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374 lines
15 KiB
Groff
374 lines
15 KiB
Groff
.\" $Header: /upc/share/CVS/netcdf-3/ncgen3/ncgen3.1,v 1.1 2009/09/24 18:19:10 dmh Exp $
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.TH NCGEN3 1 "$Date: 2009/09/24 18:19:10 $" "Printed: \n(yr-\n(mo-\n(dy" "UNIDATA UTILITIES"
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.SH NAME
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ncgen3 \- From a CDL file generate a netCDF classic or 64 bit classicfile,
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a C program, or a Fortran program
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.SH SYNOPSIS
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.HP
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ncgen3
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.nh
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\%[\-b]
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\%[\-c]
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\%[\-f]
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\%[\-k \fIkind_of_file\fP]
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\%[\-x]
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\%[\-n]
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\%[\-o \fInetcdf_filename\fP]
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\%\fIinput_file\fP
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.hy
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.ft
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.SH DESCRIPTION
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\fBncgen3\fP generates either a netCDF file, or C or Fortran source code to
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create a netCDF file. The input to \fBncgen3\fP is a description of a netCDF
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file in a small language known as CDL (network Common Data form Language),
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described below.
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If no options are specified in invoking \fBncgen3\fP, it merely checks the
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syntax of the input CDL file, producing error messages for
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any violations of CDL syntax. Other options can be used to create the
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corresponding netCDF file, to generate a C program that uses the netCDF C
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interface to create the netCDF file, or to generate a Fortran program that
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uses the netCDF Fortran interface to create the same netCDF file.
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.LP
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\fBncgen3\fP may be used with the companion program \fBncdump\fP to perform
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some simple operations on netCDF files. For example, to rename a dimension
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in a netCDF file, use \fBncdump\fP to get a CDL version of the netCDF file,
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edit the CDL file to change the name of the dimensions, and use \fBncgen3\fP
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to generate the corresponding netCDF file from the edited CDL file.
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.SH OPTIONS
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.IP "\fB-b\fP"
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Create a (binary) netCDF file. If the \fB-o\fP option is absent, a default
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file name will be constructed from the netCDF name (specified after the
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\fBnetcdf\fP keyword in the input) by appending the `.nc' extension. If a
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file already exists with the specified name, it will be overwritten.
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.IP "\fB-c\fP"
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Generate
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.B C
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source code that will create a netCDF file
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matching the netCDF specification. The C source code is written to
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standard output.
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.IP "\fB-f\fP"
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Generate
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.B Fortran
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source code that will create a netCDF file
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matching the netCDF specification. The Fortran source code is written
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to standard output.
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.IP "\fB-o\fP \fRnetcdf_file\fP"
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Name for the binary netCDF file created. If this option is specified, it implies
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the "\fB-b\fP" option. (This option is necessary because netCDF files
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cannot be written directly to standard output, since standard output is not
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seekable.)
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.IP "\fB-k \fRkind_of_file\fP"
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Using \-k2 or \-k "64-bit offset" specifies that
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generated file (or program) should use version 2 of format that
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employs 64-bit file offsets. The default is to use version 1
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("classic") format with 32-bit file offsets, although this limits the
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size of the netCDF file, variables, and records to the sizes supported
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by the classic format. (NetCDF-4 will support additional kinds of
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netCDF files, "netCDF-4" and "netCDF-4 classic model".)
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Note: \-v is also accepted to mean the same thing as
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\-k for backward compatibility, but \-k is preferred, to match
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the corresponding ncdump option.
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.IP "\fB-x\fP"
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Don't initialize data with fill values. This can speed up creation of
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large netCDF files greatly, but later attempts to read unwritten data
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from the generated file will not be easily detectable.
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.SH EXAMPLES
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.LP
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Check the syntax of the CDL file `\fBfoo.cdl\fP':
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.RS
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.HP
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ncgen3 foo.cdl
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.RE
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.LP
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From the CDL file `\fBfoo.cdl\fP', generate an equivalent binary netCDF file
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named `\fBx.nc\fP':
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.RS
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.HP
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ncgen3 \-o x.nc foo.cdl
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.RE
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.LP
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From the CDL file `\fBfoo.cdl\fP', generate a C program containing the
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netCDF function invocations necessary to create an equivalent binary netCDF
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file named `\fBx.nc\fP':
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.RS
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.HP
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ncgen3 \-c \-o x.nc foo.cdl
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.RE
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.LP
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.SH USAGE
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.SS "CDL Syntax Summary"
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.LP
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Below is an example of CDL syntax, describing a netCDF file with several
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named dimensions (lat, lon, and time), variables (Z, t, p, rh, lat, lon,
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time), variable attributes (units, long_name, valid_range, _FillValue), and
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some data. CDL keywords are in boldface. (This example is intended to
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illustrate the syntax; a real CDL file would have a more complete set of
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attributes so that the data would be more completely self-describing.)
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.RS
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.nf
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\fBnetcdf\fP foo { // an example netCDF specification in CDL
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\fBdimensions\fP:
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lat = 10, lon = 5, time = \fBunlimited\fP ;
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\fBvariables\fP:
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\fBlong\fP lat(lat), lon(lon), time(time);
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\fBfloat\fP Z(time,lat,lon), t(time,lat,lon);
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\fBdouble\fP p(time,lat,lon);
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\fBlong\fP rh(time,lat,lon);
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// variable attributes
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lat:long_name = "latitude";
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lat:units = "degrees_north";
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lon:long_name = "longitude";
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lon:units = "degrees_east";
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time:units = "seconds since 1992-1-1 00:00:00";
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Z:units = "geopotential meters";
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Z:valid_range = 0., 5000.;
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p:_FillValue = \-9999.;
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rh:_FillValue = \-1;
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\fBdata\fP:
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lat = 0, 10, 20, 30, 40, 50, 60, 70, 80, 90;
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lon = \-140, \-118, \-96, \-84, \-52;
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}
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.fi
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.RE
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.LP
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All CDL statements are terminated by a semicolon. Spaces, tabs,
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and newlines can be used freely for readability.
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Comments may follow the characters `//' on any line.
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.LP
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A CDL description consists of three optional parts: \fIdimensions\fP,
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\fIvariables\fP, and \fIdata\fP, beginning with the keyword
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.BR dimensions: ,
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.BR variables: ,
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and
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.BR data ,
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respectively.
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The variable part may contain \fIvariable
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declarations\fP and \fIattribute assignments\fP.
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.LP
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A netCDF \fIdimension\fP is used to define the shape of one or more of the
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multidimensional variables contained in the netCDF file. A netCDF
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dimension has a name and a size. At most one dimension in a netCDF file
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can have the \fBunlimited\fP size, which means a variable using this
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dimension can grow to any length (like a record number in a file).
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.LP
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A \fIvariable\fP represents a multidimensional array of values of the
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same type. A variable has a name, a data type, and a shape described
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by its list of dimensions. Each variable may also have associated
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\fIattributes\fP (see below) as well as data values. The name, data
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type, and shape of a variable are specified by its declaration in the
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\fIvariable\fP section of a CDL description. A variable may have the same
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name as a dimension; by convention such a variable is one-dimensional
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and contains coordinates of the dimension it names. Dimensions need
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not have corresponding variables.
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.LP
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A netCDF \fIattribute\fP contains information about a netCDF variable or
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about the whole netCDF dataset. Attributes are used
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to specify such properties as units, special values, maximum and
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minimum valid values, scaling factors, offsets, and parameters. Attribute
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information is represented by single values or arrays of values. For
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example, "units" is an attribute represented by a character array such
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as "celsius". An attribute has an associated variable, a name,
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a data type, a length, and a value. In contrast to variables that are
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intended for data, attributes are intended for metadata (data about
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data).
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.LP
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In CDL, an attribute is designated by a variable and attribute name,
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separated by `:'. It is possible to assign \fIglobal\fP attributes
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not associated with any variable to the netCDF as a whole by using
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`:' before the attribute name. The data type of an attribute in CDL
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is derived from the type of the value assigned to it. The length of
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an attribute is the number of data values assigned to it, or the
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number of characters in the character string assigned to it. Multiple
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values are assigned to non-character attributes by separating the
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values with commas. All values assigned to an attribute must be of
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the same type.
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.LP
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The names for CDL dimensions, variables, and attributes must begin with an
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alphabetic character or `_', and subsequent characters may be alphanumeric
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or `_' or `-'.
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.LP
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The optional \fIdata\fP section of a CDL specification is where
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netCDF variables may be initialized. The syntax of an initialization
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is simple: a variable name, an equals sign, and a
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comma-delimited list of constants (possibly separated by spaces, tabs
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and newlines) terminated with a semicolon. For multi-dimensional
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arrays, the last dimension varies fastest. Thus row-order rather than
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column order is used for matrices. If fewer values are supplied than
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are needed to fill a variable, it is extended with a type-dependent
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`fill value', which can be overridden by supplying a value for a
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distinguished variable attribute named `_FillValue'. The
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types of constants need not match the type declared for a variable;
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coercions are done to convert integers to floating point, for example.
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The constant `_' can be used to designate the fill value for a variable.
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.SS "Primitive Data Types"
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.LP
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.RS
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.nf
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\fBchar\fP characters
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\fBbyte\fP 8-bit data
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\fBshort\fP 16-bit signed integers
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\fBlong\fP 32-bit signed integers
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\fBint\fP (synonymous with \fBlong\fP)
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\fBfloat\fP IEEE single precision floating point (32 bits)
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\fBreal\fP (synonymous with \fBfloat\fP)
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\fBdouble\fP IEEE double precision floating point (64 bits)
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.fi
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.RE
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.LP
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Except for the added data-type \fBbyte\fP and the lack of
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\fBunsigned\fP,
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CDL supports the same primitive data types as C.
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The names for the primitive data types are reserved words in CDL,
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so the names of variables, dimensions, and attributes must not be
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type names. In declarations, type names may be specified
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in either upper or lower case.
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.LP
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Bytes differ from characters in that they are intended to hold a full eight
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bits of data, and the zero byte has no special significance, as it
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does for character data.
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\fBncgen3\fP converts \fBbyte\fP declarations to \fBchar\fP
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declarations in the output C code and to the nonstandard \fBBYTE\fP
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declaration in output Fortran code.
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.LP
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Shorts can hold values between \-32768 and 32767.
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\fBncgen3\fP converts \fBshort\fP declarations to \fBshort\fP
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declarations in the output C code and to the nonstandard \fBINTEGER*2\fP
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declaration in output Fortran code.
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.LP
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Longs can hold values between \-2147483648 and 2147483647.
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\fBncgen3\fP converts \fBlong\fP declarations to \fBlong\fP
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declarations in the output C code and to \fBINTEGER\fP
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declarations in output Fortran code. \fBint\fP and \fBinteger\fP are
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accepted as synonyms for \fBlong\fP in CDL declarations.
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Now that there are platforms with 64-bit representations for C longs, it may
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be better to use the \fBint\fP synonym to avoid confusion.
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.LP
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Floats can hold values between about \-3.4+38 and 3.4+38. Their
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external representation is as 32-bit IEEE normalized single-precision
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floating point numbers. \fBncgen3\fP converts \fBfloat\fP
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declarations to \fBfloat\fP declarations in the output C code and to
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\fBREAL\fP declarations in output Fortran code. \fBreal\fP is accepted
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as a synonym for \fBfloat\fP in CDL declarations.
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.LP
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Doubles can hold values between about \-1.7+308 and 1.7+308. Their
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external representation is as 64-bit IEEE standard normalized
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double-precision floating point numbers. \fBncgen3\fP converts
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\fBdouble\fP declarations to \fBdouble\fP declarations in the output C
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code and to \fBDOUBLE PRECISION\fP declarations in output Fortran
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code.
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.LP
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.SS "CDL Constants"
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.LP
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Constants assigned to attributes or variables may be of any of the
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basic netCDF types. The syntax for constants is similar to C syntax,
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except that type suffixes must be appended to shorts and floats to
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distinguish them from longs and doubles.
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.LP
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A \fIbyte\fP constant is represented by a single character or multiple
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character escape sequence enclosed in single quotes. For example,
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.RS
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.nf
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'a' // ASCII `a'
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'\\0' // a zero byte
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'\\n' // ASCII newline character
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'\\33' // ASCII escape character (33 octal)
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'\\x2b' // ASCII plus (2b hex)
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'\\377' // 377 octal = 255 decimal, non-ASCII
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.fi
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.RE
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.LP
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Character constants are enclosed in double quotes. A character array
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may be represented as a string enclosed in double quotes. The usual C
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string escape conventions are honored. For example
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.RS
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.nf
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"a" // ASCII `a'
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"Two\\nlines\\n" // a 10-character string with two embedded newlines
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"a bell:\\007" // a string containing an ASCII bell
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.fi
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.RE
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Note that the netCDF character array "a" would fit in a one-element
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variable, since no terminating NULL character is assumed. However, a zero
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byte in a character array is interpreted as the end of the significant
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characters by the \fBncdump\fP program, following the C convention.
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Therefore, a NULL byte should not be embedded in a character string unless
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at the end: use the \fIbyte\fP data type instead for byte arrays that
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contain the zero byte. NetCDF and CDL have no string type, but only
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fixed-length character arrays, which may be multi-dimensional.
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.LP
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\fIshort\fP integer constants are intended for representing 16-bit
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signed quantities. The form of a \fIshort\fP constant is an integer
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constant with an `s' or `S' appended. If a \fIshort\fP constant
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begins with `0', it is interpreted as octal, except that if it begins with
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`0x', it is interpreted as a hexadecimal constant. For example:
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.RS
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.nf
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\-2s // a short \-2
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0123s // octal
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0x7ffs //hexadecimal
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.fi
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.RE
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.LP
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\fILong\fP integer constants are intended for representing 32-bit signed
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quantities. The form of a \fIlong\fP constant is an ordinary integer
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constant, although it is acceptable to append an optional `l' or
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`L'. If a \fIlong\fP constant begins with `0', it is interpreted as
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octal, except that if it begins with `0x', it is interpreted as a hexadecimal
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constant. Examples of valid \fIlong\fP constants include:
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.RS
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.nf
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\-2
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1234567890L
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0123 // octal
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0x7ff // hexadecimal
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.fi
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.RE
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.LP
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Floating point constants of type \fIfloat\fP are appropriate for representing
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floating point data with about seven significant digits of precision.
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The form of a \fIfloat\fP constant is the same as a C floating point
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constant with an `f' or `F' appended. For example the following
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are all acceptable \fIfloat\fP constants:
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.RS
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.nf
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\-2.0f
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3.14159265358979f // will be truncated to less precision
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1.f
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.fi
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.RE
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.LP
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Floating point constants of type \fIdouble\fP are appropriate for
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representing floating point data with about sixteen significant digits
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of precision. The form of a \fIdouble\fP constant is the same as a C
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floating point constant. An optional `d' or `D' may be appended.
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For example the following are all acceptable \fIdouble\fP constants:
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.RS
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.nf
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\-2.0
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3.141592653589793
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1.0e-20
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1.d
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.fi
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.RE
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.SH BUGS
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.LP
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The programs generated by \fBncgen3\fP when using the \fB-c\fP or \fB-f\fP
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use initialization statements to store data in variables, and will fail to
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produce compilable programs if you try to use them for large datasets, since
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the resulting statements may exceed the line length or number of
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continuation statements permitted by the compiler.
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.LP
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The CDL syntax makes it easy to assign what looks like an array of
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variable-length strings to a netCDF variable, but the strings will simply be
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concatenated into a single array of characters, since netCDF cannot
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represent an array of variable-length strings in one netCDF variable.
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.LP
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NetCDF and CDL do not yet support a type corresponding to a 64-bit integer.
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