def add_word():
jieba.add_word("创新办")
jieba.add_word("专家")
jieba.add_word("云计算")
jieba.del_word("大福")
cuts = jieba.cut("周大福是创新办主任也是云计算方面的专家", cut_all=False)
logger.info(",".join(cuts))
def posseg():
"""
词性标注
:return:
"""
words = jieba.posseg.cut("我爱北京天安门")
for word, flag in words: logger.info('%s %s' % (word, flag))
def tf_idf():
"""
tfidf关键词提取 tf=词w在文档d出现的次数/文档d包含的词数量,idf=log(总文档数量D/(包含词w的文档数量+1))
:return:
"""
s = "此外,公司拟对全资子公司吉林欧亚置业有限公司增资4.3亿元,增资后,吉林欧亚置业注册资本由7000万元增加到5亿元。吉林欧亚置业主要经营范围为房地产开发及百货零售等业务。目前在建吉林欧亚城市商业综合体项目。2013年,实现营业收入0万元,实现净利润-139.13万元。"
tags = jieba.analyse.extract_tags(s, topK=20, withWeight=True)
for x, w in tags: logger.info('%s %s' % (x, w))
def dictionary():
"""
使用自定义词典
:return:
"""
jieba.set_dictionary(os.path.join(root_path, "data", "jieba", "dict.txt.big.txt"))
cuts = jieba.cut("周大福是创新办主任也是云计算方面的专家", cut_all=False)
logger.info(",".join(cuts))
def load_userdict():
"""
添加用户自定义词典
:return:
"""
jieba.load_userdict(os.path.join(root_path, "data", "jieba", "userdict.txt"))
cuts = jieba.cut("周大福是创新办主任也是云计算方面的专家", cut_all=False)
logger.info(",".join(cuts))
def textrank():
"""
textrank关键词提取
:return:
"""
s = "此外,公司拟对全资子公司吉林欧亚置业有限公司增资4.3亿元,增资后,吉林欧亚置业注册资本由7000万元增加到5亿元。吉林欧亚置业主要经营范围为房地产开发及百货零售等业务。目前在建吉林欧亚城市商业综合体项目。2013年,实现营业收入0万元,实现净利润-139.13万元。"
tags = jieba.analyse.textrank(s, topK=20, withWeight=True)
for x, w in tags:
logger.info('%s %s' % (x, w))
def tokenize():
"""
分词
:return:
"""
s = "周大福是创新办主任也是云计算方面的专家"
result = jieba.tokenize(s)
logger.info("普通模式")
for tk in result: logger.info("word: {0} \t\t start: {1} \t\t end: {2}".format(tk[0], tk[1], tk[2]))
logger.info("\n搜索模式")
result = jieba.tokenize(s, mode='search')
for tk in result: logger.info("word: {0} \t\t start: {1} \t\t end: {2}".format(tk[0], tk[1], tk[2]))
def keras_bostonhousing():
(x_train, y_train), (x_test,
y_test) = keras.datasets.boston_housing.load_data(
os.path.join(root_path, "data", "boston_housing",
"boston_housing.npz"))
logger.info(x_train.shape)
logger.info(y_train.shape)
logger.info(x_test.shape)
logger.info(y_test.shape)
# x_train = keras.utils.np_utils.normalize(x_train, 1)
# y_train = keras.utils.np_utils.normalize(y_train, 0)[0]
x_train = x_train / 100.
y_train = y_train / 100.
x_test = x_test / 100.
y_test = y_test / 100.
# 数据预处理
model = keras.models.Sequential()
model.add(
keras.layers.Dense(32,
activation="relu",
input_shape=(x_train.shape[1], ),
use_bias=True))
model.add(keras.layers.Dense(128, activation="relu"))
model.add(keras.layers.Dense(1, activation="sigmoid"))
model.summary()
model.compile(optimizer=keras.optimizers.SGD(lr=0.001), loss="mse")
result = model.fit(x_train,
y_train,
batch_size=16,
epochs=50,
verbose=1,
validation_split=0.2)
logger.info(result)
predict_datas = model.predict(x_test, batch_size=64, verbose=1)
for i in range(10):
logger.info("real {0},predict: {1}".format(y_test[i],
predict_datas[i]))
def keras_cifar_cnn():
"""
cifar图片分类多层神经网络实现
:return:
"""
(x_train, y_train), (x_test, y_test) = keras.datasets.cifar10.load_data()
# 图像数据预处理
x_train = x_train / 255
x_test = x_test / 255
num_classes = max(np.max(y_train), np.max(y_test)) + 1
y_train = keras.utils.to_categorical(y_train, num_classes)
y_test = keras.utils.to_categorical(y_test, num_classes)
logger.info(x_train.shape)
logger.info(y_train.shape)
logger.info(x_test.shape)
logger.info(y_test.shape)
model = keras.models.Sequential()
model.add(
keras.layers.Convolution2D(64, (3, 3),
padding="same",
data_format="channels_last",
activation="relu",
input_shape=(32, 32, 3)))
model.add(
keras.layers.Convolution2D(64, (3, 3),
padding="same",
activation="relu"))
model.add(keras.layers.MaxPooling2D(pool_size=(2, 2), strides=(2, 2)))
# model.add(keras.layers.Dropout(0.25))
model.add(
keras.layers.Convolution2D(128, (3, 3),
padding="same",
activation="relu"))
model.add(
keras.layers.Convolution2D(128, (3, 3),
padding="same",
activation="relu"))
model.add(keras.layers.MaxPooling2D(pool_size=(2, 2), strides=(2, 2)))
# model.add(keras.layers.Dropout(0.25))
model.add(
keras.layers.Convolution2D(256, (3, 3),
padding="same",
activation="relu"))
model.add(
keras.layers.Convolution2D(256, (3, 3),
padding="same",
activation="relu"))
model.add(
keras.layers.Convolution2D(256, (3, 3),
padding="same",
activation="relu"))
model.add(keras.layers.MaxPooling2D(pool_size=(2, 2), strides=(2, 2)))
# model.add(keras.layers.Dropout(0.25))
model.add(keras.layers.Flatten())
model.add(keras.layers.Dense(128, activation="relu"))
model.add(keras.layers.Dense(64, activation="relu"))
model.add(keras.layers.Dense(num_classes, activation="softmax"))
model.summary()
model.compile(optimizer="adam",
loss="categorical_crossentropy",
metrics=["accuracy"])
model.fit(x_train,
y_train,
batch_size=64,
epochs=10,
verbose=1,
validation_data=(x_test, y_test))
test_loss, test_accuracy = model.evaluate(x_test,
y_test,
batch_size=64,
verbose=0)
logger.info("\ntest_loss:{0},test_accuracy:{1}".format(
test_loss, test_accuracy))
def custorm_idf():
s = "此外,公司拟对全资子公司吉林欧亚置业有限公司增资4.3亿元,增资后,吉林欧亚置业注册资本由7000万元增加到5亿元。吉林欧亚置业主要经营范围为房地产开发及百货零售等业务。目前在建吉林欧亚城市商业综合体项目。2013年,实现营业收入0万元,实现净利润-139.13万元。"
jieba.analyse.set_idf_path(os.path.join(root_path, "data", "jieba", "idf.txt.big.txt"))
tags = jieba.analyse.extract_tags(s, topK=20, withWeight=True)
for x, w in tags: logger.info('%s %s' % (x, w))
def stop_words():
s = "周大福是创新办主任也是云计算方面的专家"
jieba.analyse.set_stop_words(os.path.join(root_path, "data", "jieba", "stopwords.txt"))
tags = jieba.analyse.extract_tags(s, topK=5, withWeight=True)
for x, w in tags: logger.info('%s %s' % (x, w))
def cut_for_search():
cuts = jieba.cut_for_search("周大福是创新办主任也是云计算方面的专家")
logger.info(",".join(cuts))
def cut():
cuts = jieba.cut("周大福是创新办主任也是云计算方面的专家", cut_all=False)
logger.info(",".join(cuts))
def keras_reuters_mlp(num_words=None,
maxlen=None,
num_categorical=None,
batch_size=32,
epochs=10,
mode=None):
"""
使用mlp多层感知机模式进行情感评估,同时对比自归一化mlp和常规mlp的性能对比
:return:
"""
(X_train, y_train), (X_test, y_test) = reuters.load_data(
path=os.path.join(root_path, "data", "reuters", "reuters.npz"),
num_words=num_words)
if not num_words:
num_words = max(max([max(x)
for x in X_train]), max([max(x)
for x in X_test])) + 1
if not maxlen:
maxlen = max(max([len(x)
for x in X_train]), max([len(x)
for x in X_test])) + 1
if not num_categorical:
num_categorical = max(max(y_train), max(y_test)) + 1
tokenizer = text.Tokenizer(num_words=num_words)
X_train = tokenizer.sequences_to_matrix(X_train)
y_train = keras.utils.to_categorical(y_train, num_categorical)
X_test = tokenizer.sequences_to_matrix(X_test)
y_test = keras.utils.to_categorical(y_test, num_categorical)
input = keras.layers.Input(shape=(num_words, ))
# 自归一化snn
if mode == "self-normalizing":
x = keras.layers.Dense(512,
activation=keras.activations.selu,
kernel_initializer="lecun_normal")(input)
x = keras.layers.AlphaDropout(0.1)(x)
x = keras.layers.Dense(256,
activation="selu",
kernel_initializer="lecun_normal")(x)
x = keras.layers.AlphaDropout(0.1)(x)
x = keras.layers.Dense(128,
activation="selu",
kernel_initializer="lecun_normal")(x)
x = keras.layers.AlphaDropout(0.1)(x)
else:
x = keras.layers.Dense(512,
activation="relu",
kernel_initializer="glorot_normal")(input)
x = keras.layers.BatchNormalization()(x)
# x = keras.layers.Dropout(0.4)(x)
x = keras.layers.Dense(256,
activation="relu",
kernel_initializer="glorot_normal")(x)
x = keras.layers.BatchNormalization()(x)
# x = keras.layers.Dropout(0.4)(x)
x = keras.layers.Dense(128,
activation="relu",
kernel_initializer="glorot_normal")(x)
x = keras.layers.BatchNormalization()(x)
# x = keras.layers.Dropout(0.4)(x)
x = keras.layers.Dense(num_categorical, activation="softmax")(x)
model = keras.models.Model(inputs=input, outputs=x)
model.summary()
model.compile(optimizer="adadelta",
loss="categorical_crossentropy",
metrics=["accuracy"])
history = model.fit(X_train,
y_train,
batch_size=batch_size,
epochs=epochs,
validation_split=0.2)
keras_history_plotcurve(history)
score = model.evaluate(X_test, y_test, batch_size=batch_size, verbose=1)
logger.info('Test loss:{0}'.format(score[0]))
logger.info('Test accuracy:{0}'.format(score[1]))
def keras_reuters_info():
(X_train, y_train), (X_test, y_test) = reuters.load_data(path=os.path.join(
root_path, "data", "reuters", "reuters.npz"),
skip_top=0,
maxlen=None,
test_split=0.2,
seed=113,
start_char=1,
oov_char=2,
index_from=3)
logger.info(X_train.shape)
logger.info(y_train.shape)
logger.info(X_test.shape)
logger.info(y_test.shape)
word_index = reuters.get_word_index(
os.path.join(root_path, "data", "reuters", "reuters_word_index.json"))
logger.info(word_index)
num_words = max(max([len(x)
for x in X_train]), max([len(x) for x in X_test])) + 1
num_classify = max(max(y_train), max(y_test)) + 1
num_vocab = max(max([max(x)
for x in X_train]), max([max(x) for x in X_test])) + 1
logger.info("num_words {0}".format(num_words))
logger.info("num_classify {0}".format(num_classify))
logger.info("num_voc {0}".format(num_vocab))
