#h5_filenames = glob.glob('/home/ebruning/Mar18-19/out/thresh-0.15_dist-3000/LYLOUT*.dat.flash.h5') h5_filenames = glob.glob(h5_dir + '/20%s/LYLOUT*.dat.flash.h5' % (date.strftime('%y/%b/%d'))) h5_filenames.sort() frame_interval = 60.0 * 5 ctr_lat = centers[center_ID]['ctr_lat'] ctr_lon = centers[center_ID]['ctr_lon'] dx_km = 3.0e3 dy_km = 3.0e3 x_bnd_km = (-200e3, 200e3) y_bnd_km = (-200e3, 200e3) dx, dy, x_bnd, y_bnd = dlonlat_at_grid_center(ctr_lat, ctr_lon, dx=dx_km, dy=dy_km, x_bnd=x_bnd_km, y_bnd=y_bnd_km) print(("dx, dy = {0}, {1} deg".format(dx, dy))) print(("lon_range = {0} deg".format(x_bnd))) print(("lat_range = {0} deg".format(y_bnd))) for f in h5_filenames: y, m, d, H, M, S = tfromfile(f) # print y,m,d,H,M,S start_time = datetime(y, m, d, H, M, S) end_time = start_time + timedelta(0, 600) print(start_time, end_time) outpath = grid_dir + '/20%s' % (date.strftime('%y/%b/%d')) if os.path.exists(outpath) == False:
h5_filenames = glob.glob(h5_dir+'/20%s/LYLOUT*.dat.flash.h5' %(date.strftime('%y/%b/%d'))) h5_filenames.sort() # ----- Run flash gridding ----- frame_interval=60.0*1 # seconds dx_km=1.0e3 dy_km=1.0e3 x_bnd_km = (-200e3, 200e3) y_bnd_km = (-200e3, 200e3) ctr_lat = centers[center_ID]['ctr_lat'] ctr_lon = centers[center_ID]['ctr_lon'] dx, dy, x_bnd, y_bnd = dlonlat_at_grid_center(ctr_lat, ctr_lon, dx=dx_km, dy=dy_km, x_bnd = x_bnd_km, y_bnd = y_bnd_km ) print("dx, dy = {0}, {1} deg".format(dx,dy)) print("lon_range = {0} deg".format(x_bnd)) print("lat_range = {0} deg".format(y_bnd)) if True: for f in h5_filenames: y,m,d,H,M,S = tfromfile(f) # print y,m,d,H,M,S start_time = datetime(y,m,d, H,M,S) end_time = start_time + timedelta(0,600) print start_time, end_time outpath = grid_dir+'/20%s' %(date.strftime('%y/%b/%d'))
def test_sort_and_grid_and_plot(outpath): """ Given an output path, run sample data included in lmatools through flash sorting and gridding""" base_sort_dir = outpath logger_setup(outpath) files = get_sample_data_list() center_ID = 'WTLMA' ctr_lat, ctr_lon = 33.5, -101.5 params = {'stations':(6,13), 'chi2':(0,1.0), 'ctr_lat':ctr_lat, 'ctr_lon':ctr_lon, 'distance':3000.0, 'thresh_critical_time':0.15, 'mask_length':6, } h5_dir = os.path.join(base_sort_dir, 'h5_files') grid_dir = os.path.join(base_sort_dir, 'grid_files') plot_dir = os.path.join(base_sort_dir, 'plots') y,m,d,H,M,S = tfromfile(files[0]) date = datetime(y,m,d, H,M,S) # Create HDF5 flash files base_out_dir = (h5_dir+"/20%s" %(date.strftime('%y/%b/%d'))) if os.path.exists(base_out_dir) == False: os.makedirs(base_out_dir) subprocess.call(['chmod', 'a+w', base_out_dir, h5_dir+'/20%s' %(date.strftime('%y/%b')), h5_dir+'/20%s' %(date.strftime('%y'))]) tag = '' outdir = os.path.join(base_out_dir, tag) info = open(os.path.join(outdir, 'input_params.py'), 'w') info.write(str(params)) info.close() run_files_with_params(files, outdir, params, cluster, retain_ascii_output=False, cleanup_tmp=True) # Figure out which HDF5 files were created h5_filenames = glob.glob(h5_dir+'/20%s/LYLOUT*.dat.flash.h5' %(date.strftime('%y/%b/%d'))) h5_filenames.sort() # Create NetCDF gridded data frame_interval=60.0*2 # seconds dx_km=3.0e3 # meters dy_km=3.0e3 x_bnd_km = (-200e3, 200e3) y_bnd_km = (-200e3, 200e3) # There are similar functions in lmatools to grid on a regular x,y grid in some map projection. dx, dy, x_bnd, y_bnd = dlonlat_at_grid_center(ctr_lat, ctr_lon, dx=dx_km, dy=dy_km, x_bnd = x_bnd_km, y_bnd = y_bnd_km ) # print("dx, dy = {0}, {1} deg".format(dx,dy)) # print("lon_range = {0} deg".format(x_bnd)) # print("lat_range = {0} deg".format(y_bnd)) for f in h5_filenames: y,m,d,H,M,S = tfromfile(f) # print y,m,d,H,M,S start_time = datetime(y,m,d, H,M,S) end_time = start_time + timedelta(0,600) # print start_time, end_time outpath = grid_dir+'/20%s' %(date.strftime('%y/%b/%d')) if os.path.exists(outpath) == False: os.makedirs(outpath) subprocess.call(['chmod', 'a+w', outpath, grid_dir+'/20%s' %(date.strftime('%y/%b')), grid_dir+'/20%s' %(date.strftime('%y'))]) grid_h5flashfiles(h5_filenames, start_time, end_time, frame_interval=frame_interval, proj_name='latlong', dx=dx, dy=dy, x_bnd=x_bnd, y_bnd=y_bnd, ctr_lon=ctr_lon, ctr_lat=ctr_lat, outpath = outpath, output_writer = write_cf_netcdf_latlon, output_filename_prefix=center_ID, spatial_scale_factor=1.0 ) # Create plots n_cols=2 mapping = { 'source':'lma_source', 'flash_extent':'flash_extent', 'flash_init':'flash_initiation', 'footprint':'flash_footprint'} #nc_names = glob.glob('/home/ebruning/Mar18-19/grids/*.nc') nc_names = glob.glob(grid_dir+'/20%s/*.nc' %(date.strftime('%y/%b/%d'))) nc_names.sort() outpath = plot_dir+'/20%s' %(date.strftime('%y/%b/%d')) if os.path.exists(outpath) == False: os.makedirs(outpath) subprocess.call(['chmod', 'a+w', outpath, plot_dir+'/20%s' %(date.strftime('%y/%b')), plot_dir+'/20%s' %(date.strftime('%y'))]) for f in nc_names: gridtype = f.split('dx_')[-1].replace('.nc', '') var = mapping[gridtype] # print f make_plot(f, var, n_cols=n_cols, x_name='longitude', y_name='latitude', outpath = outpath)
def test_sort_and_grid_and_plot(outpath): """ Given an output path, run sample data included in lmatools through flash sorting and gridding""" base_sort_dir = outpath logger_setup(outpath) files = get_sample_data_list() center_ID = 'WTLMA' ctr_lat, ctr_lon = 33.5, -101.5 params = { 'stations': (6, 13), 'chi2': (0, 1.0), 'ctr_lat': ctr_lat, 'ctr_lon': ctr_lon, 'distance': 3000.0, 'thresh_critical_time': 0.15, 'mask_length': 6, } h5_dir = os.path.join(base_sort_dir, 'h5_files') grid_dir = os.path.join(base_sort_dir, 'grid_files') plot_dir = os.path.join(base_sort_dir, 'plots') y, m, d, H, M, S = tfromfile(files[0]) date = datetime(y, m, d, H, M, S) # Create HDF5 flash files base_out_dir = (h5_dir + "/20%s" % (date.strftime('%y/%b/%d'))) if os.path.exists(base_out_dir) == False: os.makedirs(base_out_dir) subprocess.call([ 'chmod', 'a+w', base_out_dir, h5_dir + '/20%s' % (date.strftime('%y/%b')), h5_dir + '/20%s' % (date.strftime('%y')) ]) tag = '' outdir = os.path.join(base_out_dir, tag) info = open(os.path.join(outdir, 'input_params.py'), 'w') info.write(str(params)) info.close() run_files_with_params(files, outdir, params, cluster, retain_ascii_output=False, cleanup_tmp=True) # Figure out which HDF5 files were created h5_filenames = glob.glob(h5_dir + '/20%s/LYLOUT*.dat.flash.h5' % (date.strftime('%y/%b/%d'))) h5_filenames.sort() # Create NetCDF gridded data frame_interval = 60.0 * 2 # seconds dx_km = 3.0e3 # meters dy_km = 3.0e3 x_bnd_km = (-200e3, 200e3) y_bnd_km = (-200e3, 200e3) # There are similar functions in lmatools to grid on a regular x,y grid in some map projection. dx, dy, x_bnd, y_bnd = dlonlat_at_grid_center(ctr_lat, ctr_lon, dx=dx_km, dy=dy_km, x_bnd=x_bnd_km, y_bnd=y_bnd_km) # print("dx, dy = {0}, {1} deg".format(dx,dy)) # print("lon_range = {0} deg".format(x_bnd)) # print("lat_range = {0} deg".format(y_bnd)) for f in h5_filenames: y, m, d, H, M, S = tfromfile(f) # print y,m,d,H,M,S start_time = datetime(y, m, d, H, M, S) end_time = start_time + timedelta(0, 600) # print start_time, end_time outpath = grid_dir + '/20%s' % (date.strftime('%y/%b/%d')) if os.path.exists(outpath) == False: os.makedirs(outpath) subprocess.call([ 'chmod', 'a+w', outpath, grid_dir + '/20%s' % (date.strftime('%y/%b')), grid_dir + '/20%s' % (date.strftime('%y')) ]) grid_h5flashfiles(h5_filenames, start_time, end_time, frame_interval=frame_interval, proj_name='latlong', dx=dx, dy=dy, x_bnd=x_bnd, y_bnd=y_bnd, ctr_lon=ctr_lon, ctr_lat=ctr_lat, outpath=outpath, output_writer=write_cf_netcdf_latlon, output_filename_prefix=center_ID, spatial_scale_factor=1.0) # Create plots n_cols = 2 mapping = { 'source': 'lma_source', 'flash_extent': 'flash_extent', 'flash_init': 'flash_initiation', 'footprint': 'flash_footprint' } #nc_names = glob.glob('/home/ebruning/Mar18-19/grids/*.nc') nc_names = glob.glob(grid_dir + '/20%s/*.nc' % (date.strftime('%y/%b/%d'))) nc_names.sort() outpath = plot_dir + '/20%s' % (date.strftime('%y/%b/%d')) if os.path.exists(outpath) == False: os.makedirs(outpath) subprocess.call([ 'chmod', 'a+w', outpath, plot_dir + '/20%s' % (date.strftime('%y/%b')), plot_dir + '/20%s' % (date.strftime('%y')) ]) for f in nc_names: gridtype = f.split('dx_')[-1].replace('.nc', '') var = mapping[gridtype] # print f make_plot(f, var, n_cols=n_cols, x_name='longitude', y_name='latitude', outpath=outpath)