SalazarPevelll

f291f4a about 2 years ago

7.31 kB

	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
	content_path = "/home/xianglin/projects/DVI_data/resnet18_{}".format(dataset)
	for epoch_id in range(3):
	stage_epochs = selected_epochs[epoch_id]
	inv_acc_train_list = list()
	inv_acc_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)
	inv_acc_train = round(eval["inv_acc_train"], 3)
	inv_acc_test = round(eval["inv_acc_test"], 3)
	inv_acc_train_list.append(inv_acc_train)
	inv_acc_test_list.append(inv_acc_test)

	inv_acc_train = sum(inv_acc_train_list)/len(inv_acc_train_list)
	inv_acc_test = sum(inv_acc_test_list)/len(inv_acc_test_list)

	if len(data)==0:
	data = np.array([[dataset, "DVI", "Train", "DVI(Train)", "{}".format(str(epoch_id)), inv_acc_train]])
	else:
	data = np.concatenate((data, np.array([[dataset, "DVI", "Train", "DVI(Train)", "{}".format(str(epoch_id)), inv_acc_train]])), axis=0)
	data = np.concatenate((data, np.array([[dataset, "DVI", "Test", "DVI(Test)", "{}".format(str(epoch_id)), inv_acc_test]])), axis=0)

	# torch dvi
	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(3):
	stage_epochs = selected_epochs[epoch_id]
	ppr_train_list = list()
	ppr_test_list = list()
	for epoch in stage_epochs:
	ppr_train = round(eval["ppr_train"][str(epoch)], 3)
	ppr_test = round(eval["ppr_test"][str(epoch)], 3)
	ppr_train_list.append(ppr_train)
	ppr_test_list.append(ppr_test)
	ppr_train = sum(ppr_train_list)/len(ppr_train_list)
	ppr_test = sum(ppr_test_list)/len(ppr_test_list)

	data = np.concatenate((data, np.array([[dataset, "torch-DVI", "Train", "torch-DVI(Train)", "{}".format(str(epoch_id)), ppr_train]])), axis=0)
	data = np.concatenate((data, np.array([[dataset, "torch-DVI", "Test", "torch-DVI(Test)", "{}".format(str(epoch_id)), ppr_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(3):
	stage_epochs = selected_epochs[epoch_id]
	ppr_train_list = list()
	ppr_test_list = list()
	for epoch in stage_epochs:
	ppr_train = round(eval["ppr_train"][str(epoch)], 3)
	ppr_test = round(eval["ppr_test"][str(epoch)], 3)
	ppr_train_list.append(ppr_train)
	ppr_test_list.append(ppr_test)
	ppr_train = sum(ppr_train_list)/len(ppr_train_list)
	ppr_test = sum(ppr_test_list)/len(ppr_test_list)

	data = np.concatenate((data, np.array([[dataset, "TimeVis", "Train", "TimeVis(Train)", "{}".format(str(epoch_id)), ppr_train]])), axis=0)
	data = np.concatenate((data, np.array([[dataset, "TimeVis", "Test", "TimeVis(Test)", "{}".format(str(epoch_id)), ppr_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(3):
	stage_epochs = selected_epochs[epoch_id]
	ppr_train_list = list()
	ppr_test_list = list()
	for epoch in stage_epochs:
	ppr_train = round(eval["ppr_train"][str(epoch)], 3)
	ppr_test = round(eval["ppr_test"][str(epoch)], 3)
	ppr_train_list.append(ppr_train)
	ppr_test_list.append(ppr_test)
	ppr_train = sum(ppr_train_list)/len(ppr_train_list)
	ppr_test = sum(ppr_test_list)/len(ppr_test_list)

	data = np.concatenate((data, np.array([[dataset, "DD", "Train", "DD(Train)", "{}".format(str(epoch_id)), ppr_train]])), axis=0)
	data = np.concatenate((data, np.array([[dataset, "DD", "Test", "DD(Test)", "{}".format(str(epoch_id)), ppr_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[["k"]] = df[["k"]].astype(int)
	df[["eval"]] = df[["eval"]].astype(float)

	df.to_excel("./plot_results/PPR.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'] = 15

	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",
	palette=[hue_dict[i] for i in hue_list],
	legend=True
	)
	sns.move_legend(fg, "lower center", bbox_to_anchor=(.43, 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(0., 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("Prediction Preserving property")

	fg.savefig(
	"./plot_results/noB_inv_accu.png",
	dpi=300,
	bbox_inches="tight",
	pad_inches=0.0,
	transparent=True,
	)



	if __name__ == "__main__":
	main()