def test_GATHERING_create(self): if self.test_only and inspect.stack()[0][3] not in self.test_only: return # Define the gathered values gathered_array = numpy.array([[280, 282.5, 281], [279, 278, 277.5]], dtype='float32') # Define the list array values list_array = [1, 4, 5] # Initialise the list variable list_variable = cfdm.List(data=cfdm.Data(list_array)) # Initialise the gathered array object array = cfdm.GatheredArray( compressed_array=cfdm.Data(gathered_array), compressed_dimension=1, shape=(2, 3, 2), size=12, ndim=3, list_variable=list_variable ) # Create the field construct with the domain axes and the # gathered array tas = cfdm.Field(properties={'standard_name': 'air_temperature', 'units': 'K'}) # Create the domain axis constructs for the uncompressed array T = tas.set_construct(cfdm.DomainAxis(2)) Y = tas.set_construct(cfdm.DomainAxis(3)) X = tas.set_construct(cfdm.DomainAxis(2)) # Set the data for the field tas.set_data(cfdm.Data(array), axes=[T, Y, X]) self.assertTrue((tas.data.array == numpy.ma.masked_array( data=[[[1, 280.0], [1, 1], [282.5, 281.0]], [[1, 279.0], [1, 1], [278.0, 277.5]]], mask=[[[True, False], [True, True], [False, False]], [[True, False], [True, True], [False, False]]], fill_value=1e+20, dtype='float32')).all()) self.assertEqual(tas.data.get_compression_type(), 'gathered') self.assertTrue((tas.data.compressed_array == numpy.array( [[280., 282.5, 281.], [279., 278., 277.5]], dtype='float32')).all()) self.assertTrue((tas.data.get_list().data.array == numpy.array( [1, 4, 5])).all())
def test_GATHERING_create(self): """Test the creation of a construct with a gathered array.""" # Define the gathered values gathered_array = numpy.array([[280, 282.5, 281], [279, 278, 277.5]], dtype="float32") # Define the list array values list_array = [1, 4, 5] # Initialise the list variable list_variable = cfdm.List(data=cfdm.Data(list_array)) # Initialise the gathered array object array = cfdm.GatheredArray( compressed_array=cfdm.Data(gathered_array), compressed_dimension=1, shape=(2, 3, 2), size=12, ndim=3, list_variable=list_variable, ) # Create the field construct with the domain axes and the # gathered array tas = cfdm.Field(properties={ "standard_name": "air_temperature", "units": "K" }) # Create the domain axis constructs for the uncompressed array T = tas.set_construct(cfdm.DomainAxis(2)) Y = tas.set_construct(cfdm.DomainAxis(3)) X = tas.set_construct(cfdm.DomainAxis(2)) # Set the data for the field tas.set_data(cfdm.Data(array), axes=[T, Y, X]) self.assertTrue((tas.data.array == numpy.ma.masked_array( data=[ [[1, 280.0], [1, 1], [282.5, 281.0]], [[1, 279.0], [1, 1], [278.0, 277.5]], ], mask=[ [[True, False], [True, True], [False, False]], [[True, False], [True, True], [False, False]], ], fill_value=1e20, dtype="float32", )).all()) self.assertEqual(tas.data.get_compression_type(), "gathered") self.assertTrue((tas.data.compressed_array == numpy.array( [[280.0, 282.5, 281.0], [279.0, 278.0, 277.5]], dtype="float32", )).all()) self.assertTrue( (tas.data.get_list().data.array == numpy.array([1, 4, 5])).all())
p[1, :, 3:5] p.data.get_compression_type() p.data[1] = -9 p.data.get_compression_type() import numpy import cfdm # Define the gathered values gathered_array = cfdm.Data([[2, 1, 3], [4, 0, 5]]) # Define the list array values list_array = [1, 4, 5] # Create the list variable list_variable = cfdm.List(data=cfdm.Data(list_array)) # Create the gathered array object, specifying the uncompressed # shape array = cfdm.GatheredArray( compressed_array=gathered_array, compressed_dimension=1, shape=(2, 3, 2), size=12, ndim=3, list_variable=list_variable) # Create the field construct with the domain axes and the gathered # array P = cfdm.Field(properties={'standard_name': 'precipitation_flux', 'units': 'kg m-2 s-1'}) # Create the domain axis constructs for the uncompressed array