InferringIntention/keyboard_and_mouse/stan/plot_user.py

import numpy as np
from numpy import genfromtxt
import matplotlib.pyplot as plt
from pathlib import Path
import argparse


def main():
	parser = argparse.ArgumentParser(description='')
	parser.add_argument('--batch_size', type=int, default=8, help='batch size')
	parser.add_argument('--lr', type=float, default=1e-4, help='learning rate')
	parser.add_argument('--hidden_size', type=int, default=128, help='hidden_size')
	parser.add_argument('--model_type', type=str, default='lstmlast', help='model type')
	parser.add_argument('--N', type=int, default=1, help='number of sequence for inference')
	parser.add_argument('--user', type=int, default=1, help='number of users')
	
	args = parser.parse_args()
	plot_type = 'bar' # line bar
	width = [-0.3, -0.2, -0.1, 0, 0.1, 0.2, 0.3]

	# read data
	user_data_list = []
	for i in range(args.user):
		model_data_list = []
		path = "result/"+"N"+ str(args.N) + "/" + args.model_type + "bs_" + str(args.batch_size) + '_lr_' + str(args.lr) + '_hidden_size_' + str(args.hidden_size) + '_N' + str(args.N) + "_result_user" + str(i) +".csv"
		data = genfromtxt(path, delimiter=',', skip_header =1)
		for j in range(7):
			data_temp = data[[1+7*j+j,2+7*j+j,3+7*j+j,4+7*j+j,5+7*j+j,6+7*j+j,7+7*j+j],:][:,[2,4,6,7]]
			model_data_list.append(data_temp)
		model_data_list = np.concatenate(model_data_list, axis=0)
		user_data_list.append(model_data_list)

	color = ['royalblue', 'lightgreen', 'tomato', 'indigo', 'plum', 'darkorange', 'blue']
	legend = ['rule 1', 'rule 2', 'rule 3', 'rule 4', 'rule 5', 'rule 6', 'rule 7']
	fig, axs = plt.subplots(7, sharex=True, sharey=True)
	fig.set_figheight(14)
	fig.set_figwidth(25)

	for ax in range(7):
		y_total = []
		y_low_total = []
		y_high_total = []
		for j in range(7):
			y= []
			y_low = []
			y_high = []
			for i in range(len(user_data_list)):
				y.append(user_data_list[i][j+ax*7][0])
				y_low.append(user_data_list[i][j+ax*7][2])
				y_high.append(user_data_list[i][j+ax*7][3])
			y_total.append(y)
			y_low_total.append(y_low)	
			y_high_total.append(y_high)
			print()
			print("user mean of mean prob: ", np.mean(y))
			print("user mean of sd prob: ", np.std(y))		
			
		for i in range(7):
			if plot_type ==  'line':
				axs[ax].plot(range(args.user), y_total[i], color=color[i], label=legend[i])
				axs[ax].fill_between(range(args.user), y_low_total[i], y_high_total[i], color=color[i],alpha=0.3 )
			if plot_type ==  'bar':
				width = [-0.36, -0.24, -0.12, 0, 0.12, 0.24, 0.36]
				yerror = [np.array(y_total[i])-np.array(y_low_total[i]), np.array(y_high_total[i])-np.array(y_total[i])]
				axs[ax].bar(np.arange(args.user)+width[i], y_total[i], width=0.08, yerr=yerror, label=legend[i], color=color[i])
				axs[ax].tick_params(axis='x', which='both', length=0)
				axs[ax].set_ylabel('prob', fontsize=22)
				for k,x in enumerate(np.arange(args.user)+width[i]):
					y = y_total[i][k] + yerror[1][k]
					axs[ax].annotate(f'{y_total[i][k]:.2f}', (x, y), textcoords='offset points', xytext=(-18,3), fontsize=16)
				
		axs[0].text(-0.1, 0.9, 'True Intention:', horizontalalignment='center', verticalalignment='center', transform=axs[0].transAxes, fontsize= 22) # all: -0.3,0.5 3rows: -0.5,0.5
		axs[ax].text(-0.1, 0.5, legend[ax], horizontalalignment='center', verticalalignment='center', transform=axs[ax].transAxes, fontsize= 22, color=color[ax]) 
		axs[ax].tick_params(axis='both', which='major', labelsize=16)
		
	plt.xticks(range(args.user),('1', '2', '3', '4', '5'))
	plt.xlabel('user', fontsize= 22)
	handles, labels = axs[0].get_legend_handles_labels()
	plt.ylim([0, 1])
	Path("figure").mkdir(parents=True, exist_ok=True)
	if plot_type ==  'line':
		plt.savefig("figure/"+"N"+ str(args.N) + "_ "+ args.model_type + "_bs_" + str(args.batch_size) + '_lr_' + str(args.lr) + '_hidden_size_' + str(args.hidden_size) + '_N' + str(args.N) + "_line.png", bbox_inches='tight')
	if plot_type ==  'bar':
		plt.savefig("figure/"+"N"+ str(args.N) + "_ "+ args.model_type + "_bs_" + str(args.batch_size) + '_lr_' + str(args.lr) + '_hidden_size_' + str(args.hidden_size) + '_N' + str(args.N) + "_bar.png", bbox_inches='tight')
	plt.show()

if __name__ == '__main__':
	main()
first commit 2024-03-24 23:42:27 +01:00			`import numpy as np`
			`from numpy import genfromtxt`
			`import matplotlib.pyplot as plt`
			`from pathlib import Path`
			`import argparse`


			`def main():`
			`parser = argparse.ArgumentParser(description='')`
			`parser.add_argument('--batch_size', type=int, default=8, help='batch size')`
			`parser.add_argument('--lr', type=float, default=1e-4, help='learning rate')`
			`parser.add_argument('--hidden_size', type=int, default=128, help='hidden_size')`
			`parser.add_argument('--model_type', type=str, default='lstmlast', help='model type')`
			`parser.add_argument('--N', type=int, default=1, help='number of sequence for inference')`
			`parser.add_argument('--user', type=int, default=1, help='number of users')`

			`args = parser.parse_args()`
			`plot_type = 'bar' # line bar`
			`width = [-0.3, -0.2, -0.1, 0, 0.1, 0.2, 0.3]`

			`# read data`
			`user_data_list = []`
			`for i in range(args.user):`
			`model_data_list = []`
			`path = "result/"+"N"+ str(args.N) + "/" + args.model_type + "bs_" + str(args.batch_size) + '_lr_' + str(args.lr) + '_hidden_size_' + str(args.hidden_size) + '_N' + str(args.N) + "_result_user" + str(i) +".csv"`
			`data = genfromtxt(path, delimiter=',', skip_header =1)`
			`for j in range(7):`
			`data_temp = data[[1+7j+j,2+7j+j,3+7j+j,4+7j+j,5+7j+j,6+7j+j,7+7*j+j],:][:,[2,4,6,7]]`
			`model_data_list.append(data_temp)`
			`model_data_list = np.concatenate(model_data_list, axis=0)`
			`user_data_list.append(model_data_list)`

			`color = ['royalblue', 'lightgreen', 'tomato', 'indigo', 'plum', 'darkorange', 'blue']`
			`legend = ['rule 1', 'rule 2', 'rule 3', 'rule 4', 'rule 5', 'rule 6', 'rule 7']`
			`fig, axs = plt.subplots(7, sharex=True, sharey=True)`
			`fig.set_figheight(14)`
			`fig.set_figwidth(25)`

			`for ax in range(7):`
			`y_total = []`
			`y_low_total = []`
			`y_high_total = []`
			`for j in range(7):`
			`y= []`
			`y_low = []`
			`y_high = []`
			`for i in range(len(user_data_list)):`
			`y.append(user_data_list[i][j+ax*7][0])`
			`y_low.append(user_data_list[i][j+ax*7][2])`
			`y_high.append(user_data_list[i][j+ax*7][3])`
			`y_total.append(y)`
			`y_low_total.append(y_low)`
			`y_high_total.append(y_high)`
			`print()`
			`print("user mean of mean prob: ", np.mean(y))`
			`print("user mean of sd prob: ", np.std(y))`

			`for i in range(7):`
			`if plot_type == 'line':`
			`axs[ax].plot(range(args.user), y_total[i], color=color[i], label=legend[i])`
			`axs[ax].fill_between(range(args.user), y_low_total[i], y_high_total[i], color=color[i],alpha=0.3 )`
			`if plot_type == 'bar':`
			`width = [-0.36, -0.24, -0.12, 0, 0.12, 0.24, 0.36]`
			`yerror = [np.array(y_total[i])-np.array(y_low_total[i]), np.array(y_high_total[i])-np.array(y_total[i])]`
			`axs[ax].bar(np.arange(args.user)+width[i], y_total[i], width=0.08, yerr=yerror, label=legend[i], color=color[i])`
			`axs[ax].tick_params(axis='x', which='both', length=0)`
			`axs[ax].set_ylabel('prob', fontsize=22)`
			`for k,x in enumerate(np.arange(args.user)+width[i]):`
			`y = y_total[i][k] + yerror[1][k]`
			`axs[ax].annotate(f'{y_total[i][k]:.2f}', (x, y), textcoords='offset points', xytext=(-18,3), fontsize=16)`

			`axs[0].text(-0.1, 0.9, 'True Intention:', horizontalalignment='center', verticalalignment='center', transform=axs[0].transAxes, fontsize= 22) # all: -0.3,0.5 3rows: -0.5,0.5`
			`axs[ax].text(-0.1, 0.5, legend[ax], horizontalalignment='center', verticalalignment='center', transform=axs[ax].transAxes, fontsize= 22, color=color[ax])`
			`axs[ax].tick_params(axis='both', which='major', labelsize=16)`

			`plt.xticks(range(args.user),('1', '2', '3', '4', '5'))`
			`plt.xlabel('user', fontsize= 22)`
			`handles, labels = axs[0].get_legend_handles_labels()`
			`plt.ylim([0, 1])`
			`Path("figure").mkdir(parents=True, exist_ok=True)`
			`if plot_type == 'line':`
			`plt.savefig("figure/"+"N"+ str(args.N) + "_ "+ args.model_type + "_bs_" + str(args.batch_size) + '_lr_' + str(args.lr) + '_hidden_size_' + str(args.hidden_size) + '_N' + str(args.N) + "_line.png", bbox_inches='tight')`
			`if plot_type == 'bar':`
			`plt.savefig("figure/"+"N"+ str(args.N) + "_ "+ args.model_type + "_bs_" + str(args.batch_size) + '_lr_' + str(args.lr) + '_hidden_size_' + str(args.hidden_size) + '_N' + str(args.N) + "_bar.png", bbox_inches='tight')`
			`plt.show()`

			`if __name__ == '__main__':`
			`main()`