def test_variable_rename(): """Tests to make sure that variable renaming works""" loc = data_locations['binary'] data_files = [os.path.join(loc, f) for f in os.listdir(loc)] out_dir = '.' params = { 'start': dates['binary'][0], 'stop': dates['binary'][1], 'forcing_fmt': 'binary', 'domain_fmt': 'netcdf', 'state_fmt': 'netcdf', 'domain': './metsim/data/stehekin.nc', 'state': './metsim/data/state_vic.nc', 'forcing': data_files, 'method': 'mtclim', 'scheduler': 'threading', 'time_step': "60", 'out_dir': out_dir, 'out_state': os.path.join(out_dir, 'state.nc'), 'out_vars': { 'prec': { 'out_name': 'pptrate' }, 'shortwave': { 'out_name': 'SWRadAtm' } }, 'forcing_vars': in_vars_section['binary'], 'domain_vars': domain_section['binary'] } ms = MetSim(params) ms.run() ds = ms.open_output() assert 'pptrate' in ds.variables assert 'SWRadAtm' in ds.variables
def test_yaml_config(): filename = './examples/example_yaml.yaml' conf = io.read_config(DummyOpts(filename)) out_dir = tempfile.mkdtemp('results') conf['out_dir'] = out_dir ms = MetSim(conf) ms.run() assert ms.open_output() is not None
def test_examples(kind): filename = './examples/example_{kind}.conf'.format(kind=kind) conf = io.read_config(DummyOpts(filename)) out_dir = tempfile.mkdtemp('results') conf['out_dir'] = out_dir ms = MetSim(conf) ms.run() assert ms.open_output() is not None
def main(): """Runs MetSim""" from metsim.metsim import MetSim setup = init(parse(sys.argv[1:])) ms = MetSim(setup) if ms.params['nprocs'] > 1: ms.launch() else: ms.run()
def test_disaggregation_values(): """Tests to make sure values are being generated correctly""" # Set parameters loc = data_locations['binary'] data_files = [os.path.join(loc, f) for f in os.listdir(loc)] out_vars = [ 'prec', 'temp', 'shortwave', 'longwave', 'vapor_pressure', 'wind', 'rel_humid' ] params = { 'start': dates['binary'][0], 'stop': dates['binary'][1], 'in_format': 'binary', 'out_format': 'ascii', 'domain': './tests/data/stehekin.nc', 'forcings': data_files, 'method': 'mtclim', 'time_step': "60", 't_max_lr': 0.00065, 't_min_lr': 0.00065, 'out_dir': "./tmp", 'out_vars': out_vars, 'in_vars': in_vars_section['binary'], 'domain_vars': domain_section['binary'] } # The location we will test against loc = (1, 4) # Set up the MetSim object ms = MetSim(params) ms.load(params['forcings']) # Run MetSim and load in the validated data ms.run([loc]) out = ms.output.isel(lat=loc[0], lon=loc[1]).to_dataframe()[:-1][out_vars] good = pd.read_table('./tests/data/validated_48.3125_-120.5625', names=out_vars) good.index = out.index # Make sure the data comes out right assert type(out) is pd.DataFrame for var in ms.params['out_vars']: # Check to make sure each variable has normalized # rmse of less than 0.02 h = max([good[var].max(), out[var].max()]) l = min([good[var].min(), out[var].min()]) nrmse = np.sqrt((good[var] - out[var]).pow(2).mean()) / (h - l) assert nrmse < 0.02
def test_disaggregation_values(): """Tests to make sure values are being generated correctly""" # Set parameters loc = data_locations['binary'] data_files = [os.path.join(loc, f) for f in os.listdir(loc)] out_vars = [ 'prec', 'temp', 'shortwave', 'longwave', 'vapor_pressure', 'wind', 'rel_humid', 'spec_humid', 'air_pressure' ] out_dir = tempfile.mkdtemp('results') params = { 'start': dates['binary'][0], 'stop': dates['binary'][1], 'forcing_fmt': 'binary', 'domain_fmt': 'netcdf', 'state_fmt': 'netcdf', 'domain': './metsim/data/stehekin.nc', 'state': './metsim/data/state_vic.nc', 'forcing': data_files, 'method': 'mtclim', 'scheduler': 'threading', 'time_step': "60", 'out_dir': out_dir, 'out_state': os.path.join(out_dir, 'state.nc'), 'out_vars': {n: metsim.metsim.available_outputs[n] for n in out_vars}, 'forcing_vars': in_vars_section['binary'], 'domain_vars': domain_section['binary'] } # The location we will test against loc = (1, 4) def check_data(out, good, tol=0.03): assert isinstance(out, pd.DataFrame) for var in ms.params['out_vars'].keys(): # Check to make sure each variable has normalized # rmse of less than 0.02 h = max([good[var].max(), out[var].max()]) l = min([good[var].min(), out[var].min()]) nrmse = np.sqrt((good[var] - out[var]).pow(2).mean()) / (h - l) print(var, nrmse) assert nrmse < tol # Set up the MetSim object ms = MetSim(params) # Run MetSim and load in the validated data ms.run() ds = ms.open_output() out = ds.isel(lat=loc[0], lon=loc[1]).to_dataframe()[out_vars] good = pd.read_table('./metsim/data/validated_48.3125_-120.5625', names=out_vars) good.index = out.index # Make sure the data comes out right check_data(out, good) ds.close() # Now do 3 hourly params['time_step'] = '180' ms = MetSim(params) ms.run() ds = ms.open_output() out = ds.isel(lat=loc[0], lon=loc[1]).to_dataframe()[out_vars] good = pd.read_table('./metsim/data/three_hourly_48.3125_-120.5625', names=out_vars) good.index = out.index # Make sure the data comes out right check_data(out, good, tol=0.2) ds.close()
def test_unit_conversion(): """Tests to make sure that variable renaming works""" loc = data_locations['binary'] data_files = [os.path.join(loc, f) for f in os.listdir(loc)] out_dir = '.' params = { 'start': dates['binary'][0], 'stop': dates['binary'][1], 'forcing_fmt': 'binary', 'domain_fmt': 'netcdf', 'state_fmt': 'netcdf', 'domain': './metsim/data/stehekin.nc', 'state': './metsim/data/state_vic.nc', 'forcing': data_files, 'method': 'mtclim', 'scheduler': 'threading', 'time_step': "60", 'out_dir': out_dir, 'out_state': os.path.join(out_dir, 'state.nc'), 'out_vars': { 'prec': { 'out_name': 'pptrate', 'units': 'mm s-1' }, 'temp': { 'out_name': 'airtemp', 'units': 'K' } }, 'forcing_vars': in_vars_section['binary'], 'domain_vars': domain_section['binary'] } params1 = dict() params1.update(params) params2 = dict() params2.update(params) params2['out_vars'] = { 'prec': { 'out_name': 'pptrate', 'units': 'mm timestep-1' }, 'temp': { 'out_name': 'airtemp', 'units': 'C' } } ms1 = MetSim(params1) ms1.run() ds1 = ms1.open_output().load() ds1.close() time_step = int(params['time_step']) sec_per_min = 60. tol = 1e-4 ms2 = MetSim(params2) ms2.run() ds2 = ms2.open_output().load() assert np.allclose(ds1['airtemp'].mean(), ds2['airtemp'].mean() + 273.15, atol=tol) assert np.allclose(time_step * sec_per_min * ds1['pptrate'].mean(), ds2['pptrate'].mean(), atol=tol)
def main(): """Runs MetSim""" from metsim.metsim import MetSim setup = init(parse(sys.argv[1:])) ms = MetSim(setup) ms.run()
def test_passthrough(): """Test to make sure passing through previously estimated variables doesn't alter the values from disaggregation""" loc = data_locations['binary'] data_files = [os.path.join(loc, f) for f in os.listdir(loc)] out_dir = '.' params = { 'start': dates['binary'][0], 'stop': dates['binary'][1], 'forcing_fmt': 'binary', 'domain_fmt': 'netcdf', 'state_fmt': 'netcdf', 'domain': './metsim/data/stehekin.nc', 'state': './metsim/data/state_vic.nc', 'forcing': data_files, 'method': 'mtclim', 'scheduler': 'threading', 'time_step': "60", 'out_dir': out_dir, 'out_state': os.path.join(out_dir, 'state.nc'), 'out_vars': { 'prec': { 'out_name': 'prec' }, 'temp': { 'out_name': 'temp' }, 'longwave': { 'out_name': 'longwave' }, 'vapor_pressure': { 'out_name': 'vapor_pressure' }, 'shortwave': { 'out_name': 'shortwave' } }, 'forcing_vars': in_vars_section['binary'], 'domain_vars': domain_section['binary'] } # Second run will be to use mtclim and hourly disagg params1 = dict() params1.update(params) params1['out_prefix'] = 'mtclim' ms1 = MetSim(params1) ms1.run() with ms1.open_output() as ds: mtclim_ds = ds.load() # Third run will be to use passthrough and hourly disagg # with input data from teh first run params2 = dict() params2.update(params) params2['method'] = 'passthrough' params2['out_prefix'] = 'passthrough' params2['forcing_vars'] = OrderedDict(prec='prec', t_max='t_max', t_min='t_min', wind='wind', shortwave='shortwave', vapor_pressure='vapor_pressure') params2['forcing_fmt'] = 'netcdf' params2['forcing'] = './metsim/data/passthrough.nc' ms2 = MetSim(params2) ms2.run() with ms2.open_output() as ds: passthrough_ds = ds.load() tol = 1e-4 assert np.allclose(passthrough_ds['shortwave'].mean(), mtclim_ds['shortwave'].mean(), atol=tol) assert np.allclose(passthrough_ds['vapor_pressure'].mean(), mtclim_ds['vapor_pressure'].mean(), atol=tol) assert np.allclose(passthrough_ds['longwave'].mean(), mtclim_ds['longwave'].mean(), atol=tol)