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龙再飞
2026-04-30 15:53:27 +08:00
parent 2fc549d284
commit 58da0d6314
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ChnSentiCorp_htl_all.csv Normal file
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config.py
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# -*- coding: utf-8 -*-
"""
配置文件 - 所有超参数集中管理
设计思路:
将超参数分门别类,学生可以单独修改某一类而不会影响其他
"""
# ==================== 数据相关 ====================
DATA_DIR = 'data/ChnSentiCorp' # 数据集路径
MAX_FEATURES = 3000 # 词表最大容量
MAX_SEQ_LEN = 100 # 句子最大长度(词数)
VECTORIZER_TYPE = 'tfidf' # 'tfidf' 或 'bow'(向量化方式)
# ==================== 模型相关 ====================
MODEL_TYPE = 'mlp' # 'mlp' 或 'lr'(模型类型)
HIDDEN_SIZE = 64 # MLP隐藏层大小LR忽略
NUM_CLASSES = 2 # 类别数(正面/负面二分类)
KEEP_PROB = 1.0 # Dropout保留概率LR忽略设为1即可
# ==================== 训练相关 ====================
LEARNING_RATE = 0.05 # 学习率
NUM_EPOCHS = 100 # 训练轮数
BATCH_SIZE = 64 # 批次大小
# ==================== 类别权重(解决数据不平衡问题)====================
USE_CLASS_WEIGHT = True # True=启用类别权重, False=不启用(对比用)
# 权重计算公式: n_samples / (n_classes * n_class_i)
# 正面评论多所以权重小,负面评论少所以权重大
CLASS_WEIGHT_POS = 0.73 # 正面类权重(自动计算)
CLASS_WEIGHT_NEG = 1.58 # 负面类权重(自动计算)
# ==================== 实验相关 ====================
RUN_COMPARISON = False # True=运行对比实验, False=运行单个模型
COMPARE_MODELS = ['lr', 'mlp'] # 要对比的模型列表
COMPARE_VECTORS = ['bow', 'tfidf'] # 要对比的向量化方式
# ==================== 其他 ====================
RANDOM_SEED = 42 # 随机种子(保证可复现)
VERBOSE = True # 打印详细日志
# ģ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
MODEL_TYPE = 'mlp' # 'lr' <20>߼<EFBFBD><DFBC>ع<EFBFBD> / 'mlp' <20><><EFBFBD><EFBFBD>֪<EFBFBD><D6AA>
VECTORIZER_TYPE = 'tfidf' # 'bow' / 'tfidf'
# ѵ<><D1B5><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
NUM_EPOCHS = 100
LEARNING_RATE = 0.05
BATCH_SIZE = 32
HIDDEN_SIZE = 64
# <20>ı<EFBFBD><C4B1><EFBFBD><EFBFBD><EFBFBD>
MAX_FEATURES = 3000 # <20>ʱ<EFBFBD><CAB1><EFBFBD>С
MAX_SEQ_LEN = 100 # <20><><EFBFBD><EFBFBD>ı<EFBFBD><C4B1><EFBFBD><EFBFBD><EFBFBD>
# <EFBFBD><EFBFBD><EFBFBD>ݲ<EFBFBD>ƽ<EFBFBD><EFBFBD><EFBFBD>
USE_CLASS_WEIGHT = True # <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ȩ<EFBFBD><C8A8>
# ʵ<><CAB5>Ա<EFBFBD>
RUN_COMPARISON = True

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dataset.py
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# -*- coding: utf-8 -*-
"""
数据加载与向量化模块
支持两种向量化方法:
1. BoW (Bag of Words) - 词频向量
2. TF-IDF - 词频-逆文档频率向量
TF-IDF 的优势:
- 降低常见词(如"""")的权重
- 提升罕见词的信息量
- 通常效果优于简单BoW
"""
import os
import re
import csv
import math
import jieba
import numpy as np
from collections import Counter
try:
import urllib.request
import ssl
DOWNLOAD_AVAILABLE = True
except ImportError:
DOWNLOAD_AVAILABLE = False
DATASET_URL = "https://raw.githubusercontent.com/SophonPlus/ChineseNlpCorpus/master/datasets/ChnSentiCorp_htl_all/ChnSentiCorp_htl_all.csv"
def download_dataset(data_dir):
"""下载数据集(如果不存在)"""
csv_path = os.path.join(data_dir, 'ChnSentiCorp_htl_all.csv')
if os.path.exists(csv_path):
print(f"数据已存在: {csv_path}")
return True
if not DOWNLOAD_AVAILABLE:
return False
print("正在下载数据集...")
ssl_context = ssl.create_default_context()
ssl_context.check_hostname = False
ssl_context.verify_mode = ssl.CERT_NONE
try:
request = urllib.request.Request(DATASET_URL, headers={'User-Agent': 'Mozilla/5.0'})
response = urllib.request.urlopen(request, timeout=120, context=ssl_context)
os.makedirs(data_dir, exist_ok=True)
with open(csv_path, 'wb') as f:
f.write(response.read())
print(f"下载完成: {csv_path}")
return True
except Exception as e:
print(f"下载失败: {e}")
return False
def load_raw_data(data_dir):
"""加载原始数据"""
csv_path = os.path.join(data_dir, 'ChnSentiCorp_htl_all.csv')
texts, labels = [], []
with open(csv_path, 'r', encoding='utf-8') as f:
reader = csv.reader(f)
for row in reader:
if len(row) < 2:
continue
try:
label = int(row[0])
review = row[1].strip()
if review:
texts.append(review)
labels.append(label)
except (ValueError, IndexError):
continue
return texts, np.array(labels)
def tokenize(text):
"""中文分词"""
text = re.sub(r'[^\u4e00-\u9fa5a-zA-Z]', ' ', text)
words = jieba.lcut(text)
return [w for w in words if len(w) > 1]
# ==================== 向量化器 ====================
class BaseVectorizer:
"""向量化器基类"""
def fit(self, texts): pass
def transform(self, texts): pass
def fit_transform(self, texts): pass
class BoWVectorizer(BaseVectorizer):
"""
词袋模型 (Bag of Words)
原理:统计每个词在文本中出现的次数
向量维度 = 词表大小
每个维度 = 该词在本文本中出现的次数
"""
def __init__(self, max_features, max_seq_len):
self.max_features = max_features
self.max_seq_len = max_seq_len
self.vocab = {}
self.doc_freq = {} # 文档频率
self.num_docs = 0
def fit(self, texts):
"""构建词表(基于词频)"""
counter = Counter()
doc_counter = Counter() # 统计包含该词的文档数
for text in texts:
words = tokenize(text)
unique_words = set(words)
counter.update(words)
for w in unique_words:
doc_counter[w] += 1
self.num_docs = len(texts)
# 取最高频的词
most_common = counter.most_common(self.max_features)
self.vocab = {word: idx for idx, (word, _) in enumerate(most_common)}
# 记录文档频率用于TF-IDF
self.doc_freq = {w: doc_counter[w] for w in self.vocab}
print(f" BoW词表大小: {len(self.vocab)}")
return self
def transform(self, texts):
"""将文本转换为词频向量"""
vectors = []
for text in texts:
words = tokenize(text)
freq = [0] * self.max_seq_len
for i, word in enumerate(words[:self.max_seq_len]):
if word in self.vocab:
freq[i] = 1 # 二值(出现=1不出现=0
vectors.append(freq)
return np.array(vectors, dtype=np.float32)
def fit_transform(self, texts):
self.fit(texts)
return self.transform(texts)
class TFIDFVectorizer(BaseVectorizer):
"""
TF-IDF 向量器
原理:
- TF(词频) = 词在本文本中出现的次数
- IDF(逆文档频率) = log(总文档数 / 包含该词的文档数)
- TF-IDF = TF × IDF
优势:
- 降低常见无意义词的权重(如""""
- 提升罕见但有信息量的词
"""
def __init__(self, max_features, max_seq_len):
self.max_features = max_features
self.max_seq_len = max_seq_len
self.vocab = {}
self.idf = {} # 存储每个词的IDF值
self.num_docs = 0
def fit(self, texts):
"""构建词表并计算IDF"""
counter = Counter()
doc_counter = Counter()
for text in texts:
words = tokenize(text)
unique_words = set(words)
counter.update(words)
for w in unique_words:
doc_counter[w] += 1
self.num_docs = len(texts)
# 计算每个词的IDF
# IDF = log(总文档数 / 包含该词的文档数)
idf_values = {}
for word, df in doc_counter.items():
idf_values[word] = math.log(self.num_docs / (df + 1)) + 1 # 加1防零
# 取IDF值最高的词信息量最大的词
sorted_words = sorted(idf_values.items(), key=lambda x: x[1], reverse=True)
self.vocab = {word: idx for idx, (word, _) in enumerate(sorted_words[:self.max_features])}
# 保存IDF值
self.idf = {word: idf_values[word] for word in self.vocab}
print(f" TF-IDF词表大小: {len(self.vocab)}")
print(f" 平均IDF: {np.mean(list(self.idf.values())):.3f}")
return self
def transform(self, texts):
"""将文本转换为TF-IDF向量"""
vectors = []
for text in texts:
words = tokenize(text)
# 计算TF
tf = Counter(words)
tf_sum = len(words) if words else 1
# 生成向量
vec = [0.0] * self.max_seq_len
for i, word in enumerate(words[:self.max_seq_len]):
if word in self.vocab:
# TF × IDF
vec[i] = (tf[word] / tf_sum) * self.idf.get(word, 0)
vectors.append(vec)
return np.array(vectors, dtype=np.float32)
def fit_transform(self, texts):
self.fit(texts)
return self.transform(texts)
def load_data(data_dir, max_features, max_seq_len, vectorizer_type='tfidf'):
"""
加载并向量化数据
参数:
- vectorizer_type: 'tfidf''bow'
"""
if not download_dataset(data_dir):
raise RuntimeError("数据加载失败,请检查网络或手动下载数据集")
print("正在加载数据...")
texts, labels = load_raw_data(data_dir)
print(f"总评论数: {len(texts)}, 正面: {sum(labels)}, 负面: {len(labels) - sum(labels)}")
# 选择向量化器
if vectorizer_type == 'tfidf':
vectorizer = TFIDFVectorizer(max_features, max_seq_len)
vec_name = "TF-IDF"
else:
vectorizer = BoWVectorizer(max_features, max_seq_len)
vec_name = "BoW"
print(f"正在使用{vec_name}向量化...")
X = vectorizer.fit_transform(texts)
y = labels
# 打乱并划分
np.random.seed(42)
indices = np.random.permutation(len(X))
X = X[indices]
y = y[indices]
split_idx = int(len(X) * 0.8)
X_train, X_test = X[:split_idx], X[split_idx:]
y_train, y_test = y[:split_idx], y[split_idx:]
print(f"训练集: {len(X_train)}条, 测试集: {len(X_test)}")
return X_train, y_train, X_test, y_test, vectorizer
if __name__ == '__main__':
# 测试
print("=" * 60)
print("测试 TF-IDF 向量化")
print("=" * 60)
X_train, y_train, X_test, y_test, vec = load_data(
'data/ChnSentiCorp', max_features=3000, max_seq_len=100,
vectorizer_type='tfidf'
)
print(f"\nX_train shape: {X_train.shape}")
print(f"X_train sample (前5个特征): {X_train[0][:5]}")
import numpy as np
import jieba
from collections import Counter
import os
import requests
# <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ݼ<EFBFBD>
def download_data():
url = "https://github.com/SophonPlus/ChineseNlpCorpus/raw/master/datasets/ChnSentiCorp_htl_all/ChnSentiCorp_htl_all.csv"
path = "ChnSentiCorp_htl_all.csv"
if not os.path.exists(path):
print("<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ݼ<EFBFBD>...")
r = requests.get(url)
with open(path, "wb") as f:
f.write(r.content)
return path
# <20>ִʣ<D6B4><CAA3><EFBFBD><EFBFBD>˵<EFBFBD><CBB5>֣<EFBFBD>
def tokenize(text):
words = jieba.lcut(str(text).strip())
return [w for w in words if len(w) > 1]
# <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
def load_data():
path = download_data()
texts, labels = [], []
with open(path, "r", encoding="utf-8") as f:
next(f)
for line in f:
parts = line.strip().split(",", 1)
if len(parts) != 2:
continue
label, text = parts
texts.append(text)
labels.append(int(label))
return texts, labels
# BoW <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
class BoWVectorizer:
def __init__(self, max_features=3000):
self.max_features = max_features
self.vocab = {}
def fit(self, texts):
counter = Counter()
for t in texts:
counter.update(tokenize(t))
words = [w for w, _ in counter.most_common(self.max_features)]
self.vocab = {w:i for i, w in enumerate(words)}
def transform(self, text):
words = tokenize(text)
vec = np.zeros(self.max_features)
for w in words:
if w in self.vocab:
vec[self.vocab[w]] += 1
return vec
# TF-IDF <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
class TFIDFVectorizer:
def __init__(self, max_features=3000):
self.max_features = max_features
self.vocab = {}
self.idf = {}
def fit(self, texts):
counter = Counter()
doc_freq = Counter()
for t in texts:
ws = set(tokenize(t))
counter.update(tokenize(t))
for w in ws:
doc_freq[w] += 1
words = [w for w, _ in counter.most_common(self.max_features)]
self.vocab = {w:i for i, w in enumerate(words)}
N = len(texts)
for w in self.vocab:
self.idf[w] = np.log(N / (doc_freq.get(w, 0) + 1))
def transform(self, text):
words = tokenize(text)
vec = np.zeros(self.max_features)
tf = Counter(words)
for w, cnt in tf.items():
if w in self.vocab:
vec[self.vocab[w]] = cnt * self.idf[w]
return vec

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main.py
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# -*- coding: utf-8 -*-
"""
主程序入口
使用方式:
1. 运行单个模型(默认):
python main.py
修改 config.py 中的 MODEL_TYPE 和 VECTORIZER_TYPE 来切换配置
2. 运行对比实验:
修改 config.py 中 RUN_COMPARISON = True
这会依次运行:
- 实验1: BoW vs TF-IDF (固定LR模型)
- 实验2: LR vs MLP (固定TF-IDF)
- 实验3: 不同学习率对比
- 实验4: 不同隐藏层大小对比
最后输出汇总报告
"""
from train import main
if __name__ == '__main__':
print("\n" + "=" * 70)
print("文本分类实验 - 纯NumPy实现")
print("数据集: ChnSentiCorp (中文酒店评论)")
print("模型: Logistic Regression / MLP")
print("向量化: BoW / TF-IDF")
print("=" * 70 + "\n")
main()
import numpy as np
from dataset import load_data, BoWVectorizer, TFIDFVectorizer
from train import train
import config as cfg
import pickle
import time
# <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
texts, labels = load_data()
labels = np.array(labels)
# <20><><EFBFBD><EFBFBD>ѵ<EFBFBD><D1B5><EFBFBD><EFBFBD>/<2F><><EFBFBD>Լ<EFBFBD>
np.random.seed(42)
indices = np.random.permutation(len(texts))
split = int(0.8 * len(texts))
train_idx, test_idx = indices[:split], indices[split:]
train_texts = [texts[i] for i in train_idx]
test_texts = [texts[i] for i in test_idx]
y_train, y_test = labels[train_idx], labels[test_idx]
# <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
if cfg.VECTORIZER_TYPE == "bow":
vec = BoWVectorizer(cfg.MAX_FEATURES)
else:
vec = TFIDFVectorizer(cfg.MAX_FEATURES)
vec.fit(train_texts)
X_train = np.array([vec.transform(t) for t in train_texts])
X_test = np.array([vec.transform(t) for t in test_texts])
# ѵ<><D1B5>
print("="*50)
print(f"ѵ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>:\n ģ<><C4A3>: {cfg.MODEL_TYPE}\n <20><><EFBFBD><EFBFBD>: {cfg.VECTORIZER_TYPE}\n ѧϰ<D1A7><CFB0>: {cfg.LEARNING_RATE}")
print("="*50)
model, t = train(
X_train, y_train, X_test, y_test,
model_type=cfg.MODEL_TYPE,
lr=cfg.LEARNING_RATE,
epochs=cfg.NUM_EPOCHS,
use_weight=cfg.USE_CLASS_WEIGHT
)
# <20><><EFBFBD><EFBFBD>
ts = time.strftime("%m%d_%H%M%S")
name = f"model_{cfg.MODEL_TYPE}_{cfg.VECTORIZER_TYPE}_{'weighted' if cfg.USE_CLASS_WEIGHT else 'raw'}_{ts}"
if cfg.MODEL_TYPE == "lr":
np.save(f"{name}_W.npy", model.W)
np.save(f"{name}_b.npy", model.b)
else:
np.save(f"{name}_W1.npy", model.W1)
np.save(f"{name}_b1.npy", model.b1)
np.save(f"{name}_W2.npy", model.W2)
np.save(f"{name}_b2.npy", model.b2)
with open(f"{name}_vec.pkl", "wb") as f:
pickle.dump(vec, f)
print(f"\nģ<EFBFBD><EFBFBD><EFBFBD>ѱ<EFBFBD><EFBFBD><EFBFBD>: {name}_*.npy/*.pkl")

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