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! netCDF 4 specific FORTRAN functions
! Replacement for fort-nc4.c
! Written by: Richard Weed, Ph.D.
! Center for Advanced Vehicular Systems
! Mississippi State University
! rweed@cavs.msstate.edu
! License (and other Lawyer Language)
! This software is released under the Apache 2.0 Open Source License. The
! full text of the License can be viewed at :
!
! http:www.apache.org/licenses/LICENSE-2.0.html
!
! The author grants to the University Corporation for Atmospheric Research
! (UCAR), Boulder, CO, USA the right to revise and extend the software
! without restriction. However, the author retains all copyrights and
! intellectual property rights explicitly stated in or implied by the
! Apache license
! Version 1.- June 2006 - Based on netCDF 3.6.2 beta code and 4.0 alpha code
! Version 2.- July 2007 - Based on netCDF 3.6.2 snapshot and 4.0 beta code
! Version 3.- April 2009 - Based on NetCDF 4.0.1 release
! Version 4.- April 2010 - Based on NetCDF 4.1.1 release
! Version 5.- Aug. 2013 - Added nf_rename_grp to align with netCDF-C 4.3.1
! Version 6.- Sep. 2013 - Changed fill routines to support different types
! Version 7.- May 2014 - Ensure return error status checked from C API calls
! Version 8.- Jan. 2016 - General code cleanup. Replaced automatic arrays
! sized with NC_MAX_DIMS with allocatable arrays.
! Changed name processing to reflect change in
! addCNullChar
!-------------------------------- nf_create_par -------------------------------
Function nf_create_par (path, cmode, comm, info, ncid) RESULT(status)
! create parallel file
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: cmode, comm, info
Character(LEN=*), Intent(IN) :: path
Integer, Intent(OUT) :: ncid
Integer :: status
Integer(C_INT) :: ccmode, ccomm, cinfo, cncid, cstatus
Character(LEN=(LEN(path)+1)) :: cpath
Integer :: ie
ccmode = cmode
ccomm = comm
cinfo = info
cncid = 0
cpath = addCNullChar(path, ie) ! add a C Null char and strip trailing blanks
cstatus = nc_create_par_fortran(cpath(1:ie), ccmode, ccomm, cinfo, cncid)
If (cstatus == NC_NOERR) Then
ncid = cncid
EndIf
status = cstatus
End Function nf_create_par
!-------------------------------- nf_open_par --------------------------------
Function nf_open_par (path, mode, comm, info, ncid) RESULT(status)
! open a parallel file
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: mode, comm, info
Character(LEN=*), Intent(IN) :: path
Integer, Intent(OUT) :: ncid
Integer :: status
Integer(C_INT) :: cmode, ccomm, cinfo, cncid, cstatus
Character(LEN=(LEN(path)+1)) :: cpath
Integer :: ie
cmode = mode
ccomm = comm
cinfo = info
cncid = 0
cpath = addCNullChar(path, ie)
cstatus = nc_open_par_fortran(cpath(1:ie), cmode, ccomm, cinfo, cncid)
If (cstatus == NC_NOERR) Then
ncid = cncid
EndIf
status = cstatus
End Function nf_open_par
!-------------------------------- nf_var_par_access -------------------------
Function nf_var_par_access( ncid, varid, iaccess) RESULT (status)
! set parallel variable access
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid, iaccess
Integer :: status
Integer(C_INT) :: cncid, cvarid, caccess, cstatus
cncid = ncid
cvarid = varid - 1
caccess = iaccess
cstatus = nc_var_par_access(cncid, cvarid, caccess)
status = cstatus
End Function nf_var_par_access
!-------------------------------- nf_inq_ncid ---------------------------------
Function nf_inq_ncid(ncid, name, groupid) RESULT (status)
! inquire ncid
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid
Character(LEN=*), Intent(IN) :: name
Integer, Intent(OUT) :: groupid
Integer :: status
Integer(C_INT) :: cncid, cgroupid, cstatus
Character(LEN=LEN(name)+1) :: cname
Integer :: ie
cncid = ncid
cgroupid = 0
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_inq_ncid(cncid, cname(1:ie), cgroupid)
If (cstatus == NC_NOERR) Then
groupid = cgroupid
EndIf
status = cstatus
End Function nf_inq_ncid
!-------------------------------- nf_inq_grps ---------------------------------
Function nf_inq_grps( ncid, numgrps, ncids) RESULT (status)
! inquire number of grps and ncids
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid
Integer, Intent(INOUT) :: ncids(*)
Integer, Intent(OUT) :: numgrps
Integer :: status
Integer(C_INT) :: cncid, cnumgrps, cstatus, cstatus1
Integer(C_INT), ALLOCATABLE :: cncids(:)
cncid = ncid
cnumgrps = 0
ncids(1) = 0
numgrps = 0
! Get cnumgrps first using utility from nc_lib.c which is not part
! of netCDF C.
cstatus1 = nc_inq_numgrps(cncid, cnumgrps)
If (cnumgrps > 0) Then
ALLOCATE(cncids(cnumgrps))
Else
ALLOCATE(cncids(1))
EndIf
cncids = 0
cstatus = nc_inq_grps(cncid, cnumgrps, cncids)
If (cstatus == NC_NOERR) Then
numgrps = cnumgrps
If (numgrps > 0) Then
ncids(1:numgrps) = cncids(1:numgrps)
EndIf
EndIf
status = cstatus
If (ALLOCATED(cncids)) DEALLOCATE (cncids)
End Function nf_inq_grps
!-------------------------------- nf_inq_grpname ------------------------------
Function nf_inq_grpname( ncid, name) RESULT (status)
! inquire group name
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid
Character(LEN=*), Intent(OUT) :: name
Integer :: status
Integer(C_INT) :: cncid, cstatus
Character(LEN=NC_MAX_NAME) :: cname
Integer :: nlen
cncid = ncid
nlen = LEN(name)
name = REPEAT(" ",LEN(name))
cname = REPEAT(" ",LEN(cname))
cstatus = nc_inq_grpname(cncid, cname)
If (cstatus == NC_NOERR) Then
name = stripCNullChar(cname,nlen) ! Strip null char and trailing blanks
EndIf
status = cstatus
End Function nf_inq_grpname
!-------------------------------- nf_inq_grpname_full -------------------------
Function nf_inq_grpname_full( ncid, nlen, name) RESULT (status)
! inquire full group name and length
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid
Character(LEN=*), Intent(OUT) :: name
Integer, Intent(OUT) :: nlen
Integer :: status
Integer(C_INT) :: cncid, cstatus
Integer(C_SIZE_T) :: clen
Character(LEN=LEN(name)+1) :: cname
Integer :: nl
cncid = ncid
nl = LEN(name)
name = REPEAT(" ",LEN(name))
cname = REPEAT(" ",LEN(cname))
cstatus = nc_inq_grpname_full(cncid, clen, cname)
If (cstatus == NC_NOERR) Then
nlen = clen
name = stripCNullChar(cname, nl)
EndIf
status = cstatus
End Function nf_inq_grpname_full
!-------------------------------- nf_inq_grpname_len --------------------------
Function nf_inq_grpname_len( ncid, nlen) RESULT (status)
! inquire length of full group name
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid
Integer, Intent(OUT) :: nlen
Integer :: status
Integer(C_INT) :: cncid, cstatus
Integer(C_SIZE_T) :: clen
cncid = ncid
cstatus = nc_inq_grpname_len(cncid, clen)
If (cstatus == NC_NOERR) Then
! Return name length
nlen = clen
EndIf
status = cstatus
End Function nf_inq_grpname_len
!-------------------------------- nf_inq_grp_parent ---------------------------
Function nf_inq_grp_parent( ncid,parent_ncid) RESULT (status)
! inquire group parent number
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid
Integer, Intent(INOUT) :: parent_ncid
Integer :: status
Integer(C_INT) :: cncid, cparent_ncid, cstatus
cncid = ncid
cstatus = nc_inq_grp_parent(cncid, cparent_ncid)
If (cstatus == NC_NOERR) Then
parent_ncid = cparent_ncid
EndIf
status = cstatus
End Function nf_inq_grp_parent
!-------------------------------- nf_inq_grp_ncid -----------------------------
Function nf_inq_grp_ncid( ncid, grp_name, parent_ncid) RESULT (status)
! inquire parent_ncid given group name
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid
Character(LEN=*), Intent(IN) :: grp_name
Integer, Intent(INOUT) :: parent_ncid
Integer :: status
Integer(C_INT) :: cncid, cstatus, cparent_ncid
Character(LEN=(LEN(grp_name)+1)) :: cgrp_name
Integer :: ie
cgrp_name = REPEAT(" ",LEN(cgrp_name))
cgrp_name = addCNullChar(grp_name, ie)
cncid = ncid
cstatus = nc_inq_grp_ncid(cncid, cgrp_name(1:ie), cparent_ncid)
If (cstatus == NC_NOERR) Then
parent_ncid = cparent_ncid
EndIf
status = cstatus
End Function nf_inq_grp_ncid
!-------------------------------- nf_inq_grp_full_ncid ------------------------
Function nf_inq_grp_full_ncid( ncid, name, grp_ncid) RESULT (status)
! inquire grp ncid given full group name
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid
Character(LEN=*), Intent(INOUT) :: name
Integer, Intent(INOUT) :: grp_ncid
Integer :: status
Integer(C_INT) :: cncid, cstatus, cgrp_ncid
Character(LEN=(LEN(name)+1)) :: cgrp_name
Integer :: ie
cncid = ncid
cgrp_name = REPEAT(" ",LEN(cgrp_name))
cgrp_name = addCNullChar(name, ie)
cstatus = nc_inq_grp_full_ncid(cncid, cgrp_name(1:ie), cgrp_ncid)
If (cstatus == NC_NOERR) Then
grp_ncid = cgrp_ncid
EndIf
status = cstatus
End Function nf_inq_grp_full_ncid
!-------------------------------- nf_inq_varids -------------------------------
Function nf_inq_varids( ncid, nvars, varids) RESULT (status)
! inquire number of vars and varids
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid
Integer, Intent(OUT) :: nvars
Integer, Intent(INOUT) :: varids(*)
Integer :: status
Integer(C_INT) :: cncid, cnvars, cstatus
cncid = ncid
varids(1) = 0
cstatus = nc_inq_varids_f(cncid, cnvars, varids)
If (cstatus == NC_NOERR) Then
nvars = cnvars
EndIf
status = cstatus
End Function nf_inq_varids
!-------------------------------- nf_inq_dimids -------------------------------
Function nf_inq_dimids( ncid, ndims, dimids, parent) RESULT (status)
! inquire number of dimids
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, parent
Integer, Intent(OUT) :: ndims
Integer, Intent(INOUT) :: dimids(*)
Integer :: status
Integer(C_INT) :: cncid, cndims, cparent, cstatus
cncid = ncid
dimids(1) = 0
cstatus = nc_inq_dimids_f(cncid, cndims, dimids, cparent)
If (cstatus == NC_NOERR) Then
ndims = cndims
EndIf
status = cstatus
End Function nf_inq_dimids
!-------------------------------- nf_inq_typeids ------------------------------
Function nf_inq_typeids( ncid, ntypes, typeids) RESULT (status)
! inquire number of types and typeids
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid
Integer, Intent(OUT) :: ntypes
Integer, Intent(INOUT) :: typeids(*)
Integer :: status
Integer(C_INT) :: cncid, cntypes, cstatus, cstatus1
Integer(C_INT), ALLOCATABLE :: ctypeids(:)
cncid = ncid
typeids(1) = 0
cstatus1 = 0
cstatus1 = nc_inq_numtypes(cncid, cntypes)
If (cntypes > 0) Then
ALLOCATE(ctypeids(cntypes))
Else
ALLOCATE(ctypeids(1))
EndIf
ctypeids = 0
cstatus = nc_inq_typeids(cncid, cntypes, ctypeids)
If (cstatus == NC_NOERR) Then
ntypes = cntypes
If (ntypes > 0) Then
typeids(1:ntypes) = ctypeids(1:ntypes)
EndIf
EndIf
status = cstatus
If(ALLOCATED(ctypeids)) DEALLOCATE(ctypeids)
End Function nf_inq_typeids
!-------------------------------- nf_inq_typeid -------------------------------
Function nf_inq_typeid(ncid, name, typeid) RESULT (status)
! inquire typeid for given name
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid
Character(LEN=*), Intent(IN) :: name
Integer, Intent(OUT) :: typeid
Integer :: status
Integer(C_INT) :: cncid, ctypeid, cstatus
Character(LEN=LEN(name)+1) :: cname
Integer :: ie
cncid = ncid
ctypeid = 0
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_inq_typeid(cncid, cname(1:ie), ctypeid)
If (cstatus == NC_NOERR) Then
typeid = ctypeid
EndIf
status = cstatus
End Function nf_inq_typeid
!-------------------------------- nf_def_grp ---------------------------------
Function nf_def_grp( parent_ncid, name, new_ncid) RESULT (status)
! define new group given name
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: parent_ncid
Character(LEN=*), Intent(IN) :: name
Integer, Intent(OUT) :: new_ncid
Integer :: status
Integer(C_INT) :: cncid, cnew_ncid, cstatus
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cncid = parent_ncid
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_def_grp(cncid, cname(1:ie), cnew_ncid)
If (cstatus == NC_NOERR) Then
new_ncid = cnew_ncid
EndIf
status = cstatus
End Function nf_def_grp
!-------------------------------- nf_rename_grp -------------------------------
Function nf_rename_grp( grpid, name) RESULT (status)
! rename previously defined group
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: grpid
Character(LEN=*), Intent(IN) :: name
Integer :: status
Integer(C_INT) :: cgrpid, cstatus
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cgrpid = grpid
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_rename_grp(cgrpid, cname(1:ie))
status = cstatus
End Function nf_rename_grp
!-------------------------------- nf_def_compound -----------------------------
Function nf_def_compound( ncid, isize, name, typeid) RESULT (status)
! define a compound variable given name and size
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, isize
Integer, Intent(OUT) :: typeid
Character(LEN=*), Intent(IN) :: name
Integer :: status
Integer(C_INT) :: cncid, ctypeid, cstatus
Integer(C_SIZE_T) :: csize
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cncid = ncid
csize = isize
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_def_compound(cncid, csize, cname(1:ie), ctypeid)
If (cstatus == NC_NOERR) Then
typeid = ctypeid
EndIf
status = cstatus
End Function nf_def_compound
!-------------------------------- nf_insert_compound --------------------------
Function nf_insert_compound( ncid, xtype, name, offset, field_typeid) &
RESULT (status)
! Insert compound name offset field_typeid etc
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype, field_typeid, offset
Character(LEN=*), Intent(IN) :: name
Integer :: status
Integer(C_INT) :: cncid, cxtype, ctypeid, cstatus
Integer(C_SIZE_T) :: coffset
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cncid = ncid
cxtype = xtype
ctypeid = field_typeid
coffset = offset
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_insert_compound(cncid, cxtype, cname(1:ie), &
coffset, ctypeid)
status = cstatus
End Function nf_insert_compound
!-------------------------------- nf_insert_array_compound --------------------
Function nf_insert_array_compound( ncid, xtype, name, offset, field_typeid, &
ndims, dim_sizes) RESULT (status)
! Insert name type fieldid and dim_sizes array into compound
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype, field_typeid, offset, ndims
Character(LEN=*), Intent(IN) :: name
Integer, Intent(INOUT) :: dim_sizes(*)
Integer :: status
Integer(C_INT) :: cncid, cxtype, ctypeid, cndims, cstatus
Integer(C_SIZE_T) :: coffset
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cncid = ncid
cxtype = xtype
ctypeid = field_typeid
coffset = offset
cndims = ndims
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_insert_array_compound_f(cncid, cxtype, cname(1:ie), &
coffset, ctypeid, cndims, dim_sizes)
status = cstatus
End Function nf_insert_array_compound
!-------------------------------- nf_inq_type ---------------------------------
Function nf_inq_type( ncid, xtype, name, isize) RESULT (status)
! Inquire type size for given name and type
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype
Character(LEN=*), Intent(IN) :: name
Integer, Intent(OUT) :: isize
Integer :: status
Integer(C_INT) :: cncid, cxtype, cstatus
Integer(C_SIZE_T) :: csize
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cncid = ncid
cxtype = xtype
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_inq_type(cncid, cxtype, cname(1:ie), csize)
If (cstatus == NC_NOERR) Then
isize = csize
EndIf
status = cstatus
End Function nf_inq_type
!-------------------------------- nf_inq_compound -----------------------------
Function nf_inq_compound( ncid, xtype, name, isize, nfields) RESULT (status)
! return size and nfield for compound given ncid, xtype, and name
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype
Character(LEN=*), Intent(INOUT) :: name
Integer, Intent(INOUT) :: isize, nfields
Integer :: status
Integer(C_INT) :: cncid, cxtype, cstatus
Integer(C_SIZE_T) :: csize, cnfieldsp
Character(LEN=NC_MAX_NAME+1) :: cname
Integer :: nlen
cncid = ncid
cxtype = xtype
nlen = LEN(name)
name = REPEAT(" ", nlen)
cname = REPEAT(" ", LEN(cname))
cstatus = nc_inq_compound(cncid, cxtype, cname, csize, cnfieldsp)
If (cstatus == NC_NOERR) Then
name = stripCNullChar(cname, nlen)
isize = csize
nfields = cnfieldsp
EndIf
status = cstatus
End Function nf_inq_compound
!-------------------------------- nf_inq_compound_name ------------------------
Function nf_inq_compound_name( ncid, xtype, name) RESULT (status)
! inquire compound name
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype
Character(LEN=*), Intent(OUT) :: name
Integer :: status
Integer(C_INT) :: cncid, cxtype, cstatus
Character(LEN=NC_MAX_NAME+1) :: cname
Integer :: nlen
cncid = ncid
cxtype = xtype
nlen = LEN(name)
name = REPEAT(" ",LEN(name))
cname = REPEAT(" ",LEN(cname))
cstatus = nc_inq_compound_name(cncid, cxtype, cname)
If (cstatus == NC_NOERR) Then
name = stripCNullChar(cname, nlen)
EndIf
status = cstatus
End Function nf_inq_compound_name
!-------------------------------- nf_inq_compound_size -------------------------
Function nf_inq_compound_size( ncid, xtype, isize) RESULT (status)
! return size compound given ncid, xtype
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype
Integer, Intent(INOUT) :: isize
Integer :: status
Integer(C_INT) :: cncid, cxtype, cstatus
Integer(C_SIZE_T) :: csize
cncid = ncid
cxtype = xtype
cstatus = nc_inq_compound_size(cncid, cxtype, csize)
If (cstatus == NC_NOERR) Then
isize = csize
EndIf
status = cstatus
End Function nf_inq_compound_size
!-------------------------------- nf_inq_compound_nfields ----------------------
Function nf_inq_compound_nfields( ncid, xtype, nfields) RESULT (status)
! return number of fields for compound
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype
Integer, Intent(INOUT) :: nfields
Integer :: status
Integer(C_INT) :: cncid, cxtype, cstatus
Integer(C_SIZE_T) :: cnfields
cncid = ncid
cxtype = xtype
cstatus = nc_inq_compound_nfields(cncid, cxtype, cnfields)
If (cstatus == NC_NOERR) Then
nfields = cnfields
EndIf
status = cstatus
End Function nf_inq_compound_nfields
!-------------------------------- nf_inq_compound_field -----------------------
Function nf_inq_compound_field( ncid, xtype, fieldid, name, offset, &
field_typeid, ndims, dim_sizes) RESULT (status)
! inquire compound field info. Use Fortran specific version of C interface
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype, fieldid
Character(LEN=*), Intent(OUT) :: name
Integer, Intent(OUT) :: offset, field_typeid, ndims
Integer, Intent(OUT) :: dim_sizes(*)
Integer :: status
Integer(C_INT) :: cncid, cxtype, cfieldid, cfield_typeid, &
cndims, cstatus, cstatus1
Integer(C_SIZE_T) :: coffset
Character(LEN=NC_MAX_NAME+1) :: cname
Integer :: nlen
Integer(C_INT), ALLOCATABLE :: cdim_sizes(:)
cncid = ncid
cxtype = xtype
cfieldid = fieldid-1
nlen = LEN(name)
name = REPEAT(" ",LEN(name))
cname = REPEAT(" ",LEN(cname))
dim_sizes(1) = 0
cstatus1 = nc_inq_compound_field_ndims(cncid, cxtype, cfieldid, cndims)
If (cndims > 0) Then
ALLOCATE(cdim_sizes(cndims))
Else
ALLOCATE(cdim_sizes(1))
EndIf
cdim_sizes = 0
cstatus = nc_inq_compound_field_f(cncid, cxtype, cfieldid, cname, coffset, &
cfield_typeid, cndims, cdim_sizes)
If (cstatus == NC_NOERR) Then
name = stripCNullChar(cname, nlen)
offset = coffset
field_typeid = cfield_typeid
ndims = cndims
If (ndims > 0) Then
dim_sizes(1:ndims) = cdim_sizes(1:ndims)
EndIf
EndIf
status = cstatus
If (ALLOCATED(cdim_sizes)) DEALLOCATE(cdim_sizes)
End Function nf_inq_compound_field
!-------------------------------- nf_inq_compound_fieldname -------------------
Function nf_inq_compound_fieldname(ncid, xtype, fieldid, name) RESULT(status)
! inquire compound field name
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype, fieldid
Character(LEN=*), Intent(OUT) :: name
Integer :: status
Integer(C_INT) :: cncid, cxtype, cfieldid, cstatus
Character(LEN=NC_MAX_NAME+1) :: cname
Integer :: nlen
cncid = ncid
cxtype = xtype
cfieldid = fieldid - 1
nlen = LEN(name)
name = REPEAT(" ",LEN(name))
cname = REPEAT(" ",LEN(cname))
cstatus = nc_inq_compound_fieldname(cncid, cxtype, cfieldid, cname)
If (cstatus == NC_NOERR) Then
name = stripCNullChar(cname, nlen)
EndIf
status = cstatus
End Function nf_inq_compound_fieldname
!-------------------------------- nf_inq_compound_fieldindex ------------------
Function nf_inq_compound_fieldindex( ncid, xtype, name, fieldid) RESULT (status)
! inquire compound field index id
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype
Character(LEN=*), Intent(IN) :: name
Integer, Intent(OUT) :: fieldid
Integer :: status
Integer(C_INT) :: cncid, cxtype, cfieldid, cstatus
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cncid = ncid
cxtype = xtype
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_inq_compound_fieldindex(cncid, cxtype, cname(1:ie), cfieldid)
If (cstatus == NC_NOERR) Then
fieldid = cfieldid + 1
EndIf
status = cstatus
End Function nf_inq_compound_fieldindex
!-------------------------------- nf_inq_compound_fieldoffset ----------------
Function nf_inq_compound_fieldoffset( ncid, xtype, fieldid, offset)&
RESULT (status)
! inquire compound field offset
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype, fieldid
Integer, Intent(OUT) :: offset
Integer :: status
Integer(C_INT) :: cncid, cxtype, cfieldid, cstatus
Integer(C_SIZE_T) :: coffset
cncid = ncid
cxtype = xtype
cfieldid = fieldid - 1
cstatus = nc_inq_compound_fieldoffset(cncid, cxtype, cfieldid, coffset)
If (cstatus == NC_NOERR) Then
offset = coffset
EndIf
status = cstatus
End Function nf_inq_compound_fieldoffset
!-------------------------------- nf_inq_compound_fieldtype -------------------
Function nf_inq_compound_fieldtype( ncid, xtype, fieldid, field_typeid) &
RESULT (status)
! inquire compound field typeid
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype, fieldid
Integer, Intent(OUT) :: field_typeid
Integer :: status
Integer(C_INT) :: cncid, cxtype, cfieldid, cfield_typeid, cstatus
cncid = ncid
cxtype = xtype
cfieldid = fieldid -1
cstatus = nc_inq_compound_fieldtype(cncid, cxtype, cfieldid, cfield_typeid)
If (cstatus == NC_NOERR) Then
field_typeid = cfield_typeid
EndIf
status = cstatus
End Function nf_inq_compound_fieldtype
!-------------------------------- nf_inq_compound_fieldndims ------------------
Function nf_inq_compound_fieldndims( ncid, xtype, fieldid, ndims) RESULT (status)
! Inquire compound field dim_size ndims
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype, fieldid
Integer, Intent(OUT) :: ndims
Integer :: status
Integer(C_INT) :: cncid, cxtype, cfieldid, cndims, cstatus
cncid = ncid
cxtype = xtype
cfieldid = fieldid -1
cstatus = nc_inq_compound_fieldndims(cncid, cxtype, cfieldid, cndims)
If (cstatus == NC_NOERR) Then
ndims = cndims
EndIf
status = cstatus
End Function nf_inq_compound_fieldndims
!-------------------------------- nf_inq_compound_fielddim_sizes --------------
Function nf_inq_compound_fielddim_sizes( ncid, xtype, fieldid, dim_sizes) &
RESULT (status)
! inq compound field dimension sizes
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype, fieldid
Integer, Intent(INOUT) :: dim_sizes(*)
Integer :: status
Integer(C_INT) :: cncid, cxtype, cfieldid, cstatus
cncid = ncid
cxtype = xtype
cfieldid = fieldid - 1
cstatus = nc_inq_compound_fielddim_sizes(cncid, cxtype, cfieldid, dim_sizes)
status = cstatus
End Function nf_inq_compound_fielddim_sizes
!-------------------------------- nf_def_vlen ---------------------------------
Function nf_def_vlen( ncid, name, base_typeid, xtype) RESULT (status)
! define variable length data
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, base_typeid
Character(LEN=*), Intent(IN) :: name
Integer, Intent(OUT) :: xtype
Integer :: status
Integer(C_INT) :: cncid, cxtype, cbase_typeid, cstatus
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cncid = ncid
cxtype = xtype
cbase_typeid = base_typeid
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_def_vlen(cncid, cname(1:ie), cbase_typeid, cxtype)
If (cstatus == NC_NOERR) Then
xtype = cxtype
EndIf
status = cstatus
End Function nf_def_vlen
!-------------------------------- nf_inq_vlen ---------------------------------
Function nf_inq_vlen( ncid, xtype, name, datum_size, base_type) RESULT(status)
! inquire variable length array info
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype
Character(LEN=*), Intent(OUT) :: name
Integer, Intent(OUT) :: datum_size, base_type
Integer :: status
Integer(C_INT) :: cncid, cxtype, cbase_type, cstatus
Integer(C_SIZE_T) :: cdatum_size
Character(LEN=NC_MAX_NAME+1) :: cname
Integer :: nlen
cncid = ncid
cxtype = xtype
nlen = LEN(name)
name = REPEAT(" ",LEN(name))
cname = REPEAT(" ",LEN(cname))
cstatus = nc_inq_vlen(cncid, cxtype, cname, cdatum_size, cbase_type)
If (cstatus == NC_NOERR) Then
name = stripCNullChar(cname, nlen)
datum_size = cdatum_size
base_type = cbase_type
EndIf
status = cstatus
End Function nf_inq_vlen
!-------------------------------- nf_inq_user_type ----------------------------
Function nf_inq_user_type( ncid, xtype, name, isize, base_type, nfields, &
iclass) RESULT (status)
! return size and nfield, class, and base type for user type given
! ncid, xtype, and name
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype
Character(LEN=*), Intent(INOUT) :: name
Integer, Intent(OUT) :: isize, nfields, base_type, iclass
Integer :: status
Integer(C_INT) :: cncid, cxtype, cbase_type, cclass, cstatus
Integer(C_SIZE_T) :: csize, cnfields
Character(LEN=NC_MAX_NAME+1) :: cname
Integer :: nlen
cncid = ncid
cxtype = xtype
nlen = LEN(name)
name = REPEAT(" ",LEN(name))
cname = REPEAT(" ",LEN(cname))
cstatus = nc_inq_user_type(cncid, cxtype, cname, csize, cbase_type, cnfields, &
cclass)
If (cstatus == NC_NOERR) Then
name = stripCNullChar(cname, nlen)
isize = csize
nfields = cnfields
iclass = cclass
base_type = cbase_type
EndIf
status = cstatus
End Function nf_inq_user_type
!-------------------------------- nf_def_enum ---------------------------------
Function nf_def_enum( ncid, base_typeid, name, typeid) RESULT (status)
! define an enumerator typeid
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, base_typeid
Character(LEN=*), Intent(IN) :: name
Integer, Intent(OUT) :: typeid
Integer :: status
Integer(C_INT) :: cncid, cbase_typeid, ctypeid, cstatus
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cncid = ncid
cbase_typeid = base_typeid
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_def_enum(cncid, cbase_typeid, cname(1:ie), ctypeid)
If (cstatus == NC_NOERR) Then
typeid = ctypeid
EndIf
status = cstatus
End Function nf_def_enum
!-------------------------------- nf_insert_enum -------------------------------
Function nf_insert_enum( ncid, xtype, name, value) RESULT (status)
! define a value for an enum. We used a C_CHAR string to pass the data
! into nf_insert_enum and a C_PTR type to pass the address of value
! into nc_insert_enum which is expecting a void pointer. Don't use
! an explicit interface to nf_insert_enum in the calling program
! for any data type other than character. Just declare it external
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype
Character(LEN=*), Intent(IN) :: name
Character(KIND=C_CHAR), Intent(IN), TARGET :: value(*)
Integer :: status
Integer(C_INT) :: cncid, cxtype, cstatus
Type(C_PTR) :: cvalueptr
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cncid = ncid
cxtype = xtype
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cvalueptr = C_LOC(value)
cstatus = nc_insert_enum(cncid, cxtype, cname(1:ie), cvalueptr)
status = cstatus
End Function nf_insert_enum
!-------------------------------- nf_inq_enum ------------------------------
Function nf_inq_enum( ncid, xtype, name, base_nf_type, base_size, &
num_members) RESULT (status)
! get information about an enum.
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype
Character(LEN=*), Intent(INOUT) :: name
Integer, Intent(INOUT) :: base_nf_type, base_size, num_members
Integer :: status
Integer(C_INT) :: cncid, cxtype, c_base_nf_type, cstatus
Integer(C_SIZE_T) :: c_base_size, c_num_members
Character(LEN=NC_MAX_NAME+1) :: cname
Integer :: nlen
cncid = ncid
cxtype = xtype
nlen = LEN(name)
name = REPEAT(" ",LEN(name))
cname = REPEAT(" ",LEN(cname))
cstatus = nc_inq_enum (cncid, cxtype, cname, c_base_nf_type, c_base_size, &
c_num_members)
If (cstatus == NC_NOERR) Then
name = stripCNullChar(cname, nlen)
base_nf_type = c_base_nf_type
base_size = c_base_size
num_members = c_num_members
EndIf
status = cstatus
End Function nf_inq_enum
!-------------------------------- nf_inq_enum_member ---------------------------
Function nf_inq_enum_member( ncid, xtype, idx, name, value) RESULT (status)
! Get name and value for an enum. We use a C_CHAR string to pass data
! from nc_inq_enum_member to the calling routine. Value is a void
! pointer in nc_inq_enum_member. Don't use an explicit interface in
! the calling program. Declare nf_inq_enum_member external
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype, idx
Character(LEN=*), Intent(OUT) :: name
Character(KIND=C_CHAR), Intent(OUT) :: value(*)
Integer :: status
Integer(C_INT) :: cncid, cxtype, cidx, cstatus
Character(LEN=NC_MAX_NAME+1) :: cname
Integer :: nlen
cncid = ncid
cxtype = xtype
cidx = idx - 1
nlen = LEN(name)
name = REPEAT(" ",LEN(name))
cname = REPEAT(" ",LEN(cname))
cstatus = nc_inq_enum_member(cncid, cxtype, cidx, cname, value)
If (cstatus == NC_NOERR) Then
name = stripCNullChar(cname, nlen)
EndIf
status = cstatus
End Function nf_inq_enum_member
!-------------------------------- nf_inq_enum_ident ---------------------------
Function nf_inq_enum_ident( ncid, xtype, value, name) RESULT (status)
! get name of enum identifier given value, type.
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype, value
Character(LEN=*), Intent(INOUT) :: name
Integer :: status
Integer(C_INT) :: cncid, cxtype, cstatus
Integer(C_LONG_LONG) :: cvalue
Character(LEN=NC_MAX_NAME+1) :: cname
Integer :: nlen
cncid = ncid
cxtype = xtype
cvalue = value
nlen = LEN(name)
name = REPEAT(" ",LEN(name))
cname = REPEAT(" ",LEN(cname))
cstatus = nc_inq_enum_ident(cncid, cxtype, cvalue, cname)
If (cstatus == NC_NOERR) Then
name = stripCNullChar(cname, nlen)
EndIf
status = cstatus
End Function nf_inq_enum_ident
!-------------------------------- nf_def_opaque -------------------------------
Function nf_def_opaque( ncid, isize, name, xtype) RESULT (status)
! define opaque type info
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, isize
Character(LEN=*), Intent(IN) :: name
Integer, Intent(OUT) :: xtype
Integer :: status
Integer(C_INT) :: cncid, cxtype, cstatus
Integer(C_SIZE_T) :: csize
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cncid = ncid
csize = isize
cxtype = xtype
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_def_opaque(cncid, csize, cname(1:ie), cxtype)
If (cstatus == NC_NOERR) Then
xtype = cxtype
EndIf
status = cstatus
End Function nf_def_opaque
!-------------------------------- nf_inq_opaque -------------------------------
Function nf_inq_opaque( ncid, xtype, name, isize) RESULT (status)
! Inquire about opaque type info
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype
Character(LEN=*), Intent(INOUT) :: name
Integer, Intent(OUT) :: isize
Integer :: status
Integer(C_INT) :: cncid, cxtype, cstatus
Integer(C_SIZE_T) :: csize
Character(LEN=NC_MAX_NAME+1) :: cname
Integer :: nlen
cncid = ncid
cxtype = xtype
nlen = LEN(name)
name = REPEAT(" ",LEN(name))
cname = REPEAT(" ",LEN(cname))
cstatus = nc_inq_opaque(cncid, cxtype, cname, csize)
If (cstatus == NC_NOERR) Then
name = stripCNullChar(cname, nlen)
isize = csize
EndIf
status = cstatus
End Function nf_inq_opaque
!-------------------------------- nf_def_var_chunking -------------------------
Function nf_def_var_chunking( ncid, varid, contiguous, chunksizes) &
RESULT(status)
! define variable chunking
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid, contiguous
Integer, Intent(INOUT) :: chunksizes(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, ccontiguous, cstat1, cstatus, &
cndims
Type(C_PTR) :: cchunksizeptr
Integer :: i, ndims
Integer(C_INT), ALLOCATABLE, TARGET :: cchunksizes(:)
cncid = ncid
cvarid = varid-1
ccontiguous = contiguous
cstat1 = nc_inq_varndims(cncid, cvarid, cndims)
ndims = cndims
cchunksizeptr = C_NULL_PTR
If (cstat1 == NC_NOERR) Then
If (ndims > 0) Then
ALLOCATE(cchunksizes(ndims))
cchunksizes(1:ndims) = chunksizes(ndims:1:-1)
cchunksizeptr = C_LOC(cchunksizes)
EndIf
EndIf
cstatus = nc_def_var_chunking_ints(cncid, cvarid, ccontiguous, cchunksizeptr)
status = cstatus
! Make sure there are no dangling pointers or allocated arrays
cchunksizeptr = C_NULL_PTR
If (ALLOCATED(cchunksizes)) DEALLOCATE(cchunksizes)
End Function nf_def_var_chunking
!-------------------------------- nf_inq_var_chunking -------------------------
Function nf_inq_var_chunking( ncid, varid, contiguous, chunksizes) RESULT(status)
! inquire variable chunking
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(INOUT) :: contiguous
Integer, Intent(INOUT) :: chunksizes(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, ccontiguous, cstatus, cstat1, cndims
Integer :: ndims
Integer(C_INT), ALLOCATABLE :: cchunksizes(:)
cncid = ncid
cvarid = varid-1
chunksizes(1) = 0
contiguous = 0
cstat1 = nc_inq_varndims(cncid, cvarid, cndims)
status = cstat1
If (cndims > 0) Then
ALLOCATE(cchunksizes(cndims))
Else
ALLOCATE(cchunksizes(1))
EndIf
cchunksizes = 0
cstatus = nc_inq_var_chunking_ints(cncid, cvarid, ccontiguous, &
cchunksizes)
ndims = cndims
If (cstatus == NC_NOERR) Then
If (ndims > 0) Then
chunksizes(ndims:1:-1) = cchunksizes(1:ndims)
EndIf
contiguous = ccontiguous
EndIf
status = cstatus
If (ALLOCATED(cchunksizes)) DEALLOCATE(cchunksizes)
End Function nf_inq_var_chunking
!-------------------------------- nf_def_var_deflate --------------------------
Function nf_def_var_deflate( ncid, varid, shuffle, deflate, deflate_level) &
RESULT (status)
! define variable deflation
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid, shuffle, deflate, deflate_level
Integer :: status
Integer(C_INT) :: cncid, cvarid, cshuffle, cdeflate, cdeflate_level, &
cstatus
cncid = ncid
cvarid = varid-1
cshuffle = shuffle
cdeflate = deflate
cdeflate_level = deflate_level
cstatus = nc_def_var_deflate(cncid, cvarid, cshuffle, cdeflate, cdeflate_level)
status = cstatus
End Function nf_def_var_deflate
!-------------------------------- nf_inq_var_deflate -------------------------
Function nf_inq_var_deflate( ncid, varid, shuffle, deflate, deflate_level) &
RESULT (status)
! inquire variable deflation
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(OUT) :: shuffle, deflate, deflate_level
Integer :: status
Integer(C_INT) :: cncid, cvarid, cshuffle, cdeflate, cdeflate_level, &
cstatus
cncid = ncid
cvarid = varid-1
cstatus = nc_inq_var_deflate(cncid, cvarid, cshuffle, cdeflate, cdeflate_level)
If (cstatus == NC_NOERR) Then
shuffle = cshuffle
deflate = cdeflate
deflate_level = cdeflate_level
EndIf
status = cstatus
End Function nf_inq_var_deflate
!-------------------------------- nf_inq_var_szip -----------------------------
Function nf_inq_var_szip(ncid, varid, options_mask, pixels_per_block) RESULT(status)
! get szip variables
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(INOUT) :: options_mask, pixels_per_block
Integer :: status
Integer(C_INT) :: cncid, cvarid, coptions_mask, cpixels_per_block, cstatus
cncid = ncid
cvarid = varid-1
cstatus = nc_inq_var_szip(cncid, cvarid, coptions_mask, cpixels_per_block)
If (cstatus == NC_NOERR) Then
options_mask = coptions_mask
pixels_per_block = cpixels_per_block
EndIf
status = cstatus
End Function nf_inq_var_szip
!-------------------------------- nf_def_var_fletcher32 -----------------------
Function nf_def_var_fletcher32( ncid, varid, fletcher32) RESULT(status)
! define var for fletcher32
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid, fletcher32
Integer :: status
Integer(C_INT) :: cncid, cvarid, cfletcher32, cstatus
cncid = ncid
cvarid = varid-1
cfletcher32 = fletcher32
cstatus = nc_def_var_fletcher32(cncid, cvarid, cfletcher32)
status = cstatus
End Function nf_def_var_fletcher32
!-------------------------------- nf_inq_var_fletcher32 ------------------------
Function nf_inq_var_fletcher32( ncid, varid, fletcher32) RESULT(status)
! get var for fletcher 32
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(OUT) :: fletcher32
Integer :: status
Integer(C_INT) :: cncid, cvarid, cfletcher32, cstatus
cncid = ncid
cvarid = varid-1
cstatus = nc_inq_var_fletcher32(cncid, cvarid, cfletcher32)
If (cstatus == NC_NOERR) Then
fletcher32 = cfletcher32
EndIf
status = cstatus
End Function nf_inq_var_fletcher32
!-------------------------------- nf_def_var_fill -----------------------------
Function nf_def_var_fill( ncid, varid, no_fill, fill_value) RESULT(status)
! define fill variable
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid, no_fill
Character(KIND=C_CHAR), Intent(IN), TARGET :: fill_value(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cno_fill, cstatus
Type(C_PTR) :: cfill_value_p
cncid = ncid
cvarid = varid-1
cno_fill = no_fill
cfill_value_p = C_LOC(fill_value)
cstatus = nc_def_var_fill(cncid, cvarid, cno_fill, cfill_value_p)
status = cstatus
End Function nf_def_var_fill
!-------------------------------- nf_inq_var_fill -----------------------------
Function nf_inq_var_fill( ncid, varid, no_fill, fill_value) RESULT(status)
! get fill variable
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(OUT) :: no_fill
Character(KIND=C_CHAR), Intent(INOUT) :: fill_value(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cno_fill, cstatus
cncid = ncid
cvarid = varid-1
cstatus = nc_inq_var_fill(cncid, cvarid, cno_fill, fill_value)
If (cstatus == NC_NOERR) Then
no_fill = cno_fill
EndIf
status = cstatus
End Function nf_inq_var_fill
!-------------------------------- nf_def_var_endian ---------------------------
Function nf_def_var_endian( ncid, varid, endiann) RESULT(status)
! define variable endian
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid, endiann
Integer :: status
Integer(C_INT) :: cncid, cvarid, cendiann, cstatus
cncid = ncid
cvarid = varid-1
cendiann = endiann
cstatus = nc_def_var_endian(cncid, cvarid, cendiann)
status = cstatus
End Function nf_def_var_endian
!-------------------------------- nf_inq_var_endian ---------------------------
Function nf_inq_var_endian( ncid, varid, endiann) RESULT(status)
! get variable endian
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(OUT) :: endiann
Integer :: status
Integer(C_INT) :: cncid, cvarid, cendiann, cstatus
cncid = ncid
cvarid = varid-1
cstatus = nc_inq_var_endian(cncid, cvarid, cendiann)
If (cstatus == NC_NOERR) Then
endiann = cendiann
EndIf
status = cstatus
End Function nf_inq_var_endian
!--------------------------------- nf_put_att --------------------------------
Function nf_put_att(ncid, varid, name, xtype, nlen, value) RESULT(status)
! Write global attribute of any type. We use a C character
! string as the dummy arguments for the values
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid, nlen, xtype
Character(LEN=*), Intent(IN) :: name
Character(KIND=C_CHAR), Intent(IN), TARGET :: value(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cstatus, cxtype
Integer(C_SIZE_T) :: cnlen
Type(C_PTR) :: cvalueptr
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cncid = ncid
cvarid = varid -1 ! Subtract 1 to get C varid
cxtype = xtype
cnlen = nlen
cvalueptr = C_LOC(value)
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_put_att(cncid, cvarid, cname(1:ie), cxtype, cnlen, cvalueptr)
status = cstatus
End Function nf_put_att
!--------------------------------- nf_get_att --------------------------------
Function nf_get_att(ncid, varid, name, value) RESULT(status)
! Get global attribute of any type. We use a C character
! string as the dummy arguments for the values. Don't supply calling
! program with an explicit interface. Just use external
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Character(LEN=*), Intent(IN) :: name
Character(KIND=C_CHAR), Intent(INOUT) :: value(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cstatus
Character(LEN=(LEN(name)+1)) :: cname
Integer :: ie
cncid = ncid
cvarid = varid -1 ! Subtract 1 to get C varid
cname = REPEAT(" ",LEN(cname))
cname = addCNullChar(name, ie)
cstatus = nc_get_att(cncid, cvarid, cname(1:ie), value)
status = cstatus
End Function nf_get_att
!--------------------------------- nf_put_vlen_element ------------------------
Function nf_put_vlen_element(ncid, xtype, vlen_element, nlen, value) &
RESULT(status)
! Put in a variable length array element element for Netcdf . We use a C
! character string as the dummy arguments for the values. Don't supply calling
! program with an explicit interface. Just use external
! Note Users manual defines vlen_element to be a character string. We
! use the same here but pass it as a C_PTR type.
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype, nlen
Character(KIND=C_CHAR), Intent(INOUT) :: vlen_element(*)
Character(KIND=C_CHAR), Intent(IN), TARGET :: value(*)
Integer :: status
Integer(C_INT) :: cncid, cxtype, cstatus
Integer(C_SIZE_T) :: cnlen
Type(C_PTR) :: cvalueptr
cncid = ncid
cxtype = xtype
cnlen = nlen
cvalueptr = C_LOC(value)
cstatus = nc_put_vlen_element(cncid, cxtype, vlen_element, cnlen,&
cvalueptr)
status = cstatus
End Function nf_put_vlen_element
!--------------------------------- nf_get_vlen_element ------------------------
Function nf_get_vlen_element(ncid, xtype, vlen_element, nlen, value) RESULT(status)
! Get a variable length array element element for Netcdf . We use a C
! character string as the dummy arguments for the values. Don't supply calling
! program with an explicit interface. Just use external
! Note Users manual defines vlen_element to be a character string. We
! use the same here but pass it as a C_PTR type.
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, xtype
Integer, Intent(INOUT) :: nlen
Character(LEN=*), Intent(INOUT), TARGET :: vlen_element
Character(KIND=C_CHAR), Intent(INOUT) :: value(*)
Integer :: status
Integer(C_INT) :: cncid, cxtype, cstatus
Integer(C_SIZE_T) :: cnlen
cncid = ncid
cxtype = xtype
cstatus = nc_get_vlen_element(cncid, cxtype, vlen_element, cnlen,&
value)
If (cstatus == NC_NOERR) Then
nlen = cnlen
EndIf
status = cstatus
End Function nf_get_vlen_element
!--------------------------------- nf_free_vlen --------------------------------
Function nf_free_vlen(vl) RESULT(status)
! Free memory for vlen array
! C_CHAR string is used as the dummy arguments for vl. Don't supply calling
! program with an explicit interface. Just use external
USE netcdf4_nc_interfaces
Implicit NONE
Character(KIND=C_CHAR), Intent(IN), TARGET :: vl(*)
Integer :: status
Integer(C_INT) :: cstatus
Type(C_PTR) :: cvl
cvl = C_LOC(vl) !void pointer in C interface
cstatus = nc_free_vlen(cvl)
status = cstatus
End Function nf_free_vlen
!--------------------------------- nf_free_vlens ------------------------------
Function nf_free_vlens(ilen, vl) RESULT(status)
! Free memory for vlens array
! C_CHAR string is used as the dummy arguments for vl. Don't supply calling
! program with an explicit interface. Just use external
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ilen
Character(KIND=C_CHAR), Intent(IN), TARGET :: vl(*)
Integer :: status
Integer(C_SIZE_T) :: clen
Integer(C_INT) :: cstatus
Type(C_PTR) :: cvl
clen = ilen
cvl = C_LOC(vl) !void pointer in C interface
cstatus = nc_free_vlens(clen, cvl)
status = cstatus
End Function nf_free_vlens
!--------------------------------- nf_free_string -----------------------------
Function nf_free_string(ilen, vl) RESULT(status)
! Free memory for string array
! C_CHAR string is used as the dummy arguments for vl. Don't supply calling
! program with an explicit interface. Just use external
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ilen
Character(KIND=C_CHAR), Intent(IN), TARGET :: vl(*)
Integer :: status
Integer(C_SIZE_T) :: clen
Integer(C_INT) :: cstatus
Type(C_PTR) :: cvl
clen = ilen
cvl = C_LOC(vl) !void pointer in C interface
cstatus = nc_free_string(clen, cvl)
status = cstatus
End Function nf_free_string
!--------------------------------- nf_put_var -------------------------------
Function nf_put_var(ncid, varid, values) RESULT(status)
! Write out a variable of any type. We use a C_CHAR character string
! to hold values. Therefore, an explicit interface to nf_put_var should NOT
! be used in the calling routine. Use an external instead.
! Defined in fort-vario.c but only used in 4.0.1 for NETCDF4 builds
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Character(KIND=C_CHAR), Intent(IN), TARGET :: values(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cstatus
Type(C_PTR) :: cvaluesptr
cncid = ncid
cvarid = varid - 1 ! Subtract 1 to get C varid
cvaluesptr = C_LOC(values)
cstatus = nc_put_var(cncid, cvarid, cvaluesptr)
status = cstatus
End Function nf_put_var
!--------------------------------- nf_get_var ----------------------------
Function nf_get_var(ncid, varid, values) RESULT(status)
! Read in a variable of any type. We use a C_CHAR character string
! to hold values. Therefore, an explicit interface to nf_get_var should NOT
! be used in the calling routine. Just use external
! Defined in fort-vario.c but only used in 4.0.1 for NETCDF4 builds
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Character(KIND=C_CHAR), Intent(INOUT) :: values(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cstatus
cncid = ncid
cvarid = varid - 1 ! Subtract 1 to get C varid
cstatus = nc_get_var(cncid, cvarid, values)
status = cstatus
End Function nf_get_var
!--------------------------------- nf_put_var1_int64 --------------------------
Function nf_put_var1_int64(ncid, varid, ndex, ival) RESULT(status)
! Write out a 64 bit integer variable to location vector ndex to dataset
! Note that the default fort interfaces pass ival as an integer to
! nc_put_var1_longlong which is expecting a longlong. We chose to
! pass ival as an integer of type SELECTED_INT_KIND(18) which is
! consistent with the f90 interfaces that call these routines
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(IN) :: ndex(*)
Integer(IK8), Intent(IN) :: ival
Integer :: status
Integer(C_INT) :: cncid, cvarid, cndims, cstat1, cstatus
Integer(C_LONG_LONG) :: cival
Type(C_PTR) :: cndexptr
Integer :: ndims
Integer(C_SIZE_T), ALLOCATABLE, TARGET :: cndex(:)
cncid = ncid
cvarid = varid - 1 ! Subtract one to get C varid
cival = ival
cstat1 = nc_inq_varndims(cncid, cvarid, cndims)
cndexptr = C_NULL_PTR
ndims = cndims
If (cstat1 == NC_NOERR) Then
If (ndims > 0) Then ! reverse array order and subtract 1 to get C index
ALLOCATE(cndex(ndims))
cndex(1:ndims) = ndex(ndims:1:-1) - 1
cndexptr = C_LOC(cndex)
EndIf
EndIf
cstatus = nc_put_var1_longlong(cncid, cvarid, cndexptr, cival)
status = cstatus
! Make sure there are no dangling pointers and allocated values
cndexptr = C_NULL_PTR
If (ALLOCATED(cndex)) DEALLOCATE(cndex)
End Function nf_put_var1_int64
!--------------------------------- nf_put_vara_int64 --------------------------
Function nf_put_vara_int64(ncid, varid, start, counts, ivals) RESULT(status)
! Write out 64 bit integer array to dataset for given start and count vectors
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(IN) :: start(*), counts(*)
Integer(IK8), Intent(IN) :: ivals(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cndims, cstat1, cstatus
Type(C_PTR) :: cstartptr, ccountsptr
Integer :: ndims
Integer(C_SIZE_T), ALLOCATABLE, TARGET :: cstart(:), ccounts(:)
cncid = ncid
cvarid = varid - 1 ! Subtract 1 to get C varid
cstat1 = nc_inq_varndims(cncid, cvarid, cndims)
cstartptr = C_NULL_PTR
ccountsptr = C_NULL_PTR
ndims = cndims
If (cstat1 == NC_NOERR) Then
If (ndims > 0) Then ! flip array order for C and subtract 1 from start
ALLOCATE(cstart(ndims))
ALLOCATE(ccounts(ndims))
cstart(1:ndims) = start(ndims:1:-1) - 1
ccounts(1:ndims) = counts(ndims:1:-1)
cstartptr = C_LOC(cstart)
ccountsptr = C_LOC(ccounts)
EndIf
EndIf
cstatus = nc_put_vara_longlong(cncid, cvarid, cstartptr, ccountsptr, ivals)
status = cstatus
! Make sure there are no dangling pointers or allocated values
cstartptr = C_NULL_PTR
ccountsptr = C_NULL_PTR
If (ALLOCATED(ccounts)) DEALLOCATE(ccounts)
If (ALLOCATED(cstart)) DEALLOCATE(cstart)
End Function nf_put_vara_int64
!--------------------------------- nf_put_vars_int64 --------------------------
Function nf_put_vars_int64(ncid, varid, start, counts, strides, ivals) &
RESULT(status)
! Write out 64 bit integer array given start, count, and stride
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(IN) :: start(*), counts(*), strides(*)
Integer(IK8), Intent(IN) :: ivals(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cndims, cstat1, cstatus
Type(C_PTR) :: cstartptr, ccountsptr, cstridesptr
Integer :: ndims
Integer(C_SIZE_T), ALLOCATABLE, TARGET :: cstart(:), ccounts(:)
Integer(C_PTRDIFF_T), ALLOCATABLE, TARGET :: cstrides(:)
cncid = ncid
cvarid = varid - 1 ! Subtract 1 to get C varid
cstat1 = nc_inq_varndims(cncid, cvarid, cndims)
cstartptr = C_NULL_PTR
ccountsptr = C_NULL_PTR
cstridesptr = C_NULL_PTR
ndims = cndims
If (cstat1 == NC_NOERR) Then
If (ndims > 0) Then ! Flip arrays to C order and subtract 1 from start
ALLOCATE(cstart(ndims))
ALLOCATE(ccounts(ndims))
ALLOCATE(cstrides(ndims))
cstart(1:ndims) = start(ndims:1:-1) - 1
ccounts(1:ndims) = counts(ndims:1:-1)
cstrides(1:ndims) = strides(ndims:1:-1)
cstartptr = C_LOC(cstart)
ccountsptr = C_LOC(ccounts)
cstridesptr = C_LOC(cstrides)
EndIf
EndIf
cstatus = nc_put_vars_longlong(cncid, cvarid, cstartptr, ccountsptr, &
cstridesptr, ivals)
status = cstatus
! Make sure there are no dangling pointers or allocated values
cstartptr = C_NULL_PTR
ccountsptr = C_NULL_PTR
cstridesptr = C_NULL_PTR
If (ALLOCATED(cstrides)) DEALLOCATE(cstrides)
If (ALLOCATED(ccounts)) DEALLOCATE(ccounts)
If (ALLOCATED(cstart)) DEALLOCATE(cstart)
End Function nf_put_vars_int64
!--------------------------------- nf_put_varm_int64 -------------------------
Function nf_put_varm_int64(ncid, varid, start, counts, strides, maps, &
ivals) RESULT(status)
! Write out 64 bit integer array given start, count, stride and map
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(IN) :: start(*), counts(*), strides(*), maps(*)
Integer(IK8), Intent(IN) :: ivals(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cndims, cstat1, cstatus
Type(C_PTR) :: cstartptr, ccountsptr, cstridesptr, cmapsptr
Integer :: ndims
Integer(C_SIZE_T), ALLOCATABLE, TARGET :: cstart(:), ccounts(:)
Integer(C_PTRDIFF_T), ALLOCATABLE, TARGET :: cstrides(:), cmaps(:)
cncid = ncid
cvarid = varid -1 ! Subtract 1 to get C varid
cstat1 = nc_inq_varndims(cncid, cvarid, cndims)
cstartptr = C_NULL_PTR
ccountsptr = C_NULL_PTR
cstridesptr = C_NULL_PTR
cmapsptr = C_NULL_PTR
ndims = cndims
If (cstat1 == NC_NOERR) Then
If (ndims > 0) Then ! Flip arrays to C order and subtract 1 from start
ALLOCATE(cstart(ndims))
ALLOCATE(ccounts(ndims))
ALLOCATE(cstrides(ndims))
ALLOCATE(cmaps(ndims))
cstart(1:ndims) = start(ndims:1:-1) - 1
ccounts(1:ndims) = counts(ndims:1:-1)
cstrides(1:ndims) = strides(ndims:1:-1)
cmaps(1:ndims) = maps(ndims:1:-1)
cstartptr = C_LOC(cstart)
ccountsptr = C_LOC(ccounts)
cstridesptr = C_LOC(cstrides)
cmapsptr = C_LOC(cmaps)
EndIf
EndIf
cstatus = nc_put_varm_longlong(cncid, cvarid, cstartptr, ccountsptr, &
cstridesptr, cmapsptr, ivals)
status = cstatus
! Make sure there are no dangling pointers or allocated values
cstartptr = C_NULL_PTR
ccountsptr = C_NULL_PTR
cstridesptr = C_NULL_PTR
cmapsptr = C_NULL_PTR
If (ALLOCATED(cmaps)) DEALLOCATE(cmaps)
If (ALLOCATED(cstrides)) DEALLOCATE(cstrides)
If (ALLOCATED(ccounts)) DEALLOCATE(ccounts)
If (ALLOCATED(cstart)) DEALLOCATE(cstart)
End Function nf_put_varm_int64
!--------------------------------- nf_put_var_int64 --------------------------
Function nf_put_var_int64(ncid, varid, ivals) RESULT(status)
! Write out 64 bit integer array to dataset
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer(IK8), Intent(IN) :: ivals(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cstatus
cncid = ncid
cvarid = varid - 1 ! Subtract 1 to get C varid
cstatus = nc_put_var_longlong(cncid, cvarid, ivals)
status = cstatus
End Function nf_put_var_int64
!--------------------------------- nf_get_var1_int64 -------------------------
Function nf_get_var1_int64(ncid, varid, ndex, ival) RESULT(status)
! Read in 64 bit integer variable from location vector ndex in dataset
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(IN) :: ndex(*)
Integer(IK8), Intent(OUT) :: ival
Integer :: status
Integer(C_INT) :: cncid, cvarid, cndims, cstat1, cstatus
Integer(C_LONG_LONG) :: cival
Type(C_PTR) :: cndexptr
Integer :: ndims
Integer(C_SIZE_T), ALLOCATABLE, TARGET :: cndex(:)
cncid = ncid
cvarid = varid - 1 ! Subtract one to get C varid
cstat1 = nc_inq_varndims(cncid, cvarid, cndims)
cndexptr = C_NULL_PTR
ndims = cndims
If (cstat1 == NC_NOERR) Then
If (ndims > 0) Then ! reverse array order and subtract 1 to get C index
ALLOCATE(cndex(ndims))
cndex(1:ndims) = ndex(ndims:1:-1) - 1
cndexptr = C_LOC(cndex)
EndIf
EndIf
cstatus = nc_get_var1_longlong(cncid, cvarid, cndexptr, cival)
ival = cival
status = cstatus
! Make sure there are no dangling pointers and allocated values
cndexptr = C_NULL_PTR
If (ALLOCATED(cndex)) DEALLOCATE(cndex)
End Function nf_get_var1_int64
!--------------------------------- nf_get_vara_int -------------------------
Function nf_get_vara_int64(ncid, varid, start, counts, ivals) RESULT(status)
! Read in 64 bit integer array from dataset for given start and count vectors
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(IN) :: start(*), counts(*)
Integer(IK8), Intent(OUT) :: ivals(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cndims, cstat1, cstatus
Type(C_PTR) :: cstartptr, ccountsptr
Integer :: ndims
Integer(C_SIZE_T), ALLOCATABLE, TARGET :: cstart(:), ccounts(:)
cncid = ncid
cvarid = varid - 1 ! Subtract 1 to get C varid
cstat1 = nc_inq_varndims(cncid, cvarid, cndims)
cstartptr = C_NULL_PTR
ccountsptr = C_NULL_PTR
ndims = cndims
If (cstat1 == NC_NOERR) Then
If (ndims > 0) Then ! flip array order for C and subtract 1 from start
ALLOCATE(cstart(ndims))
ALLOCATE(ccounts(ndims))
cstart(1:ndims) = start(ndims:1:-1) - 1
ccounts(1:ndims) = counts(ndims:1:-1)
cstartptr = C_LOC(cstart)
ccountsptr = C_LOC(ccounts)
EndIf
EndIf
cstatus = nc_get_vara_longlong(cncid, cvarid, cstartptr, ccountsptr, ivals)
status = cstatus
! Make sure there are no dangling pointers or allocated values
cstartptr = C_NULL_PTR
ccountsptr = C_NULL_PTR
If (ALLOCATED(ccounts)) DEALLOCATE(ccounts)
If (ALLOCATED(cstart)) DEALLOCATE(cstart)
End Function nf_get_vara_int64
!--------------------------------- nf_get_vars_int64 --------------------------
Function nf_get_vars_int64(ncid, varid, start, counts, strides, ivals) &
RESULT(status)
! Read in 64 bit integer array given start, count, and stride
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(IN) :: start(*), counts(*), strides(*)
Integer(IK8), Intent(OUT) :: ivals(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cndims, cstat1, cstatus
Type(C_PTR) :: cstartptr, ccountsptr, cstridesptr
Integer :: ndims
Integer(C_SIZE_T), ALLOCATABLE, TARGET :: cstart(:), ccounts(:)
Integer(C_PTRDIFF_T), ALLOCATABLE, TARGET :: cstrides(:)
cncid = ncid
cvarid = varid - 1 ! Subtract 1 to get C varid
cstat1 = nc_inq_varndims(cncid, cvarid, cndims)
cstartptr = C_NULL_PTR
ccountsptr = C_NULL_PTR
cstridesptr = C_NULL_PTR
ndims = cndims
If (cstat1 == NC_NOERR) Then
If (ndims > 0) Then ! Flip arrays to C order and subtract 1 from start
ALLOCATE(cstart(ndims))
ALLOCATE(ccounts(ndims))
ALLOCATE(cstrides(ndims))
cstart(1:ndims) = start(ndims:1:-1) - 1
ccounts(1:ndims) = counts(ndims:1:-1)
cstrides(1:ndims) = strides(ndims:1:-1)
cstartptr = C_LOC(cstart)
ccountsptr = C_LOC(ccounts)
cstridesptr = C_LOC(cstrides)
EndIf
EndIf
cstatus = nc_get_vars_longlong(cncid, cvarid, cstartptr, ccountsptr, &
cstridesptr, ivals)
status = cstatus
! Make sure there are no dangling pointers or allocated values
cstartptr = C_NULL_PTR
ccountsptr = C_NULL_PTR
cstridesptr = C_NULL_PTR
If (ALLOCATED(cstrides)) DEALLOCATE(cstrides)
If (ALLOCATED(ccounts)) DEALLOCATE(ccounts)
If (ALLOCATED(cstart)) DEALLOCATE(cstart)
End Function nf_get_vars_int64
!--------------------------------- nf_get_varm_int64 -------------------------
Function nf_get_varm_int64(ncid, varid, start, counts, strides, maps, &
ivals) RESULT(status)
! Read in 64 bit integer array given start, count, stride and map
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(IN) :: start(*), counts(*), strides(*), maps(*)
Integer(IK8), Intent(OUT) :: ivals(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cndims, cstat1, cstatus
Type(C_PTR) :: cstartptr, ccountsptr, cstridesptr, cmapsptr
Integer :: ndims
Integer(C_SIZE_T), ALLOCATABLE, TARGET :: cstart(:), ccounts(:)
Integer(C_PTRDIFF_T), ALLOCATABLE, TARGET :: cstrides(:), cmaps(:)
cncid = ncid
cvarid = varid -1 ! Subtract 1 to get C varid
cstat1 = nc_inq_varndims(cncid, cvarid, cndims)
cstartptr = C_NULL_PTR
ccountsptr = C_NULL_PTR
cstridesptr = C_NULL_PTR
cmapsptr = C_NULL_PTR
ndims = cndims
If (cstat1 == NC_NOERR) Then
If (ndims > 0) Then ! Flip arrays to C order and subtract 1 from start
ALLOCATE(cstart(ndims))
ALLOCATE(ccounts(ndims))
ALLOCATE(cstrides(ndims))
ALLOCATE(cmaps(ndims))
cstart(1:ndims) = start(ndims:1:-1) - 1
ccounts(1:ndims) = counts(ndims:1:-1)
cstrides(1:ndims) = strides(ndims:1:-1)
cmaps(1:ndims) = maps(ndims:1:-1)
cstartptr = C_LOC(cstart)
ccountsptr = C_LOC(ccounts)
cstridesptr = C_LOC(cstrides)
cmapsptr = C_LOC(cmaps)
EndIf
EndIf
cstatus = nc_get_varm_longlong(cncid, cvarid, cstartptr, ccountsptr, &
cstridesptr, cmapsptr, ivals)
status = cstatus
! Make sure there are no dangling pointers or allocated values
cstartptr = C_NULL_PTR
ccountsptr = C_NULL_PTR
cstridesptr = C_NULL_PTR
cmapsptr = C_NULL_PTR
If (ALLOCATED(cmaps)) DEALLOCATE(cmaps)
If (ALLOCATED(cstrides)) DEALLOCATE(cstrides)
If (ALLOCATED(ccounts)) DEALLOCATE(ccounts)
If (ALLOCATED(cstart)) DEALLOCATE(cstart)
End Function nf_get_varm_int64
!--------------------------------- nf_get_var_int64 --------------------------
Function nf_get_var_int64(ncid, varid, ivals) RESULT(status)
! Read in 64 bit integer array from dataset
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer(IK8), Intent(OUT) :: ivals(*)
Integer :: status
Integer(C_INT) :: cncid, cvarid, cstatus
cncid = ncid
cvarid = varid - 1 ! Subtract 1 to get C varid
cstatus = nc_get_var_longlong(cncid, cvarid, ivals)
status = cstatus
End Function nf_get_var_int64
!--------------------------------- nf_set_chunk_cache ------------------------
Function nf_set_chunk_cache(chunk_size, nelems, preemption) RESULT(status)
! Set chunk cache size. Note this follows the fort-nc4 version which uses
! uses nc_set_chunk_cache_ints to avoid size_t issues with fortran. F03
! does not have these issues so we could call nc_set_chunk_cache
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: chunk_size, nelems, preemption
Integer :: status
Integer(C_INT) :: cchunk_size, cnelems, cpreemption, cstatus
cchunk_size = chunk_size
cnelems = nelems
cpreemption = preemption
cstatus = nc_set_chunk_cache_ints(cchunk_size, cnelems, cpreemption)
status = cstatus
End Function nf_set_chunk_cache
!--------------------------------- nf_get_chunk_cache -------------------------
Function nf_get_chunk_cache(chunk_size, nelems, preemption) RESULT(status)
! get chunk cache size. Note this follows the fort-nc4 version which uses
! uses nc_get_chunk_cache_ints to avoid size_t issues with fortran. F03
! does not have these issues so we could call nc_set_chunk_cache
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(INOUT) :: chunk_size, nelems, preemption
Integer :: status
Integer(C_INT) :: cchunk_size, cnelems, cpreemption, cstatus
cstatus = nc_get_chunk_cache_ints(cchunk_size, cnelems, cpreemption)
If (cstatus == NC_NOERR) Then
chunk_size = cchunk_size
nelems = cnelems
preemption = cpreemption
EndIf
status = cstatus
End Function nf_get_chunk_cache
!--------------------------------- nf_set_var_chunk_cache ---------------------
Function nf_set_var_chunk_cache(ncid, varid, chunk_size, nelems, preemption) RESULT(status)
! Set chunk cache size. Note this follows the fort-nc4 version which uses
! uses nc_set_var_chunk_cache_ints to avoid size_t issues with fortran.
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid, chunk_size, nelems, preemption
Integer :: status
Integer(C_INT) :: cncid, cvarid, cchunk_size, cnelems, cpreemption, &
cstatus
cncid = ncid
cvarid = varid-1
cchunk_size = chunk_size
cnelems = nelems
cpreemption = preemption
cstatus = nc_set_var_chunk_cache_ints(cncid, cvarid, cchunk_size, cnelems, &
cpreemption)
status = cstatus
End Function nf_set_var_chunk_cache
!--------------------------------- nf_get_var_chunk_cache ---------------------
Function nf_get_var_chunk_cache(ncid, varid, chunk_size, nelems, preemption) RESULT(status)
! get chunk cache size. Note this follows the fort-nc4 version which uses
! uses nc_get_var_chunk_cache_ints to avoid size_t issues with fortran.
USE netcdf4_nc_interfaces
Implicit NONE
Integer, Intent(IN) :: ncid, varid
Integer, Intent(INOUT) :: chunk_size, nelems, preemption
Integer :: status
Integer(C_INT) :: cncid, cvarid, cchunk_size, cnelems, cpreemption, &
cstatus
cncid = ncid
cvarid = varid-1
cstatus = nc_get_var_chunk_cache_ints(cncid, cvarid, cchunk_size, cnelems, &
cpreemption)
If (cstatus == NC_NOERR) Then
chunk_size = cchunk_size
nelems = cnelems
preemption = cpreemption
EndIf
status = cstatus
End Function nf_get_var_chunk_cache
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