Provided by: libpdl-netcdf-perl_4.20-5build3_amd64 bug

NAME

       PDL::NetCDF - Object-oriented interface between NetCDF files and PDL objects.

       Perl extension to allow interface to NetCDF portable binary gridded files via PDL objects.

SYNOPSIS

         use PDL;
         use PDL::NetCDF;
         use PDL::Char;

         my $ncobj = PDL::NetCDF->new ("test.nc", {REVERSE_DIMS => 1});  # New file
         my $pdl = pdl [[1, 2, 3], [4, 5, 6]];

         # Specify variable name to put PDL in, plus names of the dimensions.  Dimension
         # lengths are taken from the PDL, in this case, dim1 = 2 and dim2 = 3.
         $ncobj->put ('var1', ['dim1', 'dim2'], $pdl);
         # or for netcdf4 files
         # $ncobj->put ('var1', ['dim1', 'dim2'], $pdl, {DEFLATE => 9});

         # get the deflate level (for any fileformat)
         my ($deflate, $shuffle) = $ncobj->getDeflateShuffle('var1');

         # $pdlout = [[1, 2, 3], [4, 5, 6]]
         my $pdlout = $ncobj->get ('var1');

         # Store textual NetCDF arrays using perl strings:  (This is a bit primitive, but works)
         my $str = "Station1  Station2  Station3  ";
         $obj->puttext('textvar', ['n_station', 'n_string'], [3,10], $str);
         my $outstr = $obj->gettext('textvar');
         # $outstr = "Station1  Station2  Station3  "

         # Now textual NetCDF arrays can be stored with PDL::Char style PDLs.  This is much
         # more natural and flexible than the above method.
         $str = PDL::Char->new (['Station1', 'Station2', 'Station3']);
         $obj->put ('stations', ['dim_station', 'dim_charlen'], $str);
         $outstr = $obj->get('stations');
         print $outstr;
         # Prints: ['Station1', 'Station2', 'Station3']
         # For more info on PDL::Char variables see PDL::Char(3), or perldoc PDL::Char

         # $dim1size = 2
         my $dim1size = $ncobj->dimsize('dim1');

         # A slice of the netCDF variable.
         # [0,0] is the starting point, [1,2] is the count.
         # $slice = [1,2]
         my $slice  = $ncobj->get ('var1', [0,0], [1,2]);

         # Attach a double attribute of size 3 to var1
         $ncobj->putatt (double([1,2,3]), 'double_attribute', 'var1');

         # $attr1 = [1,2,3]
         my $attr1 = $ncobj->getatt ('double_attribute', 'var1');

         # $type = PDL::double
         my $type = $ncobj->getvariabletype('var1');

         # Write a textual, global attribute.  'attr_name' is the attribute name.
         $ncobj->putatt ('The text of the global attribute', 'attr_name');

         # $attr2 = 'The text of the global attribute'
         my $attr2 = $ncobj->getatt ('attr_name');

         # Close the netCDF file.  The file is also automatically closed in a DESTROY block
         # when it passes out of scope.  This just makes is explicit.
         $ncobj->close;

       For (much) more information on NetCDF, see

       http://www.unidata.ucar.edu/packages/netcdf/index.html

       Also see the test file, test.pl in this distribution for some working examples.

DESCRIPTION

       This is the PDL interface to the Unidata NetCDF library.  It uses the netCDF version 3
       library to make a subset of netCDF functionality available to PDL users in a clean,
       object-oriented interface.

       Another NetCDF perl interface, which allows access to the entire range of netCDF
       functionality (but in a non-object-oriented style which uses perl arrays instead of PDLs)
       is available through Unidata at http://www.unidata.ucar.edu/packages/netcdf/index.html).

       The NetCDF standard allows N-dimensional binary data to be efficiently stored, annotated
       and exchanged between many platforms.

       When one creates a new netCDF object, this object is associated with one netCDF file.

FUNCTIONS

   isNetcdf4
       Check if compiled against netcdf4

       Arguments: none

         if (PDL::NetCDF::isNetcdf4) {
               # open netcdf4 file
         }

   defaultFormat
       Get or change the default format when creating a netcdf-file.  This can be overwritten by
       the NC_FORMAT option for new. Possible values are: PDL::NetCDF::NC_FORMAT_CLASSIC,
       PDL::NetCDF::NC_FORMAT_64BIT, PDL::NetCDF::NC_FORMAT_NETCDF4,
       PDL::NetCDF::NC_FORMAT_NETCDF4_CLASSIC

        Arguments:
        1) new format (constant)
        Return:
        old format as one of the NC_FORMAT_* constants

   new
       Create an object representing a netCDF file.

        Arguments:
        1) The name of the file.
        2) optional:  A hashref containing options.  Currently defined are:
           TEMPLATE:
           An existing netCDF object for a file with
           identical layout.  This allows one to read in many similar netCDF
           files without incurring the overhead of reading in all variable
           and dimension names and IDs each time.  Caution:  Undefined
           weirdness may occur if you pass the netCDF object from a dissimilar
           file!
           MODE:
           use sysopen file-opening arguments, O_RDONLY, O_RDWR, O_CREAT, O_EXCL
           when used, this will overwrite the '>file.nc' type of opening
           see L<perlopentut> for usage of O_RDONLY...
           REVERSE_DIMS:
           this will turn the order of the dimension-names of
           netcdf-files. Even with this option the 'put' function will write
           variables in FORTRAN order (as before) and will reverse the
           dimension names so they fit this order.  With this option, the
           'putslice' function will write varibles in the same way as 'put'.
           You should use this option if your planning to work with other
           netcdf-programs (ncview, NCL) or if you are planning to combine
           putslice and slice.  You should _not_ use this option, if you need
           compatibility to older versions of PDL::NetCDF.
           NC_FORMAT:
           set the file format for a new netcdf file, see defaultFormat()
           SLOW_CHAR_FETCH:
           If this option is set, then a 'get' into a PDL::Char will be done
           one string at a time instead of all text data at once.  This
           is necessary if there are NULLs (hex 0) values embedded in the string
           arrays.  This takes longer, but gives the correct results.  If
           the fetch of a string array yields only the first element, try setting
           this option.

       Example:

         my $nc = PDL::NetCDF->new ("file1.nc", {REVERSE_DIMS => 1});
         ...
         foreach my $ncfile (@a_bunch_of_similar_format_netcdf_files) {
           $nc = PDL::NetCDF->new("file2.nc", {TEMPLATE => $nc});  # These calls to 'new' are *much* faster
           ...
         }

         # opening using MODE
         use Fcntl; # define O_CREAT...
         # opening a completely new file (deleting if it exists!)
         my $newnc = PDL::NetCDF->new ("file2.nc", {MODE => O_CREAT|O_RDWR,
                                                    REVERSE_DIMS => 1, NC_FORMAT => PDL::NetCDF::NC_FORMAT_NETCDF4});
         # opening existing file for reading and writing
         $nc = PDL::NetCDF->new ("file2.nc", {MODE => O_RDWR}
                               REVERSE_DIMS => 1});
         # opening existing file for reading only
         $nc = PDL::NetCDF->new ("file2.nc", {MODE => O_RDONLY,
                                              REVERSE_DIMS => 1});

       If this file exists and you want to write to it, prepend the name with the '>' character:
       ">name.nc"

       Returns:  The netCDF object.  Barfs if there is an error.

   getFormat
       Get the format of a netcdf file

       Arguments: none

       Returns: @ integer equal to one of the PDL::NetCDF::NC_FORMAT_* constants.

   put
       Put a PDL matrix to a netCDF variable.

       Arguments:

       1) The name of the variable to create

       2) A reference to a list of dimension names for this variable

       3) The PDL to put.  It must have the same number of dimensions as specified in the
       dimension name list.

       4) Optional options hashref: {SHUFFLE => 1, DEFLATE => 7, COMPRESS => 0}

       Returns: None.

         my $pdl = pdl [[1, 2, 3], [4, 5, 6]];

         # Specify variable name to put PDL in, plus names of the dimensions.  Dimension
         # lengths are taken from the PDL, in this case, dim1 = 2 and dim2 = 3.
         $ncobj->put ('var1', ['dim1', 'dim2'], $pdl);

         # Now textual NetCDF arrays can be stored with PDL::Char style PDLs.
         $str = PDL::Char->new (['Station1', 'Station2', 'Station3']);
         $obj->put ('stations', ['dim_station', 'dim_charlen'], $str);
         $outstr = $obj->get('stations');
         print $outstr;
         # Prints: ['Station1', 'Station2', 'Station3']
         # For more info on PDL::Char variables see PDL::Char(3), or perldoc PDL::Char

   putslice
       Put a PDL matrix to a slice of a NetCDF variable

       Arguments:

       1) The name of the variable to create

       2) A reference to a list of dimension names for this variable

       3) A reference to a list of dimensions for this variable

       4) A reference to a list which specifies the N dimensional starting point of the slice.

       5) A reference to a list which specifies the N dimensional count of the slice.

       6) The PDL to put.  It must conform to the size specified by the 4th and 5th
          arguments.  The 2nd and 3rd argument are optional if the variable is already
          defined in the netcdf object.

       7) Optional options: {DEFLATE => 7, SHUFFLE => 0/1} will use gzip compression (level 7)
          on that variable and shuffle will not/will use the shuffle filter. These options are
          only valid for netcdf4 files. If you are unsure, test with
          ($nc->getFormat >= PDL::NetCDF::NC_FORMAT::NC_FORMAT_NETCDF4)

       Returns: None.

         my $pdl = pdl [[1, 2, 3], [4, 5, 6]];

         # Specify variable name to put PDL in, plus names of the dimensions.  Dimension
         # lengths are taken from the PDL, in this case, dim1 = 2 and dim2 = 3.
         $ncobj->putslice ('var1', ['dim1', 'dim2', 'dim3'], [2,3,3], [0,0,0], [2,3,1], $pdl);
         $ncobj->putslice ('var1', [], [], [0,0,2], [2,3,1], $pdl);

         my $pdl2 = $ncobj->get('var1');

         print $pdl2;

         [
        [
         [          1 9.96921e+36           1]
         [          2 9.96921e+36           2]
         [          3 9.96921e+36           3]
        ]
        [
         [          4 9.96921e+36           4]
         [          5 9.96921e+36           5]
         [          6 9.96921e+36           6]
        ]
       ]

        note that the netcdf missing value (not 0) is filled in.

   sync
       Synchronize the data to the disk. Use this if you want to read the file from another
       process without closing the file. This makes only sense after put, puttext, putslice,
       putatt operations

       Returns: nothing. Barfs on error.

         $ncobj->sync

   get
       Get a PDL matrix from a netCDF variable.

       Arguments:

       1) The name of the netCDF variable to fetch.  If this is the only argument, then the
       entire variable will be returned.

       To fetch a slice of the netCDF variable, optional 2nd and 3rd argments must be specified:

       2) A pdl which specifies the N dimensional starting point of the slice.

       3) A pdl which specifies the N dimensional count of the slice.

       Also, an options hashref may be passed.  The only option currently is 'NOCOMPRESS' which
       tells PDL::NetCDF to *not* try to uncompress an compressed variable.  See the COMPRESS
       option on 'put' and 'putslice' for more info.

       Returns: The PDL representing the netCDF variable.  Barfs on error.

         # A slice of the netCDF variable.
         # [0,0] is the starting point, [1,2] is the count.
         my $slice  = $ncobj->get ('var1', [0,0], [1,2], {NOCOMPRESS => 1});

         # If var1 contains this:  [[1, 2, 3], [4, 5, 6]]
         # Then $slice contains: [1,2] (Size '1' dimensions are eliminated).

   putatt
       putatt -- Attach a numerical or textual attribute to a NetCDF variable or the entire file.

       Arguments:

       1) The attribute.  Either:  A one dimensional PDL (perhaps contining only one number) or a
       string.

       2) The name to give the attribute in the netCDF file.  Many attribute names have pre-
       defined meanings.  See the netCDF documentation for more details.

       3) Optionally, you may specify the name of the pre-defined netCDF variable to associate
       this attribute with.  If this is left off, the attribute is a global one, pertaining to
       the entire netCDF file.

       Returns: Nothing.  Barfs on error.

         # Attach a double attribute of size 3 to var1
         $ncobj->putatt (double([1,2,3]), 'double_attribute', 'var1');

         # Write a textual, global attribute.  'attr_name' is the attribute name.
         $ncobj->putatt ('The text of the global attribute', 'attr_name');

   getatt
       Get an attribute from a netCDF object.

       Arguments:

       1) The name of the attribute (a text string).

       2) The name of the variable this attribute is attached to.  If this argument is not
       specified, this function returns a global attribute of the input name.

         # Get a global attribute
         my $attr2 = $ncobj->getatt ('attr_name');

         # Get an attribute associated with the variable 'var1'
         my $attr1 = $ncobj->getatt ('double_attribute', 'var1');

   getDeflateShuffle
       Get the deflate level and the shuffle flag for a variable.

       Can be called on all files, although only netcdf4 files support shuffle and deflate.

       Arguments:

       1) The name of the variable.

       Returns:

       ($deflate, $shuffle)

         my ($deflate, $shuffle) = $nc->getDeflateShuffle('varName');

   getvariabletype
       Get a type of a variable from a netCDF object.

       Arguments:

       1) The name of the variable.

       Returns: PDL::type or undef, when variable not defined

         # Get a type
         my $type = $ncobj->getvariabletype ('var1');

   puttext
       Put a perl text string into a multi-dimensional NetCDF array.

       Arguments:

       1) The name of the variable to be created (a text string).

       2) A reference to a perl list of dimension names to use in creating this NetCDF array.

       3) A reference to a perl list of dimension lengths.

       4) A perl string to put into the netCDF array.  If the NetCDF array is 3 x 10, then the
       string must
          have 30 charactars.

       5) Optional nc4 options: {DEFLATE => 7, SHUFFLE => 0}

         my $str = "Station1  Station2  Station3  ";
         $obj->puttext('textvar', ['n_station', 'n_string'], [3,10], $str);

   gettext
       Get a multi-dimensional NetCDF array into a perl string.

       Arguments:

       1) The name of the NetCDF variable.

         my $outstr = $obj->gettext('textvar');

   dimsize
       Get the size of a dimension from a netCDF object.

       Arguments:

       1) The name of the dimension.

       Returns: The size of the dimension.

         my $dim1size = $ncobj->dimsize('dim1');

   close
       Close a NetCDF object, writing out the file.

       Arguments: None

       Returns: Nothing

       This closing of the netCDF file can be done explicitly though the 'close' method.
       Alternatively, a DESTROY block does an automatic close whenever the netCDF object passes
       out of scope.

         $ncobj->close();

   getdimensionnames ([$varname])
       Get all the dimension names from an open NetCDF object.  If a variable name is specified,
       just return dimension names for *that* variable.

       Arguments: none

       Returns: An array reference of dimension names

         my $varlist = $ncobj->getdimensionnames();
         foreach(@$varlist){
           print "Found dim $_\n";
         }

   getattributenames
       Get the attribute names for a given variable from an open NetCDF object.

       Arguments: Optional variable name, with no arguments it will return the objects global
       netcdf attributes.

       Returns: An array reference of attribute names

         my $attlist = $ncobj->getattributenames('var1');

   getvariablenames
       Get all the variable names for an open NetCDF object.

       Arguments:
        none.

       Returns: An array reference of variable names

         my $varlist = $ncobj->getvariablenames();

   setrec
       Set up a 'record' of several 1D netCDF variables with the same dimension.  Once this is
       set up, quick reading/writing of one element from all variables can be put/get from/to a
       perl list.

       Arguments:

        1) The names of all the netCDF variables to group into a record

       Returns:
        A record name to use in future putrec/getrec calls

         my $rec = $ncobj->setrec('var1', 'var2', 'var3');

   getrec
       Gets a 'record' (one value from each of several 1D netCDF variables) previously set up
       using 'setrec'.  These values are returned in a perl list.

       Arguments:

        1) The name of the record set up in 'setrec'.
        2) The index to fetch.

       Returns:
        A perl list of all values.  Note that these variables
        can be of different types: float, double, integer, string.

         my @rec = $ncobj->getrec($rec, 5);

   putrec
       Puts a 'record' (one value from each of several 1D netCDF variables) previously set up
       using 'setrec'.  These values are supplied as a perl list reference.

       Arguments:

        1) The name of the record set up in 'setrec'.
        2) The index to set.
        3) A perl list ref containing the values.

       Returns:
        None.

         $ncobj->putrec($rec, 5, \@values);

WRITING NetCDF-FILES EFFICIENTLY

       Writing several variables to NetCDF-files can take a long time. When a new variable is
       attached by "put" to a file, the attribute header has to be written. This might force the
       internal netcdf-library to restructure the complete file, and thus might take very much
       IO-resources. By pre-defining the dimensions, attributes, and variables, much time can be
       saved. Essentially the rule of thumb is to define and write the data in the order it will
       be laid out in the file. Talking PDL::NetCDF, this means the following:

       Open the netcdf file
               my $nc = new PDL::NetCDF('test.nc', {MODE => O_CREAT|O_RDWR,
                                                    REVERSE_DIMS => 1});

       Write the global attributes
               $nc->putatt (double([1,2,3]), 'double_attribute');

       Define all variables, make use of the NC_UNLIMITED dimension
              # here it is possible to choose float/double/short/long
              $pdl_init = long ([]);
              for (my $i=0; $i<$it; $i++) {
                  my $out2 = $nc->putslice("VAR$i",
                                        ['x','y','z','t'],
                                        [150,100,20,PDL::NetCDF::NC_UNLIMITED()],
                                        [0,0,0,0],[1,0,0,0],$pdl_init);
              }

       Write the variable-attributes
              $nc->putatt ("var-attr", 'attribute', 'VAR0');

       Write data with putslice
               $nc->putslice("VAR5",[],[],[0,0,0,0],[$datapdl->dims],$datapdl);

AUTHOR

       Doug Hunt, dhunt\@ucar.edu.

   CONTRIBUTORS
       Heiko Klein, heiko.klein\@met.no Edward Baudrez, Royal Meteorological Institute of
       Belgium, edward.baudrez\@meteo.be

SEE ALSO

       perl(1), PDL(1), netcdf(3).