Пример #1
0
def residuals(df,
              forecast,
              skip_first=0,
              skip_last=0,
              title="Patiend ID CGM",
              savefig=False):
    """Plot the input residuals.

    Parameters
    -------------------
    df : DataFrame, the output returned by gluco_extract(..., return_df=True)
    forecast : array of float, the prediction for the given time-series
    skip_first : number, the number of initial samples to exclude
    skip_last : number, the number of final samples to exclude
    title : string, the title of the plot (optional)
    savefig : bool, if True save title.png
    """
    # Evaluate the residuals (exclude learning and open loop ph samples)
    residuals = df.as_matrix()[skip_first:-skip_last].ravel(
    ) - forecast[skip_first:-skip_last]

    plt.figure(figsize=(12, 4), dpi=300)
    plt.plot(df.index[skip_first:-skip_last], residuals)
    DW = sm.stats.durbin_watson(residuals)
    plt.title('Durbin-Watson: {:.3f}'.format(DW))
    if savefig: plt.savefig(title + '_residuals.png')
Пример #2
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def cgm(df,
        gluco_fit=None,
        hypo=70,
        hyper=126,
        title="Patiend ID CGM",
        savefig=False):
    """Plot the CGM signal on an input time span.

    Parameters
    -------------------
    df : DataFrame, the output returned by gluco_extract(..., return_df=True)
    gluco_fit : array of float, the results of a fitted model (optional)
    hypo : number, hypoglicaemia threshold in
           mg/dl (default is 70, i.e. 3.9 mmol/l)
    hyper : number, hyperglicaemia threshold
            in mg/dl (default is 126, i.e. 7 mmol/l)
    title : string, the title of the plot (optional)
    savefig : bool, if True save title.png
    """
    plt.figure(figsize=(10, 6), dpi=300)
    plt.hlines(hypo,
               df.index[0],
               df.index[-1],
               linestyles='dashed',
               label='hypoglicaemia')
    plt.hlines(hyper,
               df.index[0],
               df.index[-1],
               linestyles='dotted',
               label='hyperglicaemia')
    plt.ylim([10, 410])
    plt.plot_date(df.index, df.as_matrix(), '-', label='real CGM')
    if gluco_fit is not None:
        plt.plot(df.index, gluco_fit, '--', label='predicted CGM')
    plt.title(title)
    plt.ylabel('mg/dL')
    plt.xticks(rotation='vertical')
    plt.legend(bbox_to_anchor=(1.1, 1.0))
    if savefig: plt.savefig(title + '_fit.png')
Пример #3
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obs_errors = [100, 1.0, 1.0, 1.0, 0.001]
levels = [0.95, 0.835, 0.685, 0.51, 0.34, 0.2, 0.095, 0.025]

plt.rc('lines', linewidth=1.0)

plt.figure(figsize=(9, 3), facecolor='white')

dirs = ['double']
labels = ['64 bits']

handles = []

for d, l in zip(dirs, labels):
    print(f'Plotting {d}')

    handles += plot(d, l)

plt.ylim([0, 3.5])
plt.xlabel('Time')
plt.ylabel(f'Total analysis RMSE')
plt.title('')

# Add legend
leg = plt.legend(handles=handles, frameon=True, ncol=2)
rect = leg.get_frame()
rect.set_linewidth(0.0)
rect.set_alpha(0.7)

plt.savefig(f'total_error_compare.pdf', bbox_inches='tight')
plt.show()
Пример #4
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# Get axis limits and equalise
xlim = plt.gca().get_xlim()
ylim = plt.gca().get_ylim()
xlim = ylim = [min(xlim[0], ylim[0]), max(xlim[1], ylim[1])]
plt.xlim(xlim)
plt.ylim(ylim)

# Plot diagonal line
plt.plot(xlim, ylim, ls="--", c=".3")

plt.title('')
plt.xlabel('RMSE')
plt.ylabel('Spread')

# Legend for symbol
for field in fields:
    plt.scatter(-1, -1, s=90, marker=field[2], color='.3', label=field[1])

# Legend for color
plot_lines = [plt.plot([-1,-1.5], [-1,-1.5], color=colors[0])[0]]
plot_lines.append(plt.plot([-1,-1.5], [-1,-1.5], color=colors[1])[0])
col_leg = plt.legend(plot_lines, labels, loc=6, fontsize=12)

# Add both legends
plt.gca().add_artist(col_leg)
plt.legend(loc=2, fontsize=12)

plt.savefig(f'scatter_all_fields.pdf', bbox_inches='tight')
plt.show()
Пример #5
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                  first_guess[:, var + 1],
                  '--',
                  label="first guess",
                  alpha=1.0)
    axarr[i].plot(final_guess[:, 0],
                  final_guess[:, var + 1],
                  ':',
                  label="final guess")

plt.tight_layout()
leg = plt.figlegend(axarr[len(display_vars) - 1].get_lines(),
                    ['truth', 'observations', 'first guess', 'final guess'],
                    loc='lower center',
                    ncol=2)
plt.xlabel('Time (nondimensional units)')
f.subplots_adjust(bottom=0.17)
plt.savefig('vars.pdf', bbox_extra_artists=(leg, ), bbox_inches='tight')

# Plot diagnostics
plt.figure(figsize=(6, 3))
diagn = loadtxt('diagnostics.txt')
length = where(diagn <= 0)[0]
length = diagn.shape[0] if len(length) == 0 else length[0]
plt.semilogy(diagn[:length - 1, 0], diagn[:length - 1, 1])
plt.xlabel('Iterations')
plt.ylabel('Cost function')

plt.tight_layout()
plt.savefig('cost_function.pdf', bbox_inches='tight')
plt.show()
Пример #6
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}

plt.rc('lines', linewidth=1.0)
plt.style.use('ggplot')

plt.figure(figsize=(9, 3), facecolor='white')

dirs = ['double']
labels = ['64 bits']

handles = []

for d, l in zip(dirs, labels):
    print(f'Plotting {d}')

    handles += plot(d, fields[argv[2]][0], l)

plt.ylim([0, 3.5])
plt.xlabel('Time')
plt.ylabel(f'{fields[argv[2]][1]}')
plt.title('')

# Add legend
leg = plt.legend(handles=handles, frameon=True, ncol=2)
rect = leg.get_frame()
rect.set_linewidth(0.0)
rect.set_alpha(0.7)

plt.savefig(f'error_compare_{argv[2]}.pdf', bbox_inches='tight')
plt.show()
Пример #7
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}

vert_secs = [(1.0, 0.5), (0.5, 0.2), (0.2, 0.0)]

field = ' '.join(fields[argv[2]])

plt.figure(figsize=(5, 5), facecolor='white')

dirs = ['double', 'reduced']
labels = ['64 bits', '22 bits']

handles = []

for d, l in zip(dirs, labels):
    print(f'Plotting {d}')

    handles += plot(d, field, vert_secs[int(argv[3])], l)

plt.xlabel('Latitude')
plt.ylabel(f'{fields[argv[2]][0]} {fields[argv[2]][1]}')
plt.title('')

# Add legend
leg = plt.legend(handles=handles, frameon=True, ncol=2, loc='lower center')
rect = leg.get_frame()
rect.set_linewidth(0.0)
rect.set_alpha(0.7)

plt.savefig(f'latitudinal_error_{argv[2]}_{argv[3]}.pdf', bbox_inches='tight')
plt.show()
Пример #8
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    'q': ('Specific Humidity [kg/kg]', 'Specific humidity (kg/kg)')
}

plt.figure(figsize=(5, 5), facecolor='white')

dirs = ['double', 'reduced']
labels = ['64 bits', '22 bits']

handles = []

for d, l in zip(dirs, labels):
    print(f'Plotting {d}')

    handles += plot(d, fields[argv[2]][0], l)

plt.xlabel(f'{fields[argv[2]][1]}')
plt.ylabel('Sigma coordinate')
plt.ylim([1.0, 0.0])
plt.xlim([0.0, max(1.0, plt.gca().get_xlim()[1])])
plt.gca().set_xlim(left=0)
plt.title('')

# Add legend
leg = plt.legend(handles=handles, frameon=True, ncol=2, loc='lower center')
rect = leg.get_frame()
rect.set_linewidth(0.0)
rect.set_alpha(0.7)

plt.savefig(f'vertical_error_{argv[2]}.pdf', bbox_inches='tight')
plt.show()