Esempio n. 1
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plt.vlines(x=min(rlon_o[buffer:-buffer]),
           ymin=min(rlat_o[buffer:-buffer]),
           ymax=max(rlat_o[buffer:-buffer]),
           color='black',
           linewidth=4)
plt.vlines(x=max(rlon_o[buffer:-buffer]),
           ymin=min(rlat_o[buffer:-buffer]),
           ymax=max(rlat_o[buffer:-buffer]),
           color='black',
           linewidth=4)
Plot_CCLM(dir_mistral='NETCDFS_CCLM/03/member_relax_3_big_00/post/',
          name=name_2,
          bcolor='black',
          var=Vari,
          flag='FALSE',
          color_map='TRUE',
          alph=1,
          grids='FALSE',
          grids_color='red',
          rand_obs='TRUE',
          NN=NN)
xs, ys, zs = rp.transform_points(
    pc,
    np.array([-17, 105.0]),  # Adjust for other domains!
    np.array([3, 60])).T  # Adjust for other domains!
ax.set_xlim(xs)
ax.set_ylim(ys)
plt.savefig(DIR_exp + 'NAMES' + "/" + pdf_name)
plt.close()

# RMSE time-series
Esempio n. 2
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        fontsize=15)
plt.hlines(y=min(rlat_f), xmin=min(rlon_f), xmax=max(rlon_f), color='red',linestyles= 'dashed', linewidth=2)
plt.hlines(y=max(rlat_f), xmin=min(rlon_f), xmax=max(rlon_f), color='red',linestyles= 'dashed', linewidth=2)
plt.vlines(x=min(rlon_f), ymin=min(rlat_f), ymax=max(rlat_f), color='red',linestyles= 'dashed', linewidth=2)
plt.vlines(x=max(rlon_f), ymin=min(rlat_f), ymax=max(rlat_f), color='red',linestyles= 'dashed', linewidth=2)

plt.hlines(y=min(rlat_o), xmin=min(rlon_o), xmax=max(rlon_o), color='black',linestyles= 'dashed', linewidth=2)
plt.hlines(y=max(rlat_o), xmin=min(rlon_o), xmax=max(rlon_o), color='black',linestyles= 'dashed', linewidth=2)
plt.vlines(x=min(rlon_o), ymin=min(rlat_o), ymax=max(rlat_o), color='black',linestyles= 'dashed', linewidth=2)
plt.vlines(x=max(rlon_o), ymin=min(rlat_o), ymax=max(rlat_o), color='black',linestyles= 'dashed', linewidth=2)
plt.hlines(y=min(rlat_o[buffer:-buffer]), xmin=min(rlon_o[buffer:-buffer]), xmax=max(rlon_o[buffer:-buffer]), color='black', linewidth=4)
plt.hlines(y=max(rlat_o[buffer:-buffer]), xmin=min(rlon_o[buffer:-buffer]), xmax=max(rlon_o[buffer:-buffer]), color='black', linewidth=4)
plt.vlines(x=min(rlon_o[buffer:-buffer]), ymin=min(rlat_o[buffer:-buffer]), ymax=max(rlat_o[buffer:-buffer]), color='black', linewidth=4)
plt.vlines(x=max(rlon_o[buffer:-buffer]), ymin=min(rlat_o[buffer:-buffer]), ymax=max(rlat_o[buffer:-buffer]), color='black', linewidth=4)

Plot_CCLM(dir_mistral='/work/bb0962/work4/member_relax_3_big/post/',name=name_2,bcolor='black',var='T_2M',flag='FALSE',color_map='TRUE', alph=1, grids='FALSE', grids_color='red', rand_obs='TRUE', NN=NN)
#plt.title("Shift "+ str(4)+pdf_name)

xs, ys, zs = rp.transform_points(pc,
                                 np.array([-17, 105.0]),
                                 np.array([3, 60])).T
# rp = ccrs.RotatedPole(pole_longitude=-162.0,
#                      pole_latitude=39.25,
#                      globe=ccrs.Globe(semimajor_axis=6370000,
#                                          semiminor_axis=6370000))
ax.set_xlim(xs)
ax.set_ylim(ys)
# Plot_CCLM(bcolor='black', grids='FALSE', flag='FALSE')
plt.savefig(pdf_name)

plt.close()
def plot_rmse_spread(PDF="name.pdf",
                     vari="RMSE",
                     VAL=np.zeros((10, 10, 10)),
                     x=10,
                     y=10,
                     col=['k', 'r', 'b', 'g', 'm']):
    #Plot_CCLM(dir_mistral='/work/bb1029/b324045/work5/03/member_relax_3_big_00/post/', name=name_2, bcolor='black',
    #          var=Vari, flag='FALSE', color_map='TRUE', alph=1, grids='FALSE', grids_color='red', rand_obs='FALSE',
    #          NN=NN)
    Plot_CCLM(dir_mistral='NETCDFS_CCLM/eobs/',
              name=name_2,
              bcolor='black',
              var=Vari,
              flag='FALSE',
              color_map='TRUE',
              alph=1,
              grids='FALSE',
              grids_color='red',
              rand_obs='FALSE',
              NN=NN)

    if vari == "RMSE":
        #        v = np.linspace(0, .8, 9, endpoint=True)
        v = np.linspace(0, 3.2, 9, endpoint=True)
    else:
        #        v = np.linspace(0, .8, 9, endpoint=True)
        v = np.linspace(0, .8, 9, endpoint=True)

    if vari == "RMSE":
        cs = plt.contourf(lons_f1,
                          lats_f1,
                          VAL,
                          v,
                          transform=ccrs.PlateCarree(),
                          cmap=plt.cm.terrain)
        #   cs = plt.pcolor(lons_f1,lats_f1,VAL, cmap=plt.cm.terrain)
        cb = plt.colorbar(cs)
        cb.set_label('RMSE [K]', fontsize=20)
        cb.ax.tick_params(labelsize=20)
    else:
        if vari == "SPREAD":
            #      cs = plt.pcolor(lons_f1, lats_f1, VAL,cmap=plt.cm.terrain)
            cs = plt.contourf(lons_f1,
                              lats_f1,
                              VAL,
                              v,
                              transform=ccrs.PlateCarree(),
                              cmap=plt.cm.terrain)
            cb = plt.colorbar(cs)
            cb.set_label('SPREAD [K]', fontsize=20)
            cb.ax.tick_params(labelsize=20)

    plt.hlines(y=min(rlat_o[buffer:-buffer]),
               xmin=min(rlon_o[buffer:-buffer]),
               xmax=max(rlon_o[buffer:-buffer]),
               color='black',
               linewidth=4)
    plt.hlines(y=max(rlat_o[buffer:-buffer]),
               xmin=min(rlon_o[buffer:-buffer]),
               xmax=max(rlon_o[buffer:-buffer]),
               color='black',
               linewidth=4)
    plt.vlines(x=min(rlon_o[buffer:-buffer]),
               ymin=min(rlat_o[buffer:-buffer]),
               ymax=max(rlat_o[buffer:-buffer]),
               color='black',
               linewidth=4)
    plt.vlines(x=max(rlon_o[buffer:-buffer]),
               ymin=min(rlat_o[buffer:-buffer]),
               ymax=max(rlat_o[buffer:-buffer]),
               color='black',
               linewidth=4)
    # added 22.08.2017
    plt.ylim([min(rlat_o[buffer:-buffer]), max(rlat_o[buffer:-buffer])])
    plt.xlim([min(rlon_o[buffer:-buffer]), max(rlon_o[buffer:-buffer])])
    plt.savefig(PDF)
    plt.close()
Esempio n. 4
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plt.vlines(x=min(rlon_o[buffer:-buffer]),
           ymin=min(rlat_o[buffer:-buffer]),
           ymax=max(rlat_o[buffer:-buffer]),
           color='black',
           linewidth=4)
plt.vlines(x=max(rlon_o[buffer:-buffer]),
           ymin=min(rlat_o[buffer:-buffer]),
           ymax=max(rlat_o[buffer:-buffer]),
           color='black',
           linewidth=4)
Plot_CCLM(dir_mistral='/work/bb0962/work3/member_relax_3_big/post/',
          name='member_relax_3_T_2M_ts_monmean_1995.nc',
          bcolor='black',
          var='T_2M',
          flag='FALSE',
          color_map='TRUE',
          alph=1,
          grids='FALSE',
          grids_color='red',
          rand_obs='TRUE',
          NN=NN)
plt.title("Shift " + str(4) + pdf_name)

xs, ys, zs = rp.transform_points(pc, np.array([-17, 105.0]), np.array([3,
                                                                       60])).T
# rp = ccrs.RotatedPole(pole_longitude=-162.0,
#                      pole_latitude=39.25,
#                      globe=ccrs.Globe(semimajor_axis=6370000,
#                                          semiminor_axis=6370000))
ax.set_xlim(xs)
ax.set_ylim(ys)
Esempio n. 5
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           ymin=min(rlat_o[buffer:-buffer]),
           ymax=max(rlat_o[buffer:-buffer]),
           color='black',
           linewidth=4)
plt.vlines(x=max(rlon_o[buffer:-buffer]),
           ymin=min(rlat_o[buffer:-buffer]),
           ymax=max(rlat_o[buffer:-buffer]),
           color='black',
           linewidth=4)

Plot_CCLM(dir_mistral='/NETCDFS_CCLM/eobs/',
          name=name_2,
          bcolor='black',
          var=Vari,
          flag='FALSE',
          color_map='TRUE',
          alph=1,
          grids='FALSE',
          grids_color='red',
          rand_obs='TRUE',
          NN=NN)

xs, ys, zs = rp.transform_points(
    pc,
    np.array([-17, 105.0]),  # Adjust for other domains!
    np.array([3, 60])).T  # Adjust for other domains!
ax.set_xlim(xs)
ax.set_ylim(ys)
plt.ylim([min(rlat_o[buffer:-buffer]), max(rlat_o[buffer:-buffer])])
plt.xlim([min(rlon_o[buffer:-buffer]), max(rlon_o[buffer:-buffer])])