!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! WARNING: this file was automatically generated on ! Tue, 15 Jun 2010 22:11:50 +0000 ! from ncdf_template.F90.in !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ! + + ! + ncdf_template.f90 - part of the Glimmer_CISM ice model + ! + + ! +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ ! ! Copyright (C) 2004, 2005, 2006, 2007, 2008, 2009, 2010 ! Glimmer-CISM contributors - see AUTHORS file for list of contributors ! ! This file is part of Glimmer-CISM. ! ! Glimmer-CISM is free software: you can redistribute it and/or modify ! it under the terms of the GNU General Public License as published by ! the Free Software Foundation, either version 2 of the License, or (at ! your option) any later version. ! ! Glimmer-CISM is distributed in the hope that it will be useful, ! but WITHOUT ANY WARRANTY; without even the implied warranty of ! MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ! GNU General Public License for more details. ! ! You should have received a copy of the GNU General Public License ! along with Glimmer-CISM. If not, see . ! ! Glimmer-CISM is hosted on BerliOS.de: ! https://developer.berlios.de/projects/glimmer-cism/ ! ! +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ #define NCO outfile%nc #define NCI infile%nc module glint_io !*FD template for creating subsystem specific I/O routines !*FD written by Magnus Hagdorn, 2004 private :: get_xtype character(len=*),private,parameter :: hotvars = ' outmask ' contains !***************************************************************************** ! netCDF output !***************************************************************************** subroutine glint_io_createall(model,data,outfiles) !*FD open all netCDF files for output use glint_type use glide_types use glimmer_ncdf use glimmer_ncio implicit none type(glide_global_type) :: model type(glint_instance), optional :: data type(glimmer_nc_output),optional,pointer :: outfiles ! local variables type(glimmer_nc_output), pointer :: oc if (present(outfiles)) then oc => outfiles else oc=>model%funits%out_first end if do while(associated(oc)) if (present(data)) then call glint_io_create(oc,model,data) else call glint_io_create(oc,model) end if oc=>oc%next end do end subroutine glint_io_createall subroutine glint_io_writeall(data,model,atend,outfiles,time) !*FD if necessary write to netCDF files use glint_type use glide_types use glimmer_ncdf use glimmer_ncio implicit none type(glint_instance) :: data type(glide_global_type) :: model logical, optional :: atend type(glimmer_nc_output),optional,pointer :: outfiles real(dp),optional :: time ! local variables type(glimmer_nc_output), pointer :: oc logical :: forcewrite=.false. if (present(outfiles)) then oc => outfiles else oc=>model%funits%out_first end if if (present(atend)) then forcewrite = atend end if do while(associated(oc)) #ifdef HAVE_AVG if (oc%do_averages) then call glint_avg_accumulate(oc,data,model) end if #endif call glimmer_nc_checkwrite(oc,model,forcewrite,time) if (oc%nc%just_processed) then ! write standard variables call glint_io_write(oc,data) #ifdef HAVE_AVG if (oc%do_averages) then call glint_avg_reset(oc,data) end if #endif end if oc=>oc%next end do end subroutine glint_io_writeall subroutine glint_io_create(outfile,model,data) use glide_types use glint_type use glimmer_ncdf use glimmer_map_types use glimmer_log use glimmer_paramets use glimmer_scales implicit none type(glimmer_nc_output), pointer :: outfile type(glide_global_type) :: model type(glint_instance), optional :: data integer status,varid,pos integer :: time_dimid integer :: x1_dimid integer :: y1_dimid ! defining dimensions status = nf90_inq_dimid(NCO%id,'time',time_dimid) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_inq_dimid(NCO%id,'x1',x1_dimid) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_inq_dimid(NCO%id,'y1',y1_dimid) call nc_errorhandle(__FILE__,__LINE__,status) NCO%vars = ' '//trim(NCO%vars)//' ' ! expanding hotstart variables pos = index(NCO%vars,' hot ') if (pos.ne.0) then NCO%vars = NCO%vars(:pos)//NCO%vars(pos+4:) NCO%hotstart = .true. end if if (NCO%hotstart) then NCO%vars = trim(NCO%vars)//hotvars end if ! checking if we need to handle time averages pos = index(NCO%vars,"_tavg") if (pos.ne.0) then outfile%do_averages = .True. end if ! ablt -- ablation pos = index(NCO%vars,' ablt ') status = nf90_inq_varid(NCO%id,'ablt',varid) if (pos.ne.0) then NCO%vars(pos+1:pos+4) = ' ' end if if (pos.ne.0 .and. status.eq.nf90_enotvar) then call write_log('Creating variable ablt') status = nf90_def_var(NCO%id,'ablt',get_xtype(outfile,NF90_FLOAT),(/x1_dimid, y1_dimid, time_dimid/),varid) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_put_att(NCO%id, varid, 'long_name', 'ablation') status = nf90_put_att(NCO%id, varid, 'units', 'meter (water)/year') if (glimmap_allocated(model%projection)) then status = nf90_put_att(NCO%id, varid, 'grid_mapping',glimmer_nc_mapvarname) status = nf90_put_att(NCO%id, varid, 'coordinates', 'lon lat') end if end if ! arng -- air temperature half-range pos = index(NCO%vars,' arng ') status = nf90_inq_varid(NCO%id,'arng',varid) if (pos.ne.0) then NCO%vars(pos+1:pos+4) = ' ' end if if (pos.ne.0 .and. status.eq.nf90_enotvar) then call write_log('Creating variable arng') status = nf90_def_var(NCO%id,'arng',get_xtype(outfile,NF90_FLOAT),(/x1_dimid, y1_dimid, time_dimid/),varid) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_put_att(NCO%id, varid, 'long_name', 'air temperature half-range') status = nf90_put_att(NCO%id, varid, 'units', 'degreeC') if (glimmap_allocated(model%projection)) then status = nf90_put_att(NCO%id, varid, 'grid_mapping',glimmer_nc_mapvarname) status = nf90_put_att(NCO%id, varid, 'coordinates', 'lon lat') end if end if ! global_orog -- orographic elevation provided by global model pos = index(NCO%vars,' global_orog ') status = nf90_inq_varid(NCO%id,'global_orog',varid) if (pos.ne.0) then NCO%vars(pos+1:pos+11) = ' ' end if if (pos.ne.0 .and. status.eq.nf90_enotvar) then call write_log('Creating variable global_orog') status = nf90_def_var(NCO%id,'global_orog',get_xtype(outfile,NF90_FLOAT),(/x1_dimid, y1_dimid, time_dimid/),varid) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_put_att(NCO%id, varid, 'long_name', 'orographic elevation provided by global model') status = nf90_put_att(NCO%id, varid, 'standard_name', 'surface_altitude') status = nf90_put_att(NCO%id, varid, 'units', 'meter') if (glimmap_allocated(model%projection)) then status = nf90_put_att(NCO%id, varid, 'grid_mapping',glimmer_nc_mapvarname) status = nf90_put_att(NCO%id, varid, 'coordinates', 'lon lat') end if end if ! inmask -- downscaling mask pos = index(NCO%vars,' inmask ') status = nf90_inq_varid(NCO%id,'inmask',varid) if (pos.ne.0) then NCO%vars(pos+1:pos+6) = ' ' end if if (pos.ne.0 .and. status.eq.nf90_enotvar) then call write_log('Creating variable inmask') status = nf90_def_var(NCO%id,'inmask',get_xtype(outfile,NF90_FLOAT),(/x1_dimid, y1_dimid, time_dimid/),varid) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_put_att(NCO%id, varid, 'long_name', 'downscaling mask') status = nf90_put_att(NCO%id, varid, 'units', '1') if (glimmap_allocated(model%projection)) then status = nf90_put_att(NCO%id, varid, 'grid_mapping',glimmer_nc_mapvarname) status = nf90_put_att(NCO%id, varid, 'coordinates', 'lon lat') end if end if ! local_orog -- orographic elevation provided by local model pos = index(NCO%vars,' local_orog ') status = nf90_inq_varid(NCO%id,'local_orog',varid) if (pos.ne.0) then NCO%vars(pos+1:pos+10) = ' ' end if if (pos.ne.0 .and. status.eq.nf90_enotvar) then call write_log('Creating variable local_orog') status = nf90_def_var(NCO%id,'local_orog',get_xtype(outfile,NF90_FLOAT),(/x1_dimid, y1_dimid, time_dimid/),varid) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_put_att(NCO%id, varid, 'long_name', 'orographic elevation provided by local model') status = nf90_put_att(NCO%id, varid, 'standard_name', 'surface_altitude') status = nf90_put_att(NCO%id, varid, 'units', 'meter') if (glimmap_allocated(model%projection)) then status = nf90_put_att(NCO%id, varid, 'grid_mapping',glimmer_nc_mapvarname) status = nf90_put_att(NCO%id, varid, 'coordinates', 'lon lat') end if end if ! outmask -- upscaling mask pos = index(NCO%vars,' outmask ') status = nf90_inq_varid(NCO%id,'outmask',varid) if (pos.ne.0) then NCO%vars(pos+1:pos+7) = ' ' end if if (pos.ne.0 .and. status.eq.nf90_enotvar) then call write_log('Creating variable outmask') status = nf90_def_var(NCO%id,'outmask',get_xtype(outfile,NF90_FLOAT),(/x1_dimid, y1_dimid, time_dimid/),varid) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_put_att(NCO%id, varid, 'long_name', 'upscaling mask') status = nf90_put_att(NCO%id, varid, 'units', '1') if (glimmap_allocated(model%projection)) then status = nf90_put_att(NCO%id, varid, 'grid_mapping',glimmer_nc_mapvarname) status = nf90_put_att(NCO%id, varid, 'coordinates', 'lon lat') end if end if ! prcp -- precipitation pos = index(NCO%vars,' prcp ') status = nf90_inq_varid(NCO%id,'prcp',varid) if (pos.ne.0) then NCO%vars(pos+1:pos+4) = ' ' end if if (pos.ne.0 .and. status.eq.nf90_enotvar) then call write_log('Creating variable prcp') status = nf90_def_var(NCO%id,'prcp',get_xtype(outfile,NF90_FLOAT),(/x1_dimid, y1_dimid, time_dimid/),varid) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_put_att(NCO%id, varid, 'long_name', 'precipitation') status = nf90_put_att(NCO%id, varid, 'standard_name', 'lwe_precipitation_rate') status = nf90_put_att(NCO%id, varid, 'units', 'meter (water)/year') if (glimmap_allocated(model%projection)) then status = nf90_put_att(NCO%id, varid, 'grid_mapping',glimmer_nc_mapvarname) status = nf90_put_att(NCO%id, varid, 'coordinates', 'lon lat') end if end if ! siced -- superimposed ice depth pos = index(NCO%vars,' siced ') status = nf90_inq_varid(NCO%id,'siced',varid) if (pos.ne.0) then NCO%vars(pos+1:pos+5) = ' ' end if if (pos.ne.0 .and. status.eq.nf90_enotvar) then call write_log('Creating variable siced') status = nf90_def_var(NCO%id,'siced',get_xtype(outfile,NF90_FLOAT),(/x1_dimid, y1_dimid, time_dimid/),varid) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_put_att(NCO%id, varid, 'long_name', 'superimposed ice depth') status = nf90_put_att(NCO%id, varid, 'units', 'meter') if (glimmap_allocated(model%projection)) then status = nf90_put_att(NCO%id, varid, 'grid_mapping',glimmer_nc_mapvarname) status = nf90_put_att(NCO%id, varid, 'coordinates', 'lon lat') end if end if ! snowd -- snow depth pos = index(NCO%vars,' snowd ') status = nf90_inq_varid(NCO%id,'snowd',varid) if (pos.ne.0) then NCO%vars(pos+1:pos+5) = ' ' end if if (pos.ne.0 .and. status.eq.nf90_enotvar) then call write_log('Creating variable snowd') status = nf90_def_var(NCO%id,'snowd',get_xtype(outfile,NF90_FLOAT),(/x1_dimid, y1_dimid, time_dimid/),varid) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_put_att(NCO%id, varid, 'long_name', 'snow depth') status = nf90_put_att(NCO%id, varid, 'standard_name', 'surface_snow_thickness') status = nf90_put_att(NCO%id, varid, 'units', 'meter') if (glimmap_allocated(model%projection)) then status = nf90_put_att(NCO%id, varid, 'grid_mapping',glimmer_nc_mapvarname) status = nf90_put_att(NCO%id, varid, 'coordinates', 'lon lat') end if end if end subroutine glint_io_create subroutine glint_io_write(outfile,data) use glint_type use glimmer_ncdf use glimmer_paramets use glimmer_scales implicit none type(glimmer_nc_output), pointer :: outfile !*FD structure containg output netCDF descriptor type(glint_instance) :: data !*FD the model instance ! local variables real(dp) :: tavgf integer status, varid integer up tavgf = outfile%total_time if (tavgf.ne.0.d0) then tavgf = 1.d0/tavgf end if ! write variables status = nf90_inq_varid(NCO%id,'ablt',varid) if (status .eq. nf90_noerr) then status = nf90_put_var(NCO%id, varid, & data%ablt, (/1,1,outfile%timecounter/)) call nc_errorhandle(__FILE__,__LINE__,status) end if status = nf90_inq_varid(NCO%id,'arng',varid) if (status .eq. nf90_noerr) then status = nf90_put_var(NCO%id, varid, & data%arng, (/1,1,outfile%timecounter/)) call nc_errorhandle(__FILE__,__LINE__,status) end if status = nf90_inq_varid(NCO%id,'global_orog',varid) if (status .eq. nf90_noerr) then status = nf90_put_var(NCO%id, varid, & data%global_orog, (/1,1,outfile%timecounter/)) call nc_errorhandle(__FILE__,__LINE__,status) end if status = nf90_inq_varid(NCO%id,'inmask',varid) if (status .eq. nf90_noerr) then status = nf90_put_var(NCO%id, varid, & data%downs%lmask, (/1,1,outfile%timecounter/)) call nc_errorhandle(__FILE__,__LINE__,status) end if status = nf90_inq_varid(NCO%id,'local_orog',varid) if (status .eq. nf90_noerr) then status = nf90_put_var(NCO%id, varid, & data%local_orog, (/1,1,outfile%timecounter/)) call nc_errorhandle(__FILE__,__LINE__,status) end if status = nf90_inq_varid(NCO%id,'outmask',varid) if (status .eq. nf90_noerr) then status = nf90_put_var(NCO%id, varid, & data%out_mask, (/1,1,outfile%timecounter/)) call nc_errorhandle(__FILE__,__LINE__,status) end if status = nf90_inq_varid(NCO%id,'prcp',varid) if (status .eq. nf90_noerr) then status = nf90_put_var(NCO%id, varid, & data%prcp, (/1,1,outfile%timecounter/)) call nc_errorhandle(__FILE__,__LINE__,status) end if status = nf90_inq_varid(NCO%id,'siced',varid) if (status .eq. nf90_noerr) then status = nf90_put_var(NCO%id, varid, & data%siced, (/1,1,outfile%timecounter/)) call nc_errorhandle(__FILE__,__LINE__,status) end if status = nf90_inq_varid(NCO%id,'snowd',varid) if (status .eq. nf90_noerr) then status = nf90_put_var(NCO%id, varid, & data%snowd, (/1,1,outfile%timecounter/)) call nc_errorhandle(__FILE__,__LINE__,status) end if end subroutine glint_io_write !***************************************************************************** ! netCDF input !***************************************************************************** subroutine glint_io_readall(data,model) !*FD read from netCDF file use glint_type use glide_types use glimmer_ncio use glimmer_ncdf implicit none type(glint_instance) :: data type(glide_global_type) :: model ! local variables type(glimmer_nc_input), pointer :: ic ic=>model%funits%in_first do while(associated(ic)) call glimmer_nc_checkread(ic,model) if (ic%nc%just_processed) then call glint_io_read(ic,data) end if ic=>ic%next end do end subroutine glint_io_readall subroutine glint_io_read(infile,data) !*FD read variables from a netCDF file use glimmer_log use glimmer_ncdf use glint_type use glimmer_paramets use glimmer_scales implicit none type(glimmer_nc_input), pointer :: infile !*FD structure containg output netCDF descriptor type(glint_instance) :: data !*FD the model instance ! local variables integer status,varid integer up real(dp) :: scaling_factor ! read variables status = nf90_inq_varid(NCI%id,'outmask',varid) if (status .eq. nf90_noerr) then call write_log(' Loading outmask') status = nf90_get_var(NCI%id, varid, & data%out_mask, (/1,1,infile%current_time/)) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_get_att(NCI%id, varid,'scale_factor',scaling_factor) if (status.ne.NF90_NOERR) then scaling_factor = 1.0d0 end if if (abs(scaling_factor-1.0d0).gt.1.d-17) then call write_log("scaling outmask",GM_DIAGNOSTIC) data%out_mask = data%out_mask*scaling_factor end if end if status = nf90_inq_varid(NCI%id,'siced',varid) if (status .eq. nf90_noerr) then call write_log(' Loading siced') status = nf90_get_var(NCI%id, varid, & data%siced, (/1,1,infile%current_time/)) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_get_att(NCI%id, varid,'scale_factor',scaling_factor) if (status.ne.NF90_NOERR) then scaling_factor = 1.0d0 end if if (abs(scaling_factor-1.0d0).gt.1.d-17) then call write_log("scaling siced",GM_DIAGNOSTIC) data%siced = data%siced*scaling_factor end if end if status = nf90_inq_varid(NCI%id,'snowd',varid) if (status .eq. nf90_noerr) then call write_log(' Loading snowd') status = nf90_get_var(NCI%id, varid, & data%snowd, (/1,1,infile%current_time/)) call nc_errorhandle(__FILE__,__LINE__,status) status = nf90_get_att(NCI%id, varid,'scale_factor',scaling_factor) if (status.ne.NF90_NOERR) then scaling_factor = 1.0d0 end if if (abs(scaling_factor-1.0d0).gt.1.d-17) then call write_log("scaling snowd",GM_DIAGNOSTIC) data%snowd = data%snowd*scaling_factor end if end if end subroutine glint_io_read subroutine glint_io_checkdim(infile,model,data) !*FD check if dimension sizes in file match dims of model use glimmer_log use glimmer_ncdf use glide_types use glint_type implicit none type(glimmer_nc_input), pointer :: infile !*FD structure containg output netCDF descriptor type(glide_global_type) :: model type(glint_instance), optional :: data integer status,dimid,dimsize character(len=150) message ! check dimensions end subroutine glint_io_checkdim !***************************************************************************** ! calculating time averages !***************************************************************************** #ifdef HAVE_AVG subroutine glint_avg_accumulate(outfile,data,model) use glide_types use glint_type use glimmer_ncdf implicit none type(glimmer_nc_output), pointer :: outfile !*FD structure containg output netCDF descriptor type(glide_global_type) :: model type(glint_instance) :: data ! local variables real(dp) :: factor integer status, varid ! increase total time outfile%total_time = outfile%total_time + model%numerics%tinc factor = model%numerics%tinc end subroutine glint_avg_accumulate subroutine glint_avg_reset(outfile,data) use glint_type use glimmer_ncdf implicit none type(glimmer_nc_output), pointer :: outfile !*FD structure containg output netCDF descriptor type(glint_instance) :: data ! local variables integer status, varid ! reset total time outfile%total_time = 0. end subroutine glint_avg_reset #endif !********************************************************************* ! some private procedures !********************************************************************* !> apply default type to be used in netCDF file integer function get_xtype(outfile,xtype) use glimmer_ncdf implicit none type(glimmer_nc_output), pointer :: outfile !< derived type holding information about output file integer, intent(in) :: xtype !< the external netCDF type get_xtype = xtype if (xtype.eq.NF90_REAL .and. outfile%default_xtype.eq.NF90_DOUBLE) then get_xtype = NF90_DOUBLE end if if (xtype.eq.NF90_DOUBLE .and. outfile%default_xtype.eq.NF90_REAL) then get_xtype = NF90_REAL end if end function get_xtype !********************************************************************* ! lots of accessor subroutines follow !********************************************************************* subroutine glint_get_ablt(data,outarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(out) :: outarray outarray = data%ablt end subroutine glint_get_ablt subroutine glint_set_ablt(data,inarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(in) :: inarray data%ablt = inarray end subroutine glint_set_ablt subroutine glint_get_arng(data,outarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(out) :: outarray outarray = data%arng end subroutine glint_get_arng subroutine glint_set_arng(data,inarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(in) :: inarray data%arng = inarray end subroutine glint_set_arng subroutine glint_get_global_orog(data,outarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(out) :: outarray outarray = data%global_orog end subroutine glint_get_global_orog subroutine glint_set_global_orog(data,inarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(in) :: inarray data%global_orog = inarray end subroutine glint_set_global_orog subroutine glint_get_inmask(data,outarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(out) :: outarray outarray = data%downs%lmask end subroutine glint_get_inmask subroutine glint_set_inmask(data,inarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(in) :: inarray data%downs%lmask = inarray end subroutine glint_set_inmask subroutine glint_get_local_orog(data,outarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(out) :: outarray outarray = data%local_orog end subroutine glint_get_local_orog subroutine glint_set_local_orog(data,inarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(in) :: inarray data%local_orog = inarray end subroutine glint_set_local_orog subroutine glint_get_outmask(data,outarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(out) :: outarray outarray = data%out_mask end subroutine glint_get_outmask subroutine glint_set_outmask(data,inarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(in) :: inarray data%out_mask = inarray end subroutine glint_set_outmask subroutine glint_get_prcp(data,outarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(out) :: outarray outarray = data%prcp end subroutine glint_get_prcp subroutine glint_set_prcp(data,inarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(in) :: inarray data%prcp = inarray end subroutine glint_set_prcp subroutine glint_get_siced(data,outarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(out) :: outarray outarray = data%siced end subroutine glint_get_siced subroutine glint_set_siced(data,inarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(in) :: inarray data%siced = inarray end subroutine glint_set_siced subroutine glint_get_snowd(data,outarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(out) :: outarray outarray = data%snowd end subroutine glint_get_snowd subroutine glint_set_snowd(data,inarray) use glimmer_scales use glimmer_paramets use glint_type implicit none type(glint_instance) :: data real, dimension(:,:), intent(in) :: inarray data%snowd = inarray end subroutine glint_set_snowd end module glint_io