=mask, nvertex=nvertex, bounds_lon_1D=bounds_lon, & & bounds_lat_1D=bounds_lat, area=area, type='curvilinear' ) ENDIF #endif CALL xios_solve_inheritance() END SUBROUTINE iom_set_domain_attr #if defined key_xios2 SUBROUTINE iom_set_zoom_domain_attr( cdid, ibegin, jbegin, ni, nj) CHARACTER(LEN=*) , INTENT(in) :: cdid INTEGER , OPTIONAL, INTENT(in) :: ibegin, jbegin, ni, nj IF ( xios_is_valid_zoom_domain (cdid) ) THEN CALL xios_set_zoom_domain_attr ( cdid, ibegin=ibegin, jbegin=jbegin, ni=ni, & & nj=nj) ENDIF END SUBROUTINE iom_set_zoom_domain_attr #endif SUBROUTINE iom_set_axis_attr( cdid, paxis, bounds ) CHARACTER(LEN=*) , INTENT(in) :: cdid REAL(wp), DIMENSION(:) , OPTIONAL, INTENT(in) :: paxis REAL(wp), DIMENSION(:,:) , OPTIONAL, INTENT(in) :: bounds IF ( PRESENT(paxis) ) THEN #if ! defined key_xios2 IF ( xios_is_valid_axis (cdid) ) CALL xios_set_axis_attr ( cdid, size=SIZE(paxis), value=paxis ) IF ( xios_is_valid_axisgroup(cdid) ) CALL xios_set_axisgroup_attr( cdid, size=SIZE(paxis), value=paxis ) #else IF ( xios_is_valid_axis (cdid) ) CALL xios_set_axis_attr ( cdid, n_glo=SIZE(paxis), value=paxis ) IF ( xios_is_valid_axisgroup(cdid) ) CALL xios_set_axisgroup_attr( cdid, n_glo=SIZE(paxis), value=paxis ) #endif ENDIF IF ( xios_is_valid_axis (cdid) ) CALL xios_set_axis_attr ( cdid, bounds=bounds ) IF ( xios_is_valid_axisgroup(cdid) ) CALL xios_set_axisgroup_attr( cdid, bounds=bounds ) CALL xios_solve_inheritance() END SUBROUTINE iom_set_axis_attr SUBROUTINE iom_set_field_attr( cdid, freq_op, freq_offset ) CHARACTER(LEN=*) , INTENT(in) :: cdid #if ! defined key_xios2 CHARACTER(LEN=*) ,OPTIONAL , INTENT(in) :: freq_op CHARACTER(LEN=*) ,OPTIONAL , INTENT(in) :: freq_offset #else TYPE(xios_duration),OPTIONAL , INTENT(in) :: freq_op TYPE(xios_duration),OPTIONAL , INTENT(in) :: freq_offset #endif IF ( xios_is_valid_field (cdid) ) CALL xios_set_field_attr & & ( cdid, freq_op=freq_op, freq_offset=freq_offset ) IF ( xios_is_valid_fieldgroup(cdid) ) CALL xios_set_fieldgroup_attr & & ( cdid, freq_op=freq_op, freq_offset=freq_offset ) CALL xios_solve_inheritance() END SUBROUTINE iom_set_field_attr SUBROUTINE iom_set_file_attr( cdid, name, name_suffix ) CHARACTER(LEN=*) , INTENT(in) :: cdid CHARACTER(LEN=*),OPTIONAL , INTENT(in) :: name, name_suffix IF ( xios_is_valid_file (cdid) ) CALL xios_set_file_attr ( cdid, name=name, name_suffix=name_suffix ) IF ( xios_is_valid_filegroup(cdid) ) CALL xios_set_filegroup_attr( cdid, name=name, name_suffix=name_suffix ) CALL xios_solve_inheritance() END SUBROUTINE iom_set_file_attr SUBROUTINE iom_get_file_attr( cdid, name, name_suffix, output_freq ) CHARACTER(LEN=*) , INTENT(in ) :: cdid CHARACTER(LEN=*),OPTIONAL , INTENT(out) :: name, name_suffix #if ! defined key_xios2 CHARACTER(LEN=*),OPTIONAL , INTENT(out) :: output_freq #else TYPE(xios_duration) ,OPTIONAL , INTENT(out) :: output_freq #endif LOGICAL :: llexist1,llexist2,llexist3 !--------------------------------------------------------------------- IF( PRESENT( name ) ) name = '' ! default values IF( PRESENT( name_suffix ) ) name_suffix = '' #if ! defined key_xios2 IF( PRESENT( output_freq ) ) output_freq = '' #else IF( PRESENT( output_freq ) ) output_freq = xios_duration(0,0,0,0,0,0) #endif IF ( xios_is_valid_file (cdid) ) THEN CALL xios_solve_inheritance() CALL xios_is_defined_file_attr ( cdid, name = llexist1, name_suffix = llexist2, output_freq = llexist3) IF(llexist1) CALL xios_get_file_attr ( cdid, name = name ) IF(llexist2) CALL xios_get_file_attr ( cdid, name_suffix = name_suffix ) IF(llexist3) CALL xios_get_file_attr ( cdid, output_freq = output_freq ) ENDIF IF ( xios_is_valid_filegroup(cdid) ) THEN CALL xios_solve_inheritance() CALL xios_is_defined_filegroup_attr( cdid, name = llexist1, name_suffix = llexist2, output_freq = llexist3) IF(llexist1) CALL xios_get_filegroup_attr( cdid, name = name ) IF(llexist2) CALL xios_get_filegroup_attr( cdid, name_suffix = name_suffix ) IF(llexist3) CALL xios_get_filegroup_attr( cdid, output_freq = output_freq ) ENDIF END SUBROUTINE iom_get_file_attr SUBROUTINE iom_set_grid_attr( cdid, mask ) CHARACTER(LEN=*) , INTENT(in) :: cdid LOGICAL, DIMENSION(:,:,:), OPTIONAL, INTENT(in) :: mask #if ! defined key_xios2 IF ( xios_is_valid_grid (cdid) ) CALL xios_set_grid_attr ( cdid, mask=mask ) IF ( xios_is_valid_gridgroup(cdid) ) CALL xios_set_gridgroup_attr( cdid, mask=mask ) #else IF ( xios_is_valid_grid (cdid) ) CALL xios_set_grid_attr ( cdid, mask_3D=mask ) IF ( xios_is_valid_gridgroup(cdid) ) CALL xios_set_gridgroup_attr( cdid, mask_3D=mask ) #endif CALL xios_solve_inheritance() END SUBROUTINE iom_set_grid_attr SUBROUTINE iom_setkt( kt, cdname ) INTEGER , INTENT(in) :: kt CHARACTER(LEN=*), INTENT(in) :: cdname ! CALL iom_swap( cdname ) ! swap to cdname context CALL xios_update_calendar(kt) IF( .NOT. ll_noland .AND. .NOT. using_xios_coordinates ) CALL dom_xios_write_coordinates IF( cdname /= TRIM(cxios_context) ) CALL iom_swap( TRIM(cxios_context) ) ! return back to nemo context ! END SUBROUTINE iom_setkt SUBROUTINE iom_context_finalize( cdname ) CHARACTER(LEN=*), INTENT(in) :: cdname ! IF( xios_is_valid_context(cdname) ) THEN CALL iom_swap( cdname ) ! swap to cdname context CALL xios_context_finalize() ! finalize the context IF( cdname /= TRIM(cxios_context) ) CALL iom_swap( TRIM(cxios_context) ) ! return back to nemo context ENDIF ! END SUBROUTINE iom_context_finalize SUBROUTINE set_grid_xios( grid_name, lon, lat, bounds_lon, bounds_lat, area, mask ) CHARACTER(LEN=*) , INTENT(in) :: grid_name REAL(wp), DIMENSION(n_ni,n_nj) , INTENT(in) :: lon REAL(wp), DIMENSION(n_ni,n_nj) , INTENT(in) :: lat REAL(wp), DIMENSION(4,n_ni,n_nj) , INTENT(in) :: bounds_lon REAL(wp), DIMENSION(4,n_ni,n_nj) , INTENT(in) :: bounds_lat REAL(wp), DIMENSION(n_ni,n_nj) , INTENT(in) :: area LOGICAL, DIMENSION(n_ni,n_nj,jpk), INTENT(in) :: mask #if ! defined key_xios2 CALL iom_set_domain_attr(grid_name, ni_glo=jpiglo, nj_glo=jpjglo, ibegin=n_ibegin, jbegin=n_jbegin, ni=n_ni, nj=n_nj) #else CALL iom_set_domain_attr(grid_name, ni_glo=jpiglo, nj_glo=jpjglo, ibegin=n_ibegin-1, jbegin=n_jbegin-1, ni=n_ni, nj=n_nj) #endif CALL iom_set_domain_attr(grid_name, data_dim=2, data_ibegin=n_data_ibegin, data_ni=n_data_ni, data_jbegin=n_data_jbegin, data_nj=n_data_nj) CALL iom_set_domain_attr(grid_name, latvalue=RESHAPE(lat,(/ n_ni*n_nj /)), lonvalue=RESHAPE(lon,(/ n_ni*n_nj /))) CALL iom_set_domain_attr(grid_name, bounds_lat=RESHAPE(bounds_lat,(/ 4,n_ni*n_nj /)), bounds_lon=RESHAPE(bounds_lon,(/ 4,n_ni*n_nj /))) CALL iom_set_domain_attr(grid_name, nvertex=4, area=area) ! Axis distribution needed for reduction of grid_U IF( grid_name .EQ. "grid_U" ) THEN IF ( xios_is_valid_axis ("cumul_U")) THEN CALL xios_set_axis_attr( "cumul_U", n=n_ni) CALL xios_set_axis_attr( "cumul_U", begin=n_ibegin-1) ENDIF ENDIF IF( ln_mskland ) THEN ! mask land points, keep values on coast line -> specific mask for U, V and W points #if ! defined key_xios2 CALL iom_set_domain_attr(grid_name, mask=mask(:,:,1)) #else CALL iom_set_domain_attr(grid_name, mask=RESHAPE(mask(:,:,1),(/ n_ni*n_nj /))) #endif CALL iom_set_grid_attr(grid_name//"_3D", mask) ENDIF END SUBROUTINE set_grid_xios SUBROUTINE set_grid( cdgrd, plon, plat, pmask ) !!---------------------------------------------------------------------- !! *** ROUTINE set_grid *** !! !! ** Purpose : define horizontal grids !! !!---------------------------------------------------------------------- CHARACTER(LEN=1) , INTENT(in) :: cdgrd REAL(wp), DIMENSION(jpi,jpj) , INTENT(in) :: plon REAL(wp), DIMENSION(jpi,jpj) , INTENT(in) :: plat REAL(wp), DIMENSION(jpi,jpj,jpk), INTENT(in) :: pmask ! INTEGER :: ni,nj ni=nlei-nldi+1 ; nj=nlej-nldj+1 #if ! defined key_xios2 CALL iom_set_domain_attr("grid_"//cdgrd, ni_glo=jpiglo, nj_glo=jpjglo, ibegin=nimpp+nldi-1, jbegin=njmpp+nldj-1, ni=ni, nj=nj) #else CALL iom_set_domain_attr("grid_"//cdgrd, ni_glo=jpiglo, nj_glo=jpjglo, ibegin=nimpp+nldi-2, jbegin=njmpp+nldj-2, ni=ni, nj=nj) #endif CALL iom_set_domain_attr("grid_"//cdgrd, data_dim=2, data_ibegin = 1-nldi, data_ni = jpi, data_jbegin = 1-nldj, data_nj = jpj) CALL iom_set_domain_attr("grid_"//cdgrd, lonvalue = RESHAPE(plon(nldi:nlei, nldj:nlej),(/ ni*nj /)), & & latvalue = RESHAPE(plat(nldi:nlei, nldj:nlej),(/ ni*nj /))) ! Axis distribution needed for reduction of grid_U IF( cdgrd .EQ. "U" ) THEN IF ( xios_is_valid_axis ("cumul_U")) THEN CALL xios_set_axis_attr( "cumul_U", n=ni) CALL xios_set_axis_attr( "cumul_U", begin=nimpp+nldi-2) ENDIF ENDIF IF ( ln_mskland ) THEN ! #if ! defined key_xios2 CALL iom_set_domain_attr( "grid_"//cdgrd , mask = RESHAPE(pmask(nldi:nlei,nldj:nlej,1),(/ni,nj /)) /= 0. ) #else CALL iom_set_domain_attr( "grid_"//cdgrd , mask = RESHAPE(pmask(nldi:nlei,nldj:nlej,1),(/ni*nj /)) /= 0. ) #endif CALL iom_set_grid_attr ( "grid_"//cdgrd//"_3D", mask = RESHAPE(pmask(nldi:nlei,nldj:nlej,:),(/ni,nj,jpk/)) /= 0. ) ENDIF END SUBROUTINE set_grid SUBROUTINE set_grid_bounds( cdgrd, plon_cnr, plat_cnr, plon_pnt, plat_pnt ) !!---------------------------------------------------------------------- !! *** ROUTINE set_grid_bounds *** !! !! ** Purpose : define horizontal grid corners !! !!---------------------------------------------------------------------- CHARACTER(LEN=1) , INTENT(in) :: cdgrd ! REAL(wp), DIMENSION(jpi,jpj), INTENT(in) :: plon_cnr, plat_cnr ! Lat/lon coordinates of a contiguous vertex of cell (i,j) REAL(wp), DIMENSION(jpi,jpj), OPTIONAL, INTENT(in) :: plon_pnt, plat_pnt ! Lat/lon coordinates of the point of cell (i,j) ! REAL(wp), ALLOCATABLE, DIMENSION(:,:,:,:) :: z_bnds ! Lat/lon coordinates of the vertices of cell (i,j) REAL(wp), ALLOCATABLE, DIMENSION(:,:) :: z_fld ! Working array to determine where to rotate cells REAL(wp), ALLOCATABLE, DIMENSION(:,:) :: z_rot ! Lat/lon working array for rotation of cells ! INTEGER :: icnr, jcnr ! Offset such that the vertex coordinate (i+icnr,j+jcnr) ! ! represents the bottom-left corner of cell (i,j) INTEGER :: ji, jj, jn, ni, nj ALLOCATE( z_bnds(4,jpi,jpj,2), z_fld(jpi,jpj), z_rot(4,2) ) ! Offset of coordinate representing bottom-left corner SELECT CASE ( TRIM(cdgrd) ) CASE ('T', 'W') icnr = -1 ; jcnr = -1 CASE ('U') icnr = 0 ; jcnr = -1 CASE ('V') icnr = -1 ; jcnr = 0 END SELECT ni = nlei-nldi+1 ; nj = nlej-nldj+1 ! Dimensions of subdomain interior z_fld(:,:) = 1._wp CALL lbc_lnk( z_fld, cdgrd, -1. ) ! Working array for location of northfold ! Cell vertices that can be defined DO jj = 2, jpjm1 DO ji = 2, jpim1 z_bnds(1,ji,jj,1) = plat_cnr(ji+icnr, jj+jcnr ) ! Bottom-left z_bnds(2,ji,jj,1) = plat_cnr(ji+icnr+1,jj+jcnr ) ! Bottom-right z_bnds(3,ji,jj,1) = plat_cnr(ji+icnr+1,jj+jcnr+1) ! Top-right z_bnds(4,ji,jj,1) = plat_cnr(ji+icnr, jj+jcnr+1) ! Top-left z_bnds(1,ji,jj,2) = plon_cnr(ji+icnr, jj+jcnr ) ! Bottom-left z_bnds(2,ji,jj,2) = plon_cnr(ji+icnr+1,jj+jcnr ) ! Bottom-right z_bnds(3,ji,jj,2) = plon_cnr(ji+icnr+1,jj+jcnr+1) ! Top-right z_bnds(4,ji,jj,2) = plon_cnr(ji+icnr, jj+jcnr+1) ! Top-left END DO END DO ! Cell vertices on boundries DO jn = 1, 4 CALL lbc_lnk( z_bnds(jn,:,:,1), cdgrd, 1., pval=999._wp ) CALL lbc_lnk( z_bnds(jn,:,:,2), cdgrd, 1., pval=999._wp ) END DO ! Zero-size cells at closed boundaries if cell points provided, ! otherwise they are closed cells with unrealistic bounds IF( PRESENT(plon_pnt) .AND. PRESENT(plat_pnt) ) THEN IF( (nbondi == -1 .OR. nbondi == 2) .AND. .NOT. (jperio == 1 .OR. jperio == 4 .OR. jperio == 6) ) THEN DO jn = 1, 4 ! (West or jpni = 1), closed E-W z_bnds(jn,1,:,1) = plat_pnt(1,:) ; z_bnds(jn,1,:,2) = plon_pnt(1,:) END DO ENDIF IF( (nbondi == 1 .OR. nbondi == 2) .AND. .NOT. (jperio == 1 .OR. jperio == 4 .OR. jperio == 6) ) THEN DO jn = 1, 4 ! (East or jpni = 1), closed E-W z_bnds(jn,nlci,:,1) = plat_pnt(nlci,:) ; z_bnds(jn,nlci,:,2) = plon_pnt(nlci,:) END DO ENDIF IF( nbondj == -1 .OR. (nbondj == 2 .AND. jperio /= 2) ) THEN DO jn = 1, 4 ! South or (jpnj = 1, not symmetric) z_bnds(jn,:,1,1) = plat_pnt(:,1) ; z_bnds(jn,:,1,2) = plon_pnt(:,1) END DO ENDIF IF( (nbondj == 1 .OR. nbondj == 2) .AND. jperio < 3 ) THEN DO jn = 1, 4 ! (North or jpnj = 1), no north fold z_bnds(jn,:,nlcj,1) = plat_pnt(:,nlcj) ; z_bnds(jn,:,nlcj,2) = plon_pnt(:,nlcj) END DO ENDIF ENDIF ! Rotate cells at the north fold IF( (nbondj == 1 .OR. nbondj == 2) .AND. jperio >= 3 ) THEN DO jj = 1, jpj DO ji = 1, jpi IF( z_fld(ji,jj) == -1. ) THEN z_rot(1,:) = z_bnds(3,ji,jj,:) ; z_rot(2,:) = z_bnds(4,ji,jj,:) z_rot(3,:) = z_bnds(1,ji,jj,:) ; z_rot(4,:) = z_bnds(2,ji,jj,:) z_bnds(:,ji,jj,:) = z_rot(:,:) ENDIF END DO END DO ! Invert cells at the symmetric equator ELSE IF( nbondj == 2 .AND. jperio == 2 ) THEN DO ji = 1, jpi z_rot(1:2,:) = z_bnds(3:4,ji,1,:) z_rot(3:4,:) = z_bnds(1:2,ji,1,:) z_bnds(:,ji,1,:) = z_rot(:,:) END DO ENDIF CALL iom_set_domain_attr("grid_"//cdgrd, bounds_lat = RESHAPE(z_bnds(:,nldi:nlei,nldj:nlej,1),(/ 4,ni*nj /)), & bounds_lon = RESHAPE(z_bnds(:,nldi:nlei,nldj:nlej,2),(/ 4,ni*nj /)), nvertex=4 ) DEALLOCATE( z_bnds, z_fld, z_rot ) END SUBROUTINE set_grid_bounds SUBROUTINE set_grid_znl( plat ) !!---------------------------------------------------------------------- !! *** ROUTINE set_grid_znl *** !! !! ** Purpose : define grids for zonal mean !! !!---------------------------------------------------------------------- REAL(wp), DIMENSION(jpi,jpj), INTENT(in) :: plat ! REAL(wp), DIMENSION(:), ALLOCATABLE :: zlon INTEGER :: ni,nj, ix, iy ni=nlei-nldi+1 ; nj=nlej-nldj+1 ! define zonal mean domain (jpj*jpk) ALLOCATE( zlon(ni*nj) ) ; zlon(:) = 0. CALL dom_ngb( 180., 90., ix, iy, 'T' ) ! i-line that passes near the North Pole : Reference latitude (used in plots) #if ! defined key_xios2 CALL iom_set_domain_attr("gznl", ni_glo=jpiglo, nj_glo=jpjglo, ibegin=nimpp+nldi-1, jbegin=njmpp+nldj-1, ni=ni, nj=nj) CALL iom_set_domain_attr("gznl", data_dim=2, data_ibegin = 1-nldi, data_ni = jpi, data_jbegin = 1-nldj, data_nj = jpj) CALL iom_set_domain_attr("gznl", lonvalue = zlon, & & latvalue = RESHAPE(plat(nldi:nlei, nldj:nlej),(/ ni*nj /))) ! CALL iom_set_domain_attr ('ptr', zoom_ibegin=ix, zoom_nj=jpjglo) #else ! Pas teste : attention aux indices ! CALL iom_set_domain_attr("gznl", ni_glo=jpiglo, nj_glo=jpjglo, ibegin=nimpp+nldi-2, jbegin=njmpp+nldj-2, ni=ni, nj=nj) CALL iom_set_domain_attr("gznl", data_dim=2, data_ibegin = 1-nldi, data_ni = jpi, data_jbegin = 1-nldj, data_nj = jpj) CALL iom_set_domain_attr("gznl", lonvalue = zlon, & & latvalue = RESHAPE(plat(nldi:nlei, nldj:nlej),(/ ni*nj /))) CALL iom_set_zoom_domain_attr ("ptr", ibegin=ix-1, jbegin=0, ni=1, nj=jpjglo) #endif CALL iom_update_file_name('ptr') ! END SUBROUTINE set_grid_znl SUBROUTINE set_grid_xios_znl( plat ) !!---------------------------------------------------------------------- !! *** ROUTINE set_grid_znl *** !! !! ** Purpose : define grids for zonal mean !! !!---------------------------------------------------------------------- REAL(wp), DIMENSION(n_ni,n_nj), INTENT(in) :: plat ! REAL(wp), DIMENSION(:), ALLOCATABLE :: zlon INTEGER :: ix, iy ALLOCATE( zlon(n_ni*n_nj) ) ; zlon(:) = 0. CALL dom_ngb( 180., 90., ix, iy, 'T' ) ! i-line that passes near the North Pole : Reference latitude (used in plots) #if defined key_xios2 ! Pas teste : attention aux indices ! CALL iom_set_domain_attr("gznl", ni_glo=jpiglo, nj_glo=jpjglo, ibegin=n_ibegin-1, jbegin=n_jbegin-1, ni=n_ni, nj=n_nj) CALL iom_set_domain_attr("gznl", data_dim=2, data_ibegin=n_data_ibegin, data_ni=n_data_ni, data_jbegin=n_data_jbegin, data_nj=n_data_nj) CALL iom_set_domain_attr("gznl", lonvalue = zlon, latvalue = RESHAPE( plat,(/n_ni*n_nj/) ) ) CALL iom_set_zoom_domain_attr ("ptr", ibegin=ix-1, jbegin=0, ni=1, nj=jpjglo) #endif CALL iom_update_file_name('ptr') ! END SUBROUTINE set_grid_xios_znl SUBROUTINE set_scalar !!---------------------------------------------------------------------- !! *** ROUTINE set_scalar *** !! !! ** Purpose : define fake grids for scalar point !! !!---------------------------------------------------------------------- REAL(wp), DIMENSION(1) :: zz = 1. !!---------------------------------------------------------------------- #if ! defined key_xios2 CALL iom_set_domain_attr('scalarpoint', ni_glo=jpnij, nj_glo=1, ibegin=narea, jbegin=1, ni=1, nj=1) #else CALL iom_set_domain_attr('scalarpoint', ni_glo=jpnij, nj_glo=1, ibegin=narea-1, jbegin=0, ni=1, nj=1) #endif CALL iom_set_domain_attr('scalarpoint', data_dim=2, data_ibegin = 1, data_ni = 1, data_jbegin = 1, data_nj = 1) zz=REAL(narea,wp) CALL iom_set_domain_attr('scalarpoint', lonvalue=zz, latvalue=zz) END SUBROUTINE set_scalar SUBROUTINE set_xmlatt !!---------------------------------------------------------------------- !! *** ROUTINE set_xmlatt *** !! !! ** Purpose : automatic definitions of some of the xml attributs... !! !!---------------------------------------------------------------------- CHARACTER(len=1),DIMENSION( 3) :: clgrd ! suffix name CHARACTER(len=256) :: clsuff ! suffix name CHARACTER(len=1) :: cl1 ! 1 character CHARACTER(len=2) :: cl2 ! 2 characters CHARACTER(len=3) :: cl3 ! 3 characters INTEGER :: ji, jg ! loop counters INTEGER :: ix, iy ! i-,j- index REAL(wp) ,DIMENSION(11) :: zlontao ! longitudes of tao moorings REAL(wp) ,DIMENSION( 7) :: zlattao ! latitudes of tao moorings REAL(wp) ,DIMENSION( 4) :: zlonrama ! longitudes of rama moorings REAL(wp) ,DIMENSION(11) :: zlatrama ! latitudes of rama moorings REAL(wp) ,DIMENSION( 3) :: zlonpira ! longitudes of pirata moorings REAL(wp) ,DIMENSION( 9) :: zlatpira ! latitudes of pirata moorings #if defined key_xios2 TYPE(xios_duration) :: f_op, f_of #endif !!---------------------------------------------------------------------- ! ! frequency of the call of iom_put (attribut: freq_op) #if ! defined key_xios2 WRITE(cl1,'(i1)') 1 ; CALL iom_set_field_attr('field_definition', freq_op=cl1//'ts', freq_offset='0ts') WRITE(cl1,'(i1)') nn_fsbc ; CALL iom_set_field_attr('SBC' , freq_op=cl1//'ts', freq_offset='0ts') WRITE(cl1,'(i1)') nn_fsbc ; CALL iom_set_field_attr('SBC_scalar' , freq_op=cl1//'ts', freq_offset='0ts') WRITE(cl1,'(i1)') nn_dttrc ; CALL iom_set_field_attr('ptrc_T' , freq_op=cl1//'ts', freq_offset='0ts') WRITE(cl1,'(i1)') nn_dttrc ; CALL iom_set_field_attr('diad_T' , freq_op=cl1//'ts', freq_offset='0ts') #else f_op%timestep = 1 ; f_of%timestep = 0 ; CALL iom_set_field_attr('field_definition', freq_op=f_op, freq_offset=f_of) f_op%timestep = nn_fsbc ; f_of%timestep = 0 ; CALL iom_set_field_attr('SBC' , freq_op=f_op, freq_offset=f_of) f_op%timestep = nn_fsbc ; f_of%timestep = 0 ; CALL iom_set_field_attr('SBC_scalar' , freq_op=f_op, freq_offset=f_of) f_op%timestep = nn_dttrc ; f_of%timestep = 0 ; CALL iom_set_field_attr('ptrc_T' , freq_op=f_op, freq_offset=f_of) f_op%timestep = nn_dttrc ; f_of%timestep = 0 ; CALL iom_set_field_attr('diad_T' , freq_op=f_op, freq_offset=f_of) #endif ! output file names (attribut: name) DO ji = 1, 9 WRITE(cl1,'(i1)') ji CALL iom_update_file_name('file'//cl1) END DO DO ji = 1, 99 WRITE(cl2,'(i2.2)') ji CALL iom_update_file_name('file'//cl2) END DO DO ji = 1, 999 WRITE(cl3,'(i3.3)') ji CALL iom_update_file_name('file'//cl3) END DO ! Zooms... clgrd = (/ 'T', 'U', 'W' /) DO jg = 1, SIZE(clgrd) ! grid type cl1 = clgrd(jg) ! Equatorial section (attributs: jbegin, ni, name_suffix) CALL dom_ngb( 0., 0., ix, iy, cl1 ) #if ! defined key_xios2 CALL iom_set_domain_attr ('Eq'//cl1, zoom_jbegin=iy, zoom_ni=jpiglo) #else CALL iom_set_zoom_domain_attr ('Eq'//cl1, jbegin=iy-1, ni=jpiglo) #endif CALL iom_get_file_attr ('Eq'//cl1, name_suffix = clsuff ) CALL iom_set_file_attr ('Eq'//cl1, name_suffix = TRIM(clsuff)//'_Eq') CALL iom_update_file_name('Eq'//cl1) END DO ! TAO moorings (attributs: ibegin, jbegin, name_suffix) zlontao = (/ 137.0, 147.0, 156.0, 165.0, -180.0, -170.0, -155.0, -140.0, -125.0, -110.0, -95.0 /) zlattao = (/ -8.0, -5.0, -2.0, 0.0, 2.0, 5.0, 8.0 /) CALL set_mooring( zlontao, zlattao ) ! RAMA moorings (attributs: ibegin, jbegin, name_suffix) zlonrama = (/ 55.0, 67.0, 80.5, 90.0 /) zlatrama = (/ -16.0, -12.0, -8.0, -4.0, -1.5, 0.0, 1.5, 4.0, 8.0, 12.0, 15.0 /) CALL set_mooring( zlonrama, zlatrama ) ! PIRATA moorings (attributs: ibegin, jbegin, name_suffix) zlonpira = (/ -38.0, -23.0, -10.0 /) zlatpira = (/ -19.0, -14.0, -8.0, 0.0, 4.0, 8.0, 12.0, 15.0, 20.0 /) CALL set_mooring( zlonpira, zlatpira ) END SUBROUTINE set_xmlatt SUBROUTINE set_mooring( plon, plat) !!---------------------------------------------------------------------- !! *** ROUTINE set_mooring *** !! !! ** Purpose : automatic definitions of moorings xml attributs... !! !!---------------------------------------------------------------------- REAL(wp), DIMENSION(:), INTENT(in) :: plon, plat ! longitudes/latitudes oft the mooring ! !!$ CHARACTER(len=1),DIMENSION(4) :: clgrd = (/ 'T', 'U', 'V', 'W' /) ! suffix name CHARACTER(len=1),DIMENSION(1) :: clgrd = (/ 'T' /) ! suffix name CHARACTER(len=256) :: clname ! file name CHARACTER(len=256) :: clsuff ! suffix name CHARACTER(len=1) :: cl1 ! 1 character CHARACTER(len=6) :: clon,clat ! name of longitude, latitude INTEGER :: ji, jj, jg ! loop counters INTEGER :: ix, iy ! i-,j- index REAL(wp) :: zlon, zlat !!---------------------------------------------------------------------- DO jg = 1, SIZE(clgrd) cl1 = clgrd(jg) DO ji = 1, SIZE(plon) DO jj = 1, SIZE(plat) zlon = plon(ji) zlat = plat(jj) ! modifications for RAMA moorings IF( zlon == 67. .AND. zlat == 15. ) zlon = 65. IF( zlon == 90. .AND. zlat <= -4. ) zlon = 95. IF( zlon == 95. .AND. zlat == -4. ) zlat = -5. ! modifications for PIRATA moorings IF( zlon == -38. .AND. zlat == -19. ) zlon = -34. IF( zlon == -38. .AND. zlat == -14. ) zlon = -32. IF( zlon == -38. .AND. zlat == -8. ) zlon = -30. IF( zlon == -38. .AND. zlat == 0. ) zlon = -35. IF( zlon == -23. .AND. zlat == 20. ) zlat = 21. IF( zlon == -10. .AND. zlat == -14. ) zlat = -10. IF( zlon == -10. .AND. zlat == -8. ) zlat = -6. IF( zlon == -10. .AND. zlat == 4. ) THEN ; zlon = 0. ; zlat = 0. ; ENDIF CALL dom_ngb( zlon, zlat, ix, iy, cl1 ) IF( zlon >= 0. ) THEN IF( zlon == REAL(NINT(zlon), wp) ) THEN ; WRITE(clon, '(i3, a)') NINT( zlon), 'e' ELSE ; WRITE(clon, '(f5.1,a)') zlon , 'e' ENDIF ELSE IF( zlon == REAL(NINT(zlon), wp) ) THEN ; WRITE(clon, '(i3, a)') NINT(-zlon), 'w' ELSE ; WRITE(clon, '(f5.1,a)') -zlon , 'w' ENDIF ENDIF IF( zlat >= 0. ) THEN IF( zlat == REAL(NINT(zlat), wp) ) THEN ; WRITE(clat, '(i2, a)') NINT( zlat), 'n' ELSE ; WRITE(clat, '(f4.1,a)') zlat , 'n' ENDIF ELSE IF( zlat == REAL(NINT(zlat), wp) ) THEN ; WRITE(clat, '(i2, a)') NINT(-zlat), 's' ELSE ; WRITE(clat, '(f4.1,a)') -zlat , 's' ENDIF ENDIF clname = TRIM(ADJUSTL(clat))//TRIM(ADJUSTL(clon)) #if ! defined key_xios2 CALL iom_set_domain_attr (TRIM(clname)//cl1, zoom_ibegin= ix, zoom_jbegin= iy) #else CALL iom_set_zoom_domain_attr (TRIM(clname)//cl1, ibegin= ix-1, jbegin= iy-1) #endif CALL iom_get_file_attr (TRIM(clname)//cl1, name_suffix = clsuff ) CALL iom_set_file_attr (TRIM(clname)//cl1, name_suffix = TRIM(clsuff)//'_'//TRIM(clname)) CALL iom_update_file_name(TRIM(clname)//cl1) END DO END DO END DO END SUBROUTINE set_mooring SUBROUTINE iom_update_file_name( cdid ) !!---------------------------------------------------------------------- !! *** ROUTINE iom_update_file_name *** !! !! ** Purpose : !! !!---------------------------------------------------------------------- CHARACTER(LEN=*) , INTENT(in) :: cdid ! CHARACTER(LEN=256) :: clname CHARACTER(LEN=20) :: clfreq CHARACTER(LEN=20) :: cldate INTEGER :: idx INTEGER :: jn INTEGER :: itrlen INTEGER :: iyear, imonth, iday, isec REAL(wp) :: zsec LOGICAL :: llexist #if defined key_xios2 TYPE(xios_duration) :: output_freq #endif !!---------------------------------------------------------------------- DO jn = 1,2 #if ! defined key_xios2 IF( jn == 1 ) CALL iom_get_file_attr( cdid, name = clname, output_freq = clfreq ) #else output_freq = xios_duration(0,0,0,0,0,0) IF( jn == 1 ) CALL iom_get_file_attr( cdid, name = clname, output_freq = output_freq ) #endif IF( jn == 2 ) CALL iom_get_file_attr( cdid, name_suffix = clname ) IF ( TRIM(clname) /= '' ) THEN idx = INDEX(clname,'@expname@') + INDEX(clname,'@EXPNAME@') DO WHILE ( idx /= 0 ) clname = clname(1:idx-1)//TRIM(cexper)//clname(idx+9:LEN_TRIM(clname)) idx = INDEX(clname,'@expname@') + INDEX(clname,'@EXPNAME@') END DO #if ! defined key_xios2 idx = INDEX(clname,'@freq@') + INDEX(clname,'@FREQ@') DO WHILE ( idx /= 0 ) IF ( TRIM(clfreq) /= '' ) THEN itrlen = LEN_TRIM(clfreq) IF ( clfreq(itrlen-1:itrlen) == 'mo' ) clfreq = clfreq(1:itrlen-1) clname = clname(1:idx-1)//TRIM(clfreq)//clname(idx+6:LEN_TRIM(clname)) ELSE CALL ctl_stop('error in the name of file id '//TRIM(cdid), & & ' attribute output_freq is undefined -> cannot replace @freq@ in '//TRIM(clname) ) ENDIF idx = INDEX(clname,'@freq@') + INDEX(clname,'@FREQ@') END DO #else idx = INDEX(clname,'@freq@') + INDEX(clname,'@FREQ@') DO WHILE ( idx /= 0 ) IF ( output_freq%timestep /= 0) THEN WRITE(clfreq,'(I18,A2)')INT(output_freq%timestep),'ts' itrlen = LEN_TRIM(ADJUSTL(clfreq)) ELSE IF ( output_freq%hour /= 0 ) THEN WRITE(clfreq,'(I19,A1)')INT(output_freq%hour),'h' itrlen = LEN_TRIM(ADJUSTL(clfreq)) ELSE IF ( output_freq%day /= 0 ) THEN WRITE(clfreq,'(I19,A1)')INT(output_freq%day),'d' itrlen = LEN_TRIM(ADJUSTL(clfreq)) ELSE IF ( output_freq%month /= 0 ) THEN WRITE(clfreq,'(I19,A1)')INT(output_freq%month),'m' itrlen = LEN_TRIM(ADJUSTL(clfreq)) ELSE IF ( output_freq%year /= 0 ) THEN WRITE(clfreq,'(I19,A1)')INT(output_freq%year),'y' itrlen = LEN_TRIM(ADJUSTL(clfreq)) ELSE CALL ctl_stop('error in the name of file id '//TRIM(cdid), & & ' attribute output_freq is undefined -> cannot replace @freq@ in '//TRIM(clname) ) ENDIF clname = clname(1:idx-1)//TRIM(ADJUSTL(clfreq))//clname(idx+6:LEN_TRIM(clname)) idx = INDEX(clname,'@freq@') + INDEX(clname,'@FREQ@') END DO #endif idx = INDEX(clname,'@startdate@') + INDEX(clname,'@STARTDATE@') DO WHILE ( idx /= 0 ) cldate = iom_sdate( fjulday - rdttra(1) / rday ) clname = clname(1:idx-1)//TRIM(cldate)//clname(idx+11:LEN_TRIM(clname)) idx = INDEX(clname,'@startdate@') + INDEX(clname,'@STARTDATE@') END DO idx = INDEX(clname,'@startdatefull@') + INDEX(clname,'@STARTDATEFULL@') DO WHILE ( idx /= 0 ) cldate = iom_sdate( fjulday - rdttra(1) / rday, ldfull = .TRUE. ) clname = clname(1:idx-1)//TRIM(cldate)//clname(idx+15:LEN_TRIM(clname)) idx = INDEX(clname,'@startdatefull@') + INDEX(clname,'@STARTDATEFULL@') END DO idx = INDEX(clname,'@enddate@') + INDEX(clname,'@ENDDATE@') DO WHILE ( idx /= 0 ) cldate = iom_sdate( fjulday + rdttra(1) / rday * REAL( nitend - nit000, wp ), ld24 = .TRUE. ) clname = clname(1:idx-1)//TRIM(cldate)//clname(idx+9:LEN_TRIM(clname)) idx = INDEX(clname,'@enddate@') + INDEX(clname,'@ENDDATE@') END DO idx = INDEX(clname,'@enddatefull@') + INDEX(clname,'@ENDDATEFULL@') DO WHILE ( idx /= 0 ) cldate = iom_sdate( fjulday + rdttra(1) / rday * REAL( nitend - nit000, wp ), ld24 = .TRUE., ldfull = .TRUE. ) clname = clname(1:idx-1)//TRIM(cldate)//clname(idx+13:LEN_TRIM(clname)) idx = INDEX(clname,'@enddatefull@') + INDEX(clname,'@ENDDATEFULL@') END DO IF( jn == 1 .AND. TRIM(Agrif_CFixed()) /= '0' ) clname = TRIM(Agrif_CFixed())//"_"//TRIM(clname) IF( jn == 1 ) CALL iom_set_file_attr( cdid, name = clname ) IF( jn == 2 ) CALL iom_set_file_attr( cdid, name_suffix = clname ) ENDIF END DO END SUBROUTINE iom_update_file_name FUNCTION iom_sdate( pjday, ld24, ldfull ) !!---------------------------------------------------------------------- !! *** ROUTINE iom_sdate *** !! !! ** Purpose : send back the date corresponding to the given julian day !! !!---------------------------------------------------------------------- REAL(wp), INTENT(in ) :: pjday ! julian day LOGICAL , INTENT(in ), OPTIONAL :: ld24 ! true to force 24:00 instead of 00:00 LOGICAL , INTENT(in ), OPTIONAL :: ldfull ! true to get the compleate date: yyyymmdd_hh:mm:ss ! CHARACTER(LEN=20) :: iom_sdate CHARACTER(LEN=50) :: clfmt ! format used to write the date INTEGER :: iyear, imonth, iday, ihour, iminute, isec REAL(wp) :: zsec LOGICAL :: ll24, llfull ! IF( PRESENT(ld24) ) THEN ; ll24 = ld24 ELSE ; ll24 = .FALSE. ENDIF IF( PRESENT(ldfull) ) THEN ; llfull = ldfull ELSE ; llfull = .FALSE. ENDIF CALL ju2ymds( pjday, iyear, imonth, iday, zsec ) isec = NINT(zsec) IF ( ll24 .AND. isec == 0 ) THEN ! 00:00 of the next day -> move to 24:00 of the current day CALL ju2ymds( pjday - 1., iyear, imonth, iday, zsec ) isec = 86400 ENDIF IF( iyear < 10000 ) THEN ; clfmt = "i4.4,2i2.2" ! format used to write the date ELSE ; WRITE(clfmt, "('i',i1,',2i2.2')") INT(LOG10(REAL(iyear,wp))) + 1 ENDIF !$AGRIF_DO_NOT_TREAT ! Should be fixed in the conv IF( llfull ) THEN clfmt = TRIM(clfmt)//",'_',i2.2,':',i2.2,':',i2.2" ihour = isec / 3600 isec = MOD(isec, 3600) iminute = isec / 60 isec = MOD(isec, 60) WRITE(iom_sdate, '('//TRIM(clfmt)//')') iyear, imonth, iday, ihour, iminute, isec ! date of the end of run ELSE WRITE(iom_sdate, '('//TRIM(clfmt)//')') iyear, imonth, iday ! date of the end of run ENDIF !$AGRIF_END_DO_NOT_TREAT END FUNCTION iom_sdate #else SUBROUTINE iom_setkt( kt, cdname ) INTEGER , INTENT(in):: kt CHARACTER(LEN=*), INTENT(in) :: cdname IF( .FALSE. ) WRITE(numout,*) kt, cdname ! useless test to avoid compilation warnings END SUBROUTINE iom_setkt SUBROUTINE iom_context_finalize( cdname ) CHARACTER(LEN=*), INTENT(in) :: cdname IF( .FALSE. ) WRITE(numout,*) cdname ! useless test to avoid compilation warnings END SUBROUTINE iom_context_finalize #endif LOGICAL FUNCTION iom_use( cdname ) CHARACTER(LEN=*), INTENT(in) :: cdname #if defined key_iomput iom_use = xios_field_is_active( cdname ) #else iom_use = .FALSE. #endif END FUNCTION iom_use SUBROUTINE iom_miss_val( cdname, pmiss_val ) CHARACTER(LEN=*), INTENT(in ) :: cdname REAL(wp) , INTENT(out) :: pmiss_val #if defined key_iomput ! get missing value CALL xios_get_field_attr( cdname, default_value = pmiss_val ) #else IF( .FALSE. ) WRITE(numout,*) cdname, pmiss_val ! useless test to avoid compilation warnings #endif END SUBROUTINE iom_miss_val ! create subroutine to retrieve voce_e3v_vsum_e1v from xios SUBROUTINE iom_get_v_for_btsf( cdname, z2d) CHARACTER(LEN=*), INTENT(in ) :: cdname REAL(wp), DIMENSION(jpi,jpj) :: z2d #if defined key_iomput ! get barotropic velocity CALL xios_recv_field( cdname, z2d) #else IF( .FALSE. ) WRITE(numout,*) cdname, z2d ! useless test to avoid compilation warnings #endif END SUBROUTINE iom_get_v_for_btsf ! create coordinates_xios.nc file structure strought XIOS fortran interface SUBROUTINE dom_xios_create_coordinates #if defined key_iomput IMPLICIT NONE TYPE(xios_filegroup) :: hfilegroup TYPE(xios_file) :: hfile TYPE(xios_field) :: hfield CALL xios_get_handle("file_definition", hfilegroup) CALL xios_add_child(hfilegroup,hfile) CALL xios_set_attr(hfile,name="coordinates_xios",enabled=.TRUE.,type="one_file", output_freq=xios_timestep) CALL xios_add_child(hfile,hfield,"dom_xios_field_T") CALL xios_set_attr(hfield,name="field_T", domain_ref="grid_T", operation="once") CALL xios_add_child(hfile,hfield,"dom_xios_field_U") CALL xios_set_attr(hfield,name="field_U", domain_ref="grid_U", operation="once") CALL xios_add_child(hfile,hfield,"dom_xios_field_V") CALL xios_set_attr(hfield,name="field_V", domain_ref="grid_V", operation="once") CALL xios_add_child(hfile,hfield,"dom_xios_field_W") CALL xios_set_attr(hfield,name="field_W", domain_ref="grid_W", operation="once") #endif END SUBROUTINE dom_xios_create_coordinates ! write coordinates_xios.nc file SUBROUTINE dom_xios_write_coordinates #if defined key_iomput IMPLICIT NONE LOGICAL,SAVE :: first=.TRUE. IF (first .AND. .NOT. using_xios_coordinates) THEN CALL iom_put("dom_xios_field_T",tmask(:,:,1)) first=.FALSE. ENDIF #endif END SUBROUTINE dom_xios_write_coordinates SUBROUTINE dom_xios_read_coordinates #if defined key_iomput INTEGER :: inum ! temporary logical unit INTEGER :: kstart(3), kcount(3) LOGICAL :: file_exist INQUIRE(FILE='coordinates_xios.nc', EXIST=file_exist) IF (.NOT. file_exist) RETURN CALL iom_open( 'coordinates_xios', inum ) kstart(1)=1 kstart(2)=n_ibegin kstart(3)=n_jbegin kcount(1)=4 kcount(2)=n_ni kcount(3)=n_nj CALL iom_get( inum, jpdom_unknown, 'nav_lon_grid_T', lon_grid_T, kstart=kstart(2:3), kcount=kcount(2:3), lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'nav_lat_grid_T', lat_grid_T, kstart=kstart(2:3), kcount=kcount(2:3), lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'area_grid_T' , area_grid_T, kstart=kstart(2:3), kcount=kcount(2:3), lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'nav_lon_grid_U', lon_grid_U, kstart=kstart(2:3), kcount=kcount(2:3), lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'nav_lat_grid_U', lat_grid_U, kstart=kstart(2:3), kcount=kcount(2:3), lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'area_grid_U' , area_grid_U, kstart=kstart(2:3), kcount=kcount(2:3), lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'nav_lon_grid_V', lon_grid_V, kstart=kstart(2:3), kcount=kcount(2:3), lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'nav_lat_grid_V', lat_grid_V, kstart=kstart(2:3), kcount=kcount(2:3), lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'area_grid_V' , area_grid_V, kstart=kstart(2:3), kcount=kcount(2:3), lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'nav_lon_grid_W', lon_grid_W, kstart=kstart(2:3), kcount=kcount(2:3), lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'nav_lat_grid_W', lat_grid_W, kstart=kstart(2:3), kcount=kcount(2:3), lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'area_grid_W' , area_grid_W, kstart=kstart(2:3), kcount=kcount(2:3), lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'bounds_nav_lon_grid_T', bounds_lon_grid_T, kstart=kstart, kcount=kcount, lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'bounds_nav_lat_grid_T', bounds_lat_grid_T, kstart=kstart, kcount=kcount, lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'bounds_nav_lon_grid_U', bounds_lon_grid_U, kstart=kstart, kcount=kcount, lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'bounds_nav_lat_grid_U', bounds_lat_grid_U, kstart=kstart, kcount=kcount, lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'bounds_nav_lon_grid_V', bounds_lon_grid_V, kstart=kstart, kcount=kcount, lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'bounds_nav_lat_grid_V', bounds_lat_grid_V, kstart=kstart, kcount=kcount, lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'bounds_nav_lon_grid_W', bounds_lon_grid_W, kstart=kstart, kcount=kcount, lrowattr=ln_use_jattr ) CALL iom_get( inum, jpdom_unknown, 'bounds_nav_lat_grid_W', bounds_lat_grid_W, kstart=kstart, kcount=kcount, lrowattr=ln_use_jattr ) CALL iom_close( inum ) using_xios_coordinates=.TRUE. #endif END SUBROUTINE dom_xios_read_coordinates SUBROUTINE dom_uniq_xios( puniq, cdgrd ) !!---------------------------------------------------------------------- !! *** ROUTINE dom_uniq *** !! !! ** Purpose : identify unique point of a grid (TUVF) !! !! ** Method : 1) aplly lbc_lnk on an array with different values for !each element !! 2) check which elements have been changed !!---------------------------------------------------------------------- ! CHARACTER(len=1) , INTENT(in ) :: cdgrd ! REAL(wp), DIMENSION(:,:), INTENT(inout) :: puniq ! ! REAL(wp) :: zshift ! shift value link to the process number INTEGER :: ji ! dummy loop indices LOGICAL, DIMENSION(SIZE(puniq,1),SIZE(puniq,2),1) :: lldbl ! store whether each point is unique or not REAL(wp), DIMENSION(jpi,jpj) :: ztstref !!---------------------------------------------------------------------- ! ! build an array with different values for each element ! in mpp: make sure that these values are different even between process ! -> apply a shift value according to the process number zshift = jpi * jpj * ( narea - 1 ) ztstref(:,:) = RESHAPE( (/ (zshift + REAL(ji,wp), ji = 1, jpi*jpj) /),(/jpi, jpj /) ) ! puniq(:,:) = ztstref(:,:) ! default definition CALL lbc_lnk( puniq, cdgrd, 1. ) ! apply boundary conditions lldbl(:,:,1) = puniq(:,:) == ztstref(:,:) ! check which values have been changed ! puniq(:,:) = 1. ! default definition ! fill only the inner part of the cpu with llbl converted into real puniq(nldi:nlei,nldj:nlej) = REAL( COUNT( lldbl(nldi:nlei,nldj:nlej,:),dim = 3 ) , wp ) ! END SUBROUTINE dom_uniq_xios ! SUBROUTINE dom_msk_util( pmask, cdgrd ) ! CHARACTER(len=1) , INTENT(in ) :: cdgrd ! REAL(wp), DIMENSION(jpi,jpj,jpk), INTENT(inout) :: pmask ! ! INTEGER :: ji, jj, jk, ik ! dummy loop indices REAL(wp), DIMENSION(jpi,jpj) :: zuniq, zmsk CALL dom_uniq_xios( zuniq, cdgrd ) ! SELECT CASE ( cdgrd ) CASE('T') DO jj = 1, jpj DO ji = 1, jpi ik = mikt(ji,jj) zmsk(ji,jj) = tmask(ji,jj,ik) * zuniq(ji,jj) END DO END DO CASE('U') DO jj = 1, jpj DO ji = 1, jpi ik = miku(ji,jj) zmsk(ji,jj) = umask(ji,jj,ik) * zuniq(ji,jj) END DO END DO CASE('V') DO jj = 1, jpj DO ji = 1, jpi ik = mikv(ji,jj) zmsk(ji,jj) = vmask(ji,jj,ik) * zuniq(ji,jj) END DO END DO CASE('W') DO jj = 1, jpj DO ji = 1, jpi ik = mikt(ji,jj) zmsk(ji,jj) = wmask(ji,jj,ik) * zuniq(ji,jj) END DO END DO END SELECT ! DO jk = 1, jpkm1 pmask(:,:,jk) = pmask(:,:,jk) * zmsk(:,:) END DO ! END SUBROUTINE dom_msk_util !!====================================================================== END MODULE iom