NetCDF is a binary format for storing arrays of data. For a full list and details of functions and operators on vectors, see NetCDF Functions.
NetCDF
NetCDF stands for Network Common Data Form. NetCDF is an interface for array-oriented data access and a freely-distributed collection of software libraries for C, Fortran, C++, Java, and perl that provide implementations of the interface. The netCDF libraries define a machine-independent format for representing scientific data. Together, the interface, libraries, and format support the creation, access, and sharing of scientific data. For full details on NetCDF, see http://www.unidata.ucar.edu/software/netcdf/ .
NetCDF can be used to handle a great number of scientific data types. Metview uses NetCDF as an internal format for representing data units which can't be conveniently represented by GRIB, BUFR or geopoints, for example, to handle data arrays representing cross-sections and cross-sectional averages, vertical profiles, Hovmøller matrices, etc. Such NetCDF data files can then be imported by other NetCDF conversant software if users so wish.
Metview provides a set of NetCDF handling macro functions, allowing users to apply a number of functions and operators to NetCDF data - see NetCDF Functions.
How operators and functions work on NetCDF
NetCDF files can contain a wide variety of data. They can contain a number of data units, e.g. a set of cross section plots, a set of 2D geographical grids, a set of time series or vertical profiles, etc. Each component of a set is stored in the netCDF file as a separate netcdf variable . The handling of and computations with netCDF files are based on the concept of current variable.
Out of the N variables contained in a netCDF file, one is always set to be the current variable. Functions and operators acting upon the netcdf file will act only upon the current variable .
In general, users set the current variable (which by default is the first variable in the file) to one of those contained in the file and can then apply a number of functions and operators to them :
setcurrent(netcdf1, 6) # use the 6th variable in this netCDF file setcurrent(netcdf2, 2) # use the 2nd variable in this netCDF file netcdf3 = netcdf1 op netcdf2 out = function(netcdf1, ...)
However, because functions and operators work only on the current variable, when the netCDF contains more than one variable (a multi-variable netCDF), special care must be taken when you need the operator/function to apply to all variables - this is detailed later in this page.
When two netCDF variables are involved, both files have to have the same number of data points in each current variable, as an operation between two netCDFs is carried out between each pair of corresponding data values. Thus :
nc3 = nc1+nc2 | corresponds to | for each data value i nc3i = nc2i + nc1i
|
nc2 = nc1+a | corresponds to | for each data value i nc1i = nc1i + a
|
nc2 = f(nc1) | corresponds to | for each data value i nc2i = f(nc1i)
|
NOTE : Like fieldsets, a netCDF resulting from an operation on two other netCDFs, will take the metadata (e.g. date, time, parameter, levels, ...) from the first netCDF.
Scaled values (Metview 5)
By default, Metview will apply any scale_factor and add_offset attributes for the current variable. This behaviour can be toggled using the function netcdf_auto_scale_values()
.
Missing values (Metview 5)
By default, Metview will check the _FillValue attribute of the current variable and will not include any such values in its calculations. This behaviour can be toggled using the function netcdf_preserve_missing_values()
.
Working with multi-variable NetCDF files
Functions and operators working on netCDF files apply only to the current variable. When the netCDF file contains several variables, you need to address each variable separately and explicitly, and apply the function /operator to each in turn. For this purpose, Metview Macro provides functions to query the contents of a netCDF file and to set one of its variables to be the current variable.
Users can list the variables held in a netcdf variable by means of the function variables()
:
var_list = variables(netcdf)
This returns a list of strings, each holding a variable name. Counting the number of elements in the output list gives the number of variables.
To set one of the existing variables to be the current variable, use function setcurrent()
, which takes the index (starting at 1) of the desired variable:
setcurrent(netcdf, n)
The two functions above provide the basic framework to operate on multi-variable netcdf files.
Example 1 : To operate on a netcdf file which you want to overwrite with the new results
# Derive a cross section of temperature data in a netcdf variable (...) # derive the list of netcdf variables var_list = variables(temp_xs) # loop over variables and subtract scalar for i = 1 to count(var_list) do setcurrent(temp_xs, i) temp_xs = temp_xs - 273.15 # acts on current variable only end for
Example 2 : To operate on two netcdf files, assigning the result to a third netcdf, you should create the output netcdf first by a simple copying of one of the input netcdfs :
# Derive cross sections of temperature forecast and analysis # in two netcdf variables, tfc_xs and tan_xs.... (...) # derive the list of netcdf variables var_list = variables(tfc_xs) # create output netcdf diff_xs = tfc_xs # loop over variables and create fc-an difference cross-section for i = 1 to count(var_list) do setcurrent(tan_xs, i) setcurrent(tfc_xs, i) setcurrent(diff_xs, i) diff_xs = tfc_xs - tan_xs end for
Extracting NetCDF values
If you need to have access to the data values of a netcdf current variable, you can use function values()
:
val_list = values(netcdf)
which returns a vector with all the values for the current variable.You can then use the Vector functions to manipulate the data. This technique could even be used to create a new Geopoints variable with the netCDF data, or to insert the values into a GRIB field.
An alternative method for accessing individual values is to the use the function value()
:
val = value(netcdf, n)
which returns the nth value from the current netcdf variable.
Time variables (Metview 5)
Variables which are detected to be of 'time' type (e.g. attribute standard_name='time', plus other checks) are, by default, retrieved by the value()
and values()
functions as a date or a list of dates. This behaviour can be toggled calling the function netcdf_auto_translate_times()
with an argument of 1 or 0 to activate/deactivate the translation to dates. If deactivated, the value()
and values()
functions will instead return a number or a vector of raw numbers as they are encoded in the variable.
Automatic rescaling of values (Metview 5)
If Metview performs a computation on a variable which results in its values overflowing the data type used to pack the values in the netCDF variable (e.g. adding 3000 to the values of a Byte variable), and the variable has scale_factor and add_offset attributes, Metview will compute new scale_factor and add_offset attributes so that the values can be packed within the data type, making best use of its data range. In this case, the _FillValue may be modified too.
This rescaling will not be performed if these attributes are not defined for the current variable, or if Metview has been instructed to ignore them (via the netcdf_auto_scale_values()
function).
The automatic rescaling behaviour can be toggled on or off via the netcdf_auto_rescale_values_to_fit_packed_type()
function. If disabled, and the computed values overflow the data type, the macro will fail.