def process_file(filename, outdir, debug=False, verbose=False):
"""
"""
if verbose:
print 'Processing file: {}'.format(os.path.basename(filename))
# Read radar data
radar = read_mdv(filename, exclude_fields=EXLUDE_FIELDS)
if debug:
print 'Number of sweeps: {}'.format(radar.nsweeps)
# Step 1: Remove last 7 gates from each ray
# These gates are reserved for signal testing only
for field in radar.fields.keys():
if verbose:
print 'Removing signal testing gates: {}'.format(field)
radar.fields[field]['data'][:,-7:] = np.ma.masked
# Step 2: Radar significant detection
# Includes Doppler velocity coherency, Doppler velocity phasor coherency,
# and significant echo boundary detection
gf = noise.velocity_coherency(
radar, gatefilter=None, text_bins=VDOP_TEXT_BINS,
text_limits=VDOP_TEXT_LIMITS, texture_window=TEXTURE_WINDOW,
texture_sample=TEXTURE_SAMPLE, max_texture=None, nyquist=None,
rays_wrap_around=False, remove_small_features=False, fill_value=None,
vdop_field=VDOP_FIELD, text_field=None, coherent_field=None,
debug=debug, verbose=verbose)
gf = noise.velocity_phasor_coherency(
radar, gatefilter=gf, text_bins=PHASOR_TEXT_BINS,
text_limits=PHASOR_TEXT_LIMITS, texture_window=TEXTURE_WINDOW,
texture_sample=TEXTURE_SAMPLE, max_texture=None,
rays_wrap_around=False, remove_small_features=False, fill_value=None,
vdop_field=VDOP_FIELD, phasor_field=None, text_field=None,
coherent_field=None, debug=debug, verbose=verbose)
gf = noise.echo_boundaries(
radar, gatefilter=gf, texture_window=TEXTURE_WINDOW,
texture_sample=TEXTURE_SAMPLE, min_texture=None,
bounds_percentile=BOUNDS_PERCENTILE, remove_small_features=False,
rays_wrap_around=False, fill_value=None, sqi_field=NCP_FIELD,
text_field=None, bounds_field=None, debug=debug, verbose=verbose)
gf = noise.significant_detection(
radar, gatefilter=gf, remove_small_features=True, size_bins=SIZE_BINS,
size_limits=SIZE_LIMITS, fill_holes=FILL_HOLES, dilate=DILATE,
structure=STRUCTURE, iterations=ITERATIONS, min_ncp=MIN_NCP,
ncp_field=NCP_FIELD, detect_field=None, debug=debug, verbose=verbose)
# Step 3: Compute radar texture fields
texture_fields.add_textures(
radar, fields=TEXTURE_FIELDS, gatefilter=None,
texture_window=TEXTURE_WINDOW, texture_sample=TEXTURE_SAMPLE,
min_sweep=None, max_sweep=None, min_range=None, max_range=None,
min_ncp=None, rays_wrap_around=False, fill_value=None,
ncp_field=NCP_FIELD)
# Step 4: Doppler velocity correction
if DEALIAS.upper() == 'REGION':
vdop_corr = dealias_region_based(
radar, gatefilter=gf, interval_splits=INTERVAL_SPLITS,
interval_limits=None, skip_between_rays=2, skip_along_ray=2,
centered=True, nyquist_vel=None, rays_wrap_around=True,
keep_original=False, vel_field=VDOP_FIELD,
corr_vel_field=CORR_VDOP_FIELD)
else:
raise ValueError('Unsupported velocity correction routine')
radar.add_field(CORR_VDOP_FIELD, vdop_corr, replace_existing=False)
# TODO
# Step 5: Reflectivity correction
refl_corr = radar.fields[REFL_FIELD].copy()
radar.add_field(CORR_REFL_FIELD, refl_corr, replace_existing=False)
# Step 6: Interpolate missing gates
basic_fixes.interpolate_missing(
radar, fields=FILL_FIELDS, interp_window=FILL_WINDOW,
interp_sample=FILL_SAMPLE, kind='mean', rays_wrap_around=False,
fill_value=None, debug=debug, verbose=verbose)
# Step 7: Remove unwanted fields before writing
for field in REMOVE_FIELDS:
if verbose:
print 'Removing radar field before writing: {}'.format(field)
radar.fields.pop(field, None)
# Parse metadata
_add_metadata(radar, filename)
# ARM file name protocols
date = datetimes_from_radar(radar).min().strftime('%Y%m%d.%H%M%S')
fname = 'sgpcsaprsurcmac{}.{}.{}.cdf'.format(FN, DL, date)
# Write CMAC NetCDF file
write_cfradial(os.path.join(outdir, fname), radar, format=FORMAT,
arm_time_variables=True)
return
def process_file(filename, outdir, verbose=False):
"""
"""
if verbose:
print 'Processing file: {}'.format(os.path.basename(filename))
# Read radar data
radar = read_sigmet(filename, exclude_fields=EXLUDE_FIELDS)
# Radar significant detection
# Includes Doppler velocity coherency, spectrum width coherency, and
# minimum normalized coherent power
gf = noise.velocity_coherency(
radar, gatefilter=None, num_bins=VDOP_COHER_BINS,
limits=VDOP_COHER_LIMITS, texture_window=TEXTURE_WINDOW,
texture_sample=TEXTURE_SAMPLE, min_sigma=None, max_sigma=None,
rays_wrap_around=False, remove_salt=False, fill_value=None,
vdop_field=VDOP_FIELD, vdop_text_field=None, cohere_field=None,
verbose=verbose)
gf = noise.velocity_phasor_coherency(
radar, gatefilter=gf, num_bins=PHASE_COHER_BINS,
limits=PHASE_COHER_LIMITS, texture_window=TEXTURE_WINDOW,
texture_sample=TEXTURE_SAMPLE, min_sigma=None, max_sigma=None,
rays_wrap_around=False, remove_salt=False, fill_value=None,
vdop_field=VDOP_FIELD, vdop_phase_field=None, phase_text_field=None,
cohere_field=None, verbose=verbose)
gf = noise.spectrum_width_coherency(
radar, gatefilter=gf, num_bins=SW_COHER_BINS,
limits=SW_COHER_LIMITS, texture_window=TEXTURE_WINDOW,
texture_sample=TEXTURE_SAMPLE, min_sigma=None, max_sigma=None,
rays_wrap_around=False, remove_salt=False, fill_value=None,
width_field=SW_FIELD, width_text_field=None, cohere_field=None,
verbose=verbose)
gf = noise.significant_detection(
radar, gatefilter=gf, remove_salt=True, salt_window=SALT_WINDOW,
salt_sample=SALT_SAMPLE, fill_holes=False, dilate=DILATE,
structure=None, min_ncp=MIN_NCP, ncp_field=NCP_FIELD,
detect_field=None, verbose=verbose)
# Compute radar texture fields
texture_fields.add_textures(
radar, fields=TEXTURE_FIELDS, gatefilter=None,
texture_window=TEXTURE_WINDOW, texture_sample=TEXTURE_SAMPLE,
min_sweep=None, max_sweep=None, min_range=None, max_range=None,
min_ncp=None, rays_wrap_around=False, fill_value=None,
ncp_field=NCP_FIELD)
# Echo classification
bayes.classify(
radar, textures=TEXTURES, moments=MOMENTS, heights=HEIGHTS,
nonprecip_map=None, gatefilter=gf, weights=1.0, class_prob='equal',
min_inputs=3, zero=ZERO, ignore_inputs=IGNORE_INPUTS, use_insects=True,
fill_value=None, cloud_field=CLOUD_FIELD, ground_field=GROUND_FIELD,
insect_field=INSECT_FIELD, ncp_field=NCP_FIELD, verbose=verbose)
# Filter ground clutter gates
gf.exclude_equal(
'radar_echo_classification', 1, exclude_masked=True, op='or')
# Doppler velocity correction
vdop_corr = dealias_region_based(
radar, gatefilter=gf, interval_splits=3, interval_limits=None,
skip_between_rays=2, skip_along_ray=2, centered=True, nyquist_vel=None,
rays_wrap_around=True, keep_original=False, vel_field=VDOP_FIELD,
corr_vel_field=CORR_VDOP_FIELD)
radar.add_field(CORR_VDOP_FIELD, vdop_corr, replace_existing=False)
# TODO: reflectivity correction
# Parse metadata
radar.metadata = _create_metadata(radar, filename)
# ARM file name protocols
date = datetime_from_radar(radar).strftime('%Y%m%d.%H%M%S')
filename = 'sgpxsaprppicmac{}.{}.{}.cdf'.format(FN, DL, date)
# Write CMAC NetCDF file
write_cfradial(os.path.join(outdir, filename), radar, format=FORMAT,
arm_time_variables=True)
return