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EM_data_preprocessing.py
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EM_data_preprocessing.py
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import os
import matplotlib.pyplot as plt
import numpy as np
import pandas as pd
def data_preprocessing_dataset1(data_loc, filename, results_loc):
# Returns a usable data frame given the file name
FEATURES = ['X1', 'X2']
data_path = os.path.join(data_loc, filename)
data = pd.read_csv(data_path, header=None, sep='\s+', names=FEATURES)
n_observations = len(data)
K = 2
label = np.empty(shape=(0, 1))
for i in range(K):
label = np.append(label, np.ones((n_observations // K, 1), dtype=int) + i, axis=0)
label = pd.DataFrame(label, columns=['label'], dtype=int)
obs_nr = pd.DataFrame(np.arange(1, n_observations + 1), dtype=int, columns=['obs_i'])
data = pd.concat([obs_nr, data, label], axis=1, join='inner')
data = data.sample(frac=1) # Shuffle rows
plot_file_name = filename + '_raw_data_scatter.pdf'
plt.scatter(data['X1'], data['X2'], s=1)
plt.savefig(os.path.join(results_loc, plot_file_name))
# plt.show()
plt.close()
return data, FEATURES, len(FEATURES)
def data_preprocessing_dataset2(data_loc, filename, results_loc):
# Returns a usable data frame given the file name
FEATURES = ['X1', 'X2']
data_path = os.path.join(data_loc, filename)
data = pd.read_csv(data_path, header=None, sep='\s+', names=FEATURES)
n_observations = len(data)
K = 3
label = np.empty(shape=(0, 1))
for i in range(K):
label = np.append(label, np.ones((n_observations // K, 1), dtype=int) + i, axis=0)
label = pd.DataFrame(label, columns=['label'], dtype=int)
obs_nr = pd.DataFrame(np.arange(1, n_observations + 1), dtype=int, columns=['obs_i'])
data = pd.concat([obs_nr, data, label], axis=1, join='inner')
data = data.sample(frac=1) # Shuffle rows
plot_file_name = filename + '_raw_data_scatter.pdf'
plt.scatter(data['X1'], data['X2'], s=1)
plt.savefig(os.path.join(results_loc, plot_file_name))
# plt.show()
plt.close()
return data, FEATURES, len(FEATURES)
def data_preprocessing_dataset3(data_loc, filename, label_file, results_loc):
# Returns a usable data frame given the file name
FEATURES = ['X1', 'X2']
data_path = os.path.join(data_loc, filename)
data = pd.read_csv(data_path, header=None, sep='\s+', names=FEATURES)
n_observations = len(data)
K = 2
# label = np.empty(shape=(0, 1))
# for i in range(K):
# label = np.append(label, np.ones((n_observations // K, 1), dtype=int) + i, axis=0)
# label = pd.DataFrame(label, columns=['label'], dtype=int)
label_path = os.path.join(data_loc, label_file)
label = pd.read_csv(label_path, header=None, sep='\s+', names=['label'])
obs_nr = pd.DataFrame(np.arange(1, n_observations + 1), dtype=int, columns=['obs_i'])
data = pd.concat([obs_nr, data, label], axis=1, join='inner')
data = data.sample(frac=1) # Shuffle rows
plot_file_name = filename + '_raw_data_scatter.pdf'
plt.scatter(data['X1'], data['X2'], s=1)
plt.savefig(os.path.join(results_loc, plot_file_name))
# plt.show()
plt.close()
return data, FEATURES, len(FEATURES)