.. currentmodule:: cf .. default-role:: obj .. _field_creation: Creating `cf.Field` objects =========================== A new field may be created by initializing a new `cf.Field` instance. Data and metadata are provided with the following keyword parameters, all of which are optional: ======================= ============================================================= Keyword Description ======================= ============================================================= ``ancillary_variables`` Provide the new field with ancillary variable fields in a `cf.AncillaryVariables` object ``attributes`` Provide the new field with attributes in a dictionary ``data`` Provide the new field with a data array in a `cf.Data` object ``dimensions`` Provide the new field with a data array dimensions ``domain`` Provide the new field with a coordinate system in a `cf.Domain` object ``flags`` Provide the new field with self-describing flag values in a `cf.Flags` object ``properties`` Provide the new field with CF properties in a dictionary ======================= ============================================================= .. _domain-creation: Domain creation --------------- Creating a domain possibly comprises the largest part of field creation, because the domain itself is composed of many interrelated items (dimension and auxiliary coordinate, cell measure and coordinate reference objects). It is not, however, difficult and is essentially a methodical assembly of components. Domain initialization is fully described in the documention of the `cf.Domain` object. Each component of the field's domain has an internal identifier (unique strings such as ``'dim1'``, ``'aux0'``, ``'msr2'`` and ``'ref0'``), but for many field initializations, there is no need to provide, nor have any knowledge of these. However, they are easy to set if required (which may be the case if, for example, two multidimensional auxiliary coordinates span the same dimensions but in different orders) or if desired for clarity. .. _inserting-and-removing-components: Inserting and removing components --------------------------------- Inserting field components after initialization is done with the following methods: .. autosummary:: :nosignatures: :template: method.rst cf.Field.insert_aux cf.Field.insert_axis cf.Field.insert_data cf.Field.insert_dim cf.Field.insert_measure cf.Field.insert_ref For example: >>> coord >>> f.domain.insert_dim(coord) Note that inserting domain items during field initialization is likely to be faster than using the insertion methods afterwards. Removing field components is done with the following methods: .. autosummary:: :nosignatures: :template: method.rst cf.Field.remove_axis cf.Field.remove_axes cf.Field.remove_data cf.Field.remove_item cf.Field.remove_items For example: >>> f.domain.remove_item('forecast_reference_time') .. _field-creation_examples: Examples -------- To improve readability, it is recommended that the construction of a field is done by first creating the components separately (data, coordinates, properties, *etc.*), and then combining them to make the field (as in :ref:`example 3 ` and :ref:`example 4 `), although this may not be necessary for very simple fields (as in :ref:`example 1 ` and :ref:`example 2 `). .. _fc-example1: Example 1 ~~~~~~~~~ An empty field: >>> f = cf.Field() >>> print f field summary -------------- .. _fc-example2: Example 2 ~~~~~~~~~ A field with just CF properties: >>> f = cf.Field(properties={'standard_name': 'air_temperature', ... 'long_name': 'temperature of air'}) ... >>> print f air_temperature field summary ----------------------------- .. _fc-example3: Example 3 ~~~~~~~~~ A field with a simple domain. Note that in this example the data and coordinates are generated using :py:obj:`range` and `numpy.arange` simply for the sake of having some numbers to play with. In practice it is likely the values would have been read from a file in some arbitrary format: >>> import numpy >>> data = cf.Data(numpy.arange(90.).reshape(10, 9), 'm s-1') >>> properties = {'standard_name': 'eastward_wind'} >>> dim0 = cf.DimensionCoordinate(data=cf.Data(range(10), 'degrees_north'), ... properties={'standard_name': 'latitude'}) ... >>> dim1 = cf.DimensionCoordinate(data=cf.Data(range(9), 'degrees_east')) >>> dim1.standard_name = 'longitude' >>> domain = cf.Domain(dim=[dim0, dim1]) >>> f = cf.Field(properties=properties, data=data, domain=domain) >>> print f eastward_wind field summary --------------------------- Data : eastward_wind(latitude(10), longitude(9)) m s-1 Dimensions : latitude(10) = [0, ..., 9] degrees_north : longitude(9) = [0, ..., 8] degrees_east Note that the default dimension order of ``['dim0', 'dim1']`` is applicable to the field's data array. Adding an auxiliary coordinate to the "latitude" axis and a cell method may be done with the :ref:`relevant method ` and by simple assignment respectively (note that these coordinate values are just for illustration): >>> aux = cf.AuxiliaryCoordinate(data=cf.Data(['alpha','beta','gamma','delta','epsilon', ... 'zeta','eta','theta','iota','kappa'])) ... >>> aux.long_name = 'extra' >>> print f.items() {'dim0': , 'dim1': } >>> f.insert_aux(aux, axes=['dim0']) 'aux0' >>> f.cell_methods = cf.CellMethods('latitude: point') >>> f.long_name = 'wind' >>> print f eastward_wind field summary --------------------------- Data : eastward_wind(latitude(10), longitude(9)) m s-1 Cell methods : latitude: point Dimensions : latitude(10) = [0, ..., 9] degrees_north : longitude(9) = [0, ..., 8] degrees_east Auxiliary coords: long_name:extra(latitude(10)) = ['alpha', ..., 'kappa'] Removing the auxiliary coordinate and the cell method that were just added is also done with the :ref:`relevant method ` and by simple deletion respectively: >>> f.remove_item({'long_name': 'extra'}) >>> del f.cell_methods >>> print f eastward_wind field summary --------------------------- Data : eastward_wind(latitude(10), longitude(9)) m s-1 Dimensions : latitude(10) = [0, ..., 9] degrees_north : longitude(9) = [0, ..., 8] degrees_east .. _fc-example4: Example 4 ~~~~~~~~~ .. highlight:: guess A more complicated field is created by the following script. Note that in this example the data and coordinates are generated using `numpy.arange` simply for the sake of having some numbers to play with. In practice it is likely the values would have been read from a file in some arbitrary format:: import cf import numpy #--------------------------------------------------------------------- # 1. CREATE the field's domain items #--------------------------------------------------------------------- # Create a grid_latitude dimension coordinate Y = cf.DimensionCoordinate(properties={'standard_name': 'grid_latitude'}, data=cf.Data(numpy.arange(10.), 'degrees')) # Create a grid_longitude dimension coordinate X = cf.DimensionCoordinate(data=cf.Data(numpy.arange(9.), 'degrees')) X.standard_name = 'grid_longitude' # Create a time dimension coordinate (with bounds) bounds = cf.CoordinateBounds( data=cf.Data([0.5, 1.5], cf.Units('days since 2000-1-1', calendar='noleap'))) T = cf.DimensionCoordinate(properties=dict(standard_name='time'), data=cf.Data(1, cf.Units('days since 2000-1-1', calendar='noleap')), bounds=bounds) # Create a longitude auxiliary coordinate lat = cf.AuxiliaryCoordinate(data=cf.Data(numpy.arange(90).reshape(10, 9), 'degrees_north')) lat.standard_name = 'latitude' # Create a latitude auxiliary coordinate lon = cf.AuxiliaryCoordinate(properties=dict(standard_name='longitude'), data=cf.Data(numpy.arange(1, 91).reshape(9, 10), 'degrees_east')) # Create a rotated_latitude_longitude grid mapping coordinate reference grid_mapping = cf.CoordinateReference('rotated_latitude_longitude', grid_north_pole_latitude=38.0, grid_north_pole_longitude=190.0) # -------------------------------------------------------------------- # 2. Create the field's domain from the previously created items # -------------------------------------------------------------------- domain = cf.Domain(dim=[T, Y, X], aux=[lat, lon], ref=grid_mapping) #--------------------------------------------------------------------- # 3. Create the field #--------------------------------------------------------------------- # Create CF properties properties = {'standard_name': 'eastward_wind', 'long_name' : 'East Wind', 'cell_methods' : cf.CellMethods('latitude: point')} # Create the field's data array data = cf.Data(numpy.arange(90.).reshape(9, 10), 'm s-1') # Finally, create the field f = cf.Field(properties=properties, domain=domain, data=data) print "The new field:\n" print f .. highlight:: none Running this script produces the following output:: The new field: eastward_wind field summary --------------------------- Data : eastward_wind(grid_longitude(9), grid_latitude(10)) m s-1 Cell methods : latitude: point Axes : time(1) = [2000-01-02 00:00:00] noleap : grid_longitude(9) = [0.0, ..., 8.0] degrees : grid_latitude(10) = [0.0, ..., 9.0] degrees Aux coords : latitude(grid_latitude(10), grid_longitude(9)) = [[0, ..., 89]] degrees_north : longitude(grid_longitude(9), grid_latitude(10)) = [[1, ..., 90]] degrees_east Coord refs : .. highlight:: guess .. _fc-example5: Example 5 ~~~~~~~~~ :ref:`Example 4 ` would be slightly more complicated if the ``grid_longitude`` and ``grid_latitude`` axes were to have the same size. In this case the domain needs be told which axes, and in which order, are spanned by the two dimensional auxiliary coordinates (``latitude`` and ``longitude``) and the field needs to know which axes span the data array:: import cf import numpy #--------------------------------------------------------------------- # 1. CREATE the field's domain items #--------------------------------------------------------------------- # Create a grid_latitude dimension coordinate Y = cf.DimensionCoordinate(properties={'standard_name': 'grid_latitude'}, data=cf.Data(numpy.arange(10.), 'degrees')) # Create a grid_longitude dimension coordinate X = cf.DimensionCoordinate(data=cf.Data(numpy.arange(10.), 'degrees')) X.standard_name = 'grid_longitude' # Create a time dimension coordinate (with bounds) bounds = cf.CoordinateBounds( data=cf.Data([0.5, 1.5], cf.Units('days since 2000-1-1', calendar='noleap'))) T = cf.DimensionCoordinate(properties=dict(standard_name='time'), data=cf.Data(1, cf.Units('days since 2000-1-1', calendar='noleap')), bounds=bounds) # Create a longitude auxiliary coordinate lat = cf.AuxiliaryCoordinate(data=cf.Data(numpy.arange(100).reshape(10, 10), 'degrees_north')) lat.standard_name = 'latitude' # Create a latitude auxiliary coordinate lon = cf.AuxiliaryCoordinate(properties=dict(standard_name='longitude'), data=cf.Data(numpy.arange(1, 101).reshape(10, 10), 'degrees_east')) # Create a rotated_latitude_longitude grid mapping coordinate reference grid_mapping = cf.CoordinateReference('rotated_latitude_longitude', grid_north_pole_latitude=38.0, grid_north_pole_longitude=190.0) # -------------------------------------------------------------------- # 2. Create the field's domain from the previously created items # -------------------------------------------------------------------- domain = cf.Domain(dim=[T, Y, X], aux={'aux0': lat, 'aux1': lon}, ref=grid_mapping, assign_axes={'aux0': ['grid_latitude', 'grid_longitude'], 'aux1': ['grid_longitude', 'grid_latitude']}) #--------------------------------------------------------------------- # 3. Create the field #--------------------------------------------------------------------- # Create CF properties properties = {'standard_name': 'eastward_wind', 'long_name' : 'East Wind', 'cell_methods' : cf.CellMethods('latitude: point')} # Create the field's data array data = cf.Data(numpy.arange(90.).reshape(9, 10), 'm s-1') # Finally, create the field f = cf.Field(properties=properties, domain=domain, data=data, axes=['grid_latitude', 'grid_longitude']) print "The new field:\n" print f .. highlight:: none Running this script produces the following output:: eastward_wind field summary --------------------------- Data : eastward_wind(grid_latitude(10), grid_longitude(10)) m s-1 Cell methods : latitude: point Axes : time(1) = [2000-01-02 00:00:00] noleap : grid_longitude(10) = [0.0, ..., 9.0] degrees : grid_latitude(10) = [0.0, ..., 9.0] degrees Aux coords : latitude(grid_latitude(10), grid_longitude(10)) = [[0, ..., 99]] degrees_north : longitude(grid_longitude(10), grid_latitude(10)) = [[1, ..., 100]] degrees_east Coord refs : .. highlight:: guess