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datasets.py
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datasets.py
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import numpy as np
def extract_vgg16_features(x):
from keras.preprocessing.image import img_to_array, array_to_img
from keras.applications.vgg16 import preprocess_input, VGG16
from keras.models import Model
# im_h = x.shape[1]
im_h = 224
model = VGG16(include_top=True, weights='imagenet', input_shape=(im_h, im_h, 3))
# if flatten:
# add_layer = Flatten()
# else:
# add_layer = GlobalMaxPool2D()
# feature_model = Model(model.input, add_layer(model.output))
feature_model = Model(model.input, model.get_layer('fc1').output)
print('extracting features...')
x = np.asarray([img_to_array(array_to_img(im, scale=False).resize((im_h,im_h))) for im in x])
x = preprocess_input(x) # data - 127. #data/255.#
features = feature_model.predict(x)
print('Features shape = ', features.shape)
return features
def make_reuters_data(data_dir):
np.random.seed(1234)
from sklearn.feature_extraction.text import CountVectorizer
from os.path import join
did_to_cat = {}
cat_list = ['CCAT', 'GCAT', 'MCAT', 'ECAT']
with open(join(data_dir, 'rcv1-v2.topics.qrels')) as fin:
for line in fin.readlines():
line = line.strip().split(' ')
cat = line[0]
did = int(line[1])
if cat in cat_list:
did_to_cat[did] = did_to_cat.get(did, []) + [cat]
# did_to_cat = {k: did_to_cat[k] for k in list(did_to_cat.keys()) if len(did_to_cat[k]) > 1}
for did in list(did_to_cat.keys()):
if len(did_to_cat[did]) > 1:
del did_to_cat[did]
dat_list = ['lyrl2004_tokens_test_pt0.dat',
'lyrl2004_tokens_test_pt1.dat',
'lyrl2004_tokens_test_pt2.dat',
'lyrl2004_tokens_test_pt3.dat',
'lyrl2004_tokens_train.dat']
data = []
target = []
cat_to_cid = {'CCAT': 0, 'GCAT': 1, 'MCAT': 2, 'ECAT': 3}
del did
for dat in dat_list:
with open(join(data_dir, dat)) as fin:
for line in fin.readlines():
if line.startswith('.I'):
if 'did' in locals():
assert doc != ''
if did in did_to_cat:
data.append(doc)
target.append(cat_to_cid[did_to_cat[did][0]])
did = int(line.strip().split(' ')[1])
doc = ''
elif line.startswith('.W'):
assert doc == ''
else:
doc += line
print((len(data), 'and', len(did_to_cat)))
assert len(data) == len(did_to_cat)
x = CountVectorizer(dtype=np.float64, max_features=2000).fit_transform(data)
y = np.asarray(target)
from sklearn.feature_extraction.text import TfidfTransformer
x = TfidfTransformer(norm='l2', sublinear_tf=True).fit_transform(x)
x = x[:10000].astype(np.float32)
print(x.dtype, x.size)
y = y[:10000]
x = np.asarray(x.todense()) * np.sqrt(x.shape[1])
print('todense succeed')
p = np.random.permutation(x.shape[0])
x = x[p]
y = y[p]
print('permutation finished')
assert x.shape[0] == y.shape[0]
x = x.reshape((x.shape[0], -1))
np.save(join(data_dir, 'reutersidf10k.npy'), {'data': x, 'label': y})
def load_mnist():
# the data, shuffled and split between train and test sets
from keras.datasets import mnist
(x_train, y_train), (x_test, y_test) = mnist.load_data()
x = np.concatenate((x_train, x_test))
y = np.concatenate((y_train, y_test))
x = x.reshape((x.shape[0], -1))
x = np.divide(x, 255.)
print('MNIST samples', x.shape)
return x, y
def load_fashion_mnist():
from keras.datasets import fashion_mnist # this requires keras>=2.0.9
(x_train, y_train), (x_test, y_test) = fashion_mnist.load_data()
x = np.concatenate((x_train, x_test))
y = np.concatenate((y_train, y_test))
x = x.reshape((x.shape[0], -1))
x = np.divide(x, 255.)
print('Fashion MNIST samples', x.shape)
return x, y
def load_pendigits(data_path='./data/pendigits'):
import os
if not os.path.exists(data_path + '/pendigits.tra'):
os.system('wget http://mlearn.ics.uci.edu/databases/pendigits/pendigits.tra -P %s' % data_path)
os.system('wget http://mlearn.ics.uci.edu/databases/pendigits/pendigits.tes -P %s' % data_path)
os.system('wget http://mlearn.ics.uci.edu/databases/pendigits/pendigits.names -P %s' % data_path)
# load training data
with open(data_path + '/pendigits.tra') as file:
data = file.readlines()
data = [list(map(float, line.split(','))) for line in data]
data = np.array(data).astype(np.float32)
data_train, labels_train = data[:, :-1], data[:, -1]
print('data_train shape=', data_train.shape)
# load testing data
with open(data_path + '/pendigits.tes') as file:
data = file.readlines()
data = [list(map(float, line.split(','))) for line in data]
data = np.array(data).astype(np.float32)
data_test, labels_test = data[:, :-1], data[:, -1]
print('data_test shape=', data_test.shape)
x = np.concatenate((data_train, data_test)).astype('float32')
y = np.concatenate((labels_train, labels_test))
x /= 100.
print('pendigits samples:', x.shape)
return x, y
def load_usps(data_path='./data/usps'):
import os
if not os.path.exists(data_path+'/usps_train.jf'):
if not os.path.exists(data_path+'/usps_train.jf.gz'):
os.system('wget http://www-i6.informatik.rwth-aachen.de/~keysers/usps_train.jf.gz -P %s' % data_path)
os.system('wget http://www-i6.informatik.rwth-aachen.de/~keysers/usps_test.jf.gz -P %s' % data_path)
os.system('gunzip %s/usps_train.jf.gz' % data_path)
os.system('gunzip %s/usps_test.jf.gz' % data_path)
with open(data_path + '/usps_train.jf') as f:
data = f.readlines()
data = data[1:-1]
data = [list(map(float, line.split())) for line in data]
data = np.array(data)
data_train, labels_train = data[:, 1:], data[:, 0]
with open(data_path + '/usps_test.jf') as f:
data = f.readlines()
data = data[1:-1]
data = [list(map(float, line.split())) for line in data]
data = np.array(data)
data_test, labels_test = data[:, 1:], data[:, 0]
x = np.concatenate((data_train, data_test)).astype('float64') / 2.
y = np.concatenate((labels_train, labels_test))
print('USPS samples', x.shape)
return x, y
def load_reuters(data_path='./data/reuters'):
import os
if not os.path.exists(os.path.join(data_path, 'reutersidf10k.npy')):
print('making reuters idf features')
make_reuters_data(data_path)
print(('reutersidf saved to ' + data_path))
data = np.load(os.path.join(data_path, 'reutersidf10k.npy')).item()
# has been shuffled
x = data['data']
y = data['label']
x = x.reshape((x.shape[0], -1)).astype('float64')
y = y.reshape((y.size,))
print(('REUTERSIDF10K samples', x.shape))
return x, y
def load_retures_keras():
from keras.preprocessing.text import Tokenizer
from keras.datasets import reuters
max_words = 1000
print('Loading data...')
(x, y), (_, _) = reuters.load_data(num_words=max_words, test_split=0.)
print(len(x), 'train sequences')
num_classes = np.max(y) + 1
print(num_classes, 'classes')
print('Vectorizing sequence data...')
tokenizer = Tokenizer(num_words=max_words)
x = tokenizer.sequences_to_matrix(x, mode='binary')
print('x_train shape:', x.shape)
return x.astype(float), y
def load_imdb():
from keras.preprocessing.text import Tokenizer
from keras.datasets import imdb
max_words = 1000
print('Loading data...')
(x1, y1), (x2, y2) = imdb.load_data(num_words=max_words)
x = np.concatenate((x1, x2))
y = np.concatenate((y1, y2))
print(len(x), 'train sequences')
num_classes = np.max(y) + 1
print(num_classes, 'classes')
print('Vectorizing sequence data...')
tokenizer = Tokenizer(num_words=max_words)
x = tokenizer.sequences_to_matrix(x, mode='binary')
print('x_train shape:', x.shape)
return x.astype(float), y
def load_newsgroups():
from sklearn.feature_extraction.text import TfidfVectorizer
from sklearn.datasets import fetch_20newsgroups
newsgroups = fetch_20newsgroups(subset='all', remove=('headers', 'footers', 'quotes'))
vectorizer = TfidfVectorizer(max_features=2000, dtype=np.float64, sublinear_tf=True)
x_sparse = vectorizer.fit_transform(newsgroups.data)
x = np.asarray(x_sparse.todense())
y = newsgroups.target
print('News group data shape ', x.shape)
print("News group number of clusters: ", np.unique(y).size)
return x, y
def load_cifar10(data_path='./data/cifar10'):
from keras.datasets import cifar10
(train_x, train_y), (test_x, test_y) = cifar10.load_data()
x = np.concatenate((train_x, test_x))
y = np.concatenate((train_y, test_y)).reshape((60000,))
# if features are ready, return them
import os.path
if os.path.exists(data_path + '/cifar10_features.npy'):
return np.load(data_path + '/cifar10_features.npy'), y
# extract features
features = np.zeros((60000, 4096))
for i in range(6):
idx = range(i*10000, (i+1)*10000)
print("The %dth 10000 samples" % i)
features[idx] = extract_vgg16_features(x[idx])
# scale to [0,1]
from sklearn.preprocessing import MinMaxScaler
features = MinMaxScaler().fit_transform(features)
# save features
np.save(data_path + '/cifar10_features.npy', features)
print('features saved to ' + data_path + '/cifar10_features.npy')
return features, y
def load_stl(data_path='./data/stl'):
import os
assert os.path.exists(data_path + '/stl_features.npy') or not os.path.exists(data_path + '/train_X.bin'), \
"No data! Use %s/get_data.sh to get data ready, then come back" % data_path
# get labels
y1 = np.fromfile(data_path + '/train_y.bin', dtype=np.uint8) - 1
y2 = np.fromfile(data_path + '/test_y.bin', dtype=np.uint8) - 1
y = np.concatenate((y1, y2))
# if features are ready, return them
if os.path.exists(data_path + '/stl_features.npy'):
return np.load(data_path + '/stl_features.npy'), y
# get data
x1 = np.fromfile(data_path + '/train_X.bin', dtype=np.uint8)
x1 = x1.reshape((int(x1.size/3/96/96), 3, 96, 96)).transpose((0, 3, 2, 1))
x2 = np.fromfile(data_path + '/test_X.bin', dtype=np.uint8)
x2 = x2.reshape((int(x2.size/3/96/96), 3, 96, 96)).transpose((0, 3, 2, 1))
x = np.concatenate((x1, x2)).astype(float)
# extract features
features = extract_vgg16_features(x)
# scale to [0,1]
from sklearn.preprocessing import MinMaxScaler
features = MinMaxScaler().fit_transform(features)
# save features
np.save(data_path + '/stl_features.npy', features)
print('features saved to ' + data_path + '/stl_features.npy')
return features, y
def load_data(dataset_name):
if dataset_name == 'mnist':
return load_mnist()
elif dataset_name == 'fmnist':
return load_fashion_mnist()
elif dataset_name == 'usps':
return load_usps()
elif dataset_name == 'pendigits':
return load_pendigits()
elif dataset_name == 'reuters10k' or dataset_name == 'reuters':
return load_reuters()
elif dataset_name == 'stl':
return load_stl()
else:
print('Not defined for loading', dataset_name)
exit(0)