Text Classifier, Text Classification
Project description
pytextclassifier
pytextclassifier, Python Text Classifier. It can be applied to the fields of sentiment polarity analysis, text risk classification and so on, and it supports multiple classification algorithms and clustering algorithms.
文本分类器,提供多种文本分类和聚类算法,支持文本极性情感分类,文本风险类型分类等文本分类和聚类应用。兼容python2.7和python3。
Guide
Feature
pytextclassifier is a python Open Source Toolkit for text classification. The goal is to implement text analysis algorithm, so as to achieve the use in the production environment.
pytextclassifier has the characteristics of clear algorithm, high performance and customizable corpus.
Functions:
Classifier
- LogisticRegression
- Random Forest
- Decision Tree
- K-Nearest Neighbours
- Naive bayes
- Xgboost
- Support Vector Machine(SVM)
- Xgboost
- Xgboost_lr
- MLP
- Ensemble
- Stack
- TextCNN
- TextRNN
- Fasttext
Evaluate
- Precision
- Recall
- F1
Test
- Chi-square test
Cluster
- MiniBatchKmeans
While providing rich functions, pytextclassifier internal modules adhere to low coupling, model adherence to inert loading, dictionary publication, and easy to use.
Install
- Requirements and Installation
pip3 install pytextclassifier
or
git clone https://github.com/shibing624/pytextclassifier.git
cd pytextclassifier
python3 setup.py install
Usage
Text Classifier
- English Text Classifier
Including model training, saving, predict, test, for example base_demo.py:
import sys
sys.path.append('..')
from pytextclassifier import TextClassifier
if __name__ == '__main__':
m = TextClassifier()
# model_name is choose classifier, support lr, random_forest, xgboost, svm, mlp, ensemble, stack
print(m)
data = [
('education', 'Student debt to cost Britain billions within decades'),
('education', 'Chinese education for TV experiment'),
('sports', 'Middle East and Asia boost investment in top level sports'),
('sports', 'Summit Series look launches HBO Canada sports doc series: Mudhar')
]
m.train(data)
r = m.predict(['Abbott government spends $8 million on higher education media blitz',
'Middle East and Asia boost investment in top level sports'])
print(r)
m.save()
del m
new_m = TextClassifier()
new_m.load()
predict_label_prob = new_m.predict_proba(['Abbott government spends $8 million on higher education media blitz'])
print(predict_label_prob) # [[0.53337174 0.46662826]]
print('classes_: ', new_m.model.classes_) # the classes ordered as prob
predict_label = new_m.predict(['Abbott government spends $8 million on higher education media blitz',
'Middle East and Asia boost investment in top level sports'])
print(predict_label) # ['education', 'sports']
test_data = [
('education', 'Abbott government spends $8 million on higher education media blitz'),
('sports', 'Middle East and Asia boost investment in top level sports'),
]
acc_score = new_m.test(test_data)
print(acc_score) # 1.0
output:
TextClassifier instance (LogisticRegression(fit_intercept=False), <pytextclassifier.utils.tokenizer.Tokenizer object at 0x7fde504682b0>, TfidfVectorizer(ngram_range=(1, 2)))
['education' 'sports']
[[0.53782393 0.46217607]]
classes_: ['education' 'sports']
['education' 'sports']
classify_report :
precision recall f1-score support
education 1.00 1.00 1.00 1
sports 1.00 1.00 1.00 1
accuracy 1.00 2
macro avg 1.00 1.00 1.00 2
weighted avg 1.00 1.00 1.00 2
confusion_matrix :
[[1 0]
[0 1]]
acc_for_each_class :
[1. 1.]
average_accuracy: 1.0000
overall_accuracy: 1.0000
accuracy_score: 1.0000
1.0
- Chinese Text Classifier
Text classification compatible with Chinese and English corpora, for example chinese_text_demo.py
import sys
sys.path.append('..')
from pytextclassifier import TextClassifier
if __name__ == '__main__':
m = TextClassifier()
data = [
('education', '名师指导托福语法技巧:名词的复数形式'),
('education', '中国高考成绩海外认可 是“狼来了”吗?'),
('sports', '图文:法网孟菲尔斯苦战进16强 孟菲尔斯怒吼'),
('sports', '四川丹棱举行全国长距登山挑战赛 近万人参与'),
('sports', '米兰客场8战不败国米10年连胜')
]
m.train(data)
r = m.predict(['福建春季公务员考试报名18日截止 2月6日考试',
'意甲首轮补赛交战记录:米兰客场8战不败国米10年连胜'])
print(r)
m.save()
print(m)
del m
new_m = TextClassifier()
new_m.load()
predict_label_prob = new_m.predict_proba(['福建春季公务员考试报名18日截止 2月6日考试'])
print(predict_label_prob) # [[0.53337174 0.46662826]]
print('classes_: ', new_m.model.classes_) # the classes ordered as prob
predict_label = new_m.predict(['福建春季公务员考试报名18日截止 2月6日考试',
'意甲首轮补赛交战记录:米兰客场8战不败国米10年连胜'])
print(predict_label) # ['education', 'sports']
test_data = [
('education', '福建春季公务员考试报名18日截止 2月6日考试'),
('sports', '意甲首轮补赛交战记录:米兰客场8战不败国米10年连胜'),
]
acc_score = new_m.test(test_data)
print(acc_score) # 1.0
output:
['education' 'sports']
TextClassifier instance (LogisticRegression(fit_intercept=False), <pytextclassifier.utils.tokenizer.Tokenizer object at 0x7fbac86632b0>, TfidfVectorizer(ngram_range=(1, 2)))
[[0.5 0.5]]
classes_: ['education' 'sports']
['education' 'sports']
classify_report :
precision recall f1-score support
education 1.00 1.00 1.00 1
sports 1.00 1.00 1.00 1
accuracy 1.00 2
macro avg 1.00 1.00 1.00 2
weighted avg 1.00 1.00 1.00 2
confusion_matrix :
[[1 0]
[0 1]]
acc_for_each_class :
[1. 1.]
average_accuracy: 1.0000
overall_accuracy: 1.0000
accuracy_score: 1.0000
1.0
- Visual Feature Importance
Show feature weights of model, and prediction word weight, for example visual_feature_importance.ipynb
import sys
sys.path.append('..')
from pytextclassifier import TextClassifier
import jieba
tc = TextClassifier()
data = [
('education', '名师指导托福语法技巧:名词的复数形式'),
('education', '中国高考成绩海外认可 是“狼来了”吗?'),
('sports', '图文:法网孟菲尔斯苦战进16强 孟菲尔斯怒吼'),
('sports', '四川丹棱举行全国长距登山挑战赛 近万人参与'),
('sports', '米兰客场8战不败国米10年连胜')
]
tc.train(data)
import eli5
infer_data = ['高考指导托福语法技巧国际认可',
'意甲首轮补赛交战记录:米兰客场8战不败国米10年连胜']
eli5.show_weights(tc.model, vec=tc.vectorizer)
seg_infer_data = [' '.join(jieba.lcut(i)) for i in infer_data]
eli5.show_prediction(tc.model, seg_infer_data[0], vec=tc.vectorizer)
output:
- 模型效果
| 模型 | acc | 备注 |
|---|---|---|
| LR | 88.03% | 逻辑回归Logistics Regression |
| TextCNN | 88.09% | Kim 2014 经典的CNN文本分类 |
| TextRNN_Att | 90.22% | BiLSTM+Attention |
| FastText | 91.77% | bow+bigram+trigram, 效果出奇的好 |
| DPCNN | 91.25% | 深层金字塔CNN |
| Transformer | 89.91% | 效果较差 |
| BERT | 94.83% | bert + fc |
| ERNIE | 94.61% | 比bert略差 |
Text Cluster
Text clustering, for example cluster_demo.py
import sys
sys.path.append('..')
from pytextclassifier.textcluster import TextCluster
m = TextCluster(n_clusters=2)
print(m)
data = [
'Student debt to cost Britain billions within decades',
'Chinese education for TV experiment',
'Abbott government spends $8 million on higher education',
'Middle East and Asia boost investment in top level sports',
'Summit Series look launches HBO Canada sports doc series: Mudhar'
]
X_vec, labels = m.train(data)
r = m.predict(['Abbott government spends $8 million on higher education media blitz',
'Middle East and Asia boost investment in top level sports'])
print(r)
m.show_clusters(X_vec, labels, image_file='cluster.png')
m.save()
del m
new_m = TextCluster(n_clusters=2)
new_m.load()
r = new_m.predict(['Abbott government spends $8 million on higher education media blitz',
'Middle East and Asia boost investment in top level sports'])
print(r)
output:
TextCluster instance (MiniBatchKMeans(n_clusters=2, n_init=10), <pytextclassifier.utils.tokenizer.Tokenizer object at 0x7f80bd4682b0>, TfidfVectorizer(ngram_range=(1, 2)))
[1 0]
[1 0]
clustering plot image:
Train your Text Classification Deep Model
- Preprocess with segment(optional)
cd pytextclassifier
python3 preprocess.py
- Train model
you can change model with edit config.py and train model.
python3 train.py
- Predict with test data
python3 infer.py
Contact
- Issue(建议):
- 邮件我:xuming: xuming624@qq.com
- 微信我:加我微信号:xuming624, 进Python-NLP交流群,备注:姓名-公司名-NLP
Cite
如果你在研究中使用了pytextclassifier,请按如下格式引用:
@software{pytextclassifier,
author = {Xu Ming},
title = {pytextclassifier: A Tool for Text Classifier},
year = {2021},
url = {https://github.com/shibing624/pytextclassifier},
}
License
授权协议为 The Apache License 2.0,可免费用做商业用途。请在产品说明中附加pytextclassifier的链接和授权协议。
Contribute
项目代码还很粗糙,如果大家对代码有所改进,欢迎提交回本项目,在提交之前,注意以下两点:
- 在
tests添加相应的单元测试 - 使用
python setup.py test来运行所有单元测试,确保所有单测都是通过的
之后即可提交PR。
Reference
- SentimentPolarityAnalysis
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