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plot_functions.py
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plot_functions.py
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from fractions import Fraction
import matplotlib.pyplot as plt
import numpy as np
import pandas as pd
import seaborn as sns
import scipy
def plot_width_error(model, model_name, ax, index_confidence):
errors = model["errors"]
widths = model["width"][:, index_confidence]
color = model["color"]
ax.scatter(
scipy.stats.rankdata(widths),
scipy.stats.rankdata(errors),
s=25,
c=color
)
ax.set_xlim(-len(errors) * .2, len(errors) * 1.2)
ax.set_ylim(-len(errors) * .2, len(errors) * 1.2)
ci_spearman_correlation = model[
"spearman_correlation_to_error"
][index_confidence].confidence_interval
mean_spearman_correlation = np.mean(
model[
"spearman_correlation_to_error"
][index_confidence].bootstrap_distribution
)
ax.set_xlabel("Rank of the width of the prediction interval\n", size=20)
ax.set_title(
str(model_name[0]) + "\n" +
r"$r_s \in [$" +
r"$" + str(round(ci_spearman_correlation[0], 2)) +
", " + str(round(ci_spearman_correlation[1], 2)) + r"], \;$" +
r"$\overline{r_s}= " + str(round(mean_spearman_correlation, 3)) + "$",
fontsize=23
)
def plot_boxplot(
models, alpha, color1, color2, color3, nus, betas,
dataset, objective="correlation", nugget=None, save=False
):
if objective == "width":
item_dict = "boostrapped_width"
y_label = "Bootstrapped width"
elif objective == "correlation":
item_dict = "spearman_correlation_to_error"
y_label = "Bootstrapped Spearman correlation"
index_90 = np.argmax(np.isclose(alpha, 1 - .90))
index_95 = np.argmax(np.isclose(alpha, 1 - .95))
index_99 = np.argmax(np.isclose(alpha, 1 - .99))
df = pd.concat(
[
pd.DataFrame(
{
"model": model_name[0],
"spearman_distrib": model[
item_dict
][index].bootstrap_distribution,
"1 - alpha": 1 - alpha[index]
}
) for index in [
index_90, index_95, index_99
] for model_name, model in models.items()
]
)
palette = {.9: color1, .95: color2, .99: color3}
_ = plt.figure(figsize=(18, 14))
sns.set_palette("bright")
sns.boxplot(
data=df, x="model", y="spearman_distrib",
hue="1 - alpha", palette=palette, fill=False
)
plt.legend(
title=r"$1 - \alpha$", fontsize=30,
title_fontsize=30, loc="lower right"
)
plt.xlabel("Model", fontsize=25)
plt.ylabel(y_label, fontsize=25)
plt.yticks(fontsize=25)
plt.xticks(fontsize=25)
plt.title(
f"Boxplots for {dataset} dataset with Matérn("
+ r"$\nu=" + str(Fraction(nus[0])) +
r"$), $\beta=" + str(betas[0]) + r"$" "\n",
fontsize=30
)
plt.axhline(0, color=".3", dashes=(2, 2))
if save:
if nugget is not None:
filename = f"paper_results/plots/{dataset}_nugget_{nugget}_boxplot.pdf"
else:
filename = f"paper_results/plots/{dataset}_boxplot.pdf"
plt.savefig(filename, bbox_inches="tight")
plt.show()