def test_netCDF_gridded_hybrid_height_partial_with_multi_kernel(self): # Takes 2s variable = valid_hybrid_height_variable filename = valid_hybrid_height_filename arguments = ['collapse', variable + ':' + escape_colons(filename), 't', '-o', self.OUTPUT_FILENAME] main_arguments = parse_args(arguments) collapse_cmd(main_arguments) self.check_output_contains_variables(self.OUTPUT_FILENAME, variable.split(','))
def test_collapse_cis_gridded(self): # Takes 1s variable = '*' filename = valid_cis_gridded_output_filename arguments = ['collapse', variable + ':' + escape_colons(filename) + ':kernel=mean,product=NetCDF_Gridded', 'x,y', '-o', self.OUTPUT_FILENAME] main_arguments = parse_args(arguments) collapse_cmd(main_arguments) self.check_output_contains_variables(self.OUTPUT_FILENAME, ['TAU_2D_550nm'])
def test_collapse_over_time(self): # Takes 14s variable = 'od550aer' filename = valid_hadgem_filename arguments = ['collapse', variable + ':' + escape_colons(filename) + ':kernel=mean', 't', '-o', self.OUTPUT_FILENAME] main_arguments = parse_args(arguments) collapse_cmd(main_arguments) self.check_output_contains_variables(self.OUTPUT_FILENAME, variable.split(',')) self.check_shape_collapse('od550aer', (192, 76))
def test_collapse_over_latlon(self): # Takes 20s variable = '*' filename = valid_hadgem_filename arguments = ['collapse', variable + ':' + escape_colons(filename) + ':kernel=mean', 'x,y', '-o', self.OUTPUT_FILENAME] main_arguments = parse_args(arguments) collapse_cmd(main_arguments) self.check_output_contains_variables(self.OUTPUT_FILENAME, ['od550aer']) self.check_shape_collapse('od550aer', (240,))
def test_collapse_over_time(self): # Takes 14s variable = 'od550aer' filename = valid_hadgem_filename arguments = ['collapse', variable + ':' + escape_colons(filename) + ':kernel=mean', 't', '-o', self.OUTPUT_FILENAME] main_arguments = parse_args(arguments) collapse_cmd(main_arguments) self.check_output_contains_variables(self.OUTPUT_FILENAME, variable.split(',')) self.check_shape_collapse('od550aer', (1, 192, 76))
def test_collapse_MODIS_L3(self): # Takes 30s variable = 'Optical_Depth_Ratio_Small_Land_And_Ocean_Std_Deviation_Mean,Solar_Zenith_Std_Deviation_Mean,' \ 'Solar_Azimuth_Std_Deviation_Mean,Optical_Depth_Ratio_Small_Land_And_Ocean_Pixel_Counts,' \ 'Optical_Depth_Ratio_Small_Land_QA_Std_Deviation_Mean' filename = valid_modis_l3_filename + ',' + valid_modis_l3_filename2 arguments = ['collapse', variable + ':' + escape_colons(filename), 't', '-o', self.OUTPUT_FILENAME] main_arguments = parse_args(arguments) collapse_cmd(main_arguments) self.check_output_contains_variables(self.OUTPUT_FILENAME, variable.split(','))
def test_collapse_MODIS_L3(self): # Takes 30s variable = 'Optical_Depth_Ratio_Small_Land_And_Ocean_Std_Deviation_Mean,Solar_Zenith_Std_Deviation_Mean,' \ 'Solar_Azimuth_Std_Deviation_Mean,Optical_Depth_Ratio_Small_Land_And_Ocean_Pixel_Counts,' \ 'Optical_Depth_Ratio_Small_Land_QA_Std_Deviation_Mean' filename = valid_modis_l3_filename arguments = ['collapse', variable + ':' + escape_colons(filename), 't', '-o', self.OUTPUT_FILENAME] main_arguments = parse_args(arguments) collapse_cmd(main_arguments) self.check_output_contains_variables(self.OUTPUT_FILENAME, variable.split(','))
def test_collapse_netCDF_gridded_HadGem_multikernel(self): # Takes 1s variable = 'od550aer' filename = valid_hadgem_filename grid = 'x,y' arguments = ['collapse', variable + ':' + escape_colons(filename) + ':kernel=moments', grid, '-o', self.OUTPUT_FILENAME] main_arguments = parse_args(arguments) collapse_cmd(main_arguments) expected_vars = ['od550aer', 'od550aer_std_dev', 'od550aer_num_points'] self.check_output_contains_variables(self.OUTPUT_FILENAME, expected_vars)