Hugging Face's logo

Peverell
/
code_training_dynamic

Model card Files
xet
Community
code_training_dynamic / saved_models /codesearch_simp /singleVis /plot /noB_wtr.py
SalazarPevelll
be
f291f4a
raw
history blame contribute delete
7.27 kB
import argparse
import os
import json
import numpy as np
import pandas as pd
import matplotlib as mpl
import seaborn as sns
def main():
datasets = ["mnist","fmnist"]
selected_epochs_dict = {"mnist":[[1], [10],[15]],"fmnist":[[1],[25],[50]], "cifar10":[[1],[100],[199]]}
col = np.array(["dataset", "method", "type", "hue", "period", "eval"])
df = pd.DataFrame({}, columns=col)
for i in range(len(datasets)): # dataset
dataset = datasets[i]
data = np.array([])
selected_epochs = selected_epochs_dict[dataset]
# load data from evaluation.json
# DVI
content_path = "/home/xianglin/projects/DVI_data/resnet18_{}".format(dataset)
for epoch_id in range(len(selected_epochs)):
stage_epochs = selected_epochs[epoch_id]
nn_train_list = list()
nn_test_list = list()
for epoch in stage_epochs:
eval_path = os.path.join(content_path, "Model", "Epoch_{}".format(epoch), "evaluation_id_parametricUmap_step2.json")
with open(eval_path, "r") as f:
eval = json.load(f)
nn_train = round(eval["wtr_train"], 3)
nn_test = round(eval["wtr_test"], 3)
nn_train_list.append(nn_train)
nn_test_list.append(nn_test)
nn_train = sum(nn_train_list)/len(nn_train_list)
nn_test = sum(nn_test_list)/len(nn_test_list)
if len(data) == 0:
data = np.array([[dataset, "DVI", "Train", "DVI(Train)", "{}".format(str(epoch)), nn_train]])
else:
data = np.concatenate((data, np.array([[dataset, "DVI", "Train", "DVI(Train)", "{}".format(str(epoch)), nn_train]])), axis=0)
data = np.concatenate((data, np.array([[dataset, "DVI", "Test", "DVI(Test)","{}".format(str(epoch)), nn_test]])), axis=0)
eval_path = "/home/xianglin/projects/DVI_data/resnet18_{}/Model/evaluation_singleDVI.json".format(dataset)
with open(eval_path, "r") as f:
eval = json.load(f)
for epoch_id in range(len(selected_epochs)):
stage_epochs = selected_epochs[epoch_id]
nn_train_list = list()
nn_test_list = list()
for epoch in stage_epochs:
nn_train = round(eval["wtr_train"][str(epoch)], 3)
nn_test = round(eval["wtr_test"][str(epoch)], 3)
nn_train_list.append(nn_train)
nn_test_list.append(nn_test)
nn_train = sum(nn_train_list)/len(nn_train_list)
nn_test = sum(nn_test_list)/len(nn_test_list)
data = np.concatenate((data, np.array([[dataset, "torch-DVI", "Train", "torch-DVI(Train)", "{}".format(str(epoch)), nn_train]])), axis=0)
data = np.concatenate((data, np.array([[dataset, "torch-DVI", "Test", "torch-DVI(Test)", "{}".format(str(epoch)), nn_test]])), axis=0)
eval_path = "/home/xianglin/projects/DVI_data/resnet18_{}/Model/test_evaluation_tnn_noB.json".format(dataset)
with open(eval_path, "r") as f:
eval = json.load(f)
for epoch_id in range(len(selected_epochs)):
stage_epochs = selected_epochs[epoch_id]
nn_train_list = list()
nn_test_list = list()
for epoch in stage_epochs:
nn_train = round(eval["wtr_train"][str(epoch)], 3)
nn_test = round(eval["wtr_test"][str(epoch)], 3)
nn_train_list.append(nn_train)
nn_test_list.append(nn_test)
nn_train = sum(nn_train_list)/len(nn_train_list)
nn_test = sum(nn_test_list)/len(nn_test_list)
data = np.concatenate((data, np.array([[dataset, "TimeVis", "Train", "TimeVis(Train)", "{}".format(str(epoch)), nn_train]])), axis=0)
data = np.concatenate((data, np.array([[dataset, "TimeVis", "Test", "TimeVis(Test)", "{}".format(str(epoch)), nn_test]])), axis=0)
eval_path = "/home/xianglin/projects/DVI_data/resnet18_{}/Model/evaluation_dd_noB.json".format(dataset)
with open(eval_path, "r") as f:
eval = json.load(f)
for epoch_id in range(len(selected_epochs)):
stage_epochs = selected_epochs[epoch_id]
nn_train_list = list()
nn_test_list = list()
for epoch in stage_epochs:
nn_train = round(eval["wtr_train"][str(epoch)], 3)
nn_test = round(eval["wtr_test"][str(epoch)], 3)
nn_train_list.append(nn_train)
nn_test_list.append(nn_test)
nn_train = sum(nn_train_list)/len(nn_train_list)
nn_test = sum(nn_test_list)/len(nn_test_list)
data = np.concatenate((data, np.array([[dataset, "DD", "Train", "DD(Train)", "{}".format(str(epoch)), nn_train]])), axis=0)
data = np.concatenate((data, np.array([[dataset, "DD", "Test", "DD(Test)", "{}".format(str(epoch)), nn_test]])), axis=0)
df_tmp = pd.DataFrame(data, columns=col)
df = df.append(df_tmp, ignore_index=True)
df[["period"]] = df[["period"]].astype(int)
df[["eval"]] = df[["eval"]].astype(float)
df.to_excel("./plot_results/local_temporal_ranking.xlsx")
pal20c = sns.color_palette('tab20', 20)
sns.set_theme(style="whitegrid", palette=pal20c)
hue_dict = {
"DVI(Train)": pal20c[4],
"torch-DVI(Train)":pal20c[10],
"TimeVis(Train)": pal20c[6],
"DD(Train)": pal20c[8],
"DVI(Test)": pal20c[5],
"torch-DVI(Test)":pal20c[11],
"TimeVis(Test)": pal20c[7],
"DD(Test)": pal20c[9],
}
sns.palplot([hue_dict[i] for i in hue_dict.keys()])
axes = {'labelsize': 15,
'titlesize': 15,}
mpl.rc('axes', **axes)
mpl.rcParams['xtick.labelsize'] = 10
hue_list = ["DVI(Train)", "DVI(Test)", "torch-DVI(Train)", "torch-DVI(Test)", "TimeVis(Train)", "TimeVis(Test)", "DD(Train)", "DD(Test)"]
fg = sns.catplot(
x="period",
y="eval",
hue="hue",
hue_order=hue_list,
# order = [1, 2, 3, 4, 5],
# row="method",
col="dataset",
ci=0.001,
height=2.5, #2.65,
aspect=1.0,#3,
data=df,
kind="bar",
sharex=False,
palette=[hue_dict[i] for i in hue_list],
legend=True
)
sns.move_legend(fg, "lower center", bbox_to_anchor=(.42, 0.92), ncol=4, title=None, frameon=False)
mpl.pyplot.setp(fg._legend.get_texts(), fontsize='15')
axs = fg.axes[0]
# max_ = df["eval"].max()
# min_ = df["eval"].min()
# axs[0].set_ylim(, max_*1.1)
# axs[0].set_title("MNIST(20)")
# axs[1].set_title("FMNIST(50)")
# axs[2].set_title("CIFAR-10(200)")
(fg.despine(bottom=False, right=False, left=False, top=False)
# .set_xticklabels(['Early', 'Mid', 'Late'])
.set_axis_labels("", "")
)
# fg.fig.suptitle("Temporal Nieghbor preserving property")
fg.savefig(
"./plot_results/noB_wtr.png",
dpi=300,
bbox_inches="tight",
pad_inches=0.0,
transparent=True,
)
if __name__ == "__main__":
main()