Exemplo n.º 1
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def test_get_bc_data_w_csdapi(setup_yaml='mac_dirpath.yml'):
    """
    Checks if WRF boundary condition data can be downloaded using the CDS api.

    This definitely works best if done on Magma using setup_yaml='dirpath.yml',
    but if you do want to run it on your local machine make sure that you change
    setup_yaml='local_dirpath.yml', where local_dirpath.yml is a yaml file where
    you specify root directory paths.

    Note to self: this test only works on the linux pc.
    """
    if on_magma:
        wrf_sim = WRFModel(param_ids, start_date, end_date, bc_data='ERA5')
    else:
        print(
            f'WARNING: this test requires you to manually provide setup_yaml!\n'
            f'You have specified {setup_yaml}.')
        wrf_sim = WRFModel(param_ids,
                           start_date,
                           end_date,
                           bc_data='ERA5',
                           setup_yaml=setup_yaml)
    vtable_sfx = wrf_sim.get_bc_data()
    print(f'The following data files are in {wrf_sim.DIR_DATA_TMP}:\n')
    [print(name) for name in os.listdir(wrf_sim.DIR_DATA_TMP)]
    assert vtable_sfx == 'ERA-interim.pl'
    assert len([name for name in os.listdir(wrf_sim.DIR_DATA_TMP)]) > 0
Exemplo n.º 2
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def test_process_wrfout_data():
    wrf_sim = WRFModel(param_ids, start_date, end_date)
    wrfout_file = wrf_sim.DIR_WRFOUT + 'wrfout_d01.nc'
    if not os.path.exists(wrfout_file):
        print(f'\nYour have an incorrect wrfout file path:\n{wrfout_file}.')
        raise FileNotFoundError
    wrf_sim.process_wrfout_data()
    processed_wrfout_file = wrf_sim.DIR_WRFOUT + 'wrfout_processed_d01.nc'
    assert os.path.exists(processed_wrfout_file) == 1
Exemplo n.º 3
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def test_wrfdir_setup():
    """If on AWS, Cheyenne, or Magma, tests that the WRF directory can be setup correclty."""
    if [on_aws, on_cheyenne, on_magma].count(True) is 0:
        print(
            '\n!!!Not running test_wrfdir_setup -- switch to Magma, Cheyenne, or AWS.'
        )
        return
    wrf_sim = WRFModel(param_ids, start_date, end_date)
    vtable_sfx = wrf_sim.get_bc_data()
    wrf_sim.wrfdir_setup(vtable_sfx)
    assert os.path.exists(wrf_sim.DIR_RUNWRF + 'wrf2era_error.ncl') == 1
Exemplo n.º 4
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def test_process_era5_data():
    if [on_aws, on_cheyenne, on_magma].count(True) is 0:
        print(
            '\n!!!Not running test_process_era5_data -- switch to Magma, Cheyenne, or AWS.'
        )
        return
    wrf_sim = WRFModel(param_ids, start_date, end_date)
    wrf_sim.process_era5_data()
    ERA5_ROOT = '/share/mzhang/jas983/wrf_data/data/ERA5/'
    processed_era_file = ERA5_ROOT + 'ERA5_EastUS_WPD-GHI_' \
                         + wrf_sim.forecast_start.strftime('%Y') + '-' \
                         + wrf_sim.forecast_start.strftime('%m') + '.nc'
    assert os.path.exists(processed_era_file) == 1
Exemplo n.º 5
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def test_WRFModel():
    """Checks that the WRFModel method works correctly. The assert statements assume
    that you are using dirpth.yml not one made for a local machine. Should probably
    change this at some point..."""
    wrf_sim = WRFModel(param_ids, start_date, end_date)
    assert wrf_sim.DIR_WRF == '/home/jas983/models/wrf/WRF/'
    assert wrf_sim.DIR_WPS_GEOG == '/share/mzhang/jas983/wrf_data/WPS_GEOG/'
    assert wrf_sim.DIR_RUNWRF == '/share/mzhang/jas983/wrf_data/met4ene/optwrf/optwrf/'
    assert wrf_sim.start_date == start_date
Exemplo n.º 6
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def test_run_wps():
    """If on AWS, Cheyenne, or Magma, tests that WPS runs successfully."""
    if [on_aws, on_cheyenne, on_magma].count(True) is 0:
        print(
            '\n!!!Not running test_run_wps -- switch to Magma, Cheyenne, or AWS.'
        )
        return
    wrf_sim = WRFModel(param_ids, start_date, end_date)
    vtable_sfx = wrf_sim.get_bc_data()
    wrf_sim.wrfdir_setup(vtable_sfx)
    wrf_sim.prepare_namelists()
    success = wrf_sim.run_wps()
    lastmetfile = f'met_em.d{str(wrf_sim.n_domains).zfill(2)}.{wrf_sim.forecast_end.strftime("%Y-%m-%d")}_00:00:00.nc'
    assert success is True
    assert os.path.exists(wrf_sim.DIR_WRFOUT + lastmetfile)
Exemplo n.º 7
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def test_prepare_namelists():
    """If on AWS, Cheyenne, or Magma, tests that the template namelists can be edited
    to reflect the desired configuration for the current WRF model run."""
    if [on_aws, on_cheyenne, on_magma].count(True) is 0:
        print(
            '\n!!!Not running test_prepare_namelists -- switch to Magma, Cheyenne, or AWS.'
        )
        return
    wrf_sim = WRFModel(param_ids, start_date, end_date)
    vtable_sfx = wrf_sim.get_bc_data()
    wrf_sim.wrfdir_setup(vtable_sfx)
    wrf_sim.prepare_namelists()
    assert 0 == 0
Exemplo n.º 8
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def test_wrf_era5_diff_pyresample():
    if [on_aws, on_cheyenne, on_magma].count(True) is 0:
        print(
            '\n!!!Not running test_wrf_era5_diff -- switch to Magma, Cheyenne, or AWS.'
        )
        return
    wrf_sim = WRFModel(param_ids, start_date, end_date)
    processed_wrfout_file = wrf_sim.DIR_WRFOUT + 'wrfout_processed_d01.nc'
    ERA5_ROOT = '/share/mzhang/jas983/wrf_data/data/ERA5/'
    processed_era_file = ERA5_ROOT + 'ERA5_EastUS_WPD-GHI_' \
                         + wrf_sim.forecast_start.strftime('%Y') + '-' \
                         + wrf_sim.forecast_start.strftime('%m') + '.nc'

    if not os.path.exists(processed_wrfout_file):
        wrf_sim.process_wrfout_data()
    if not os.path.exists(processed_era_file):
        wrf_sim.process_era5_data()
    mae = wrf_sim.wrf_era5_diff(method='pyresample')
    total_error = sum(mae)
    assert total_error >= 0
"""
Process ERA5 Data
=================

This example lets you manually process the ERA5 data. I created this because
restarting OptWRF is difficult (high-memory) unless all files have been created previously.
"""

from optwrf.runwrf import WRFModel


# Specify desired physics options set below
param_ids = [8, 7, 3, 1, 1, 10, 1]

# Specify the desired start date below
start_date = 'Aug 11  2011'
end_date = 'Aug 12 2011'

# Run get wrf fitness function
wrf_sim = WRFModel(param_ids, start_date, end_date, verbose=True)
wrf_sim.process_era5_data()
Exemplo n.º 10
0
def get_wrf_fitness(param_ids, start_date='Jan 15 2011', end_date='Jan 16 2011',
                    bc_data='ERA', n_domains=1, correction_factor=0.0004218304553577255,
                    setup_yaml='dirpath.yml', disable_timeout=False, verbose=False):
    """
    Using the input physics parameters, date, boundary condition, and domain data,
    this function runs the WRF model and computes the error between WRF and ERA5.

    :param param_ids: list of integers
        corresponding to each WRF physics parameterization.
    :param start_date: string
        specifying a desired start date.
    :param end_date: string
        specifying a desired end date.
    :param bc_data: string
        specifying the boundary condition data to be used for the WRF forecast.
        Currently, only ERA data (ds627.0) is supported.
    :param n_domains: integer
        specifing the number of WRF model domains. 1 - 3 domains are currently supported.
    :param correction_factor: float
        capuring the relationship between GHI and wind power density (WPD) errors averaged
        across an entrie year. Calculated using opwrf/examples/Fitness_correction_factor.py.
    :param setup_yaml: string
        defining the path to the yaml file where input directory paths are specified.
    :param disable_timeout: boolean (default = False)
        telling runwrf if subprogram timeouts are allowed or not.
    :param verbose: boolean (default = False)
        instructing the program to print everything or just key information to the screen.
    :return fitness: float
        value denoting how well the WRF model run performed.
        Fitness is a measure of accumlated error, so a lower value is better.

    """
    if verbose:
        print('- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -')
        print('\nCalculating fitness for: {}'.format(param_ids))

    # Create a WRFModel instance
    wrf_sim = WRFModel(param_ids, start_date, end_date,
                       bc_data=bc_data, n_domains=n_domains, setup_yaml=setup_yaml, verbose=verbose)

    # Check to see if WRFModel instance exists; if not, run the WRF model.
    wrfout_file_path = wrf_sim.DIR_WRFOUT + 'wrfout_d01.nc'
    orig_wrfout_file_path = wrf_sim.DIR_WRFOUT + 'wrfout_d01_' \
                       + wrf_sim.forecast_start.strftime('%Y') + '-' \
                       + wrf_sim.forecast_start.strftime('%m') + '-' \
                       + wrf_sim.forecast_start.strftime('%d') + '_00:00:00'
    if [os.path.exists(file) for file in [wrfout_file_path, orig_wrfout_file_path]].count(True) is 0:
        # Next, get boundary condition data for the simulation
        # ERA is the only supported data type right now.
        vtable_sfx = wrf_sim.get_bc_data()

        # Setup the working directory to run the simulation
        success = wrf_sim.wrfdir_setup(vtable_sfx)

        # Prepare the namelists
        if success:
            success = wrf_sim.prepare_namelists()

        # Run WPS
        if success:
            success = wrf_sim.run_wps(disable_timeout)
            if verbose:
                print(f'WPS ran successfully? {success}')

        # Run REAL
        if success:
            success = wrf_sim.run_real(disable_timeout)
            if verbose:
                print(f'Real ran successfully? {success}')

        # RUN WRF
        if success:
            success, runtime = wrf_sim.run_wrf(disable_timeout)
            if verbose:
                print(f'WRF ran successfully? {success}')
        else:
            runtime = '00h 00m 00s'
    else:
        success = True
        runtime = '00h 00m 00s'

    # Postprocess wrfout file and ERA5 data
    if success:
        proc_wrfout_file_path = wrf_sim.DIR_WRFOUT + 'wrfout_processed_d01.nc'
        if not os.path.exists(proc_wrfout_file_path):
            if verbose:
                print(f'Postprocessing wrfout file...')
            success = wrf_sim.process_wrfout_data()
        wrf_sim.process_era5_data()

    # Compute the error between WRF run and ERA5 dataset and return fitness
    if success:
        mae = wrf_sim.wrf_era5_diff()
        ghi_total_error = mae[1]
        wpd_total_error = mae[2]
        daylight_factor = hf.daylight_frac(start_date)  # daylight fraction
        fitness = daylight_factor * ghi_total_error + correction_factor * wpd_total_error
        if verbose:
            print(f'!!! Physics options set {param_ids} has fitness {fitness}')

    else:
        ghi_total_error = 6.022 * 10 ** 23
        wpd_total_error = 6.022 * 10 ** 23
        fitness = 6.022 * 10 ** 23

    return fitness, ghi_total_error, wpd_total_error, runtime
Exemplo n.º 11
0
import os
import sys

# Define the parameters and start/end dates for the 'default' simulation
param_ids = [10, 1, 1, 2, 2, 3, 2]
start_dates = ['Jan 1 2011', 'Feb 1 2011', 'Mar 1 2011', 'Apr 1 2011',
               'May 1 2011', 'Jun 1 2011', 'Jul 1 2011', 'Aug 1 2011',
               'Sep 1 2011', 'Oct 1 2011', 'Nov 1 2011', 'Dec 1 2011']
end_dates = ['Feb 1 2011', 'Mar 1 2011', 'Apr 1 2011', 'May 1 2011',
             'Jun 1 2011', 'Jul 1 2011', 'Aug 1 2011', 'Sep 1 2011',
             'Oct 1 2011', 'Nov 1 2011', 'Dec 1 2011', 'Jan 1 2012']

# Postprocess all the wrfout files if necessary
print('Starting wrfout file processing...')
for start_date, end_date in zip(start_dates, end_dates):
    wrf_sim = WRFModel(param_ids, start_date, end_date)
    processed_wrfout_file = wrf_sim.DIR_WRFOUT + 'wrfout_processed_d01.nc'
    if not os.path.exists(processed_wrfout_file):
        wrfout_file = wrf_sim.DIR_WRFOUT + 'wrfout_d01.nc'
        if not os.path.exists(wrfout_file):
            print(f'\nYour have an incorrect wrfout file path:\n{wrfout_file}.')
            raise FileNotFoundError
        wrf_sim.process_wrfout_data()
    sys.stdout.flush()
print('!Done!')

# Process all the ERA5 data if necessary
print('Starting ERA5 file processing...')
for start_date, end_date in zip(start_dates, end_dates):
    wrf_sim = WRFModel(param_ids, start_date, end_date)
    ERA5_ROOT = '/share/mzhang/jas983/wrf_data/data/ERA5/'
Exemplo n.º 12
0
    n_domains = int(args.d)
else:
    n_domains = 3

# Format the forecast start/end and determine the total time.
start_date = args.s
end_date = args.e

# Generate a parameter combination of the 6 core parameters if the user has specified this option.
# Otherwise, use specified input parameters and use defaults for the remaining paramters.
param_ids = flexible_generate(generate_params, mp, lw, sw, lsm, pbl, cu,
                              in_yaml)

wrf_sim = WRFModel(param_ids,
                   start_date,
                   end_date,
                   bc_data=bc_data,
                   n_domains=n_domains,
                   setup_yaml=setup_yaml)

# Next, get boundary condition data for the simulation
# ERA is the only supported data type right now.
vtable_sfx = wrf_sim.get_bc_data()

# Setup the working directory to run the simulation
wrf_sim.wrfdir_setup(vtable_sfx)

# Prepare the namelist
wrf_sim.prepare_namelists()

# Run WPS
success = wrf_sim.run_wps(disable_timeout=True)
import os
import sys

# Define the parameters and start/end dates for the 'default' simulation
param_ids = [10, 1, 1, 2, 2, 3, 2]
start_dates = ['Jan 1 2011', 'Feb 1 2011', 'Mar 1 2011', 'Apr 1 2011',
               'May 1 2011', 'Jun 1 2011', 'Jul 1 2011', 'Aug 1 2011',
               'Sep 1 2011', 'Oct 1 2011', 'Nov 1 2011', 'Dec 1 2011']
end_dates = ['Feb 1 2011', 'Mar 1 2011', 'Apr 1 2011', 'May 1 2011',
             'Jun 1 2011', 'Jul 1 2011', 'Aug 1 2011', 'Sep 1 2011',
             'Oct 1 2011', 'Nov 1 2011', 'Dec 1 2011', 'Jan 1 2012']

# Postprocess all the wrfout files if necessary
print('Starting wrfout file processing...')
for start_date, end_date in zip(start_dates, end_dates):
    wrf_sim = WRFModel(param_ids, start_date, end_date)
    wrf_sim.DIR_WRFOUT = wrf_sim.DIR_MET4ENE + 'wrfout/ARW/default_all_2011/%s_' % \
                 (wrf_sim.forecast_start.strftime('%Y-%m-%d')) + wrf_sim.paramstr + '/'
    processed_wrfout_file = wrf_sim.DIR_WRFOUT + 'wrfout_processed_d01.nc'
    if not os.path.exists(processed_wrfout_file):
        wrfout_file = wrf_sim.DIR_WRFOUT + 'wrfout_d01.nc'
        if not os.path.exists(wrfout_file):
            print(f'\nYour have an incorrect wrfout file path:\n{wrfout_file}.')
            raise FileNotFoundError
        wrf_sim.process_wrfout_data()
    sys.stdout.flush()
print('!Done!')

# Process all the ERA5 data if necessary
print('Starting ERA5 file processing...')
for start_date, end_date in zip(start_dates, end_dates):