Python area_dicts示例

示例#1

if plot_type == 'd':
    obs_datetimes = obs_datetime_time[:24]
    model_datetimes = model_datetime_time[:24]
if plot_type == 's':
    obs_datetimes = obs_datetime_time[:8766]
    model_datetimes = model_datetime_time[:8766]

obs_time_pd = pd.date_range(start=obs_datetimes[0],
                            end=obs_datetimes[-1],
                            freq='H')
model_time_pd = pd.date_range(start=model_datetimes[0],
                              end=model_datetimes[-1],
                              freq='H')

area_boundaries, area_tags, area_labels = modules.area_dicts()

fig, axes = plt.subplots(nrows=5, ncols=5, figsize=(19, 13))
fig.patch.set_facecolor('white')
count = 0
for ax in axes.flat:
    try:
        area = areas[count]
    except:
        ax.axis('off')
        continue

    print area

    area_grid = area_boundaries[area]
    area_tag = area_tags[area]

示例#2

文件： vertical_plotter.py 项目： DeneBowdalo/AtmosChem_Tools

obs_seasonal_amplitudes  = obs_data.variables['seasonal_amplitude'][:]
obs_seasonal_phases  = obs_data.variables['seasonal_max_phase'][:]
model_seasonal_waveforms = model_data.variables['seasonal_waveform'][:]
model_seasonal_amplitudes  = model_data.variables['seasonal_amplitude'][:]
model_seasonal_phases  = model_data.variables['seasonal_max_phase'][:] 

test = obs_seasonal_waveforms < 0
obs_seasonal_waveforms[test] = np.NaN

test = obs_seasonal_amplitudes < 0
obs_seasonal_amplitudes[test] = np.NaN

test = model_seasonal_waveforms < 0
model_seasonal_waveforms[test] = np.NaN

area_boundaries,area_tags,area_labels = modules.area_dicts()
tags = modules.get_tags(refs)

areas = ['ANT','S_O','AF','N_O','S_EU','C_EU','NE_NA','ARC']

obsn_linspace = np.linspace(0, 1, len(areas))

fig, axes = plt.subplots(nrows=2, ncols=4,figsize=(19,13))
fig.patch.set_facecolor('white')
count = 0
for ax in axes.flat:
    try:
        area = areas[count]
    except:
        ax.axis('off')
        continue

示例#3

    #get observational location tags 
    tags = modules.get_tags(obs_refs)

    #-----------------------------------
    #get area
    areas = ['ANT','AF','SE_US','S_US','W_US','N_US','NE_US','W_CAN','E_CAN','AL','S_EU','C_EU','NW_EU','N_EU','AS','ARC']
    if c == 0:
        if plot_type == 'd':
            obs_datetimes = obs_datetimes[:24]
        if plot_type == 's':
            obs_datetimes = obs_datetimes[:8766]

        obs_time_pd = pd.date_range(start = obs_datetimes[0],end = obs_datetimes[-1], freq = 'H')

    area_colors,area_boundaries,area_countries,area_labels = modules.area_dicts()
     
    #count = 0
    #for ax in axes.flat:
        #try:
            #area = areas[count]
        #except:
            #ax.axis('off')
            #continue

    count = 0
    for area in areas:
        print area
        area_grid = area_boundaries[area]
        area_country = area_countries[area]
        area_label = area_labels[area]