module histFileMod !----------------------------------------------------------------------- !BOP ! ! !MODULE: histFileMod ! ! !DESCRIPTION: ! Module containing methods to for CLM history file handling. ! ! !USES: use shr_kind_mod, only : r8 => shr_kind_r8 use spmdMod , only : masterproc use shr_sys_mod , only : shr_sys_flush use abortutils , only : endrun use clm_varcon , only : spval,ispval use clm_varctl , only : iulog use clmtype , only : grlnd, nameg, namel, namec, namep use decompMod , only : get_proc_bounds, get_proc_global use ncdio_pio implicit none save private ! ! !PUBLIC TYPES: ! ! Constants ! integer , public, parameter :: max_tapes = 6 ! max number of history tapes integer , public, parameter :: max_flds = 1500 ! max number of history fields integer , public, parameter :: max_namlen = 32 ! maximum number of characters for field name ! ! Counters ! integer , public :: ntapes = 0 ! index of max history file requested ! ! Namelist ! integer :: ni ! implicit index below logical, public :: & hist_empty_htapes = .false. ! namelist: flag indicates no default history fields integer, public :: & hist_ndens(max_tapes) = 2 ! namelist: output density of netcdf history files integer, public :: & hist_mfilt(max_tapes) = 30 ! namelist: number of time samples per tape logical, public :: & hist_dov2xy(max_tapes) = (/.true.,(.true.,ni=2,max_tapes)/) ! namelist: true=> do grid averaging integer, public :: & hist_nhtfrq(max_tapes) = (/0, (-24, ni=2,max_tapes)/) ! namelist: history write freq(0=monthly) character(len=1), public :: & hist_avgflag_pertape(max_tapes) = (/(' ',ni=1,max_tapes)/) ! namelist: per tape averaging flag character(len=max_namlen), public :: & hist_type1d_pertape(max_tapes) = (/(' ',ni=1,max_tapes)/) ! namelist: per tape type1d character(len=max_namlen+2), public :: & fincl(max_flds,max_tapes) ! namelist-equivalence list of fields to add character(len=max_namlen+2), public :: & hist_fincl1(max_flds) = ' ' ! namelist: list of fields to add character(len=max_namlen+2), public :: & hist_fincl2(max_flds) = ' ' ! namelist: list of fields to add character(len=max_namlen+2), public :: & hist_fincl3(max_flds) = ' ' ! namelist: list of fields to add character(len=max_namlen+2), public :: & hist_fincl4(max_flds) = ' ' ! namelist: list of fields to add character(len=max_namlen+2), public :: & hist_fincl5(max_flds) = ' ' ! namelist: list of fields to add character(len=max_namlen+2), public :: & hist_fincl6(max_flds) = ' ' ! namelist: list of fields to add character(len=max_namlen+2), public :: & fexcl(max_flds,max_tapes) ! namelist-equivalence list of fields to remove character(len=max_namlen+2), public :: & hist_fexcl1(max_flds) = ' ' ! namelist: list of fields to remove character(len=max_namlen+2), public :: & hist_fexcl2(max_flds) = ' ' ! namelist: list of fields to remove character(len=max_namlen+2), public :: & hist_fexcl3(max_flds) = ' ' ! namelist: list of fields to remove character(len=max_namlen+2), public :: & hist_fexcl4(max_flds) = ' ' ! namelist: list of fields to remove character(len=max_namlen+2), public :: & hist_fexcl5(max_flds) = ' ' ! namelist: list of fields to remove character(len=max_namlen+2), public :: & hist_fexcl6(max_flds) = ' ' ! namelist: list of fields to remove ! ! Restart ! logical, private :: if_disphist(max_tapes) ! true => save history file ! ! !PUBLIC MEMBER FUNCTIONS: public :: hist_addfld1d ! Add a 1d single-level field to the master field list public :: hist_addfld2d ! Add a 2d multi-level field to the master field list public :: hist_add_subscript ! Add a 2d subscript dimension public :: hist_printflds ! Print summary of master field list public :: hist_htapes_build ! Initialize history file handler for initial or continue run public :: hist_update_hbuf ! Updates history buffer for all fields and tapes public :: hist_htapes_wrapup ! Write history tape(s) public :: hist_restart_ncd ! Read/write history file restart data ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !PRIVATE MEMBER FUNCTIONS: private :: masterlist_make_active ! Add a field to a history file default "on" list private :: masterlist_addfld ! Add a field to the master field list private :: masterlist_change_timeavg ! Override default history tape contents for specific tape private :: htapes_fieldlist ! Define the contents of each history file based on namelist private :: htape_addfld ! Add a field to the active list for a history tape private :: htape_create ! Define contents of history file t private :: htape_timeconst ! Write time constant values to history tape private :: htape_timeconst3D ! Write time constant 3D values to primary history tape private :: hfields_normalize ! Normalize history file fields by number of accumulations private :: hfields_zero ! Zero out accumulation and hsitory buffers for a tape private :: hfields_write ! Write a variable to a history tape private :: hfields_1dinfo ! Define/output 1d subgrid info if appropriate private :: hist_update_hbuf_field_1d ! Updates history buffer for specific field and tape private :: hist_update_hbuf_field_2d ! Updates history buffer for specific field and tape private :: list_index ! Find index of field in exclude list private :: set_hist_filename ! Determine history dataset filenames private :: getname ! Retrieve name portion of input "inname" private :: getflag ! Retrieve flag private :: pointer_index ! Track data pointer indices private :: max_nFields ! The max number of fields on any tape ! !PRIVATE TYPES: ! Constants ! integer, parameter :: max_chars = 128 ! max chars for char variables ! ! Subscript dimensions ! integer, parameter :: max_subs = 100 ! max number of subscripts integer :: num_subs = 0 ! actual number of subscripts character(len=32) :: subs_name(max_subs) ! name of subscript integer :: subs_dim(max_subs) ! dimension of subscript ! ! Derived types ! type field_info character(len=max_namlen) :: name ! field name character(len=max_chars) :: long_name ! long name character(len=max_chars) :: units ! units character(len=8) :: type1d ! clm pointer first dimension type ! from clmtype (nameg, etc) character(len=8) :: type1d_out ! hbuf first dimension type ! from clmtype (nameg, etc) character(len=8) :: type2d ! hbuf second dimension type ! ["levgrnd","levlak","numrad","subname(n)"] integer :: beg1d ! on-node 1d clm pointer start index integer :: end1d ! on-node 1d clm pointer end index integer :: num1d ! size of clm pointer first dimension (all nodes) integer :: beg1d_out ! on-node 1d hbuf pointer start index integer :: end1d_out ! on-node 1d hbuf pointer end index integer :: num1d_out ! size of hbuf first dimension (all nodes) integer :: num2d ! size of hbuf second dimension (e.g. number of vertical levels) integer :: hpindex ! history pointer index character(len=8) :: p2c_scale_type ! scale factor when averaging pft to column character(len=8) :: c2l_scale_type ! scale factor when averaging column to landunit character(len=8) :: l2g_scale_type ! scale factor when averaging landunit to gridcell end type field_info type master_entry type (field_info) :: field ! field information logical :: actflag(max_tapes) ! active/inactive flag character(len=1) :: avgflag(max_tapes) ! time averaging flag ("X","A","M" or "I",) end type master_entry type history_entry type (field_info) :: field ! field information character(len=1) :: avgflag ! time averaging flag real(r8), pointer :: hbuf(:,:) ! history buffer (dimensions: dim1d x num2d) integer , pointer :: nacs(:,:) ! accumulation counter (dimensions: dim1d x num2d) end type history_entry type history_tape integer :: nflds ! number of active fields on tape integer :: ntimes ! current number of time samples on tape integer :: mfilt ! maximum number of time samples per tape integer :: nhtfrq ! number of time samples per tape integer :: ncprec ! netcdf output precision logical :: dov2xy ! true => do xy average for all fields logical :: is_endhist ! true => current time step is end of history interval real(r8) :: begtime ! time at beginning of history averaging interval type (history_entry) :: hlist(max_flds) ! array of active history tape entries end type history_tape type clmpoint_rs ! Pointer to real scalar data (1D) real(r8), pointer :: ptr(:) end type clmpoint_rs type clmpoint_ra ! Pointer to real array data (2D) real(r8), pointer :: ptr(:,:) end type clmpoint_ra !EOP ! ! Pointers into clmtype arrays ! integer, parameter :: max_mapflds = 1500 ! Maximum number of fields to track type (clmpoint_rs) :: clmptr_rs(max_mapflds) ! Real scalar data (1D) type (clmpoint_ra) :: clmptr_ra(max_mapflds) ! Real array data (2D) ! ! Master list: an array of master_entry entities ! type (master_entry) :: masterlist(max_flds) ! master field list ! ! History tape: an array of history_tape entities (only active fields) ! type (history_tape) :: tape(max_tapes) ! array history tapes ! ! Namelist input ! ! Counters ! integer :: nfmaster = 0 ! number of fields in master field list ! ! Other variables ! character(len=max_chars) :: locfnh(max_tapes) ! local history file names character(len=max_chars) :: locfnhr(max_tapes) ! local history restart file names logical :: htapes_defined = .false. ! flag indicates history contents have been defined ! ! NetCDF Id's ! type(file_desc_t) :: nfid(max_tapes) ! file ids type(file_desc_t) :: ncid_hist(max_tapes) ! file ids for history restart files integer :: time_dimid ! time dimension id integer :: hist_interval_dimid ! time bounds dimension id integer :: strlen_dimid ! string dimension id ! ! Time Constant variable names and filename ! character(len=max_chars) :: TimeConst3DVars_Filename = ' ' character(len=max_chars) :: TimeConst3DVars = ' ' !----------------------------------------------------------------------- contains !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hist_printflds ! ! !INTERFACE: subroutine hist_printflds() ! ! !DESCRIPTION: ! Print summary of master field list. ! ! !USES: ! ! !ARGUMENTS: implicit none ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein 03/2003 ! ! ! !LOCAL VARIABLES: !EOP integer nf character(len=*),parameter :: subname = 'CLM_hist_printflds' !----------------------------------------------------------------------- if (masterproc) then write(iulog,*) trim(subname),' : number of master fields = ',nfmaster write(iulog,*)' ******* MASTER FIELD LIST *******' do nf = 1,nfmaster write(iulog,9000)nf, masterlist(nf)%field%name, masterlist(nf)%field%units 9000 format (i5,1x,a32,1x,a16) end do call shr_sys_flush(iulog) end if end subroutine hist_printflds !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: masterlist_addfld ! ! !INTERFACE: subroutine masterlist_addfld (fname, type1d, type1d_out, & type2d, num2d, units, avgflag, long_name, hpindex, & p2c_scale_type, c2l_scale_type, l2g_scale_type) ! ! !DESCRIPTION: ! Add a field to the master field list. Put input arguments of ! field name, units, number of levels, averaging flag, and long name ! into a type entry in the global master field list (masterlist). ! ! !USES: ! ! !ARGUMENTS: implicit none character(len=*), intent(in) :: fname ! field name character(len=*), intent(in) :: type1d ! 1d data type character(len=*), intent(in) :: type1d_out ! 1d output type character(len=*), intent(in) :: type2d ! 2d output type integer , intent(in) :: num2d ! size of second dimension (e.g. number of vertical levels) character(len=*), intent(in) :: units ! units of field character(len=1), intent(in) :: avgflag ! time averaging flag character(len=*), intent(in) :: long_name ! long name of field integer , intent(in) :: hpindex ! clmtype index for history buffer output character(len=*), intent(in) :: p2c_scale_type ! scale type for subgrid averaging of pfts to column character(len=*), intent(in) :: c2l_scale_type ! scale type for subgrid averaging of columns to landunits character(len=*), intent(in) :: l2g_scale_type ! scale type for subgrid averaging of landunits to gridcells ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: n ! loop index integer :: f ! masterlist index integer :: begp, endp ! per-proc beginning and ending pft indices integer :: begc, endc ! per-proc beginning and ending column indices integer :: begl, endl ! per-proc beginning and ending landunit indices integer :: begg, endg ! per-proc gridcell ending gridcell indices integer :: numa ! total number of atm cells across all processors integer :: numg ! total number of gridcells across all processors integer :: numl ! total number of landunits across all processors integer :: numc ! total number of columns across all processors integer :: nump ! total number of pfts across all processors character(len=*),parameter :: subname = 'masterlist_addfld' !------------------------------------------------------------------------ ! Determine bounds call get_proc_bounds(begg, endg, begl, endl, begc, endc, begp, endp) call get_proc_global(numg, numl, numc, nump) ! Ensure that new field is not all blanks if (fname == ' ') then write(iulog,*) trim(subname),' ERROR: blank field name not allowed' call endrun() end if ! Ensure that new field doesn't already exist do n = 1,nfmaster if (masterlist(n)%field%name == fname) then write(iulog,*) trim(subname),' ERROR:', fname, ' already on list' call endrun() end if end do ! Increase number of fields on master field list nfmaster = nfmaster + 1 f = nfmaster ! Check number of fields in master list against maximum number for master list if (nfmaster > max_flds) then write(iulog,*) trim(subname),' ERROR: too many fields for primary history file ', & '-- max_flds,nfmaster=', max_flds, nfmaster call endrun() end if ! Add field to master list masterlist(f)%field%name = fname masterlist(f)%field%long_name = long_name masterlist(f)%field%units = units masterlist(f)%field%type1d = type1d masterlist(f)%field%type1d_out = type1d_out masterlist(f)%field%type2d = type2d masterlist(f)%field%num2d = num2d masterlist(f)%field%hpindex = hpindex masterlist(f)%field%p2c_scale_type = p2c_scale_type masterlist(f)%field%c2l_scale_type = c2l_scale_type masterlist(f)%field%l2g_scale_type = l2g_scale_type select case (type1d) case (grlnd) masterlist(f)%field%beg1d = begg masterlist(f)%field%end1d = endg masterlist(f)%field%num1d = numg case (nameg) masterlist(f)%field%beg1d = begg masterlist(f)%field%end1d = endg masterlist(f)%field%num1d = numg case (namel) masterlist(f)%field%beg1d = begl masterlist(f)%field%end1d = endl masterlist(f)%field%num1d = numl case (namec) masterlist(f)%field%beg1d = begc masterlist(f)%field%end1d = endc masterlist(f)%field%num1d = numc case (namep) masterlist(f)%field%beg1d = begp masterlist(f)%field%end1d = endp masterlist(f)%field%num1d = nump case default write(iulog,*) trim(subname),' ERROR: unknown 1d output type= ',type1d call endrun() end select ! The following two fields are used only in master field list, ! NOT in the runtime active field list ! ALL FIELDS IN THE MASTER LIST ARE INITIALIZED WITH THE ACTIVE ! FLAG SET TO FALSE masterlist(f)%avgflag(:) = avgflag masterlist(f)%actflag(:) = .false. end subroutine masterlist_addfld !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hist_htapes_build ! ! !INTERFACE: subroutine hist_htapes_build () ! ! !DESCRIPTION: ! Initialize history file for initial or continuation run. For example, ! on an initial run, this routine initializes ``ntapes'' history files. ! On a restart run, this routine only initializes history files declared ! beyond what existed on the previous run. Files which already existed on ! the previous run have already been initialized (i.e. named and opened) ! in routine restart\_history. Loop over tapes and fields per tape setting ! appropriate variables and calling appropriate routines ! ! !USES: use clm_time_manager, only: get_prev_time use clm_varcon , only: secspday ! ! !ARGUMENTS: implicit none ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: i ! index integer :: ier ! error code integer :: t, f ! tape, field indices integer :: day, sec ! day and seconds from base date character(len=*),parameter :: subname = 'hist_htapes_build' !----------------------------------------------------------------------- if (masterproc) then write(iulog,*) trim(subname),' Initializing clm2 history files' write(iulog,'(72a1)') ("-",i=1,60) call shr_sys_flush(iulog) endif ! Override averaging flag for all fields on a particular tape ! if namelist input so specifies do t=1,max_tapes if (hist_avgflag_pertape(t) /= ' ') then call masterlist_change_timeavg (t) end if end do fincl(:,1) = hist_fincl1(:) fincl(:,2) = hist_fincl2(:) fincl(:,3) = hist_fincl3(:) fincl(:,4) = hist_fincl4(:) fincl(:,5) = hist_fincl5(:) fincl(:,6) = hist_fincl6(:) fexcl(:,1) = hist_fexcl1(:) fexcl(:,2) = hist_fexcl2(:) fexcl(:,3) = hist_fexcl3(:) fexcl(:,4) = hist_fexcl4(:) fexcl(:,5) = hist_fexcl5(:) fexcl(:,6) = hist_fexcl6(:) ! Define field list information for all history files. ! Update ntapes to reflect number of active history files ! Note - branch runs can have additional auxiliary history files ! declared). call htapes_fieldlist() ! Determine if gridcell (xy) averaging is done for all fields on tape do t=1,ntapes tape(t)%dov2xy = hist_dov2xy(t) write(iulog,*)trim(subname),' hist tape = ',t,& ' written with dov2xy= ',tape(t)%dov2xy end do ! Set number of time samples in each history file and ! Note - the following entries will be overwritten by history restart ! Note - with netcdf, only 1 (ncd_double) and 2 (ncd_float) are allowed do t=1,ntapes tape(t)%ntimes = 0 tape(t)%dov2xy = hist_dov2xy(t) tape(t)%nhtfrq = hist_nhtfrq(t) tape(t)%mfilt = hist_mfilt(t) if (hist_ndens(t) == 1) then tape(t)%ncprec = ncd_double else tape(t)%ncprec = ncd_float endif end do ! Set time of beginning of current averaging interval ! First etermine elapased time since reference date call get_prev_time(day, sec) do t=1,ntapes tape(t)%begtime = day + sec/secspday end do if (masterproc) then write(iulog,*) trim(subname),' Successfully initialized clm2 history files' write(iulog,'(72a1)') ("-",i=1,60) call shr_sys_flush(iulog) endif end subroutine hist_htapes_build !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: masterlist_make_active ! ! !INTERFACE: subroutine masterlist_make_active (name, tape_index, avgflag) ! ! !DESCRIPTION: ! Add a field to the default ``on'' list for a given history file. ! Also change the default time averaging flag if requested. ! ! !ARGUMENTS: implicit none character(len=*), intent(in) :: name ! field name integer, intent(in) :: tape_index ! history tape index character(len=1), intent(in), optional :: avgflag ! time averaging flag ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: f ! field index logical :: found ! flag indicates field found in masterlist character(len=*),parameter :: subname = 'masterlist_make_active' !----------------------------------------------------------------------- ! Check validity of input arguments if (tape_index > max_tapes) then write(iulog,*) trim(subname),' ERROR: tape index=', tape_index, ' is too big' call endrun() end if if (present(avgflag)) then if ( avgflag /= ' ' .and. & avgflag /= 'A' .and. avgflag /= 'I' .and. & avgflag /= 'X' .and. avgflag /= 'M') then write(iulog,*) trim(subname),' ERROR: unknown averaging flag=', avgflag call endrun() endif end if ! Look through master list for input field name. ! When found, set active flag for that tape to true. ! Also reset averaging flag if told to use other than default. found = .false. do f = 1,nfmaster if (trim(name) == trim(masterlist(f)%field%name)) then masterlist(f)%actflag(tape_index) = .true. if (present(avgflag)) then if (avgflag/= ' ') masterlist(f)%avgflag(tape_index) = avgflag end if found = .true. exit end if end do if (.not. found) then write(iulog,*) trim(subname),' ERROR: field=', name, ' not found' call endrun() end if end subroutine masterlist_make_active !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: masterlist_change_timeavg ! ! !INTERFACE: subroutine masterlist_change_timeavg (t) ! ! !DESCRIPTION: ! Override default history tape contents for a specific tape. ! Copy the flag into the master field list. ! ! !USES: ! ! !ARGUMENTS: implicit none integer, intent(in) :: t ! history tape index ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: f ! field index character(len=1) :: avgflag ! lcl equiv of hist_avgflag_pertape(t) character(len=*),parameter :: subname = 'masterlist_change_timeavg' !----------------------------------------------------------------------- avgflag = hist_avgflag_pertape(t) do f = 1,nfmaster select case (avgflag) case ('A') masterlist(f)%avgflag(t) = avgflag case ('I') masterlist(f)%avgflag(t) = avgflag case ('X') masterlist(f)%avgflag(t) = avgflag case ('M') masterlist(f)%avgflag(t) = avgflag case default write(iulog,*) trim(subname),' ERROR: unknown avgflag=',avgflag call endrun () end select end do end subroutine masterlist_change_timeavg !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: htapes_fieldlist ! ! !INTERFACE: subroutine htapes_fieldlist() ! ! !DESCRIPTION: ! Define the contents of each history file based on namelist ! input for initial or branch run, and restart data if a restart run. ! Use arrays fincl and fexcl to modify default history tape contents. ! Then sort the result alphanumerically. ! ! !USES: ! ! !ARGUMENTS: implicit none ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: t, f ! tape, field indices integer :: ff ! index into include, exclude and fprec list character(len=max_namlen) :: name ! field name portion of fincl (i.e. no avgflag separator) character(len=max_namlen) :: mastername ! name from masterlist field character(len=1) :: avgflag ! averaging flag character(len=1) :: prec_acc ! history buffer precision flag character(len=1) :: prec_wrt ! history buffer write precision flag type (history_entry) :: tmp ! temporary used for swapping character(len=*),parameter :: subname = 'htapes_fieldlist' !----------------------------------------------------------------------- ! First ensure contents of fincl and fexcl are valid names do t = 1,max_tapes f = 1 do while (f < max_flds .and. fincl(f,t) /= ' ') name = getname (fincl(f,t)) do ff = 1,nfmaster mastername = masterlist(ff)%field%name if (name == mastername) exit end do if (name /= mastername) then write(iulog,*) trim(subname),' ERROR: ', trim(name), ' in fincl(', f, ') ',& 'for history tape ',t,' not found' call endrun() end if f = f + 1 end do f = 1 do while (f < max_flds .and. fexcl(f,t) /= ' ') do ff = 1,nfmaster mastername = masterlist(ff)%field%name if (fexcl(f,t) == mastername) exit end do if (fexcl(f,t) /= mastername) then write(iulog,*) trim(subname),' ERROR: ', fexcl(f,t), ' in fexcl(', f, ') ', & 'for history tape ',t,' not found' call endrun() end if f = f + 1 end do end do tape(:)%nflds = 0 do t = 1,max_tapes ! Loop through the masterlist set of field names and determine if any of those ! are in the FINCL or FEXCL arrays ! The call to list_index determines the index in the FINCL or FEXCL arrays ! that the masterlist field corresponds to ! Add the field to the tape if specified via namelist (FINCL[1-max_tapes]), ! or if it is on by default and was not excluded via namelist (FEXCL[1-max_tapes]). do f = 1,nfmaster mastername = masterlist(f)%field%name call list_index (fincl(1,t), mastername, ff) if (ff > 0) then ! if field is in include list, ff > 0 and htape_addfld ! will not be called for field avgflag = getflag (fincl(ff,t)) call htape_addfld (t, f, avgflag) else if (.not. hist_empty_htapes) then ! find index of field in exclude list call list_index (fexcl(1,t), mastername, ff) ! if field is in exclude list, ff > 0 and htape_addfld ! will not be called for field ! if field is not in exclude list, ff =0 and htape_addfld ! will be called for field (note that htape_addfld will be ! called below only if field is not in exclude list OR in ! include list if (ff == 0 .and. masterlist(f)%actflag(t)) then call htape_addfld (t, f, ' ') end if end if end do ! Specification of tape contents now complete. ! Sort each list of active entries do f = tape(t)%nflds-1,1,-1 do ff = 1,f if (tape(t)%hlist(ff)%field%name > tape(t)%hlist(ff+1)%field%name) then tmp = tape(t)%hlist(ff) tape(t)%hlist(ff ) = tape(t)%hlist(ff+1) tape(t)%hlist(ff+1) = tmp else if (tape(t)%hlist(ff)%field%name == tape(t)%hlist(ff+1)%field%name) then write(iulog,*) trim(subname),' ERROR: Duplicate field ', & tape(t)%hlist(ff)%field%name, & 't,ff,name=',t,ff,tape(t)%hlist(ff+1)%field%name call endrun() end if end do end do if (masterproc) then if (tape(t)%nflds > 0) then write(iulog,*) trim(subname),' : Included fields tape ',t,'=',tape(t)%nflds end if do f = 1,tape(t)%nflds write(iulog,*) f,' ',tape(t)%hlist(f)%field%name, & tape(t)%hlist(f)%field%num2d,' ',tape(t)%hlist(f)%avgflag end do call shr_sys_flush(iulog) end if end do ! Determine total number of active history tapes ntapes = 0 do t = max_tapes,1,-1 if (tape(t)%nflds > 0) then ntapes = t exit end if end do ! Ensure there are no "holes" in tape specification, i.e. empty tapes. ! Enabling holes should not be difficult if necessary. do t = 1,ntapes if (tape(t)%nflds == 0) then write(iulog,*) trim(subname),' ERROR: Tape ',t,' is empty' call endrun() end if end do ! Check that the number of history files declared does not exceed ! the maximum allowed. if (ntapes > max_tapes) then write(iulog,*) trim(subname),' ERROR: Too many history files declared, max_tapes=',max_tapes call endrun() end if ! Change 1d output per tape output flag if requested - only for history ! tapes where 2d xy averaging is not enabled do t = 1,ntapes if (hist_type1d_pertape(t) /= ' ' .and. (.not. hist_dov2xy(t))) then select case (trim(hist_type1d_pertape(t))) case ('PFTS','COLS', 'LAND', 'GRID') if ( masterproc ) & write(iulog,*)'history tape ',t,' will have 1d output type of ',hist_type1d_pertape(t) case default write(iulog,*) trim(subname),' ERROR: unknown namelist type1d per tape=',hist_type1d_pertape(t) call endrun() end select end if end do if (masterproc) then write(iulog,*) 'There will be a total of ',ntapes,' history tapes' do t=1,ntapes write(iulog,*) if (hist_nhtfrq(t) == 0) then write(iulog,*)'History tape ',t,' write frequency is MONTHLY' else write(iulog,*)'History tape ',t,' write frequency = ',hist_nhtfrq(t) endif if (hist_dov2xy(t)) then write(iulog,*)'All fields on history tape ',t,' are grid averaged' else write(iulog,*)'All fields on history tape ',t,' are not grid averaged' end if write(iulog,*)'Number of time samples on history tape ',t,' is ',hist_mfilt(t) write(iulog,*)'Output precision on history tape ',t,'=',hist_ndens(t) write(iulog,*) end do call shr_sys_flush(iulog) end if ! Set flag indicating h-tape contents are now defined (needed by masterlist_addfld) htapes_defined = .true. end subroutine htapes_fieldlist !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: htape_addfld ! ! !INTERFACE: subroutine htape_addfld (t, f, avgflag) ! ! !DESCRIPTION: ! Add a field to the active list for a history tape. Copy the data from ! the master field list to the active list for the tape. ! ! !USES: ! ! !ARGUMENTS: implicit none integer, intent(in) :: t ! history tape index integer, intent(in) :: f ! field index from master field list character(len=1), intent(in) :: avgflag ! time averaging flag ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: n ! field index on defined tape character(len=8) :: type1d ! clm pointer 1d type character(len=8) :: type1d_out ! history buffer 1d type integer :: begp, endp ! per-proc beginning and ending pft indices integer :: begc, endc ! per-proc beginning and ending column indices integer :: begl, endl ! per-proc beginning and ending landunit indices integer :: begg, endg ! per-proc gridcell ending gridcell indices integer :: numa ! total number of atm cells across all processors integer :: numg ! total number of gridcells across all processors integer :: numl ! total number of landunits across all processors integer :: numc ! total number of columns across all processors integer :: nump ! total number of pfts across all processors integer :: num2d ! size of second dimension (e.g. .number of vertical levels) integer :: beg1d_out,end1d_out ! history output per-proc 1d beginning and ending indices integer :: num1d_out ! history output 1d size character(len=*),parameter :: subname = 'htape_addfld' !----------------------------------------------------------------------- ! Ensure that it is not to late to add a field to the history tape if (htapes_defined) then write(iulog,*) trim(subname),' ERROR: attempt to add field ', & masterlist(f)%field%name, ' after history files are set' call endrun() end if tape(t)%nflds = tape(t)%nflds + 1 n = tape(t)%nflds ! Copy field information tape(t)%hlist(n)%field = masterlist(f)%field ! Determine bounds call get_proc_bounds(begg, endg, begl, endl, begc, endc, begp, endp) call get_proc_global(numg, numl, numc, nump) ! Modify type1d_out if necessary if (hist_dov2xy(t)) then ! If xy output averaging is requested, set output 1d type to grlnd ! ***NOTE- the following logic is what permits non lat/lon grids to ! be written to clm history file type1d = tape(t)%hlist(n)%field%type1d if (type1d == nameg .or. & type1d == namel .or. & type1d == namec .or. & type1d == namep) then tape(t)%hlist(n)%field%type1d_out = grlnd end if if (type1d == grlnd) then tape(t)%hlist(n)%field%type1d_out = grlnd end if else if (hist_type1d_pertape(t) /= ' ') then ! Set output 1d type based on namelist setting of hist_type1d_pertape ! Only applies to tapes when xy output is not required type1d = tape(t)%hlist(n)%field%type1d select case (trim(hist_type1d_pertape(t))) case('GRID') tape(t)%hlist(n)%field%type1d_out = nameg case('LAND') tape(t)%hlist(n)%field%type1d_out = namel case('COLS') tape(t)%hlist(n)%field%type1d_out = namec case ('PFTS') tape(t)%hlist(n)%field%type1d_out = namep case default write(iulog,*) trim(subname),' ERROR: unknown input hist_type1d_pertape= ', hist_type1d_pertape(t) call endrun() end select endif ! Determine output 1d dimensions type1d_out = tape(t)%hlist(n)%field%type1d_out if (type1d_out == grlnd) then beg1d_out = begg end1d_out = endg num1d_out = numg else if (type1d_out == nameg) then beg1d_out = begg end1d_out = endg num1d_out = numg else if (type1d_out == namel) then beg1d_out = begl end1d_out = endl num1d_out = numl else if (type1d_out == namec) then beg1d_out = begc end1d_out = endc num1d_out = numc else if (type1d_out == namep) then beg1d_out = begp end1d_out = endp num1d_out = nump else write(iulog,*) trim(subname),' ERROR: incorrect value of type1d_out= ',type1d_out call endrun() end if tape(t)%hlist(n)%field%beg1d_out = beg1d_out tape(t)%hlist(n)%field%end1d_out = end1d_out tape(t)%hlist(n)%field%num1d_out = num1d_out ! Alloccate and initialize history buffer and related info num2d = tape(t)%hlist(n)%field%num2d allocate (tape(t)%hlist(n)%hbuf(beg1d_out:end1d_out,num2d)) allocate (tape(t)%hlist(n)%nacs(beg1d_out:end1d_out,num2d)) tape(t)%hlist(n)%hbuf(:,:) = 0._r8 tape(t)%hlist(n)%nacs(:,:) = 0 ! Set time averaging flag based on masterlist setting or ! override the default averaging flag with namelist setting select case (avgflag) case (' ') tape(t)%hlist(n)%avgflag = masterlist(f)%avgflag(t) case ('A','I','X','M') tape(t)%hlist(n)%avgflag = avgflag case default write(iulog,*) trim(subname),' ERROR: unknown avgflag=', avgflag call endrun() end select end subroutine htape_addfld !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hist_update_hbuf ! ! !INTERFACE: subroutine hist_update_hbuf() ! ! !DESCRIPTION: ! Accumulate (or take min, max, etc. as appropriate) input field ! into its history buffer for appropriate tapes. ! ! !USES: ! ! !ARGUMENTS: implicit none ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: t ! tape index integer :: f ! field index integer :: begp, endp ! per-proc beginning and ending pft indices integer :: begc, endc ! per-proc beginning and ending column indices integer :: begl, endl ! per-proc beginning and ending landunit indices integer :: begg, endg ! per-proc gridcell ending gridcell indices integer :: num2d ! size of second dimension (e.g. number of vertical levels) character(len=*),parameter :: subname = 'hist_update_hbuf' !----------------------------------------------------------------------- call get_proc_bounds(begg, endg, begl, endl, begc, endc, begp, endp) do t = 1,ntapes !$OMP PARALLEL DO PRIVATE (f, num2d) do f = 1,tape(t)%nflds num2d = tape(t)%hlist(f)%field%num2d if ( num2d == 1) then call hist_update_hbuf_field_1d (t, f, begp, endp, begc, endc, begl, endl, begg, endg) else call hist_update_hbuf_field_2d (t, f, begp, endp, begc, endc, begl, endl, begg, endg, num2d) end if end do !$OMP END PARALLEL DO end do end subroutine hist_update_hbuf !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hist_update_hbuf_field_1d ! ! !INTERFACE: subroutine hist_update_hbuf_field_1d (t, f, begp, endp, begc, endc, begl, endl, begg, endg) ! ! !DESCRIPTION: ! Accumulate (or take min, max, etc. as appropriate) input field ! into its history buffer for appropriate tapes. ! ! !USES: use clmtype use subgridAveMod, only : p2g, c2g, l2g use clm_varcon , only : istice_mec ! ! !ARGUMENTS: implicit none integer, intent(in) :: t ! tape index integer, intent(in) :: f ! field index integer, intent(in) :: begp, endp ! per-proc beginning and ending pft indices integer, intent(in) :: begc, endc ! per-proc beginning and ending column indices integer, intent(in) :: begl, endl ! per-proc beginning and ending landunit indices integer, intent(in) :: begg, endg ! per-proc gridcell ending gridcell indices ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: hpindex ! history pointer index integer :: k ! gridcell, landunit, column or pft index integer :: l ! landunit index integer :: beg1d,end1d ! beginning and ending indices logical :: checkwt ! true => check weight of pft relative to gridcell logical :: valid ! true => history operation is valid logical :: map2gcell ! true => map clm pointer field to gridcell character(len=8) :: type1d ! 1d clm pointerr type ["gridcell","landunit","column","pft"] character(len=8) :: type1d_out ! 1d history buffer type ["gridcell","landunit","column","pft"] character(len=1) :: avgflag ! time averaging flag character(len=8) :: p2c_scale_type ! scale type for subgrid averaging of pfts to column character(len=8) :: c2l_scale_type ! scale type for subgrid averaging of columns to landunits character(len=8) :: l2g_scale_type ! scale type for subgrid averaging of landunits to gridcells real(r8), pointer :: hbuf(:,:) ! history buffer integer , pointer :: nacs(:,:) ! accumulation counter integer , pointer :: ltype(:) ! landunit type integer , pointer :: plandunit(:) ! pft's landunit index real(r8), pointer :: pwtgcell(:) ! weight of pft relative to corresponding gridcell real(r8), pointer :: field(:) ! clm 1d pointer field real(r8) :: field_gcell(begg:endg) ! gricell level field (used if mapping to gridcell is done) integer j character(len=*),parameter :: subname = 'hist_update_hbuf_field_1d' !----------------------------------------------------------------------- avgflag = tape(t)%hlist(f)%avgflag nacs => tape(t)%hlist(f)%nacs hbuf => tape(t)%hlist(f)%hbuf beg1d = tape(t)%hlist(f)%field%beg1d end1d = tape(t)%hlist(f)%field%end1d type1d = tape(t)%hlist(f)%field%type1d type1d_out = tape(t)%hlist(f)%field%type1d_out p2c_scale_type = tape(t)%hlist(f)%field%p2c_scale_type c2l_scale_type = tape(t)%hlist(f)%field%c2l_scale_type l2g_scale_type = tape(t)%hlist(f)%field%l2g_scale_type hpindex = tape(t)%hlist(f)%field%hpindex field => clmptr_rs(hpindex)%ptr ! set variables to check weights when allocate all pfts map2gcell = .false. if (type1d_out == nameg .or. type1d_out == grlnd) then if (type1d == namep) then call p2g(begp, endp, begc, endc, begl, endl, begg, endg, field, field_gcell, & p2c_scale_type, c2l_scale_type, l2g_scale_type) map2gcell = .true. else if (type1d == namec) then call c2g(begc, endc, begl, endl, begg, endg, field, field_gcell, & c2l_scale_type, l2g_scale_type) map2gcell = .true. else if (type1d == namel) then call l2g(begl, endl, begg, endg, field, field_gcell, & l2g_scale_type) map2gcell = .true. end if end if if (map2gcell) then ! Map to gridcell ! note that in this case beg1d = begg and end1d=endg select case (avgflag) case ('I') ! Instantaneous do k = begg,endg if (field_gcell(k) /= spval) then hbuf(k,1) = field_gcell(k) else hbuf(k,1) = spval end if nacs(k,1) = 1 end do case ('A') ! Time average do k = begg,endg if (field_gcell(k) /= spval) then if (nacs(k,1) == 0) hbuf(k,1) = 0._r8 hbuf(k,1) = hbuf(k,1) + field_gcell(k) nacs(k,1) = nacs(k,1) + 1 else if (nacs(k,1) == 0) hbuf(k,1) = spval end if end do case ('X') ! Maximum over time do k = begg,endg if (field_gcell(k) /= spval) then if (nacs(k,1) == 0) hbuf(k,1) = -1.e50_r8 hbuf(k,1) = max( hbuf(k,1), field_gcell(k) ) else hbuf(k,1) = spval endif nacs(k,1) = 1 end do case ('M') ! Minimum over time do k = begg,endg if (field_gcell(k) /= spval) then if (nacs(k,1) == 0) hbuf(k,1) = +1.e50_r8 hbuf(k,1) = min( hbuf(k,1), field_gcell(k) ) else hbuf(k,1) = spval endif nacs(k,1) = 1 end do case default write(iulog,*) trim(subname),' ERROR: invalid time averaging flag ', avgflag call endrun() end select else ! Do not map to gridcell pwtgcell => clm3%g%l%c%p%wtgcell plandunit => clm3%g%l%c%p%landunit ltype => clm3%g%l%itype checkwt = .false. if (type1d == namep) checkwt = .true. select case (avgflag) case ('I') ! Instantaneous do k = beg1d,end1d valid = .true. if (checkwt) then l = plandunit(k) ! Note: some glacier_mec pfts may have zero weight and still be considered valid if (pwtgcell(k) == 0._r8 .and. ltype(l)/=istice_mec) valid = .false. end if if (valid) then if (field(k) /= spval) then hbuf(k,1) = field(k) else hbuf(k,1) = spval end if else hbuf(k,1) = spval end if nacs(k,1) = 1 end do case ('A') ! Time average do k = beg1d,end1d valid = .true. if (checkwt) then l = plandunit(k) if (pwtgcell(k) == 0._r8 .and. ltype(l)/=istice_mec) valid = .false. end if if (valid) then if (field(k) /= spval) then if (nacs(k,1) == 0) hbuf(k,1) = 0._r8 hbuf(k,1) = hbuf(k,1) + field(k) nacs(k,1) = nacs(k,1) + 1 else if (nacs(k,1) == 0) hbuf(k,1) = spval end if else if (nacs(k,1) == 0) hbuf(k,1) = spval end if end do case ('X') ! Maximum over time do k = beg1d,end1d valid = .true. if (checkwt) then l = plandunit(k) if (pwtgcell(k) == 0._r8 .and. ltype(l)/=istice_mec) valid = .false. end if if (valid) then if (field(k) /= spval) then if (nacs(k,1) == 0) hbuf(k,1) = -1.e50_r8 hbuf(k,1) = max( hbuf(k,1), field(k) ) else if (nacs(k,1) == 0) hbuf(k,1) = spval end if else if (nacs(k,1) == 0) hbuf(k,1) = spval end if nacs(k,1) = 1 end do case ('M') ! Minimum over time do k = beg1d,end1d valid = .true. if (checkwt) then l = plandunit(k) if (pwtgcell(k) == 0._r8 .and. ltype(l)/=istice_mec) valid = .false. end if if (valid) then if (field(k) /= spval) then if (nacs(k,1) == 0) hbuf(k,1) = +1.e50_r8 hbuf(k,1) = min( hbuf(k,1), field(k) ) else if (nacs(k,1) == 0) hbuf(k,1) = spval end if else if (nacs(k,1) == 0) hbuf(k,1) = spval end if nacs(k,1) = 1 end do case default write(iulog,*) trim(subname),' ERROR: invalid time averaging flag ', avgflag call endrun() end select end if end subroutine hist_update_hbuf_field_1d !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hist_update_hbuf_field_2d ! ! !INTERFACE: subroutine hist_update_hbuf_field_2d (t, f, begp, endp, begc, endc, begl, endl, begg, endg, num2d) ! ! !DESCRIPTION: ! Accumulate (or take min, max, etc. as appropriate) input field ! into its history buffer for appropriate tapes. ! ! !USES: use clmtype use subgridAveMod, only : p2g, c2g, l2g use clm_varcon , only : istice_mec ! ! !ARGUMENTS: implicit none integer, intent(in) :: t ! tape index integer, intent(in) :: f ! field index integer, intent(in) :: begp, endp ! per-proc beginning and ending pft indices integer, intent(in) :: begc, endc ! per-proc beginning and ending column indices integer, intent(in) :: begl, endl ! per-proc beginning and ending landunit indices integer, intent(in) :: begg, endg ! per-proc gridcell ending gridcell indices integer, intent(in) :: num2d ! size of second dimension ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: hpindex ! history pointer index integer :: k ! gridcell, landunit, column or pft index integer :: l ! landunit index integer :: j ! level index integer :: beg1d,end1d ! beginning and ending indices logical :: checkwt ! true => check weight of pft relative to gridcell logical :: valid ! true => history operation is valid logical :: map2gcell ! true => map clm pointer field to gridcell character(len=8) :: type1d ! 1d clm pointerr type ["gridcell","landunit","column","pft"] character(len=8) :: type1d_out ! 1d history buffer type ["gridcell","landunit","column","pft"] character(len=1) :: avgflag ! time averaging flag character(len=8) :: p2c_scale_type ! scale type for subgrid averaging of pfts to column character(len=8) :: c2l_scale_type ! scale type for subgrid averaging of columns to landunits character(len=8) :: l2g_scale_type ! scale type for subgrid averaging of landunits to gridcells real(r8), pointer :: hbuf(:,:) ! history buffer integer , pointer :: nacs(:,:) ! accumulation counter integer , pointer :: ltype(:) ! landunit type integer , pointer :: plandunit(:) ! pft's landunit index real(r8), pointer :: pwtgcell(:) ! weight of pft relative to corresponding gridcell real(r8), pointer :: field(:,:) ! clm 2d pointer field real(r8) :: field_gcell(begg:endg,num2d) ! gricell level field (used if mapping to gridcell is done) character(len=*),parameter :: subname = 'hist_update_hbuf_field_2d' !----------------------------------------------------------------------- avgflag = tape(t)%hlist(f)%avgflag nacs => tape(t)%hlist(f)%nacs hbuf => tape(t)%hlist(f)%hbuf beg1d = tape(t)%hlist(f)%field%beg1d end1d = tape(t)%hlist(f)%field%end1d type1d = tape(t)%hlist(f)%field%type1d type1d_out = tape(t)%hlist(f)%field%type1d_out p2c_scale_type = tape(t)%hlist(f)%field%p2c_scale_type c2l_scale_type = tape(t)%hlist(f)%field%c2l_scale_type l2g_scale_type = tape(t)%hlist(f)%field%l2g_scale_type hpindex = tape(t)%hlist(f)%field%hpindex field => clmptr_ra(hpindex)%ptr(:,1:num2d) ! set variables to check weights when allocate all pfts map2gcell = .false. if (type1d_out == nameg .or. type1d_out == grlnd) then if (type1d == namep) then call p2g(begp, endp, begc, endc, begl, endl, begg, endg, num2d, field, field_gcell, & p2c_scale_type, c2l_scale_type, l2g_scale_type) map2gcell = .true. else if (type1d == namec) then call c2g(begc, endc, begl, endl, begg, endg, num2d, field, field_gcell, & c2l_scale_type, l2g_scale_type) map2gcell = .true. else if (type1d == namel) then call l2g(begl, endl, begg, endg, num2d, field, field_gcell, & l2g_scale_type) map2gcell = .true. end if end if if (map2gcell) then ! Map to gridcell ! note that in this case beg1d = begg and end1d=endg select case (avgflag) case ('I') ! Instantaneous do j = 1,num2d do k = begg,endg if (field_gcell(k,j) /= spval) then hbuf(k,j) = field_gcell(k,j) else hbuf(k,j) = spval end if nacs(k,j) = 1 end do end do case ('A') ! Time average do j = 1,num2d do k = begg,endg if (field_gcell(k,j) /= spval) then if (nacs(k,j) == 0) hbuf(k,j) = 0._r8 hbuf(k,j) = hbuf(k,j) + field_gcell(k,j) nacs(k,j) = nacs(k,j) + 1 else if (nacs(k,j) == 0) hbuf(k,j) = spval endif end do end do case ('X') ! Maximum over time do j = 1,num2d do k = begg,endg if (field_gcell(k,j) /= spval) then if (nacs(k,j) == 0) hbuf(k,j) = -1.e50_r8 hbuf(k,j) = max( hbuf(k,j), field_gcell(k,j) ) else hbuf(k,j) = spval endif nacs(k,j) = 1 end do end do case ('M') ! Minimum over time do j = 1,num2d do k = begg,endg if (field_gcell(k,j) /= spval) then if (nacs(k,j) == 0) hbuf(k,j) = +1.e50_r8 hbuf(k,j) = min( hbuf(k,j), field_gcell(k,j) ) else hbuf(k,j) = spval endif nacs(k,j) = 1 end do end do case default write(iulog,*) trim(subname),' ERROR: invalid time averaging flag ', avgflag call endrun() end select else ! Do not map to gridcell ! Note that since field points to an array section the ! bounds are field(1:end1d-beg1d+1, num2d) - therefore ! need to do the shifting below pwtgcell => clm3%g%l%c%p%wtgcell plandunit => clm3%g%l%c%p%landunit ltype => clm3%g%l%itype checkwt = .false. if (type1d == namep) checkwt = .true. select case (avgflag) case ('I') ! Instantaneous do j = 1,num2d do k = beg1d,end1d valid = .true. if (checkwt) then l = plandunit(k) if (pwtgcell(k) == 0._r8 .and. ltype(l)/=istice_mec) valid = .false. end if if (valid) then if (field(k-beg1d+1,j) /= spval) then hbuf(k,j) = field(k-beg1d+1,j) else hbuf(k,j) = spval end if else hbuf(k,j) = spval end if nacs(k,j) = 1 end do end do case ('A') ! Time average do j = 1,num2d do k = beg1d,end1d valid = .true. if (checkwt) then l = plandunit(k) if (pwtgcell(k) == 0._r8 .and. ltype(l)/=istice_mec) valid = .false. end if if (valid) then if (field(k-beg1d+1,j) /= spval) then if (nacs(k,j) == 0) hbuf(k,j) = 0._r8 hbuf(k,j) = hbuf(k,j) + field(k-beg1d+1,j) nacs(k,j) = nacs(k,j) + 1 else if (nacs(k,j) == 0) hbuf(k,j) = spval end if else if (nacs(k,j) == 0) hbuf(k,j) = spval end if end do end do case ('X') ! Maximum over time do j = 1,num2d do k = beg1d,end1d valid = .true. if (checkwt) then l = plandunit(k) if (pwtgcell(k) == 0._r8 .and. ltype(l)/=istice_mec) valid = .false. end if if (valid) then if (field(k-beg1d+1,j) /= spval) then if (nacs(k,j) == 0) hbuf(k,j) = -1.e50_r8 hbuf(k,j) = max( hbuf(k,j), field(k-beg1d+1,j) ) else if (nacs(k,j) == 0) hbuf(k,j) = spval end if else if (nacs(k,j) == 0) hbuf(k,j) = spval end if nacs(k,j) = 1 end do end do case ('M') ! Minimum over time do j = 1,num2d do k = beg1d,end1d valid = .true. if (checkwt) then l = plandunit(k) if (pwtgcell(k) == 0._r8 .and. ltype(l)/=istice_mec) valid = .false. end if if (valid) then if (field(k-beg1d+1,j) /= spval) then if (nacs(k,j) == 0) hbuf(k,j) = +1.e50_r8 hbuf(k,j) = min( hbuf(k,j), field(k-beg1d+1,j)) else if (nacs(k,j) == 0) hbuf(k,j) = spval end if else if (nacs(k,j) == 0) hbuf(k,j) = spval end if nacs(k,j) = 1 end do end do case default write(iulog,*) trim(subname),' ERROR: invalid time averaging flag ', avgflag call endrun() end select end if end subroutine hist_update_hbuf_field_2d !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hfields_normalize ! ! !INTERFACE: subroutine hfields_normalize (t) ! ! !DESCRIPTION: ! Normalize fields on a history file by the number of accumulations. ! Loop over fields on the tape. Need averaging flag and number of ! accumulations to perform normalization. ! ! !ARGUMENTS: implicit none integer, intent(in) :: t ! tape index ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: f ! field index integer :: k ! 1d index integer :: j ! 2d index logical :: aflag ! averaging flag integer :: beg1d_out,end1d_out ! hbuf 1d beginning and ending indices integer :: num2d ! hbuf size of second dimension (e.g. number of vertical levels) character(len=1) :: avgflag ! averaging flag real(r8), pointer :: hbuf(:,:) ! history buffer integer , pointer :: nacs(:,:) ! accumulation counter character(len=*),parameter :: subname = 'hfields_normalize' !----------------------------------------------------------------------- !dir$ inlinenever hfields_normalize ! Normalize by number of accumulations for time averaged case do f = 1,tape(t)%nflds avgflag = tape(t)%hlist(f)%avgflag beg1d_out = tape(t)%hlist(f)%field%beg1d_out end1d_out = tape(t)%hlist(f)%field%end1d_out num2d = tape(t)%hlist(f)%field%num2d nacs => tape(t)%hlist(f)%nacs hbuf => tape(t)%hlist(f)%hbuf if (avgflag == 'A') then aflag = .true. else aflag = .false. end if do j = 1, num2d do k = beg1d_out, end1d_out if (aflag .and. nacs(k,j) /= 0) then hbuf(k,j) = hbuf(k,j) / float(nacs(k,j)) end if end do end do end do end subroutine hfields_normalize !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hfields_zero ! ! !INTERFACE: subroutine hfields_zero (t) ! ! !DESCRIPTION: ! Zero out accumulation and history buffers for a given history tape. ! Loop through fields on the tape. ! ! !USES: ! ! !ARGUMENTS: implicit none integer, intent(in) :: t ! tape index ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: f ! field index character(len=*),parameter :: subname = 'hfields_zero' !----------------------------------------------------------------------- do f = 1,tape(t)%nflds tape(t)%hlist(f)%hbuf(:,:) = 0._r8 tape(t)%hlist(f)%nacs(:,:) = 0 end do end subroutine hfields_zero !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: htape_create ! ! !INTERFACE: subroutine htape_create (t, histrest) ! ! !DESCRIPTION: ! Define contents of history file t. Issue the required netcdf ! wrapper calls to define the history file contents. ! ! !USES: use clmtype use clm_varpar , only : nlevgrnd, nlevlak, numrad use clm_varctl , only : caseid, ctitle, fsurdat, finidat, fpftcon, & version, hostname, username, conventions, source use domainMod , only : ldomain use fileutils , only : get_filename ! ! !ARGUMENTS: implicit none integer, intent(in) :: t ! tape index logical, intent(in), optional :: histrest ! if creating the history restart file ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: f ! field index integer :: p,c,l,n ! indices integer :: ier ! error code integer :: num2d ! size of second dimension (e.g. number of vertical levels) integer :: dimid ! dimension id temporary integer :: dim1id(1) ! netCDF dimension id integer :: dim2id(2) ! netCDF dimension id integer :: ndims ! dimension counter integer :: omode ! returned mode from netCDF call integer :: ncprec ! output netCDF write precision integer :: ret ! netCDF error status integer :: nump ! total number of pfts across all processors integer :: numc ! total number of columns across all processors integer :: numl ! total number of landunits across all processors integer :: numg ! total number of gridcells across all processors integer :: numa ! total number of atm cells across all processors logical :: lhistrest ! local history restart flag type(file_desc_t) :: lnfid ! local file id character(len= 8) :: curdate ! current date character(len= 8) :: curtime ! current time character(len=256) :: name ! name of attribute character(len=256) :: units ! units of attribute character(len=256) :: str ! global attribute string character(len= 1) :: avgflag ! time averaging flag character(len=*),parameter :: subname = 'htape_create' !----------------------------------------------------------------------- if ( present(histrest) )then lhistrest = histrest else lhistrest = .false. end if ! Determine necessary indices call get_proc_global(numg, numl, numc, nump) ! define output write precsion for tape ncprec = tape(t)%ncprec ! Create new netCDF file. It will be in define mode if ( .not. lhistrest )then if (masterproc) then write(iulog,*) trim(subname),' : Opening netcdf htape ', & trim(locfnh(t)) call shr_sys_flush(iulog) end if call ncd_pio_createfile(lnfid, trim(locfnh(t))) call ncd_putatt(lnfid, ncd_global, 'title', 'CLM History file information' ) call ncd_putatt(lnfid, ncd_global, 'comment', & "NOTE: None of the variables are weighted by land fraction!" ) else if (masterproc) then write(iulog,*) trim(subname),' : Opening netcdf rhtape ', & trim(locfnhr(t)) call shr_sys_flush(iulog) end if call ncd_pio_createfile(lnfid, trim(locfnhr(t))) call ncd_putatt(lnfid, ncd_global, 'title', & 'CLM Restart History information, required to continue a simulation' ) call ncd_putatt(lnfid, ncd_global, 'comment', & "This entire file NOT needed for startup or branch simulations") end if ! Create global attributes. Attributes are used to store information ! about the data set. Global attributes are information about the ! data set as a whole, as opposed to a single variable call ncd_putatt(lnfid, ncd_global, 'Conventions', trim(conventions)) call getdatetime(curdate, curtime) str = 'created on ' // curdate // ' ' // curtime call ncd_putatt(lnfid, ncd_global, 'history' , trim(str)) call ncd_putatt(lnfid, ncd_global, 'source' , trim(source)) call ncd_putatt(lnfid, ncd_global, 'hostname', trim(hostname)) call ncd_putatt(lnfid, ncd_global, 'username', trim(username)) call ncd_putatt(lnfid, ncd_global, 'version' , trim(version)) str = & '$Id: histFileMod.F90 40539 2012-09-26 21:57:22Z muszala $' call ncd_putatt(lnfid, ncd_global, 'revision_id', trim(str)) call ncd_putatt(lnfid, ncd_global, 'case_title', trim(ctitle)) call ncd_putatt(lnfid, ncd_global, 'case_id', trim(caseid)) str = get_filename(fsurdat) call ncd_putatt(lnfid, ncd_global, 'Surface_dataset', trim(str)) if (finidat == ' ') then str = 'arbitrary initialization' else str = get_filename(finidat) endif call ncd_putatt(lnfid, ncd_global, 'Initial_conditions_dataset', trim(str)) str = get_filename(fpftcon) call ncd_putatt(lnfid, ncd_global, 'PFT_physiological_constants_dataset', trim(str)) ! Define dimensions. ! Time is an unlimited dimension. Character string is treated as an array of characters. ! Global uncompressed dimensions (including non-land points) if (ldomain%isgrid2d) then call ncd_defdim(lnfid, 'lon' , ldomain%ni, dimid) call ncd_defdim(lnfid, 'lat' , ldomain%nj, dimid) else call ncd_defdim(lnfid, trim(grlnd), ldomain%ns, dimid) end if ! Global compressed dimensions (not including non-land points) call ncd_defdim(lnfid, trim(nameg), numg, dimid) call ncd_defdim(lnfid, trim(namel), numl, dimid) call ncd_defdim(lnfid, trim(namec), numc, dimid) call ncd_defdim(lnfid, trim(namep), nump, dimid) ! "level" dimensions call ncd_defdim(lnfid, 'levgrnd', nlevgrnd, dimid) call ncd_defdim(lnfid, 'levlak' , nlevlak, dimid) call ncd_defdim(lnfid, 'numrad' , numrad , dimid) do n = 1,num_subs call ncd_defdim(lnfid, subs_name(n), subs_dim(n), dimid) end do call ncd_defdim(lnfid, 'string_length', 8, strlen_dimid) if ( .not. lhistrest )then call ncd_defdim(lnfid, 'hist_interval', 2, hist_interval_dimid) call ncd_defdim(lnfid, 'time', ncd_unlimited, time_dimid) nfid(t) = lnfid if (masterproc)then write(iulog,*) trim(subname), & ' : Successfully defined netcdf history file ',t call shr_sys_flush(iulog) end if else ncid_hist(t) = lnfid if (masterproc)then write(iulog,*) trim(subname), & ' : Successfully defined netcdf restart history file ',t call shr_sys_flush(iulog) end if end if end subroutine htape_create !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: htape_timeconst3D ! ! !INTERFACE: subroutine htape_timeconst3D(t, mode) ! ! !DESCRIPTION: ! Write time constant 3D variables to history tapes. ! Only write out when this subroutine is called (normally only for ! primary history files at very first time-step, nstep=0). ! Issue the required netcdf wrapper calls to define the history file ! contents. ! ! !USES: use clmtype use subgridAveMod , only : c2g use clm_varpar , only : nlevgrnd use shr_string_mod, only : shr_string_listAppend use domainMod , only : ldomain ! ! !ARGUMENTS: implicit none integer, intent(in) :: t ! tape index character(len=*), intent(in) :: mode ! 'define' or 'write' ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: c,l,lev,ifld ! indices integer :: ier ! error status integer :: begp, endp ! per-proc beginning and ending pft indices integer :: begc, endc ! per-proc beginning and ending column indices integer :: begl, endl ! per-proc beginning and ending landunit indices integer :: begg, endg ! per-proc gridcell ending gridcell indices character(len=max_chars) :: long_name ! variable long name character(len=max_namlen):: varname ! variable name character(len=max_namlen):: units ! variable units character(len=8) :: l2g_scale_type ! scale type for subgrid averaging of landunits to grid cells real(r8), pointer :: histi(:,:) ! temporary real(r8), pointer :: histo(:,:) ! temporary type(landunit_type), pointer :: lptr ! pointer to landunit derived subtype type(column_type) , pointer :: cptr ! pointer to column derived subtype integer, parameter :: nflds = 6 ! Number of 3D time-constant fields character(len=*),parameter :: subname = 'htape_timeconst3D' character(len=*),parameter :: varnames(nflds) = (/ & 'ZSOI ', & 'DZSOI ', & 'WATSAT', & 'SUCSAT', & 'BSW ', & 'HKSAT ' & /) !----------------------------------------------------------------------- !------------------------------------------------------------------------------- !*** Non-time varying 3D fields *** !*** Only write out when this subroutine is called *** !*** Normally only called once for primary tapes *** !------------------------------------------------------------------------------- if (mode == 'define') then do ifld = 1,nflds ! Field indices MUST match varnames array order above! if (ifld == 1) then long_name='soil depth'; units = 'm' else if (ifld == 2) then long_name='soil thickness'; units = 'm' else if (ifld == 3) then long_name='saturated soil water content (porosity)'; units = 'mm3/mm3' else if (ifld == 4) then long_name='saturated soil matric potential'; units = 'mm' else if (ifld == 5) then long_name='slope of soil water retention curve'; units = 'unitless' else if (ifld == 6) then long_name='saturated hydraulic conductivity'; units = 'unitless' else call endrun( subname//' ERROR: bad 3D time-constant field index' ) end if if (tape(t)%dov2xy) then if (ldomain%isgrid2d) then call ncd_defvar(ncid=nfid(t), varname=trim(varnames(ifld)), xtype=tape(t)%ncprec,& dim1name='lon', dim2name='lat', dim3name='levgrnd', & long_name=long_name, units=units, missing_value=spval, fill_value=spval) else call ncd_defvar(ncid=nfid(t), varname=trim(varnames(ifld)), xtype=tape(t)%ncprec, & dim1name=grlnd, dim2name='levgrnd', & long_name=long_name, units=units, missing_value=spval, fill_value=spval) end if else call ncd_defvar(ncid=nfid(t), varname=trim(varnames(ifld)), xtype=tape(t)%ncprec, & dim1name=namec, dim2name='levgrnd', & long_name=long_name, units=units, missing_value=spval, fill_value=spval) end if call shr_string_listAppend(TimeConst3DVars,varnames(ifld)) end do else if (mode == 'write') then ! Set pointers into derived type and get necessary bounds lptr => clm3%g%l cptr => clm3%g%l%c call get_proc_bounds(begg, endg, begl, endl, begc, endc, begp, endp) allocate(histi(begc:endc,nlevgrnd), stat=ier) if (ier /= 0) then write(iulog,*) trim(subname),' ERROR: allocation error for histi'; call endrun() end if ! Write time constant fields if (tape(t)%dov2xy) then allocate(histo(begg:endg,nlevgrnd), stat=ier) if (ier /= 0) then write(iulog,*) trim(subname),' ERROR: allocation error for histo'; call endrun() end if end if do ifld = 1,nflds ! WJS (10-25-11): Note about l2g_scale_type in the following: ZSOI & DZSOI are ! currently constant in space, except for urban points, so their scale type ! doesn't matter at the moment as long as it excludes urban points. I am using ! 'nonurb' so that the values are output everywhere where the fields are ! constant (i.e., everywhere except urban points). For the other fields, I am ! using 'veg' to be consistent with the l2g_scale_type that is now used for many ! of the 3-d time-variant fields; in theory, though, one might want versions of ! these variables output for different landunits. ! Field indices MUST match varnames array order above! if (ifld == 1) then ! ZSOI l2g_scale_type = 'nonurb' else if (ifld == 2) then ! DZSOI l2g_scale_type = 'nonurb' else if (ifld == 3) then ! WATSAT l2g_scale_type = 'veg' else if (ifld == 4) then ! SUCSAT l2g_scale_type = 'veg' else if (ifld == 5) then ! BSW l2g_scale_type = 'veg' else if (ifld == 6) then ! HKSAT l2g_scale_type = 'veg' end if histi(:,:) = spval do lev = 1,nlevgrnd do c = begc, endc l = cptr%landunit(c) if (.not. lptr%lakpoi(l)) then ! Field indices MUST match varnames array order above! if (ifld ==1) histi(c,lev) = cptr%cps%z(c,lev) if (ifld ==2) histi(c,lev) = cptr%cps%dz(c,lev) if (ifld ==3) histi(c,lev) = cptr%cps%watsat(c,lev) if (ifld ==4) histi(c,lev) = cptr%cps%sucsat(c,lev) if (ifld ==5) histi(c,lev) = cptr%cps%bsw(c,lev) if (ifld ==6) histi(c,lev) = cptr%cps%hksat(c,lev) end if end do end do if (tape(t)%dov2xy) then histo(:,:) = spval call c2g(begc, endc, begl, endl, begg, endg, nlevgrnd, histi, histo, & c2l_scale_type='unity', l2g_scale_type=l2g_scale_type) if (ldomain%isgrid2d) then call ncd_io(varname=trim(varnames(ifld)), dim1name=grlnd, & data=histo, ncid=nfid(t), flag='write') else call ncd_io(varname=trim(varnames(ifld)), dim1name=grlnd, & data=histo, ncid=nfid(t), flag='write') end if else call ncd_io(varname=trim(varnames(ifld)), dim1name=namec, & data=histi, ncid=nfid(t), flag='write') end if end do if (tape(t)%dov2xy) deallocate(histo) deallocate(histi) end if ! (define/write mode end subroutine htape_timeconst3D !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: htape_timeconst ! ! !INTERFACE: subroutine htape_timeconst(t, mode) ! ! !DESCRIPTION: ! Write time constant values to primary history tape. ! Issue the required netcdf wrapper calls to define the history file ! contents. ! ! !USES: use clmtype use clm_varcon , only : zsoi, zlak, secspday use domainMod , only : ldomain, lon1d, lat1d use clm_time_manager, only : get_nstep, get_curr_date, get_curr_time use clm_time_manager, only : get_ref_date ! ! !ARGUMENTS: implicit none integer, intent(in) :: t ! tape index character(len=*), intent(in) :: mode ! 'define' or 'write' ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: vid,n,i,j,m ! indices integer :: nstep ! current step integer :: mcsec ! seconds of current date integer :: mdcur ! current day integer :: mscur ! seconds of current day integer :: mcdate ! current date integer :: yr,mon,day,nbsec ! year,month,day,seconds components of a date integer :: hours,minutes,secs ! hours,minutes,seconds of hh:mm:ss character(len= 10) :: basedate ! base date (yyyymmdd) character(len= 8) :: basesec ! base seconds character(len= 8) :: cdate ! system date character(len= 8) :: ctime ! system time real(r8):: time ! current time real(r8):: timedata(2) ! time interval boundaries integer :: dim1id(1) ! netCDF dimension id integer :: dim2id(2) ! netCDF dimension id integer :: varid ! netCDF variable id type(Var_desc_t) :: vardesc ! netCDF variable description integer :: begp, endp ! per-proc beginning and ending pft indices integer :: begc, endc ! per-proc beginning and ending column indices integer :: begl, endl ! per-proc beginning and ending landunit indices integer :: begg, endg ! per-proc gridcell ending gridcell indices character(len=max_chars) :: long_name ! variable long name character(len=max_namlen):: varname ! variable name character(len=max_namlen):: units ! variable units character(len=256):: str ! global attribute string real(r8), pointer :: histo(:,:) ! temporary type(landunit_type), pointer :: lptr ! pointer to landunit derived subtype type(column_type) , pointer :: cptr ! pointer to column derived subtype integer :: status character(len=*),parameter :: subname = 'htape_timeconst' !----------------------------------------------------------------------- !------------------------------------------------------------------------------- !*** Time constant grid variables only on first time-sample of file *** !------------------------------------------------------------------------------- if (tape(t)%ntimes == 1) then if (mode == 'define') then call ncd_defvar(varname='levgrnd', xtype=tape(t)%ncprec, & dim1name='levgrnd', & long_name='coordinate soil levels', units='m', ncid=nfid(t)) call ncd_defvar(varname='levlak', xtype=tape(t)%ncprec, & dim1name='levlak', & long_name='coordinate lake levels', units='m', ncid=nfid(t)) elseif (mode == 'write') then call ncd_io(varname='levgrnd', data=zsoi , ncid=nfid(t), flag='write') call ncd_io(varname='levlak' , data=zlak , ncid=nfid(t), flag='write') endif endif !------------------------------------------------------------------------------- !*** Time definition variables *** !------------------------------------------------------------------------------- ! For define mode -- only do this for first time-sample if (mode == 'define' .and. tape(t)%ntimes == 1) then call get_ref_date(yr, mon, day, nbsec) nstep = get_nstep() hours = nbsec / 3600 minutes = (nbsec - hours*3600) / 60 secs = (nbsec - hours*3600 - minutes*60) write(basedate,80) yr,mon,day 80 format(i4.4,'-',i2.2,'-',i2.2) write(basesec ,90) hours, minutes, secs 90 format(i2.2,':',i2.2,':',i2.2) dim1id(1) = time_dimid str = 'days since ' // basedate // " " // basesec call ncd_defvar(nfid(t), 'time', tape(t)%ncprec, 1, dim1id, varid, & long_name='time',units=str) call ncd_putatt(nfid(t), varid, 'calendar', 'noleap') call ncd_putatt(nfid(t), varid, 'bounds', 'time_bounds') dim1id(1) = time_dimid call ncd_defvar(nfid(t) , 'mcdate', ncd_int, 1, dim1id , varid, & long_name = 'current date (YYYYMMDD)') call ncd_defvar(nfid(t) , 'mcsec' , ncd_int, 1, dim1id , varid, & long_name = 'current seconds of current date', units='s') call ncd_defvar(nfid(t) , 'mdcur' , ncd_int, 1, dim1id , varid, & long_name = 'current day (from base day)') call ncd_defvar(nfid(t) , 'mscur' , ncd_int, 1, dim1id , varid, & long_name = 'current seconds of current day') call ncd_defvar(nfid(t) , 'nstep' , ncd_int, 1, dim1id , varid, & long_name = 'time step') dim2id(1) = hist_interval_dimid; dim2id(2) = time_dimid call ncd_defvar(nfid(t), 'time_bounds', ncd_double, 2, dim2id, varid, & long_name = 'history time interval endpoints') dim2id(1) = strlen_dimid; dim2id(2) = time_dimid call ncd_defvar(nfid(t), 'date_written', ncd_char, 2, dim2id, varid) call ncd_defvar(nfid(t), 'time_written', ncd_char, 2, dim2id, varid) if ( len_trim(TimeConst3DVars_Filename) > 0 )then call ncd_putatt(nfid(t), ncd_global, 'Time_constant_3Dvars_filename', & trim(TimeConst3DVars_Filename)) end if if ( len_trim(TimeConst3DVars) > 0 )then call ncd_putatt(nfid(t), ncd_global, 'Time_constant_3Dvars', & trim(TimeConst3DVars)) end if elseif (mode == 'write') then call get_curr_time (mdcur, mscur) call get_curr_date (yr, mon, day, mcsec) mcdate = yr*10000 + mon*100 + day nstep = get_nstep() call ncd_io('mcdate', mcdate, 'write', nfid(t), nt=tape(t)%ntimes) call ncd_io('mcsec' , mcsec , 'write', nfid(t), nt=tape(t)%ntimes) call ncd_io('mdcur' , mdcur , 'write', nfid(t), nt=tape(t)%ntimes) call ncd_io('mscur' , mscur , 'write', nfid(t), nt=tape(t)%ntimes) call ncd_io('nstep' , nstep , 'write', nfid(t), nt=tape(t)%ntimes) time = mdcur + mscur/secspday call ncd_io('time' , time , 'write', nfid(t), nt=tape(t)%ntimes) timedata(1) = tape(t)%begtime timedata(2) = time call ncd_io('time_bounds', timedata, 'write', nfid(t), nt=tape(t)%ntimes) call getdatetime (cdate, ctime) call ncd_io('date_written', cdate, 'write', nfid(t), nt=tape(t)%ntimes) call ncd_io('time_written', ctime, 'write', nfid(t), nt=tape(t)%ntimes) endif !------------------------------------------------------------------------------- !*** Grid definition variables *** !------------------------------------------------------------------------------- ! For define mode -- only do this for first time-sample if (mode == 'define' .and. tape(t)%ntimes == 1) then if (ldomain%isgrid2d) then call ncd_defvar(varname='lon', xtype=tape(t)%ncprec, dim1name='lon', & long_name='coordinate longitude', units='degrees_east', & ncid=nfid(t), missing_value=spval, fill_value=spval) else call ncd_defvar(varname='lon', xtype=tape(t)%ncprec, & dim1name=grlnd, & long_name='coordinate longitude', units='degrees_east', ncid=nfid(t), & missing_value=spval, fill_value=spval) end if if (ldomain%isgrid2d) then call ncd_defvar(varname='lat', xtype=tape(t)%ncprec, dim1name='lat', & long_name='coordinate latitude', units='degrees_north', & ncid=nfid(t), missing_value=spval, fill_value=spval) else call ncd_defvar(varname='lat', xtype=tape(t)%ncprec, & dim1name=grlnd, & long_name='coordinate latitude', units='degrees_north', ncid=nfid(t), & missing_value=spval, fill_value=spval) end if if (ldomain%isgrid2d) then call ncd_defvar(varname='area', xtype=tape(t)%ncprec, & dim1name='lon', dim2name='lat',& long_name='grid cell areas', units='km^2', ncid=nfid(t), & missing_value=spval, fill_value=spval) else call ncd_defvar(varname='area', xtype=tape(t)%ncprec, & dim1name=grlnd, & long_name='grid cell areas', units='km^2', ncid=nfid(t), & missing_value=spval, fill_value=spval) end if if (ldomain%isgrid2d) then call ncd_defvar(varname='topo', xtype=tape(t)%ncprec, & dim1name='lon', dim2name='lat',& long_name='grid cell topography', units='m', ncid=nfid(t), & missing_value=spval, fill_value=spval) else call ncd_defvar(varname='topo', xtype=tape(t)%ncprec, & dim1name=grlnd, & long_name='grid cell topography', units='m', ncid=nfid(t), & missing_value=spval, fill_value=spval) end if if (ldomain%isgrid2d) then call ncd_defvar(varname='landfrac', xtype=tape(t)%ncprec, & dim1name='lon', dim2name='lat', & long_name='land fraction', ncid=nfid(t), & missing_value=spval, fill_value=spval) else call ncd_defvar(varname='landfrac', xtype=tape(t)%ncprec, & dim1name=grlnd, & long_name='land fraction', ncid=nfid(t), & missing_value=spval, fill_value=spval) end if if (ldomain%isgrid2d) then call ncd_defvar(varname='landmask', xtype=ncd_int, & dim1name='lon', dim2name='lat', & long_name='land/ocean mask (0.=ocean and 1.=land)', ncid=nfid(t), & imissing_value=ispval, ifill_value=ispval) else call ncd_defvar(varname='landmask', xtype=ncd_int, & dim1name=grlnd, & long_name='land/ocean mask (0.=ocean and 1.=land)', ncid=nfid(t), & imissing_value=ispval, ifill_value=ispval) end if if (ldomain%isgrid2d) then call ncd_defvar(varname='pftmask' , xtype=ncd_int, & dim1name='lon', dim2name='lat', & long_name='pft real/fake mask (0.=fake and 1.=real)', ncid=nfid(t), & imissing_value=ispval, ifill_value=ispval) else call ncd_defvar(varname='pftmask' , xtype=ncd_int, & dim1name=grlnd, & long_name='pft real/fake mask (0.=fake and 1.=real)', ncid=nfid(t), & imissing_value=ispval, ifill_value=ispval) end if else if (mode == 'write') then ! Most of this is constant and only needs to be done on tape(t)%ntimes=1 ! But, some may change for dynamic PFT mode for example ! Set pointers into derived type and get necessary bounds lptr => clm3%g%l cptr => clm3%g%l%c call get_proc_bounds(begg, endg, begl, endl, begc, endc, begp, endp) if (ldomain%isgrid2d) then call ncd_io(varname='lon', data=lon1d, ncid=nfid(t), flag='write') call ncd_io(varname='lat', data=lat1d, ncid=nfid(t), flag='write') else call ncd_io(varname='lon', data=ldomain%lonc, dim1name=grlnd, ncid=nfid(t), flag='write') call ncd_io(varname='lat', data=ldomain%latc, dim1name=grlnd, ncid=nfid(t), flag='write') end if call ncd_io(varname='area' , data=ldomain%area, dim1name=grlnd, ncid=nfid(t), flag='write') call ncd_io(varname='landfrac', data=ldomain%frac, dim1name=grlnd, ncid=nfid(t), flag='write') call ncd_io(varname='landmask', data=ldomain%mask, dim1name=grlnd, ncid=nfid(t), flag='write') call ncd_io(varname='pftmask' , data=ldomain%pftm, dim1name=grlnd, ncid=nfid(t), flag='write') end if ! (define/write mode end subroutine htape_timeconst !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hfields_write ! ! !INTERFACE: subroutine hfields_write(t, mode) ! ! !DESCRIPTION: ! Write history tape. Issue the call to write the variable. ! ! !USES: use clmtype use domainMod , only : ldomain ! ! !ARGUMENTS: implicit none integer, intent(in) :: t ! tape index character(len=*), intent(in) :: mode ! 'define' or 'write' ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: f ! field index integer :: k ! 1d index integer :: c,l,p ! indices integer :: beg1d_out ! on-node 1d hbuf pointer start index integer :: end1d_out ! on-node 1d hbuf pointer end index integer :: num1d_out ! size of hbuf first dimension (overall all nodes) integer :: num2d ! hbuf second dimension size integer :: nt ! time index integer :: ier ! error status character(len=1) :: avgflag ! time averaging flag character(len=max_chars) :: long_name! long name character(len=max_chars) :: units ! units character(len=max_namlen):: varname ! variable name character(len=32) :: avgstr ! time averaging type character(len=8) :: type1d_out ! history output 1d type character(len=8) :: type2d ! history output 2d type character(len=32) :: dim1name ! temporary character(len=32) :: dim2name ! temporary real(r8), pointer :: histo(:,:) ! temporary real(r8), pointer :: hist1do(:) ! temporary character(len=*),parameter :: subname = 'hfields_write' !----------------------------------------------------------------------- ! Write/define 1d topological info if (.not. tape(t)%dov2xy) then if (mode == 'define') then call hfields_1dinfo(t, mode='define') else if (mode == 'write') then call hfields_1dinfo(t, mode='write') end if end if ! Define time-dependent variables create variables and attributes for field list do f = 1,tape(t)%nflds ! Set history field variables varname = tape(t)%hlist(f)%field%name long_name = tape(t)%hlist(f)%field%long_name units = tape(t)%hlist(f)%field%units avgflag = tape(t)%hlist(f)%avgflag type1d_out = tape(t)%hlist(f)%field%type1d_out beg1d_out = tape(t)%hlist(f)%field%beg1d_out end1d_out = tape(t)%hlist(f)%field%end1d_out num1d_out = tape(t)%hlist(f)%field%num1d_out type2d = tape(t)%hlist(f)%field%type2d num2d = tape(t)%hlist(f)%field%num2d nt = tape(t)%ntimes if (mode == 'define') then select case (avgflag) case ('A') avgstr = 'mean' case ('I') avgstr = 'instantaneous' case ('X') avgstr = 'maximum' case ('M') avgstr = 'minimum' case default write(iulog,*) trim(subname),' ERROR: unknown time averaging flag (avgflag)=',avgflag; call endrun() end select if (type1d_out == grlnd) then if (ldomain%isgrid2d) then dim1name = 'lon' ; dim2name = 'lat' else dim1name = trim(grlnd); dim2name = 'undefined' end if else dim1name = type1d_out ; dim2name = 'undefined' endif if (dim2name == 'undefined') then if (num2d == 1) then call ncd_defvar(ncid=nfid(t), varname=varname, xtype=tape(t)%ncprec, & dim1name=dim1name, dim2name='time', & long_name=long_name, units=units, cell_method=avgstr, & missing_value=spval, fill_value=spval) else call ncd_defvar(ncid=nfid(t), varname=varname, xtype=tape(t)%ncprec, & dim1name=dim1name, dim2name=type2d, dim3name='time', & long_name=long_name, units=units, cell_method=avgstr, & missing_value=spval, fill_value=spval) end if else if (num2d == 1) then call ncd_defvar(ncid=nfid(t), varname=varname, xtype=tape(t)%ncprec, & dim1name=dim1name, dim2name=dim2name, dim3name='time', & long_name=long_name, units=units, cell_method=avgstr, & missing_value=spval, fill_value=spval) else call ncd_defvar(ncid=nfid(t), varname=varname, xtype=tape(t)%ncprec, & dim1name=dim1name, dim2name=dim2name, dim3name=type2d, dim4name='time', & long_name=long_name, units=units, cell_method=avgstr, & missing_value=spval, fill_value=spval) end if endif else if (mode == 'write') then ! Determine output buffer histo => tape(t)%hlist(f)%hbuf ! Allocate dynamic memory if (num2d == 1) then allocate(hist1do(beg1d_out:end1d_out), stat=ier) if (ier /= 0) then write(iulog,*) trim(subname),' ERROR: allocation'; call endrun() end if hist1do(beg1d_out:end1d_out) = histo(beg1d_out:end1d_out,1) end if ! Write history output. Always output land and ocean runoff on xy grid. if (num2d == 1) then call ncd_io(flag='write', varname=varname, & dim1name=type1d_out, data=hist1do, ncid=nfid(t), nt=nt) else call ncd_io(flag='write', varname=varname, & dim1name=type1d_out, data=histo, ncid=nfid(t), nt=nt) end if ! Deallocate dynamic memory if (num2d == 1) then deallocate(hist1do) end if end if end do end subroutine hfields_write !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hfields_1dinfo ! ! !INTERFACE: subroutine hfields_1dinfo(t, mode) ! ! !DESCRIPTION: ! Write/define 1d info for history tape. ! ! !USES: use clmtype use decompMod , only : ldecomp use domainMod , only : ldomain, ldomain ! ! !ARGUMENTS: implicit none integer, intent(in) :: t ! tape index character(len=*), intent(in) :: mode ! 'define' or 'write' ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: f ! field index integer :: k ! 1d index integer :: g,c,l,p ! indices integer :: begp, endp ! per-proc beginning and ending pft indices integer :: begc, endc ! per-proc beginning and ending column indices integer :: begl, endl ! per-proc beginning and ending landunit indices integer :: begg, endg ! per-proc gridcell ending gridcell indices integer :: ier ! errir status real(r8), pointer :: rgarr(:) ! temporary real(r8), pointer :: rcarr(:) ! temporary real(r8), pointer :: rlarr(:) ! temporary real(r8), pointer :: rparr(:) ! temporary integer , pointer :: igarr(:) ! temporary integer , pointer :: icarr(:) ! temporary integer , pointer :: ilarr(:) ! temporary integer , pointer :: iparr(:) ! temporary type(file_desc_t) :: ncid ! netcdf file type(gridcell_type), pointer :: gptr ! pointer to gridcell derived subtype type(landunit_type), pointer :: lptr ! pointer to landunit derived subtype type(column_type) , pointer :: cptr ! pointer to column derived subtype type(pft_type) , pointer :: pptr ! pointer to pft derived subtype character(len=*),parameter :: subname = 'hfields_1dinfo' !----------------------------------------------------------------------- ncid = nfid(t) if (mode == 'define') then ! Define gridcell info call ncd_defvar(varname='grid1d_lon', xtype=ncd_double, dim1name=nameg, & long_name='gridcell longitude', units='degrees_east', ncid=ncid) call ncd_defvar(varname='grid1d_lat', xtype=ncd_double, dim1name=nameg, & long_name='gridcell latitude', units='degrees_north', ncid=ncid) call ncd_defvar(varname='grid1d_ixy', xtype=ncd_int, dim1name=nameg, & long_name='2d longitude index of corresponding gridcell', ncid=ncid) call ncd_defvar(varname='grid1d_jxy', xtype=ncd_int, dim1name=nameg, & long_name='2d latitude index of corresponding gridcell', ncid=ncid) ! Define landunit info call ncd_defvar(varname='land1d_lon', xtype=ncd_double, dim1name=namel, & long_name='landunit longitude', units='degrees_east', ncid=ncid) call ncd_defvar(varname='land1d_lat', xtype=ncd_double, dim1name=namel, & long_name='landunit latitude', units='degrees_north', ncid=ncid) call ncd_defvar(varname='land1d_ixy', xtype=ncd_int, dim1name=namel, & long_name='2d longitude index of corresponding landunit', ncid=ncid) call ncd_defvar(varname='land1d_jxy', xtype=ncd_int, dim1name=namel, & long_name='2d latitude index of corresponding landunit', ncid=ncid) ! --- EBK Do NOT write out indices that are incorrect 4/1/2011 --- Bug 1310 !call ncd_defvar(varname='land1d_gi', xtype=ncd_int, dim1name='landunit', & ! long_name='1d grid index of corresponding landunit', ncid=ncid) ! ---------------------------------------------------------------- call ncd_defvar(varname='land1d_wtgcell', xtype=ncd_double, dim1name=namel, & long_name='landunit weight relative to corresponding gridcell', ncid=ncid) call ncd_defvar(varname='land1d_ityplunit', xtype=ncd_int, dim1name=namel, & long_name='landunit type (vegetated,urban,lake,wetland,glacier or glacier_mec)', & ncid=ncid) ! Define column info call ncd_defvar(varname='cols1d_lon', xtype=ncd_double, dim1name=namec, & long_name='column longitude', units='degrees_east', ncid=ncid) call ncd_defvar(varname='cols1d_lat', xtype=ncd_double, dim1name=namec, & long_name='column latitude', units='degrees_north', ncid=ncid) call ncd_defvar(varname='cols1d_ixy', xtype=ncd_int, dim1name=namec, & long_name='2d longitude index of corresponding column', ncid=ncid) call ncd_defvar(varname='cols1d_jxy', xtype=ncd_int, dim1name=namec, & long_name='2d latitude index of corresponding column', ncid=ncid) ! --- EBK Do NOT write out indices that are incorrect 4/1/2011 --- Bug 1310 !call ncd_defvar(varname='cols1d_gi', xtype=ncd_int, dim1name='column', & ! long_name='1d grid index of corresponding column', ncid=ncid) !call ncd_defvar(varname='cols1d_li', xtype=ncd_int, dim1name='column', & ! long_name='1d landunit index of corresponding column', ncid=ncid) ! ---------------------------------------------------------------- call ncd_defvar(varname='cols1d_wtgcell', xtype=ncd_double, dim1name=namec, & long_name='column weight relative to corresponding gridcell', ncid=ncid) call ncd_defvar(varname='cols1d_wtlunit', xtype=ncd_double, dim1name=namec, & long_name='column weight relative to corresponding landunit', ncid=ncid) call ncd_defvar(varname='cols1d_itype_lunit', xtype=ncd_int, dim1name=namec, & long_name='column landunit type (vegetated,urban,lake,wetland,glacier or glacier_mec)', & ncid=ncid) ! Define pft info call ncd_defvar(varname='pfts1d_lon', xtype=ncd_double, dim1name=namep, & long_name='pft longitude', units='degrees_east', ncid=ncid) call ncd_defvar(varname='pfts1d_lat', xtype=ncd_double, dim1name=namep, & long_name='pft latitude', units='degrees_north', ncid=ncid) call ncd_defvar(varname='pfts1d_ixy', xtype=ncd_int, dim1name=namep, & long_name='2d longitude index of corresponding pft', ncid=ncid) call ncd_defvar(varname='pfts1d_jxy', xtype=ncd_int, dim1name=namep, & long_name='2d latitude index of corresponding pft', ncid=ncid) ! --- EBK Do NOT write out indices that are incorrect 4/1/2011 --- Bug 1310 !call ncd_defvar(varname='pfts1d_gi', xtype=ncd_int, dim1name='pft', & ! long_name='1d grid index of corresponding pft', ncid=ncid) !call ncd_defvar(varname='pfts1d_li', xtype=ncd_int, dim1name='pft', & ! long_name='1d landunit index of corresponding pft', ncid=ncid) !call ncd_defvar(varname='pfts1d_ci', xtype=ncd_int, dim1name='pft', & ! long_name='1d column index of corresponding pft', ncid=ncid) ! ---------------------------------------------------------------- call ncd_defvar(varname='pfts1d_wtgcell', xtype=ncd_double, dim1name=namep, & long_name='pft weight relative to corresponding gridcell', ncid=ncid) call ncd_defvar(varname='pfts1d_wtlunit', xtype=ncd_double, dim1name=namep, & long_name='pft weight relative to corresponding landunit', ncid=ncid) call ncd_defvar(varname='pfts1d_wtcol', xtype=ncd_double, dim1name=namep, & long_name='pft weight relative to corresponding column', ncid=ncid) call ncd_defvar(varname='pfts1d_itype_veg', xtype=ncd_int, dim1name=namep, & long_name='pft vegetation type', ncid=ncid) call ncd_defvar(varname='pfts1d_itype_lunit', xtype=ncd_int, dim1name=namep, & long_name='pft landunit type (vegetated,urban,lake,wetland,glacier or glacier_mec)', & ncid=ncid) else if (mode == 'write') then ! Set pointers into derived type gptr => clm3%g lptr => clm3%g%l cptr => clm3%g%l%c pptr => clm3%g%l%c%p ! Determine bounds call get_proc_bounds(begg, endg, begl, endl, begc, endc, begp, endp) allocate(rgarr(begg:endg),rlarr(begl:endl),rcarr(begc:endc),rparr(begp:endp),stat=ier) if (ier /= 0) call endrun('hfields_1dinfo allocation error of rarrs') allocate(igarr(begg:endg),ilarr(begl:endl),icarr(begc:endc),iparr(begp:endp),stat=ier) if (ier /= 0) call endrun('hfields_1dinfo allocation error of iarrs') ! Write gridcell info call ncd_io(varname='grid1d_lon', data=gptr%londeg, dim1name=nameg, ncid=ncid, flag='write') call ncd_io(varname='grid1d_lat', data=gptr%latdeg, dim1name=nameg, ncid=ncid, flag='write') do g=begg,endg igarr(g)= mod(ldecomp%gdc2glo(g)-1,ldomain%ni) + 1 enddo call ncd_io(varname='grid1d_ixy', data=igarr , dim1name=nameg, ncid=ncid, flag='write') do g=begg,endg igarr(g)= (ldecomp%gdc2glo(g) - 1)/ldomain%ni + 1 enddo call ncd_io(varname='grid1d_jxy', data=igarr , dim1name=nameg, ncid=ncid, flag='write') ! Write landunit info do l=begl,endl rlarr(l) = gptr%londeg(lptr%gridcell(l)) enddo call ncd_io(varname='land1d_lon', data=rlarr, dim1name=namel, ncid=ncid, flag='write') do l=begl,endl rlarr(l) = gptr%latdeg(lptr%gridcell(l)) enddo call ncd_io(varname='land1d_lat', data=rlarr, dim1name=namel, ncid=ncid, flag='write') do l=begl,endl ilarr(l) = mod(ldecomp%gdc2glo(lptr%gridcell(l))-1,ldomain%ni) + 1 enddo call ncd_io(varname='land1d_ixy', data=ilarr, dim1name=namel, ncid=ncid, flag='write') do l=begl,endl ilarr(l) = (ldecomp%gdc2glo(lptr%gridcell(l))-1)/ldomain%ni + 1 enddo call ncd_io(varname='land1d_jxy' , data=ilarr , dim1name=namel, ncid=ncid, flag='write') ! --- EBK Do NOT write out indices that are incorrect 4/1/2011 Bug 1310 !call ncd_io(varname='land1d_gi' , data=lptr%gridcell, dim1name=namel, ncid=ncid, flag='write') ! ---------------------------------------------------------------- call ncd_io(varname='land1d_wtgcell' , data=lptr%wtgcell , dim1name=namel, ncid=ncid, flag='write') call ncd_io(varname='land1d_ityplunit', data=lptr%itype , dim1name=namel, ncid=ncid, flag='write') ! Write column info do c=begc,endc rcarr(c) = gptr%londeg(cptr%gridcell(c)) enddo call ncd_io(varname='cols1d_lon', data=rcarr, dim1name=namec, ncid=ncid, flag='write') do c=begc,endc rcarr(c) = gptr%latdeg(cptr%gridcell(c)) enddo call ncd_io(varname='cols1d_lat', data=rcarr, dim1name=namec, ncid=ncid, flag='write') do c=begc,endc icarr(c) = mod(ldecomp%gdc2glo(cptr%gridcell(c))-1,ldomain%ni) + 1 enddo call ncd_io(varname='cols1d_ixy', data=icarr, dim1name=namec, ncid=ncid, flag='write') do c=begc,endc icarr(c) = (ldecomp%gdc2glo(cptr%gridcell(c))-1)/ldomain%ni + 1 enddo call ncd_io(varname='cols1d_jxy' , data=icarr ,dim1name=namec, ncid=ncid, flag='write') ! --- EBK Do NOT write out indices that are incorrect 4/1/2011 Bug 1310 !call ncd_io(varname='cols1d_gi' , data=cptr%gridcell, dim1name=namec, ncid=ncid, flag='write') !call ncd_io(varname='cols1d_li' , data=cptr%landunit, dim1name=namec, ncid=ncid, flag='write') ! ---------------------------------------------------------------- call ncd_io(varname='cols1d_wtgcell', data=cptr%wtgcell , dim1name=namec, ncid=ncid, flag='write') call ncd_io(varname='cols1d_wtlunit', data=cptr%wtlunit , dim1name=namec, ncid=ncid, flag='write') do c=begc,endc icarr(c) = lptr%itype(cptr%landunit(c)) enddo call ncd_io(varname='cols1d_itype_lunit', data=icarr , dim1name=namec, ncid=ncid, flag='write') ! Write pft info do p=begp,endp rparr(p) = gptr%londeg(pptr%gridcell(p)) enddo call ncd_io(varname='pfts1d_lon', data=rparr, dim1name=namep, ncid=ncid, flag='write') do p=begp,endp rparr(p) = gptr%latdeg(pptr%gridcell(p)) enddo call ncd_io(varname='pfts1d_lat', data=rparr, dim1name=namep, ncid=ncid, flag='write') do p=begp,endp iparr(p) = mod(ldecomp%gdc2glo(pptr%gridcell(p))-1,ldomain%ni) + 1 enddo call ncd_io(varname='pfts1d_ixy', data=iparr, dim1name=namep, ncid=ncid, flag='write') do p=begp,endp iparr(p) = (ldecomp%gdc2glo(pptr%gridcell(p))-1)/ldomain%ni + 1 enddo call ncd_io(varname='pfts1d_jxy' , data=iparr , dim1name=namep, ncid=ncid, flag='write') ! --- EBK Do NOT write out indices that are incorrect 4/1/2011 --- Bug 1310 !call ncd_io(varname='pfts1d_gi' , data=pptr%gridcell, dim1name=namep, ncid=ncid, flag='write') !call ncd_io(varname='pfts1d_li' , data=pptr%landunit, dim1name=namep, ncid=ncid, flag='write') !call ncd_io(varname='pfts1d_ci' , data=pptr%column , dim1name=namep, ncid=ncid, flag='write') ! ---------------------------------------------------------------- call ncd_io(varname='pfts1d_wtgcell' , data=pptr%wtgcell , dim1name=namep, ncid=ncid, flag='write') call ncd_io(varname='pfts1d_wtlunit' , data=pptr%wtlunit , dim1name=namep, ncid=ncid, flag='write') call ncd_io(varname='pfts1d_wtcol' , data=pptr%wtcol , dim1name=namep, ncid=ncid, flag='write') call ncd_io(varname='pfts1d_itype_veg', data=pptr%itype , dim1name=namep, ncid=ncid, flag='write') do p=begp,endp iparr(p) = lptr%itype(pptr%landunit(p)) enddo call ncd_io(varname='pfts1d_itype_lunit', data=iparr , dim1name=namep, ncid=ncid, flag='write') deallocate(rgarr,rlarr,rcarr,rparr) deallocate(igarr,ilarr,icarr,iparr) end if end subroutine hfields_1dinfo !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hist_htapes_wrapup ! ! !INTERFACE: subroutine hist_htapes_wrapup( rstwr, nlend ) ! ! !DESCRIPTION: ! Write history tape(s) ! Determine if next time step is beginning of history interval and if so: ! increment the current time sample counter, open a new history file ! and if needed (i.e., when ntim = 1), write history data to current ! history file, reset field accumulation counters to zero. ! If primary history file is full or at the last time step of the simulation, ! write restart dataset and close all history fiels. ! If history file is full or at the last time step of the simulation: ! close history file ! and reset time sample counter to zero if file is full. ! Daily-averaged data for the first day in September are written on ! date = 00/09/02 with mscur = 0. ! Daily-averaged data for the first day in month mm are written on ! date = yyyy/mm/02 with mscur = 0. ! Daily-averaged data for the 30th day (last day in September) are written ! on date = 0000/10/01 mscur = 0. ! Daily-averaged data for the last day in month mm are written on ! date = yyyy/mm+1/01 with mscur = 0. ! ! !USES: use clm_time_manager, only : get_nstep, get_curr_date, get_curr_time, get_prev_date use clm_varcon , only : secspday use clmtype ! ! !ARGUMENTS: implicit none logical, intent(in) :: rstwr ! true => write restart file this step logical, intent(in) :: nlend ! true => end of run on this step ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: t ! tape index integer :: f ! field index integer :: ier ! error code integer :: nstep ! current step integer :: day ! current day (1 -> 31) integer :: mon ! current month (1 -> 12) integer :: yr ! current year (0 -> ...) integer :: mdcur ! current day integer :: mscur ! seconds of current day integer :: mcsec ! current time of day [seconds] integer :: daym1 ! nstep-1 day (1 -> 31) integer :: monm1 ! nstep-1 month (1 -> 12) integer :: yrm1 ! nstep-1 year (0 -> ...) integer :: mcsecm1 ! nstep-1 time of day [seconds] real(r8):: time ! current time character(len=256) :: str ! global attribute string logical :: if_stop ! true => last time step of run logical, save :: do_3Dtconst = .true. ! true => write out 3D time-constant data character(len=*),parameter :: subname = 'hist_htapes_wrapup' !----------------------------------------------------------------------- ! get current step nstep = get_nstep() ! Set calendar for current time step call get_curr_date (yr, mon, day, mcsec) call get_curr_time (mdcur, mscur) time = mdcur + mscur/secspday ! Set calendar for current for previous time step call get_prev_date (yrm1, monm1, daym1, mcsecm1) ! Loop over active history tapes, create new history files if necessary ! and write data to history files if end of history interval. do t = 1, ntapes ! Skip nstep=0 if monthly average if (nstep==0 .and. tape(t)%nhtfrq==0) cycle ! Determine if end of history interval tape(t)%is_endhist = .false. if (tape(t)%nhtfrq==0) then !monthly average if (mon /= monm1) tape(t)%is_endhist = .true. else if (mod(nstep,tape(t)%nhtfrq) == 0) tape(t)%is_endhist = .true. end if ! If end of history interval if (tape(t)%is_endhist) then ! Normalize history buffer if time averaged call hfields_normalize(t) ! Increment current time sample counter. tape(t)%ntimes = tape(t)%ntimes + 1 ! Create history file if appropriate and build time comment ! If first time sample, generate unique history file name, open file, ! define dims, vars, etc. if (tape(t)%ntimes == 1) then locfnh(t) = set_hist_filename (hist_freq=tape(t)%nhtfrq, & hist_mfilt=tape(t)%mfilt, hist_file=t) if (masterproc) then write(iulog,*) trim(subname),' : Creating history file ', trim(locfnh(t)), & ' at nstep = ',get_nstep() write(iulog,*)'calling htape_create for file t = ',t endif call htape_create (t) ! Define time-constant field variables call htape_timeconst(t, mode='define') ! Define 3D time-constant field variables only to first primary tape if ( do_3Dtconst .and. t == 1 ) then call htape_timeconst3D(t, mode='define') TimeConst3DVars_Filename = trim(locfnh(t)) end if ! Define model field variables call hfields_write(t, mode='define') ! Exit define model call ncd_enddef(nfid(t)) endif ! Write time constant history variables call htape_timeconst(t, mode='write') ! Write 3D time constant history variables only to first primary tape if ( do_3Dtconst .and. t == 1 .and. tape(t)%ntimes == 1 )then call htape_timeconst3D(t, mode='write') do_3Dtconst = .false. end if if (masterproc) then write(iulog,*) write(iulog,*) trim(subname),' : Writing current time sample to local history file ', & trim(locfnh(t)),' at nstep = ',get_nstep(), & ' for history time interval beginning at ', tape(t)%begtime, & ' and ending at ',time write(iulog,*) call shr_sys_flush(iulog) endif ! Update beginning time of next interval tape(t)%begtime = time ! Write history time samples call hfields_write(t, mode='write') ! Zero necessary history buffers call hfields_zero(t) end if end do ! end loop over history tapes ! Determine if file needs to be closed call hist_do_disp (ntapes, tape(:)%ntimes, tape(:)%mfilt, if_stop, if_disphist, rstwr, nlend) ! Close open history file ! Auxilary files may have been closed and saved off without being full, ! must reopen the files do t = 1, ntapes if (if_disphist(t)) then if (tape(t)%ntimes /= 0) then if (masterproc) then write(iulog,*) write(iulog,*) trim(subname),' : Closing local history file ',& trim(locfnh(t)),' at nstep = ', get_nstep() write(iulog,*) endif call ncd_pio_closefile(nfid(t)) if (.not.if_stop .and. (tape(t)%ntimes/=tape(t)%mfilt)) then call ncd_pio_openfile (nfid(t), trim(locfnh(t)), ncd_write) end if else if (masterproc) then write(iulog,*) trim(subname),' : history tape ',t,': no open file to close' end if endif endif end do ! Reset number of time samples to zero if file is full do t = 1, ntapes if (if_disphist(t) .and. tape(t)%ntimes==tape(t)%mfilt) then tape(t)%ntimes = 0 end if end do end subroutine hist_htapes_wrapup !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hist_restart_ncd ! ! !INTERFACE: subroutine hist_restart_ncd (ncid, flag, rdate) ! ! !DESCRIPTION: ! Read/write history file restart data. ! If the current history file(s) are not full, file(s) are opened ! so that subsequent time samples are added until the file is full. ! A new history file is used on a branch run. ! ! !USES: use clm_varctl, only : nsrest, caseid, inst_suffix, nsrStartup, nsrBranch use fileutils , only : getfil use clmtype , only : grlnd, nameg, namel, namec, namep use domainMod , only : ldomain use clm_varpar, only : nlevgrnd, nlevlak, numrad ! ! !ARGUMENTS: implicit none type(file_desc_t), intent(inout) :: ncid ! netcdf file character(len=*) , intent(in) :: flag !'read' or 'write' character(len=*) , intent(in), optional :: rdate ! restart file time stamp for name ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: max_nflds ! Max number of fields integer :: num1d,beg1d,end1d ! 1d size, beginning and ending indices integer :: num1d_out,beg1d_out,end1d_out ! 1d size, beginning and ending indices integer :: num2d ! 2d size (e.g. number of vertical levels) integer :: begp, endp ! per-proc beginning and ending pft indices integer :: begc, endc ! per-proc beginning and ending column indices integer :: begl, endl ! per-proc beginning and ending landunit indices integer :: begg, endg ! per-proc gridcell ending gridcell indices integer :: numa ! total number of atm cells across all processors integer :: numg ! total number of gridcells across all processors integer :: numl ! total number of landunits across all processors integer :: numc ! total number of columns across all processors integer :: nump ! total number of pfts across all processors character(len=max_namlen) :: name ! variable name character(len=max_namlen) :: name_acc ! accumulator variable name character(len=max_namlen) :: long_name ! long name of variable character(len=max_chars) :: long_name_acc ! long name for accumulator character(len=max_chars) :: units ! units of variable character(len=max_chars) :: units_acc ! accumulator units character(len=max_chars) :: fname ! full name of history file character(len=max_chars) :: locrest(max_tapes) ! local history restart file names character(len=max_namlen),allocatable :: tname(:) character(len=max_chars), allocatable :: tunits(:),tlongname(:) character(len=8), allocatable :: tmpstr(:,:) character(len=1), allocatable :: tavgflag(:) integer :: start(2) character(len=1) :: hnum ! history file index character(len=8) :: type1d ! clm pointer 1d type character(len=8) :: type1d_out ! history buffer 1d type character(len=8) :: type2d ! history buffer 2d type character(len=32) :: dim1name ! temporary character(len=32) :: dim2name ! temporary type(var_desc_t) :: name_desc ! variable descriptor for name type(var_desc_t) :: longname_desc ! variable descriptor for long_name type(var_desc_t) :: units_desc ! variable descriptor for units type(var_desc_t) :: type1d_desc ! variable descriptor for type1d type(var_desc_t) :: type1d_out_desc ! variable descriptor for type1d_out type(var_desc_t) :: type2d_desc ! variable descriptor for type2d type(var_desc_t) :: avgflag_desc ! variable descriptor for avgflag type(var_desc_t) :: p2c_scale_type_desc ! variable descriptor for p2c_scale_type type(var_desc_t) :: c2l_scale_type_desc ! variable descriptor for c2l_scale_type type(var_desc_t) :: l2g_scale_type_desc ! variable descriptor for l2g_scale_type integer :: status ! error status integer :: dimid ! dimension ID integer :: k ! 1d index integer :: t ! tape index integer :: f ! field index integer :: varid ! variable id integer, allocatable :: itemp2d(:,:) ! 2D temporary real(r8), pointer :: hbuf(:,:) ! history buffer real(r8), pointer :: hbuf1d(:) ! 1d history buffer integer , pointer :: nacs(:,:) ! accumulation counter integer , pointer :: nacs1d(:) ! 1d accumulation counter character(len=*),parameter :: subname = 'hist_restart_ncd' !------------------------------------------------------------------------ ! If branch run, initialize file times and return if (flag == 'read') then if (nsrest == nsrBranch) then do t = 1,ntapes tape(t)%ntimes = 0 end do RETURN end if ! If startup run just return if (nsrest == nsrStartup) then RETURN end if endif ! Read history file data only for restart run (not for branch run) ! ! First when writing out and in define mode, create files and define all variables ! !================================================ if (flag == 'define') then !================================================ if (.not. present(rdate)) then call endrun('variable rdate must be present for writing restart files') end if ! ! On master restart file add ntapes/max_chars dimension ! and then add the history and history restart filenames ! call ncd_defdim( ncid, 'ntapes' , ntapes , dimid) call ncd_defdim( ncid, 'max_chars' , max_chars , dimid) call ncd_defvar(ncid=ncid, varname='locfnh', xtype=ncd_char, & long_name="History filename", & comment="This variable NOT needed for startup or branch simulations", & dim1name='max_chars', dim2name="ntapes" ) call ncd_defvar(ncid=ncid, varname='locfnhr', xtype=ncd_char, & long_name="Restart history filename", & comment="This variable NOT needed for startup or branch simulations", & dim1name='max_chars', dim2name="ntapes" ) ! max_nflds is the maximum number of fields on any tape ! max_flds is the maximum number possible number of fields max_nflds = max_nFields() call get_proc_global(numg, numl, numc, nump) ! Loop over tapes - write out namelist information to each restart-history tape ! only read/write accumulators and counters if needed do t = 1,ntapes ! ! Create the restart history filename and open it ! write(hnum,'(i1.1)') t-1 locfnhr(t) = "./" // trim(caseid) //".clm2"// trim(inst_suffix) & // ".rh" // hnum //"."// trim(rdate) //".nc" call htape_create( t, histrest=.true. ) ! ! Add read/write accumultators and counters if needed ! if (.not. tape(t)%is_endhist) then do f = 1,tape(t)%nflds name = tape(t)%hlist(f)%field%name long_name = tape(t)%hlist(f)%field%long_name units = tape(t)%hlist(f)%field%units name_acc = trim(name) // "_acc" units_acc = "unitless positive integer" long_name_acc = trim(long_name) // " accumulator number of samples" type1d_out = tape(t)%hlist(f)%field%type1d_out type2d = tape(t)%hlist(f)%field%type2d num2d = tape(t)%hlist(f)%field%num2d nacs => tape(t)%hlist(f)%nacs hbuf => tape(t)%hlist(f)%hbuf if (type1d_out == grlnd) then if (ldomain%isgrid2d) then dim1name = 'lon' ; dim2name = 'lat' else dim1name = trim(grlnd); dim2name = 'undefined' end if else dim1name = type1d_out ; dim2name = 'undefined' endif if (dim2name == 'undefined') then if (num2d == 1) then call ncd_defvar(ncid=ncid_hist(t), varname=trim(name), xtype=ncd_double, & dim1name=dim1name, & long_name=trim(long_name), units=trim(units)) call ncd_defvar(ncid=ncid_hist(t), varname=trim(name_acc), xtype=ncd_int, & dim1name=dim1name, & long_name=trim(long_name_acc), units=trim(units_acc)) else call ncd_defvar(ncid=ncid_hist(t), varname=trim(name), xtype=ncd_double, & dim1name=dim1name, dim2name=type2d, & long_name=trim(long_name), units=trim(units)) call ncd_defvar(ncid=ncid_hist(t), varname=trim(name_acc), xtype=ncd_int, & dim1name=dim1name, dim2name=type2d, & long_name=trim(long_name_acc), units=trim(units_acc)) end if else if (num2d == 1) then call ncd_defvar(ncid=ncid_hist(t), varname=trim(name), xtype=ncd_double, & dim1name=dim1name, dim2name=dim2name, & long_name=trim(long_name), units=trim(units)) call ncd_defvar(ncid=ncid_hist(t), varname=trim(name_acc), xtype=ncd_int, & dim1name=dim1name, dim2name=dim2name, & long_name=trim(long_name_acc), units=trim(units_acc)) else call ncd_defvar(ncid=ncid_hist(t), varname=trim(name), xtype=ncd_double, & dim1name=dim1name, dim2name=dim2name, dim3name=type2d, & long_name=trim(long_name), units=trim(units)) call ncd_defvar(ncid=ncid_hist(t), varname=trim(name_acc), xtype=ncd_int, & dim1name=dim1name, dim2name=dim2name, dim3name=type2d, & long_name=trim(long_name_acc), units=trim(units_acc)) end if endif end do endif ! ! Add namelist information to each restart history tape ! call ncd_defdim( ncid_hist(t), 'fname_lenp2' , max_namlen+2, dimid) call ncd_defdim( ncid_hist(t), 'fname_len' , max_namlen , dimid) call ncd_defdim( ncid_hist(t), 'len1' , 1 , dimid) call ncd_defdim( ncid_hist(t), 'scalar' , 1 , dimid) call ncd_defdim( ncid_hist(t), 'max_chars' , max_chars , dimid) call ncd_defdim( ncid_hist(t), 'max_nflds' , max_nflds , dimid) call ncd_defdim( ncid_hist(t), 'max_flds' , max_flds , dimid) call ncd_defvar(ncid=ncid_hist(t), varname='nhtfrq', xtype=ncd_int, & long_name="Frequency of history writes", & comment="Namelist item", & units="absolute value of negative is in hours, 0=monthly, positive is time-steps", & dim1name='scalar') call ncd_defvar(ncid=ncid_hist(t), varname='mfilt', xtype=ncd_int, & long_name="Number of history time samples on a file", units="unitless", & comment="Namelist item", & dim1name='scalar') call ncd_defvar(ncid=ncid_hist(t), varname='ncprec', xtype=ncd_int, & long_name="Flag for data precision", flag_values=(/1,2/), & comment="Namelist item", & nvalid_range=(/1,2/), & flag_meanings=(/"single-precision", "double-precision"/), & dim1name='scalar') call ncd_defvar(ncid=ncid_hist(t), varname='dov2xy', xtype=ncd_log, & long_name="Output on 2D grid format (TRUE) or vector format (FALSE)", & comment="Namelist item", & dim1name='scalar') call ncd_defvar(ncid=ncid_hist(t), varname='fincl', xtype=ncd_char, & comment="Namelist item", & long_name="Fieldnames to include", & dim1name='fname_lenp2', dim2name='max_flds' ) call ncd_defvar(ncid=ncid_hist(t), varname='fexcl', xtype=ncd_char, & comment="Namelist item", & long_name="Fieldnames to exclude", & dim1name='fname_lenp2', dim2name='max_flds' ) call ncd_defvar(ncid=ncid_hist(t), varname='nflds', xtype=ncd_int, & long_name="Number of fields on file", units="unitless", & dim1name='scalar') call ncd_defvar(ncid=ncid_hist(t), varname='ntimes', xtype=ncd_int, & long_name="Number of time steps on file", units="time-step", & dim1name='scalar') call ncd_defvar(ncid=ncid_hist(t), varname='is_endhist', xtype=ncd_log, & long_name="End of history file", dim1name='scalar') call ncd_defvar(ncid=ncid_hist(t), varname='begtime', xtype=ncd_double, & long_name="Beginning time", units="time units", & dim1name='scalar') call ncd_defvar(ncid=ncid_hist(t), varname='num2d', xtype=ncd_int, & long_name="Size of second dimension", units="unitless", & dim1name='max_nflds' ) call ncd_defvar(ncid=ncid_hist(t), varname='hpindex', xtype=ncd_int, & long_name="History pointer index", units="unitless", & dim1name='max_nflds' ) call ncd_defvar(ncid=ncid_hist(t), varname='avgflag', xtype=ncd_char, & long_name="Averaging flag", & units="A=Average, X=Maximum, M=Minimum, I=Instantaneous", & dim1name='len1', dim2name='max_nflds' ) call ncd_defvar(ncid=ncid_hist(t), varname='name', xtype=ncd_char, & long_name="Fieldnames", & dim1name='fname_len', dim2name='max_nflds' ) call ncd_defvar(ncid=ncid_hist(t), varname='long_name', xtype=ncd_char, & long_name="Long descriptive names for fields", & dim1name='max_chars', dim2name='max_nflds' ) call ncd_defvar(ncid=ncid_hist(t), varname='units', xtype=ncd_char, & long_name="Units for each history field output", & dim1name='max_chars', dim2name='max_nflds' ) call ncd_defvar(ncid=ncid_hist(t), varname='type1d', xtype=ncd_char, & long_name="1st dimension type", & dim1name='string_length', dim2name='max_nflds' ) call ncd_defvar(ncid=ncid_hist(t), varname='type1d_out', xtype=ncd_char, & long_name="1st output dimension type", & dim1name='string_length', dim2name='max_nflds' ) call ncd_defvar(ncid=ncid_hist(t), varname='type2d', xtype=ncd_char, & long_name="2nd dimension type", & dim1name='string_length', dim2name='max_nflds' ) call ncd_defvar(ncid=ncid_hist(t), varname='p2c_scale_type', xtype=ncd_char, & long_name="PFT to column scale type", & dim1name='string_length', dim2name='max_nflds' ) call ncd_defvar(ncid=ncid_hist(t), varname='c2l_scale_type', xtype=ncd_char, & long_name="column to landunit scale type", & dim1name='string_length', dim2name='max_nflds' ) call ncd_defvar(ncid=ncid_hist(t), varname='l2g_scale_type', xtype=ncd_char, & long_name="landunit to gridpoint scale type", & dim1name='string_length', dim2name='max_nflds' ) call ncd_enddef(ncid_hist(t)) end do ! end of ntapes loop RETURN ! ! First write out namelist information to each restart history file ! !================================================ else if (flag == 'write') then !================================================ ! Add history filenames to master restart file do t = 1,ntapes call ncd_io('locfnh', locfnh(t), 'write', ncid, nt=t) call ncd_io('locfnhr', locfnhr(t), 'write', ncid, nt=t) end do fincl(:,1) = hist_fincl1(:) fincl(:,2) = hist_fincl2(:) fincl(:,3) = hist_fincl3(:) fincl(:,4) = hist_fincl4(:) fincl(:,5) = hist_fincl5(:) fincl(:,6) = hist_fincl6(:) fexcl(:,1) = hist_fexcl1(:) fexcl(:,2) = hist_fexcl2(:) fexcl(:,3) = hist_fexcl3(:) fexcl(:,4) = hist_fexcl4(:) fexcl(:,5) = hist_fexcl5(:) fexcl(:,6) = hist_fexcl6(:) max_nflds = max_nFields() start(1)=1 allocate(itemp2d(max_nflds,ntapes)) ! ! Add history namelist data to each history restart tape ! do t = 1,ntapes call ncd_io(varname='fincl', data=fincl(:,t), ncid=ncid_hist(t), flag='write') call ncd_io(varname='fexcl', data=fexcl(:,t), ncid=ncid_hist(t), flag='write') call ncd_io(varname='is_endhist', data=tape(t)%is_endhist, ncid=ncid_hist(t), flag='write') call ncd_io(varname='dov2xy', data=tape(t)%dov2xy, ncid=ncid_hist(t), flag='write') itemp2d(:,:) = 0 do f=1,tape(t)%nflds itemp2d(f,t) = tape(t)%hlist(f)%field%num2d end do call ncd_io(varname='num2d', data=itemp2d(:,t), ncid=ncid_hist(t), flag='write') itemp2d(:,:) = 0 do f=1,tape(t)%nflds itemp2d(f,t) = tape(t)%hlist(f)%field%hpindex end do call ncd_io(varname='hpindex', data=itemp2d(:,t), ncid=ncid_hist(t), flag='write') call ncd_io('nflds', tape(t)%nflds, 'write', ncid_hist(t) ) call ncd_io('ntimes', tape(t)%ntimes, 'write', ncid_hist(t) ) call ncd_io('nhtfrq', tape(t)%nhtfrq, 'write', ncid_hist(t) ) call ncd_io('mfilt', tape(t)%mfilt, 'write', ncid_hist(t) ) call ncd_io('ncprec', tape(t)%ncprec, 'write', ncid_hist(t) ) call ncd_io('begtime', tape(t)%begtime, 'write', ncid_hist(t) ) allocate(tmpstr(tape(t)%nflds,6 ),tname(tape(t)%nflds), & tavgflag(tape(t)%nflds),tunits(tape(t)%nflds),tlongname(tape(t)%nflds)) do f=1,tape(t)%nflds tname(f) = tape(t)%hlist(f)%field%name tunits(f) = tape(t)%hlist(f)%field%units tlongname(f) = tape(t)%hlist(f)%field%long_name tmpstr(f,1) = tape(t)%hlist(f)%field%type1d tmpstr(f,2) = tape(t)%hlist(f)%field%type1d_out tmpstr(f,3) = tape(t)%hlist(f)%field%type2d tavgflag(f) = tape(t)%hlist(f)%avgflag tmpstr(f,4) = tape(t)%hlist(f)%field%p2c_scale_type tmpstr(f,5) = tape(t)%hlist(f)%field%c2l_scale_type tmpstr(f,6) = tape(t)%hlist(f)%field%l2g_scale_type end do call ncd_io( 'name', tname, 'write',ncid_hist(t)) call ncd_io('long_name', tlongname, 'write', ncid_hist(t)) call ncd_io('units', tunits, 'write',ncid_hist(t)) call ncd_io('type1d', tmpstr(:,1), 'write', ncid_hist(t)) call ncd_io('type1d_out', tmpstr(:,2), 'write', ncid_hist(t)) call ncd_io('type2d', tmpstr(:,3), 'write', ncid_hist(t)) call ncd_io('avgflag',tavgflag , 'write', ncid_hist(t)) call ncd_io('p2c_scale_type', tmpstr(:,4), 'write', ncid_hist(t)) call ncd_io('c2l_scale_type', tmpstr(:,5), 'write', ncid_hist(t)) call ncd_io('l2g_scale_type', tmpstr(:,6), 'write', ncid_hist(t)) deallocate(tname,tlongname,tunits,tmpstr,tavgflag) enddo deallocate(itemp2d) ! ! Read in namelist information ! !================================================ else if (flag == 'read') then !================================================ call ncd_inqdlen(ncid,dimid,ntapes, name='ntapes') call ncd_io('locfnh', locfnh(1:ntapes), 'read', ncid ) call ncd_io('locfnhr', locrest(1:ntapes), 'read', ncid ) do t = 1,ntapes call strip_null(locrest(t)) call strip_null(locfnh(t)) end do ! Determine necessary indices - the following is needed if model decomposition is different on restart call get_proc_bounds(begg, endg, begl, endl, begc, endc, begp, endp) call get_proc_global(numg, numl, numc, nump) start(1)=1 do t = 1,ntapes call getfil( locrest(t), locfnhr(t), 0 ) call ncd_pio_openfile (ncid_hist(t), trim(locfnhr(t)), ncd_nowrite) if ( t == 1 )then call ncd_inqdlen(ncid_hist(1),dimid,max_nflds,name='max_nflds') allocate(itemp2d(max_nflds,ntapes)) end if call ncd_inqvid(ncid_hist(t), 'name', varid, name_desc) call ncd_inqvid(ncid_hist(t), 'long_name', varid, longname_desc) call ncd_inqvid(ncid_hist(t), 'units', varid, units_desc) call ncd_inqvid(ncid_hist(t), 'type1d', varid, type1d_desc) call ncd_inqvid(ncid_hist(t), 'type1d_out', varid, type1d_out_desc) call ncd_inqvid(ncid_hist(t), 'type2d', varid, type2d_desc) call ncd_inqvid(ncid_hist(t), 'avgflag', varid, avgflag_desc) call ncd_inqvid(ncid_hist(t), 'p2c_scale_type', varid, p2c_scale_type_desc) call ncd_inqvid(ncid_hist(t), 'c2l_scale_type', varid, c2l_scale_type_desc) call ncd_inqvid(ncid_hist(t), 'l2g_scale_type', varid, l2g_scale_type_desc) call ncd_io(varname='fincl', data=fincl(:,t), ncid=ncid_hist(t), flag='read') call ncd_io(varname='fexcl', data=fexcl(:,t), ncid=ncid_hist(t), flag='read') call ncd_io('nflds', tape(t)%nflds, 'read', ncid_hist(t) ) call ncd_io('ntimes', tape(t)%ntimes, 'read', ncid_hist(t) ) call ncd_io('nhtfrq', tape(t)%nhtfrq, 'read', ncid_hist(t) ) call ncd_io('mfilt', tape(t)%mfilt, 'read', ncid_hist(t) ) call ncd_io('ncprec', tape(t)%ncprec, 'read', ncid_hist(t) ) call ncd_io('begtime', tape(t)%begtime, 'read', ncid_hist(t) ) call ncd_io(varname='is_endhist', data=tape(t)%is_endhist, ncid=ncid_hist(t), flag='read') call ncd_io(varname='dov2xy', data=tape(t)%dov2xy, ncid=ncid_hist(t), flag='read') call ncd_io(varname='num2d', data=itemp2d(:,t), ncid=ncid_hist(t), flag='read') do f=1,tape(t)%nflds tape(t)%hlist(f)%field%num2d = itemp2d(f,t) end do call ncd_io(varname='hpindex', data=itemp2d(:,t), ncid=ncid_hist(t), flag='read') do f=1,tape(t)%nflds tape(t)%hlist(f)%field%hpindex = itemp2d(f,t) end do do f=1,tape(t)%nflds start(2) = f call ncd_io( name_desc, tape(t)%hlist(f)%field%name, & 'read', ncid_hist(t), start ) call ncd_io( longname_desc, tape(t)%hlist(f)%field%long_name, & 'read', ncid_hist(t), start ) call ncd_io( units_desc, tape(t)%hlist(f)%field%units, & 'read', ncid_hist(t), start ) call ncd_io( type1d_desc, tape(t)%hlist(f)%field%type1d, & 'read', ncid_hist(t), start ) call ncd_io( type1d_out_desc, tape(t)%hlist(f)%field%type1d_out, & 'read', ncid_hist(t), start ) call ncd_io( type2d_desc, tape(t)%hlist(f)%field%type2d, & 'read', ncid_hist(t), start ) call ncd_io( avgflag_desc, tape(t)%hlist(f)%avgflag, & 'read', ncid_hist(t), start ) call ncd_io( p2c_scale_type_desc, tape(t)%hlist(f)%field%p2c_scale_type, & 'read', ncid_hist(t), start ) call ncd_io( c2l_scale_type_desc, tape(t)%hlist(f)%field%c2l_scale_type, & 'read', ncid_hist(t), start ) call ncd_io( l2g_scale_type_desc, tape(t)%hlist(f)%field%l2g_scale_type, & 'read', ncid_hist(t), start ) call strip_null(tape(t)%hlist(f)%field%name) call strip_null(tape(t)%hlist(f)%field%long_name) call strip_null(tape(t)%hlist(f)%field%units) call strip_null(tape(t)%hlist(f)%field%type1d) call strip_null(tape(t)%hlist(f)%field%type1d_out) call strip_null(tape(t)%hlist(f)%field%type2d) call strip_null(tape(t)%hlist(f)%field%p2c_scale_type) call strip_null(tape(t)%hlist(f)%field%c2l_scale_type) call strip_null(tape(t)%hlist(f)%field%l2g_scale_type) call strip_null(tape(t)%hlist(f)%avgflag) type1d_out = trim(tape(t)%hlist(f)%field%type1d_out) select case (trim(type1d_out)) case (grlnd) num1d_out = numg beg1d_out = begg end1d_out = endg case (nameg) num1d_out = numg beg1d_out = begg end1d_out = endg case (namel) num1d_out = numl beg1d_out = begl end1d_out = endl case (namec) num1d_out = numc beg1d_out = begc end1d_out = endc case (namep) num1d_out = nump beg1d_out = begp end1d_out = endp case default write(iulog,*) trim(subname),' ERROR: read unknown 1d output type=',trim(type1d_out) call endrun () end select tape(t)%hlist(f)%field%num1d_out = num1d_out tape(t)%hlist(f)%field%beg1d_out = beg1d_out tape(t)%hlist(f)%field%end1d_out = end1d_out num2d = tape(t)%hlist(f)%field%num2d allocate (tape(t)%hlist(f)%hbuf(beg1d_out:end1d_out,num2d), & tape(t)%hlist(f)%nacs(beg1d_out:end1d_out,num2d), & stat=status) if (status /= 0) then write(iulog,*) trim(subname),' ERROR: allocation error for hbuf,nacs at t,f=',t,f call endrun() endif tape(t)%hlist(f)%hbuf(:,:) = 0._r8 tape(t)%hlist(f)%nacs(:,:) = 0 type1d = tape(t)%hlist(f)%field%type1d select case (type1d) case (grlnd) num1d = numg beg1d = begg end1d = endg case (nameg) num1d = numg beg1d = begg end1d = endg case (namel) num1d = numl beg1d = begl end1d = endl case (namec) num1d = numc beg1d = begc end1d = endc case (namep) num1d = nump beg1d = begp case default write(iulog,*) trim(subname),' ERROR: read unknown 1d type=',type1d call endrun () end select tape(t)%hlist(f)%field%num1d = num1d tape(t)%hlist(f)%field%beg1d = beg1d tape(t)%hlist(f)%field%end1d = end1d end do ! end of flds loop ! If history file is not full, open it if (tape(t)%ntimes /= 0) then call ncd_pio_openfile (nfid(t), trim(locfnh(t)), ncd_write) end if end do ! end of tapes loop hist_fincl1(:) = fincl(:,1) hist_fincl2(:) = fincl(:,2) hist_fincl3(:) = fincl(:,3) hist_fincl4(:) = fincl(:,4) hist_fincl5(:) = fincl(:,5) hist_fincl6(:) = fincl(:,6) hist_fexcl1(:) = fexcl(:,1) hist_fexcl2(:) = fexcl(:,2) hist_fexcl3(:) = fexcl(:,3) hist_fexcl4(:) = fexcl(:,4) hist_fexcl5(:) = fexcl(:,5) hist_fexcl6(:) = fexcl(:,6) if ( allocated(itemp2d) ) deallocate(itemp2d) end if !====================================================================== ! Read/write history file restart data. ! If the current history file(s) are not full, file(s) are opened ! so that subsequent time samples are added until the file is full. ! A new history file is used on a branch run. !====================================================================== if (flag == 'write') then do t = 1,ntapes if (.not. tape(t)%is_endhist) then do f = 1,tape(t)%nflds name = tape(t)%hlist(f)%field%name name_acc = trim(name) // "_acc" type1d_out = tape(t)%hlist(f)%field%type1d_out type2d = tape(t)%hlist(f)%field%type2d num2d = tape(t)%hlist(f)%field%num2d beg1d_out = tape(t)%hlist(f)%field%beg1d_out end1d_out = tape(t)%hlist(f)%field%end1d_out nacs => tape(t)%hlist(f)%nacs hbuf => tape(t)%hlist(f)%hbuf if (num2d == 1) then allocate(hbuf1d(beg1d_out:end1d_out), & nacs1d(beg1d_out:end1d_out), stat=status) if (status /= 0) then write(iulog,*) trim(subname),' ERROR: allocation'; call endrun() end if hbuf1d(beg1d_out:end1d_out) = hbuf(beg1d_out:end1d_out,1) nacs1d(beg1d_out:end1d_out) = nacs(beg1d_out:end1d_out,1) call ncd_io(ncid=ncid_hist(t), flag='write', varname=trim(name), & dim1name=type1d_out, data=hbuf1d) call ncd_io(ncid=ncid_hist(t), flag='write', varname=trim(name_acc), & dim1name=type1d_out, data=nacs1d) deallocate(hbuf1d) deallocate(nacs1d) else call ncd_io(ncid=ncid_hist(t), flag='write', varname=trim(name), & dim1name=type1d_out, data=hbuf) call ncd_io(ncid=ncid_hist(t), flag='write', varname=trim(name_acc), & dim1name=type1d_out, data=nacs) end if end do end if ! end of is_endhist block call ncd_pio_closefile(ncid_hist(t)) end do ! end of ntapes loop else if (flag == 'read') then ! Read history restart information if history files are not full do t = 1,ntapes if (.not. tape(t)%is_endhist) then do f = 1,tape(t)%nflds name = tape(t)%hlist(f)%field%name name_acc = trim(name) // "_acc" type1d_out = tape(t)%hlist(f)%field%type1d_out type2d = tape(t)%hlist(f)%field%type2d num2d = tape(t)%hlist(f)%field%num2d beg1d_out = tape(t)%hlist(f)%field%beg1d_out end1d_out = tape(t)%hlist(f)%field%end1d_out nacs => tape(t)%hlist(f)%nacs hbuf => tape(t)%hlist(f)%hbuf if (num2d == 1) then allocate(hbuf1d(beg1d_out:end1d_out), & nacs1d(beg1d_out:end1d_out), stat=status) if (status /= 0) then write(iulog,*) trim(subname),' ERROR: allocation'; call endrun() end if call ncd_io(ncid=ncid_hist(t), flag='read', varname=trim(name), & dim1name=type1d_out, data=hbuf1d) call ncd_io(ncid=ncid_hist(t), flag='read', varname=trim(name_acc), & dim1name=type1d_out, data=nacs1d) hbuf(beg1d_out:end1d_out,1) = hbuf1d(beg1d_out:end1d_out) nacs(beg1d_out:end1d_out,1) = nacs1d(beg1d_out:end1d_out) deallocate(hbuf1d) deallocate(nacs1d) else call ncd_io(ncid=ncid_hist(t), flag='read', varname=trim(name), & dim1name=type1d_out, data=hbuf) call ncd_io(ncid=ncid_hist(t), flag='read', varname=trim(name_acc), & dim1name=type1d_out, data=nacs) end if end do end if call ncd_pio_closefile(ncid_hist(t)) end do end if end subroutine hist_restart_ncd !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: max_nFields ! ! !INTERFACE: integer function max_nFields() ! ! !DESCRIPTION: ! Get the maximum number of fields on all tapes. ! ! !ARGUMENTS: implicit none ! ! !REVISION HISTORY: ! Created by Erik Kluzek ! ! ! !LOCAL VARIABLES: !EOP integer :: t ! index character(len=*),parameter :: subname = 'max_nFields' !----------------------------------------------------------------------- max_nFields = 0 do t = 1,ntapes max_nFields = max(max_nFields, tape(t)%nflds) end do return end function max_nFields !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: getname ! ! !INTERFACE: character(len=max_namlen) function getname (inname) ! ! !DESCRIPTION: ! Retrieve name portion of inname. If an averaging flag separater character ! is present (:) in inname, lop it off. ! ! !ARGUMENTS: implicit none character(len=*), intent(in) :: inname ! ! !REVISION HISTORY: ! Created by Jim Rosinski ! ! ! !LOCAL VARIABLES: !EOP integer :: length integer :: i character(len=*),parameter :: subname = 'getname' !----------------------------------------------------------------------- length = len (inname) if (length < max_namlen .or. length > max_namlen+2) then write(iulog,*) trim(subname),' ERROR: bad length=',length call endrun() end if getname = ' ' do i = 1,max_namlen if (inname(i:i) == ':') exit getname(i:i) = inname(i:i) end do end function getname !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: getflag ! ! !INTERFACE: character(len=1) function getflag (inname) ! ! !DESCRIPTION: ! Retrieve flag portion of inname. If an averaging flag separater character ! is present (:) in inname, return the character after it as the flag ! ! !ARGUMENTS: implicit none character(len=*) inname ! character string ! ! !REVISION HISTORY: ! Created by Jim Rosinski ! ! ! !LOCAL VARIABLES: !EOP integer :: length ! length of inname integer :: i ! loop index character(len=*),parameter :: subname = 'getflag' !----------------------------------------------------------------------- length = len (inname) if (length < max_namlen .or. length > max_namlen+2) then write(iulog,*) trim(subname),' ERROR: bad length=',length call endrun() end if getflag = ' ' do i = 1,length if (inname(i:i) == ':') then getflag = inname(i+1:i+1) exit end if end do end function getflag !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: list_index ! ! !INTERFACE: subroutine list_index (list, name, index) ! ! !DESCRIPTION: ! ! !USES: ! ! !ARGUMENTS: implicit none character(len=*), intent(in) :: list(max_flds) ! input list of names, possibly ":" delimited character(len=max_namlen), intent(in) :: name ! name to be searched for integer, intent(out) :: index ! index of "name" in "list" ! ! !REVISION HISTORY: ! Created by Jim Rosinski ! ! ! !LOCAL VARIABLES: !EOP character(len=max_namlen) :: listname ! input name with ":" stripped off. integer f ! field index character(len=*),parameter :: subname = 'list_index' !----------------------------------------------------------------------- ! Only list items index = 0 do f=1,max_flds listname = getname (list(f)) if (listname == ' ') exit if (listname == name) then index = f exit end if end do end subroutine list_index !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: set_hist_filename ! ! !INTERFACE: character(len=256) function set_hist_filename (hist_freq, hist_mfilt, hist_file) ! ! !DESCRIPTION: ! Determine history dataset filenames. ! ! !USES: use clm_varctl, only : caseid, inst_suffix use clm_time_manager, only : get_curr_date, get_prev_date ! ! !ARGUMENTS: implicit none integer, intent(in) :: hist_freq !history file frequency integer, intent(in) :: hist_mfilt !history file number of time-samples integer, intent(in) :: hist_file !history file index ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP character(len=256) :: cdate !date char string character(len= 1) :: hist_index !p,1 or 2 (currently) integer :: day !day (1 -> 31) integer :: mon !month (1 -> 12) integer :: yr !year (0 -> ...) integer :: sec !seconds into current day character(len=*),parameter :: subname = 'set_hist_filename' !----------------------------------------------------------------------- if (hist_freq == 0 .and. hist_mfilt == 1) then !monthly call get_prev_date (yr, mon, day, sec) write(cdate,'(i4.4,"-",i2.2)') yr,mon else !other call get_curr_date (yr, mon, day, sec) write(cdate,'(i4.4,"-",i2.2,"-",i2.2,"-",i5.5)') yr,mon,day,sec endif write(hist_index,'(i1.1)') hist_file - 1 set_hist_filename = "./"//trim(caseid)//".clm2"//trim(inst_suffix)//& ".h"//hist_index//"."//trim(cdate)//".nc" end function set_hist_filename !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hist_addfld1d ! ! !INTERFACE: subroutine hist_addfld1d (fname, units, avgflag, long_name, type1d_out, & ptr_gcell, ptr_lunit, ptr_col, ptr_pft, ptr_lnd, & ptr_atm, p2c_scale_type, c2l_scale_type, & l2g_scale_type, set_lake, set_urb, set_nourb, & set_noglcmec, set_spec, default) ! ! !DESCRIPTION: ! Initialize a single level history field. The pointer, ptrhist, ! is a pointer to the clmtype array that the history buffer will use. ! The value of type1d passed to masterlist\_add\_fld determines which of the ! 1d type of the output and the beginning and ending indices the history ! buffer field). Default history contents for given field on all tapes ! are set by calling [masterlist\_make\_active] for the appropriate tape. ! After the masterlist is built, routine [htapes\_build] is called for an ! initial or branch run to initialize the actual history tapes. ! ! !USES: use clmtype ! ! !ARGUMENTS: implicit none character(len=*), intent(in) :: fname ! field name character(len=*), intent(in) :: units ! units of field character(len=1), intent(in) :: avgflag ! time averaging flag character(len=*), intent(in) :: long_name ! long name of field character(len=*), optional, intent(in) :: type1d_out ! output type (from clmtype) real(r8) , optional, pointer :: ptr_gcell(:) ! pointer to gridcell array real(r8) , optional, pointer :: ptr_lunit(:) ! pointer to landunit array real(r8) , optional, pointer :: ptr_col(:) ! pointer to column array real(r8) , optional, pointer :: ptr_pft(:) ! pointer to pft array real(r8) , optional, pointer :: ptr_lnd(:) ! pointer to lnd array real(r8) , optional, pointer :: ptr_atm(:) ! pointer to atm array real(r8) , optional, intent(in) :: set_lake ! value to set lakes to real(r8) , optional, intent(in) :: set_urb ! value to set urban to real(r8) , optional, intent(in) :: set_nourb ! value to set non-urban to real(r8) , optional, intent(in) :: set_noglcmec ! value to set non-glacier_mec to real(r8) , optional, intent(in) :: set_spec ! value to set special to character(len=*), optional, intent(in) :: p2c_scale_type ! scale type for subgrid averaging of pfts to column character(len=*), optional, intent(in) :: c2l_scale_type ! scale type for subgrid averaging of columns to landunits character(len=*), optional, intent(in) :: l2g_scale_type ! scale type for subgrid averaging of landunits to gridcells character(len=*), optional, intent(in) :: default ! if set to 'inactive, field will not appear on primary tape ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: p,c,l,g ! indices integer :: begp, endp ! per-proc beginning and ending pft indices integer :: begc, endc ! per-proc beginning and ending column indices integer :: begl, endl ! per-proc beginning and ending landunit indices integer :: begg, endg ! per-proc gridcell ending gridcell indices integer :: hpindex ! history buffer pointer index character(len=8) :: l_type1d ! 1d data type character(len=8) :: l_type1d_out ! 1d output type character(len=8) :: scale_type_p2c ! scale type for subgrid averaging of pfts to column character(len=8) :: scale_type_c2l ! scale type for subgrid averaging of columns to landunits character(len=8) :: scale_type_l2g ! scale type for subgrid averaging of landunits to gridcells character(len=*),parameter :: subname = 'hist_addfld1d' !------------------------------------------------------------------------ ! Determine processor bounds call get_proc_bounds(begg, endg, begl, endl, begc, endc, begp, endp) ! History buffer pointer hpindex = pointer_index() if (present(ptr_lnd)) then l_type1d = grlnd l_type1d_out = grlnd clmptr_rs(hpindex)%ptr => ptr_lnd else if (present(ptr_gcell)) then l_type1d = nameg l_type1d_out = nameg clmptr_rs(hpindex)%ptr => ptr_gcell else if (present(ptr_lunit)) then l_type1d = namel l_type1d_out = namel clmptr_rs(hpindex)%ptr => ptr_lunit if (present(set_lake)) then do l = begl,endl if (clm3%g%l%lakpoi(l)) ptr_lunit(l) = set_lake end do end if if (present(set_urb)) then do l = begl,endl if (clm3%g%l%urbpoi(l)) ptr_lunit(l) = set_urb end do end if if (present(set_nourb)) then do l = begl,endl if (.not.(clm3%g%l%urbpoi(l))) ptr_lunit(l) = set_nourb end do end if if (present(set_spec)) then do l = begl,endl if (clm3%g%l%ifspecial(l)) ptr_lunit(l) = set_spec end do end if else if (present(ptr_col)) then l_type1d = namec l_type1d_out = namec clmptr_rs(hpindex)%ptr => ptr_col if (present(set_lake)) then do c = begc,endc l = clm3%g%l%c%landunit(c) if (clm3%g%l%lakpoi(l)) ptr_col(c) = set_lake end do end if if (present(set_urb)) then do c = begc,endc l = clm3%g%l%c%landunit(c) if (clm3%g%l%urbpoi(l)) ptr_col(c) = set_urb end do end if if (present(set_nourb)) then do c = begc,endc l = clm3%g%l%c%landunit(c) if (.not.(clm3%g%l%urbpoi(l))) ptr_col(c) = set_nourb end do end if if (present(set_spec)) then do c = begc,endc l = clm3%g%l%c%landunit(c) if (clm3%g%l%ifspecial(l)) ptr_col(c) = set_spec end do end if if (present(set_noglcmec)) then do c = begc,endc l = clm3%g%l%c%landunit(c) if (.not.(clm3%g%l%glcmecpoi(l))) ptr_col(c) = set_noglcmec end do endif else if (present(ptr_pft)) then l_type1d = namep l_type1d_out = namep clmptr_rs(hpindex)%ptr => ptr_pft if (present(set_lake)) then do p = begp,endp l = clm3%g%l%c%p%landunit(p) if (clm3%g%l%lakpoi(l)) ptr_pft(p) = set_lake end do end if if (present(set_urb)) then do p = begp,endp l = clm3%g%l%c%p%landunit(p) if (clm3%g%l%urbpoi(l)) ptr_pft(p) = set_urb end do end if if (present(set_nourb)) then do p = begp,endp l = clm3%g%l%c%p%landunit(p) if (.not.(clm3%g%l%urbpoi(l))) ptr_pft(p) = set_nourb end do end if if (present(set_spec)) then do p = begp,endp l = clm3%g%l%c%p%landunit(p) if (clm3%g%l%ifspecial(l)) ptr_pft(p) = set_spec end do end if if (present(set_noglcmec)) then do p = begp,endp l = clm3%g%l%c%p%landunit(p) if (.not.(clm3%g%l%glcmecpoi(l))) ptr_pft(p) = set_noglcmec end do end if else write(iulog,*) trim(subname),' ERROR: must specify a valid pointer index,', & ' choices are [ptr_atm, ptr_lnd, ptr_gcell, ptr_lunit, ptr_col, ptr_pft] ' call endrun() end if ! Set scaling factor scale_type_p2c = 'unity' scale_type_c2l = 'unity' scale_type_l2g = 'unity' if (present(p2c_scale_type)) scale_type_p2c = p2c_scale_type if (present(c2l_scale_type)) scale_type_c2l = c2l_scale_type if (present(l2g_scale_type)) scale_type_l2g = l2g_scale_type if (present(type1d_out)) l_type1d_out = type1d_out ! Add field to masterlist call masterlist_addfld (fname=trim(fname), type1d=l_type1d, type1d_out=l_type1d_out, & type2d='unset', num2d=1, & units=units, avgflag=avgflag, long_name=long_name, hpindex=hpindex, & p2c_scale_type=scale_type_p2c, c2l_scale_type=scale_type_c2l, l2g_scale_type=scale_type_l2g) if (present(default)) then if (trim(default) == 'inactive') return else call masterlist_make_active (name=trim(fname), tape_index=1) end if end subroutine hist_addfld1d !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hist_addfld2d ! ! !INTERFACE: subroutine hist_addfld2d (fname, type2d, units, avgflag, long_name, type1d_out, & ptr_gcell, ptr_lunit, ptr_col, ptr_pft, ptr_lnd, ptr_atm, & p2c_scale_type, c2l_scale_type, l2g_scale_type, & set_lake, set_urb, set_nourb, set_spec, default) ! ! !DESCRIPTION: ! Initialize a single level history field. The pointer, ptrhist, ! is a pointer to the clmtype array that the history buffer will use. ! The value of type1d passed to masterlist\_add\_fld determines which of the ! 1d type of the output and the beginning and ending indices the history ! buffer field). Default history contents for given field on all tapes ! are set by calling [masterlist\_make\_active] for the appropriatae tape. ! After the masterlist is built, routine [htapes\_build] is called for an ! initial or branch run to initialize the actual history tapes. ! ! !USES: use clmtype use clm_varpar, only : nlevgrnd, nlevlak, numrad ! ! !ARGUMENTS: implicit none character(len=*), intent(in) :: fname ! field name character(len=*), intent(in) :: type2d ! 2d output type character(len=*), intent(in) :: units ! units of field character(len=1), intent(in) :: avgflag ! time averaging flag character(len=*), intent(in) :: long_name ! long name of field character(len=*), optional, intent(in) :: type1d_out ! output type (from clmtype) real(r8) , optional, pointer :: ptr_atm(:,:) ! pointer to atm array real(r8) , optional, pointer :: ptr_lnd(:,:) ! pointer to lnd array real(r8) , optional, pointer :: ptr_gcell(:,:) ! pointer to gridcell array real(r8) , optional, pointer :: ptr_lunit(:,:) ! pointer to landunit array real(r8) , optional, pointer :: ptr_col(:,:) ! pointer to column array real(r8) , optional, pointer :: ptr_pft(:,:) ! pointer to pft array real(r8) , optional, intent(in) :: set_lake ! value to set lakes to real(r8) , optional, intent(in) :: set_urb ! value to set urban to real(r8) , optional, intent(in) :: set_nourb ! value to set non-urban to real(r8) , optional, intent(in) :: set_spec ! value to set special to character(len=*), optional, intent(in) :: p2c_scale_type ! scale type for subgrid averaging of pfts to column character(len=*), optional, intent(in) :: c2l_scale_type ! scale type for subgrid averaging of columns to landunits character(len=*), optional, intent(in) :: l2g_scale_type ! scale type for subgrid averaging of landunits to gridcells character(len=*), optional, intent(in) :: default ! if set to 'inactive, field will not appear on primary tape ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: p,c,l,g ! indices integer :: num2d ! size of second dimension (e.g. number of vertical levels) integer :: begp, endp ! per-proc beginning and ending pft indices integer :: begc, endc ! per-proc beginning and ending column indices integer :: begl, endl ! per-proc beginning and ending landunit indices integer :: begg, endg ! per-proc gridcell ending gridcell indices integer :: hpindex ! history buffer index character(len=8) :: l_type1d ! 1d data type character(len=8) :: l_type1d_out ! 1d output type character(len=8) :: scale_type_p2c ! scale type for subgrid averaging of pfts to column character(len=8) :: scale_type_c2l ! scale type for subgrid averaging of columns to landunits character(len=8) :: scale_type_l2g ! scale type for subgrid averaging of landunits to gridcells character(len=*),parameter :: subname = 'hist_addfld2d' !------------------------------------------------------------------------ ! Determine second dimension size select case (type2d) case ('levgrnd') num2d = nlevgrnd case ('levlak') num2d = nlevlak case ('numrad') num2d = numrad case default write(iulog,*) trim(subname),' ERROR: unsupported 2d type ',type2d, & ' currently supported types for multi level fields are [levgrnd,levlak,numrad]' call endrun() end select ! Determine processor bounds call get_proc_bounds(begg, endg, begl, endl, begc, endc, begp, endp) ! History buffer pointer hpindex = pointer_index() if (present(ptr_lnd)) then l_type1d = grlnd l_type1d_out = grlnd clmptr_ra(hpindex)%ptr => ptr_lnd else if (present(ptr_gcell)) then l_type1d = nameg l_type1d_out = nameg clmptr_ra(hpindex)%ptr => ptr_gcell else if (present(ptr_lunit)) then l_type1d = namel l_type1d_out = namel clmptr_ra(hpindex)%ptr => ptr_lunit if (present(set_lake)) then do l = begl,endl if (clm3%g%l%lakpoi(l)) ptr_lunit(l,:) = set_lake end do end if if (present(set_urb)) then do l = begl,endl if (clm3%g%l%urbpoi(l)) ptr_lunit(l,:) = set_urb end do end if if (present(set_nourb)) then do l = begl,endl if (.not.(clm3%g%l%urbpoi(l))) ptr_lunit(l,:) = set_nourb end do end if if (present(set_spec)) then do l = begl,endl if (clm3%g%l%ifspecial(l)) ptr_lunit(l,:) = set_spec end do end if else if (present(ptr_col)) then l_type1d = namec l_type1d_out = namec clmptr_ra(hpindex)%ptr => ptr_col if (present(set_lake)) then do c = begc,endc l = clm3%g%l%c%landunit(c) if (clm3%g%l%lakpoi(l)) ptr_col(c,:) = set_lake end do end if if (present(set_urb)) then do c = begc,endc l = clm3%g%l%c%landunit(c) if (clm3%g%l%urbpoi(l)) ptr_col(c,:) = set_urb end do end if if (present(set_nourb)) then do c = begc,endc l = clm3%g%l%c%landunit(c) if (.not.(clm3%g%l%urbpoi(l))) ptr_col(c,:) = set_nourb end do end if if (present(set_spec)) then do c = begc,endc l = clm3%g%l%c%landunit(c) if (clm3%g%l%ifspecial(l)) ptr_col(c,:) = set_spec end do end if else if (present(ptr_pft)) then l_type1d = namep l_type1d_out = namep clmptr_ra(hpindex)%ptr => ptr_pft if (present(set_lake)) then do p = begp,endp l = clm3%g%l%c%p%landunit(p) if (clm3%g%l%lakpoi(l)) ptr_pft(p,:) = set_lake end do end if if (present(set_urb)) then do p = begp,endp l = clm3%g%l%c%p%landunit(p) if (clm3%g%l%urbpoi(l)) ptr_pft(p,:) = set_urb end do end if if (present(set_nourb)) then do p = begp,endp l = clm3%g%l%c%p%landunit(p) if (.not.(clm3%g%l%urbpoi(l))) ptr_pft(p,:) = set_nourb end do end if if (present(set_spec)) then do p = begp,endp l = clm3%g%l%c%p%landunit(p) if (clm3%g%l%ifspecial(l)) ptr_pft(p,:) = set_spec end do end if else write(iulog,*) trim(subname),' ERROR: must specify a valid pointer index,', & ' choices are ptr_atm, ptr_lnd, ptr_gcell, ptr_lunit, ptr_col, ptr_pft' call endrun() end if ! Set scaling factor scale_type_p2c = 'unity' scale_type_c2l = 'unity' scale_type_l2g = 'unity' if (present(p2c_scale_type)) scale_type_p2c = p2c_scale_type if (present(c2l_scale_type)) scale_type_c2l = c2l_scale_type if (present(l2g_scale_type)) scale_type_l2g = l2g_scale_type if (present(type1d_out)) l_type1d_out = type1d_out ! Add field to masterlist call masterlist_addfld (fname=trim(fname), type1d=l_type1d, type1d_out=l_type1d_out, & type2d=type2d, num2d=num2d, & units=units, avgflag=avgflag, long_name=long_name, hpindex=hpindex, & p2c_scale_type=scale_type_p2c, c2l_scale_type=scale_type_c2l, l2g_scale_type=scale_type_l2g) if (present(default)) then if (trim(default) == 'inactive') return else call masterlist_make_active (name=trim(fname), tape_index=1) end if end subroutine hist_addfld2d !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: pointer_index ! ! !INTERFACE: integer function pointer_index () ! ! !DESCRIPTION: ! Set the current pointer index and increment the value of the index. ! ! !ARGUMENTS: implicit none ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! !EOP integer, save :: lastindex = 1 character(len=*),parameter :: subname = 'pointer_index' !----------------------------------------------------------------------- pointer_index = lastindex lastindex = lastindex + 1 if (lastindex > max_mapflds) then write(iulog,*) trim(subname),' ERROR: ',& ' lastindex = ',lastindex,' greater than max_mapflds= ',max_mapflds call endrun() endif end function pointer_index !----------------------------------------------------------------------- !BOP ! ! !IROUTINE: hist_add_subscript ! ! !INTERFACE: subroutine hist_add_subscript(name, dim) ! ! !DESCRIPTION: ! Add a history variable to the output history tape. ! ! !ARGUMENTS: implicit none character(len=*), intent(in) :: name ! name of subscript integer , intent(in) :: dim ! dimension of subscript ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP character(len=*),parameter :: subname = 'hist_add_subscript' !----------------------------------------------------------------------- num_subs = num_subs + 1 if (num_subs > max_subs) then write(iulog,*) trim(subname),' ERROR: ',& ' num_subs = ',num_subs,' greater than max_subs= ',max_subs call endrun() endif subs_name(num_subs) = name subs_dim(num_subs) = dim end subroutine hist_add_subscript !----------------------------------------------------------------------- subroutine strip_null(str) character(len=*), intent(inout) :: str integer :: i do i=1,len(str) if(ichar(str(i:i))==0) str(i:i)=' ' end do end subroutine strip_null !------------------------------------------------------------------------ !BOP ! ! !ROUTINE: hist_do_disp ! ! !INTERFACE: subroutine hist_do_disp (ntapes, hist_ntimes, hist_mfilt, if_stop, if_disphist, rstwr, nlend) ! ! !DESCRIPTION: ! Determine logic for closeing and/or disposing history file ! Sets values for if_disphist, if_stop (arguments) ! Remove history files unless this is end of run or ! history file is not full. ! ! !USES: use shr_kind_mod , only : r8 => shr_kind_r8 use shr_sys_mod , only : shr_sys_abort use clm_time_manager, only : is_last_step ! ! !ARGUMENTS: implicit none integer, intent(in) :: ntapes !actual number of history tapes integer, intent(in) :: hist_ntimes(ntapes) !current numbers of time samples on history tape integer, intent(in) :: hist_mfilt(ntapes) !maximum number of time samples per tape logical, intent(out) :: if_stop !true => last time step of run logical, intent(out) :: if_disphist(ntapes) !true => save and dispose history file logical, intent(in) :: rstwr logical, intent(in) :: nlend ! ! !REVISION HISTORY: ! Created by Mariana Vertenstein ! ! ! !LOCAL VARIABLES: !EOP integer :: t ! history tape index logical :: rest_now ! temporary logical :: stop_now ! temporary !------------------------------------------------------------------------ rest_now = .false. stop_now = .false. if (nlend) stop_now = .true. if (rstwr) rest_now = .true. if_stop = stop_now if (stop_now) then ! End of run - dispose all history files if_disphist(1:ntapes) = .true. else if (rest_now) then ! Restart - dispose all history files do t = 1,ntapes if_disphist(t) = .true. end do else ! Dispose if_disphist(1:ntapes) = .false. do t = 1,ntapes if (hist_ntimes(t) == hist_mfilt(t)) then if_disphist(t) = .true. endif end do endif end subroutine hist_do_disp end module histFileMod