#!/usr/bin/env python3
# -*- coding: utf-8 -*-
import os
import re
import docx
import numpy as np
import requests
from sklearn.feature_extraction.text import TfidfVectorizer
from sklearn.metrics.pairwise import cosine_similarity
from typing import List, Tuple, Dict, Optional
from docx.shared import Pt
from docx.enum.text import WD_PARAGRAPH_ALIGNMENT
from docx.enum.table import WD_TABLE_ALIGNMENT
import subprocess
import tempfile
import json
from docx.table import Table, _Cell
from docx.text.paragraph import Paragraph
from copy import deepcopy
from docx.oxml import parse_xml
from docx.oxml.ns import nsdecls
class DocCleaner:
def __init__(self, ollama_host: str = "http://192.168.1.24:11434"):
"""
初始化文档清理器
Args:
ollama_host: Ollama服务器地址
"""
# 页眉页脚模式
self.header_footer_patterns = [
r'页码\s*\d+-\d+', # 页码格式:页码1-1, 页码2-1等
r'第\s*\d+\s*页\s*共\s*\d+\s*页', # 中文页码(第X页共Y页)
r'Page\s*\d+\s*of\s*\d+', # 英文页码
]
# 特殊符号模式
self.special_char_patterns = [
r'©\s*\d{4}.*?版权所有', # 版权信息
r'confidential', # 机密标记
r'draft|草稿', # 草稿标记
r'watermark', # 水印标记
]
# 附录和参考文献标题模式
self.appendix_patterns = [
r'^附录\s*[A-Za-z]?[\s::]',
r'^Appendix\s*[A-Za-z]?[\s::]',
r'^参考文献$',
r'^References$',
r'^Bibliography$'
]
# 初始化TF-IDF向量化器
self.vectorizer = TfidfVectorizer(
min_df=1,
stop_words='english'
)
self.ollama_host = ollama_host
self.embedding_model = "bge-m3:latest" # 使用nomic-embed-text模型进行文本嵌入
def _convert_doc_to_docx(self, doc_path: str) -> str:
"""
将doc格式转换为docx格式
Args:
doc_path: doc文件路径
Returns:
str: 转换后的docx文件路径
"""
# 创建临时文件路径
temp_dir = tempfile.mkdtemp()
temp_docx = os.path.join(temp_dir, 'temp.docx')
try:
# 使用soffice(LibreOffice)进行转换
cmd = ['soffice', '--headless', '--convert-to', 'docx', '--outdir', temp_dir, doc_path]
subprocess.run(cmd, check=True, capture_output=True)
# 返回转换后的文件路径
return temp_docx
except subprocess.CalledProcessError as e:
raise Exception(f"转换doc文件失败: {str(e)}")
def clean_doc(self, file_path: str) -> Tuple[List[str], List[str], List[Table]]:
"""
清理文档并返回处理后的正文、附录和表格
Args:
file_path: 文档文件路径
Returns:
Tuple[List[str], List[str], List[Table]]: (清理后的正文段落列表, 附录段落列表, 表格列表)
"""
print(f"\n开始处理文档: {file_path}")
# 检测文件类型
_, file_extension = os.path.splitext(file_path)
file_extension = file_extension.lower()
# 如果是doc格式,先转换为docx
if file_extension == '.doc':
temp_docx = self._convert_doc_to_docx(file_path)
doc = docx.Document(temp_docx)
# 清理临时文件
os.remove(temp_docx)
os.rmdir(os.path.dirname(temp_docx))
else:
doc = docx.Document(file_path)
# 提取所有内容(段落和表格)
content = []
tables = []
table_count = 0
try:
print("\n开始解析文档结构...")
# 遍历文档体中的所有元素
for element in doc._element.body:
if element.tag.endswith('p'):
try:
paragraph = docx.text.paragraph.Paragraph(element, doc)
text = paragraph.text.strip()
# 只添加非空段落
if text:
# 检查是否是附录标题
is_appendix = any(re.match(pattern, text, re.IGNORECASE)
for pattern in self.appendix_patterns)
content.append({
'type': 'paragraph',
'content': text,
'is_appendix_start': is_appendix
})
if is_appendix:
print(f"发现附录标题: {text}")
except Exception as e:
print(f"警告:处理段落时出错: {str(e)}")
continue
elif element.tag.endswith('tbl'):
try:
table = docx.table.Table(element, doc)
# 验证表格是否有效
if hasattr(table, 'rows') and hasattr(table, 'columns'):
tables.append(table)
content.append({
'type': 'table',
'index': table_count
})
print(f"发现表格 {table_count}: {len(table.rows)}行 x {len(table.columns)}列")
table_count += 1
except Exception as e:
print(f"警告:处理表格时出错: {str(e)}")
continue
except Exception as e:
print(f"警告:遍历文档内容时出错: {str(e)}")
print(f"\n文档结构解析完成:")
print(f"- 总元素数: {len(content)}")
print(f"- 表格数量: {len(tables)}")
# 分离正文和附录
main_content = []
appendix = []
is_appendix = False
print("\n开始分离正文和附录...")
for item in content:
if item['type'] == 'paragraph':
if item['is_appendix_start']:
is_appendix = True
print("进入附录部分")
if is_appendix:
appendix.append(item['content'])
else:
main_content.append(item['content'])
elif item['type'] == 'table':
table_placeholder = f'TABLE_PLACEHOLDER_{item["index"]}'
if is_appendix:
appendix.append(table_placeholder)
print(f"添加表格到附录: {table_placeholder}")
else:
main_content.append(table_placeholder)
print(f"添加表格到正文: {table_placeholder}")
print(f"\n分离完成:")
print(f"- 正文元素数: {len(main_content)}")
print(f"- 附录元素数: {len(appendix)}")
# 清理正文(保留表格标记)
cleaned_content = []
print("\n开始清理正文...")
for item in main_content:
if item.startswith('TABLE_PLACEHOLDER_'):
cleaned_content.append(item)
print(f"保留表格标记: {item}")
else:
cleaned_text = self._clean_text([item])[0]
if cleaned_text:
cleaned_content.append(cleaned_text)
print(f"\n清理完成:")
print(f"- 清理后元素数: {len(cleaned_content)}")
print("- 表格标记位置:")
for i, item in enumerate(cleaned_content):
if item.startswith('TABLE_PLACEHOLDER_'):
print(f" 位置 {i}: {item}")
return cleaned_content, appendix, tables
def _clean_text(self, text: List[str]) -> List[str]:
"""
清理文本内容
Args:
text: 待清理的文本段落列表
Returns:
List[str]: 清理后的文本段落列表
"""
cleaned = []
for paragraph in text:
# 如果是表格标记,直接保留
if paragraph.startswith('TABLE_PLACEHOLDER_'):
cleaned.append(paragraph)
continue
# 跳过空段落
if not paragraph.strip():
continue
# 检查是否是目录项(包含数字序号的行)
is_toc_item = bool(re.match(r'^\s*(?:\d+\.)*\d+\s+.*', paragraph))
if not is_toc_item:
# 移除页眉页脚
for pattern in self.header_footer_patterns:
paragraph = re.sub(pattern, '', paragraph, flags=re.IGNORECASE)
# 移除特殊符号
for pattern in self.special_char_patterns:
paragraph = re.sub(pattern, '', paragraph, flags=re.IGNORECASE)
# 如果段落不为空,添加到结果中
if paragraph.strip():
cleaned.append(paragraph.strip())
return cleaned
def _split_content(self, paragraphs: List[str]) -> Tuple[List[str], List[str]]:
"""
分离正文与附录/参考文献
Args:
paragraphs: 文档段落列表
Returns:
Tuple[List[str], List[str]]: (正文段落列表, 附录段落列表)
"""
main_content = []
appendix = []
is_appendix = False
for p in paragraphs:
# 检查是否是附录开始
if any(re.match(pattern, p, re.IGNORECASE) for pattern in self.appendix_patterns):
is_appendix = True
if is_appendix:
appendix.append(p)
else:
main_content.append(p)
return main_content, appendix
def _get_embeddings(self, texts: List[str]) -> np.ndarray:
"""
使用Ollama获取文本嵌入向量
Args:
texts: 文本列表
Returns:
np.ndarray: 嵌入向量矩阵
"""
embeddings = []
for text in texts:
try:
response = requests.post(
f"{self.ollama_host}/api/embeddings",
json={
"model": self.embedding_model,
"prompt": text
}
)
response.raise_for_status()
embedding = response.json()["embedding"]
embeddings.append(embedding)
except Exception as e:
print(f"获取文本嵌入失败: {str(e)}")
# 如果获取嵌入失败,使用零向量
embeddings.append([0.0] * 768) # nomic-embed-text 模型输出维度为768
return np.array(embeddings)
def _remove_duplicates(self, paragraphs: List[str], similarity_threshold: float = 0.92) -> List[str]:
"""
删除重复段落,保持表格占位符的位置不变
Args:
paragraphs: 段落列表
similarity_threshold: 相似度阈值,使用嵌入模型后可以设置更高的阈值
Returns:
List[str]: 去重后的段落列表
"""
if not paragraphs:
return []
# 分离表格占位符和普通段落
table_placeholders = {}
text_paragraphs = []
for i, p in enumerate(paragraphs):
if p.startswith('TABLE_PLACEHOLDER_'):
table_placeholders[i] = p
else:
text_paragraphs.append((i, p))
try:
# 只对非表格段落进行去重
if text_paragraphs:
# 获取文本嵌入
text_only = [p[1] for p in text_paragraphs]
embeddings = self._get_embeddings(text_only)
# 计算余弦相似度矩阵
similarity_matrix = cosine_similarity(embeddings)
# 标记要保留的段落
keep_indices = []
for i in range(len(text_paragraphs)):
# 如果当前段落没有与之前的段落高度相似,则保留
if not any(similarity_matrix[i][j] > similarity_threshold for j in keep_indices):
keep_indices.append(i)
# 保留的非表格段落
kept_paragraphs = [(text_paragraphs[i][0], text_only[i]) for i in keep_indices]
else:
kept_paragraphs = []
# 合并表格占位符和保留的段落,按原始位置排序
all_kept = list(table_placeholders.items()) + kept_paragraphs
all_kept.sort(key=lambda x: x[0])
return [p[1] for p in all_kept]
except Exception as e:
print(f"使用Ollama嵌入模型失败,回退到TF-IDF方法: {str(e)}")
# 如果使用Ollama失败,回退到原来的TF-IDF方法
return self._remove_duplicates_tfidf(paragraphs)
def _remove_duplicates_tfidf(self, paragraphs: List[str], similarity_threshold: float = 0.85) -> List[str]:
"""
使用TF-IDF方法删除重复段落(作为备选方案)
Args:
paragraphs: 段落列表
similarity_threshold: 相似度阈值
Returns:
List[str]: 去重后的段落列表
"""
if not paragraphs:
return []
# 分离表格占位符和普通段落
table_placeholders = {}
text_paragraphs = []
for i, p in enumerate(paragraphs):
if p.startswith('TABLE_PLACEHOLDER_'):
table_placeholders[i] = p
else:
text_paragraphs.append((i, p))
if text_paragraphs:
# 计算TF-IDF矩阵
text_only = [p[1] for p in text_paragraphs]
tfidf_matrix = self.vectorizer.fit_transform(text_only)
# 计算余弦相似度矩阵
similarity_matrix = cosine_similarity(tfidf_matrix)
# 标记要保留的段落
keep_indices = []
for i in range(len(text_paragraphs)):
# 如果当前段落没有与之前的段落高度相似,则保留
if not any(similarity_matrix[i][j] > similarity_threshold for j in keep_indices):
keep_indices.append(i)
# 保留的非表格段落
kept_paragraphs = [(text_paragraphs[i][0], text_only[i]) for i in keep_indices]
else:
kept_paragraphs = []
# 合并表格占位符和保留的段落,按原始位置排序
all_kept = list(table_placeholders.items()) + kept_paragraphs
all_kept.sort(key=lambda x: x[0])
return [p[1] for p in all_kept]
def save_as_docx(self, cleaned_content: List[str], appendix: List[str], tables: List[Table], output_path: str):
"""
将清理后的内容保存为docx格式和txt格式
Args:
cleaned_content: 清理后的正文段落列表
appendix: 附录段落列表
tables: 表格列表
output_path: 输出文件路径
"""
print(f"\n开始保存文档: {output_path}")
print(f"- 正文元素数: {len(cleaned_content)}")
print(f"- 附录元素数: {len(appendix)}")
print(f"- 表格总数: {len(tables)}")
# 创建新文档
doc = docx.Document()
# 创建文本输出内容列表(用于保存txt文件)
text_output = []
# 生成HTML表格文件
html_file_path = os.path.splitext(output_path)[0] + '_tables.html'
html_tables = []
# 添加正文内容和表格,保持它们的相对位置
print("\n处理正文内容...")
for i, content in enumerate(cleaned_content):
try:
# 检查是否是表格占位符
table_match = re.match(r'TABLE_PLACEHOLDER_(\d+)', content)
if table_match:
table_index = int(table_match.group(1))
print(f"正在处理表格占位符: {content} (索引: {table_index})")
if table_index < len(tables):
source_table = tables[table_index]
try:
# 生成表格的HTML标签
html_tags = self._generate_table_html_tags(source_table, f"table_{table_index}")
# 添加HTML标签作为普通文本
p = doc.add_paragraph()
run = p.add_run(html_tags)
run.font.name = 'Courier New' # 使用等宽字体
run.font.size = Pt(10) # 设置字体大小
# 保存HTML到列表,用于生成HTML文件
try:
from table.table_to_html import TableToHtml
converter = TableToHtml(debug=False)
html_code = converter.table_to_html(source_table)
html_tables.append(html_code)
except Exception as e:
print(f"警告:生成HTML表格时出错: {str(e)}")
html_tables.append(f"表格 {table_index + 1} 处理失败: {str(e)}
")
# 添加到文本输出
text_output.append(f"表格 {table_index + 1} 开始:")
# 获取表格文本用于txt输出
table_text = self._convert_table_to_text(source_table)
text_output.append(table_text)
text_output.append(f"表格 {table_index + 1} 结束:")
# 添加空行
doc.add_paragraph()
except Exception as e:
print(f"警告:处理表格时出错: {str(e)}")
doc.add_paragraph(f"【表格处理失败: {str(e)}】")
text_output.append("【表格处理失败】")
else:
# 添加普通段落
p = doc.add_paragraph(content)
p.alignment = WD_PARAGRAPH_ALIGNMENT.JUSTIFY
# 添加到文本输出
text_output.append(content)
except Exception as e:
print(f"警告:处理段落或表格时出错: {str(e)}")
continue
# 如果有附录,添加分隔符和附录内容
if appendix:
print("\n处理附录内容...")
try:
# 添加分页符
doc.add_page_break()
# 添加附录标题
title = doc.add_paragraph("附录")
title.alignment = WD_PARAGRAPH_ALIGNMENT.CENTER
# 添加到文本输出
text_output.append("附录")
# 添加附录内容
for content in appendix:
# 检查是否是表格占位符
table_match = re.match(r'TABLE_PLACEHOLDER_(\d+)', content)
if table_match:
table_index = int(table_match.group(1))
print(f"正在处理附录中的表格占位符: {content} (索引: {table_index})")
if table_index < len(tables):
source_table = tables[table_index]
try:
# 生成表格的HTML标签
html_tags = self._generate_table_html_tags(source_table, f"table_appendix_{table_index}")
# 添加HTML标签作为普通文本
p = doc.add_paragraph()
run = p.add_run(html_tags)
run.font.name = 'Courier New' # 使用等宽字体
run.font.size = Pt(10) # 设置字体大小
# 保存HTML到列表,用于生成HTML文件
try:
from table.table_to_html import TableToHtml
converter = TableToHtml(debug=False)
html_code = converter.table_to_html(source_table)
html_tables.append(html_code)
except Exception as e:
print(f"警告:生成HTML表格时出错: {str(e)}")
html_tables.append(f"附录表格 {table_index + 1} 处理失败: {str(e)}
")
# 添加到文本输出
text_output.append(f"附录表格 {table_index + 1} 开始:")
# 获取表格文本用于txt输出
table_text = self._convert_table_to_text(source_table)
text_output.append(table_text)
text_output.append(f"附录表格 {table_index + 1} 结束:")
except Exception as e:
print(f"警告:处理附录表格时出错: {str(e)}")
doc.add_paragraph(f"【表格处理失败: {str(e)}】")
text_output.append("【表格处理失败】")
else:
p = doc.add_paragraph(content)
p.alignment = WD_PARAGRAPH_ALIGNMENT.JUSTIFY
# 添加到文本输出
text_output.append(content)
except Exception as e:
print(f"警告:处理附录时出错: {str(e)}")
# 保存HTML表格到文件
if html_tables:
try:
html_content = f'''
表格预览
文档中的表格
{' '.join(html_tables)}
'''
with open(html_file_path, 'w', encoding='utf-8') as f:
f.write(html_content)
print(f"\nHTML表格文件已保存到: {html_file_path}")
# 添加HTML文件引用提示到Word文档
notice = doc.add_paragraph()
notice.add_run("表格完整HTML版本可查看文件: ").font.bold = True
run = notice.add_run(os.path.basename(html_file_path))
run.font.color.rgb = docx.shared.RGBColor(0, 0, 255) # 蓝色
run.font.underline = True # 下划线
except Exception as e:
print(f"警告:保存HTML表格文件时出错: {str(e)}")
# 保存docx文档和相关文件
try:
# 保存Word文档
doc.save(output_path)
print("\nWord文档保存成功!")
except Exception as e:
print(f"错误:保存Word文档时出错: {str(e)}")
import traceback
traceback.print_exc()
raise
# 保存文本文件
try:
text_file_path = os.path.splitext(output_path)[0] + '.txt'
# 移除所有换行符并用空格连接
text_content = ' '.join([t.replace('\n', ' ').strip() for t in text_output if t.strip()])
with open(text_file_path, 'w', encoding='utf-8') as f:
f.write(text_content)
print(f"文本文件保存成功: {text_file_path}")
except Exception as e:
print(f"错误:保存文本文件时出错: {str(e)}")
raise
def _generate_table_html_tags(self, table: Table, table_id: str) -> str:
"""
生成表格的HTML标签字符串
Args:
table: 源表格
table_id: 表格的唯一ID
Returns:
str: HTML标签字符串
"""
rows = len(table.rows)
cols = len(table.columns)
if rows == 0 or cols == 0:
return ""
# 分析表格结构(查找合并单元格)
merged_cells = {}
merged_v_cells = set() # 记录被垂直合并的单元格
# 检测合并单元格
for i in range(rows):
for j in range(cols):
try:
cell = table.cell(i, j)
# 检查是否是合并单元格
if cell._element.tcPr is not None:
# 检查垂直合并 (vMerge)
vmerge = cell._element.tcPr.xpath('.//w:vMerge')
if vmerge:
val = vmerge[0].get('{http://schemas.openxmlformats.org/wordprocessingml/2006/main}val', 'continue')
if val == 'restart':
# 垂直合并的起始单元格
vspan = 1
for k in range(i+1, rows):
next_cell = table.cell(k, j)
if next_cell._element.tcPr is not None:
next_vmerge = next_cell._element.tcPr.xpath('.//w:vMerge')
if next_vmerge and next_vmerge[0].get('{http://schemas.openxmlformats.org/wordprocessingml/2006/main}val', 'continue') == 'continue':
vspan += 1
merged_v_cells.add((k, j))
else:
break
else:
break
if vspan > 1:
merged_cells[(i, j)] = {'rowspan': vspan}
# 检查水平合并 (gridSpan)
gridspan = cell._element.tcPr.xpath('.//w:gridSpan')
if gridspan:
span = int(gridspan[0].get('{http://schemas.openxmlformats.org/wordprocessingml/2006/main}val', '1'))
if span > 1:
if (i, j) in merged_cells:
merged_cells[(i, j)]['colspan'] = span
else:
merged_cells[(i, j)] = {'colspan': span}
except Exception as e:
print(f"警告: 分析单元格 [{i},{j}] 时出错: {str(e)}")
# 生成HTML标签
html_lines = []
html_lines.append(f'')
# 添加表头
html_lines.append('')
html_lines.append('')
# 检测第一行是否为表头
for j in range(cols):
cell_text = table.cell(0, j).text.strip() if rows > 0 else ""
th_attrs = []
# 添加合并属性
if (0, j) in merged_cells:
if 'rowspan' in merged_cells[(0, j)]:
th_attrs.append(f'rowspan="{merged_cells[(0, j)]["rowspan"]}"')
if 'colspan' in merged_cells[(0, j)]:
th_attrs.append(f'colspan="{merged_cells[(0, j)]["colspan"]}"')
attrs_str = " ".join(th_attrs)
if attrs_str:
html_lines.append(f'| {cell_text} | ')
else:
html_lines.append(f'{cell_text} | ')
html_lines.append('
')
html_lines.append('')
# 添加表格主体
html_lines.append('')
# 从第二行开始添加数据行
for i in range(1, rows):
html_lines.append('')
for j in range(cols):
# 如果是被垂直合并的单元格,跳过
if (i, j) in merged_v_cells:
continue
cell_text = table.cell(i, j).text.strip()
td_attrs = []
# 添加合并属性
if (i, j) in merged_cells:
if 'rowspan' in merged_cells[(i, j)]:
td_attrs.append(f'rowspan="{merged_cells[(i, j)]["rowspan"]}"')
if 'colspan' in merged_cells[(i, j)]:
td_attrs.append(f'colspan="{merged_cells[(i, j)]["colspan"]}"')
attrs_str = " ".join(td_attrs)
if attrs_str:
html_lines.append(f'| {cell_text} | ')
else:
html_lines.append(f'{cell_text} | ')
html_lines.append('
')
html_lines.append('')
html_lines.append('
')
return '\n'.join(html_lines)
def _copy_table_fallback(self, doc: docx.Document, table: Table):
"""
表格复制的备用方法
Args:
doc: 目标文档
table: 源表格
"""
# 获取表格的行数和列数
rows = len(table.rows)
cols = len(table.columns)
# 创建新表格
new_table = doc.add_table(rows=rows, cols=cols)
# 复制表格样式
if table.style:
new_table.style = table.style
# 复制表格属性
new_table._element.tblPr = deepcopy(table._element.tblPr)
# 复制网格信息
new_table._element.tblGrid = deepcopy(table._element.tblGrid)
# 创建单元格映射以跟踪合并
cell_map = {}
# 第一遍:标记合并的单元格
for i in range(rows):
for j in range(cols):
try:
src_cell = table.cell(i, j)
# 检查是否是合并单元格的一部分
if src_cell._element.tcPr is not None:
# 检查垂直合并
vmerge = src_cell._element.tcPr.xpath('.//w:vMerge')
if vmerge:
val = vmerge[0].get(qn('w:val'), 'continue')
if val == 'restart':
# 这是合并的起始单元格
span = self._get_vertical_span(table, i, j)
cell_map[(i, j)] = ('vmerge', span)
# 检查水平合并
gridspan = src_cell._element.tcPr.xpath('.//w:gridSpan')
if gridspan:
span = int(gridspan[0].get(qn('w:val')))
if span > 1:
cell_map[(i, j)] = ('hmerge', span)
except Exception as e:
print(f"警告:处理合并单元格时出错 [{i},{j}]: {str(e)}")
# 第二遍:复制内容并执行合并
for i in range(rows):
for j in range(cols):
try:
src_cell = table.cell(i, j)
dst_cell = new_table.cell(i, j)
# 检查是否需要合并
if (i, j) in cell_map:
merge_type, span = cell_map[(i, j)]
if merge_type == 'vmerge':
# 垂直合并
for k in range(1, span):
if i + k < rows:
dst_cell.merge(new_table.cell(i + k, j))
elif merge_type == 'hmerge':
# 水平合并
for k in range(1, span):
if j + k < cols:
dst_cell.merge(new_table.cell(i, j + k))
# 复制单元格属性
if src_cell._element.tcPr is not None:
dst_cell._element.tcPr = deepcopy(src_cell._element.tcPr)
# 复制单元格内容
dst_cell.text = "" # 清除默认内容
for src_paragraph in src_cell.paragraphs:
dst_paragraph = dst_cell.add_paragraph()
# 复制段落属性
if src_paragraph._element.pPr is not None:
dst_paragraph._element.pPr = deepcopy(src_paragraph._element.pPr)
# 复制文本和格式
for src_run in src_paragraph.runs:
dst_run = dst_paragraph.add_run(src_run.text)
# 复制运行属性
if src_run._element.rPr is not None:
dst_run._element.rPr = deepcopy(src_run._element.rPr)
except Exception as e:
print(f"警告:复制单元格时出错 [{i},{j}]: {str(e)}")
continue
def _get_vmerge_value(self, cell_element) -> str:
"""
获取单元格的垂直合并属性
Args:
cell_element: 单元格元素
Returns:
str: 垂直合并属性值
"""
vmerge = cell_element.xpath('.//w:vMerge')
if vmerge:
return vmerge[0].get(qn('w:val'), 'continue')
return None
def _get_gridspan_value(self, cell_element) -> int:
"""
获取单元格的水平合并数量
Args:
cell_element: 单元格元素
Returns:
int: 水平合并的列数
"""
try:
gridspan = cell_element.xpath('.//w:gridSpan')
if gridspan and gridspan[0].get(qn('w:val')):
return int(gridspan[0].get(qn('w:val')))
except (ValueError, TypeError, AttributeError) as e:
print(f"警告:获取gridspan值时出错: {str(e)}")
return 1 # 默认返回1,表示没有合并
def _get_vertical_span(self, table: Table, start_row: int, col: int) -> int:
"""
计算垂直合并的行数
Args:
table: 表格对象
start_row: 起始行
col: 列号
Returns:
int: 垂直合并的行数
"""
span = 1
for i in range(start_row + 1, len(table.rows)):
cell = table.cell(i, col)
if self._get_vmerge_value(cell._element) == 'continue':
span += 1
else:
break
return span
def _convert_table_to_text(self, table: Table) -> str:
"""
将表格转换为文本格式,智能处理简单和复杂表格结构
Args:
table: docx表格对象
Returns:
str: 表格的文本表示
"""
try:
# 获取表格的行数和列数
rows = len(table.rows)
cols = len(table.columns)
print(f"开始处理表格: {rows}行 x {cols}列")
if rows == 0 or cols == 0:
return "【空表格】"
# 存储处理后的表格数据
processed_data = []
# 检查是否是复杂表格(具有合并单元格或多级表头)
is_complex_table = False
max_header_rows = min(4, rows) # 最多检查前4行,增加检测范围
# 表格类型检测增强
# 1. 检查表格宽高比 - 宽表格通常更复杂
aspect_ratio = cols / rows if rows > 0 else 0
if aspect_ratio > 3 or cols > 6:
print("表格检测: 宽表格(列数>6或宽高比>3),标记为复杂表格")
is_complex_table = True
# 2. 检查前几行是否存在合并单元格
if not is_complex_table:
merge_count = 0
for i in range(max_header_rows):
for j in range(cols):
try:
cell = table.cell(i, j)
if cell._element.tcPr is not None:
# 检查垂直合并
vmerge = cell._element.tcPr.xpath('.//w:vMerge')
if vmerge:
print(f"表格检测: 发现垂直合并单元格 at [{i},{j}]")
merge_count += 1
if merge_count >= 2: # 增加阈值判断
is_complex_table = True
break
# 检查水平合并
gridspan = cell._element.tcPr.xpath('.//w:gridSpan')
if gridspan:
span_val = self._get_gridspan_value(cell._element)
print(f"表格检测: 发现水平合并单元格 at [{i},{j}], 跨度: {span_val}")
if span_val > 1:
merge_count += 1
if merge_count >= 2: # 增加阈值判断
is_complex_table = True
break
except Exception as e:
print(f"表格检测: 检查单元格 [{i},{j}] 时出错: {str(e)}")
continue
if is_complex_table:
break
# 3. 检查每行的单元格数是否一致 - 不一致通常表示嵌套或特殊结构
if not is_complex_table:
cell_counts = []
for i in range(min(5, rows)): # 检查前5行
try:
actual_cells = 0
for j in range(cols):
cell = table.cell(i, j)
# 考虑水平合并
if cell._element.tcPr is not None:
gridspan = cell._element.tcPr.xpath('.//w:gridSpan')
if gridspan:
actual_cells += 1 # 只计算一次,不管跨度
else:
actual_cells += 1
else:
actual_cells += 1
cell_counts.append(actual_cells)
except Exception:
continue
# 检查单元格数是否一致
if len(cell_counts) > 1 and len(set(cell_counts)) > 1:
print(f"表格检测: 各行单元格数不一致 {cell_counts},标记为复杂表格")
is_complex_table = True
print(f"表格分类: {'复杂表格' if is_complex_table else '简单表格'}")
if is_complex_table:
# 使用复杂表格处理逻辑
# 第一步:分析表头结构
header_structure = [] # 存储表头的层级结构
header_merge_map = {} # 记录合并单元格的映射关系
# 分析每一列的表头结构
print("开始分析复杂表格表头结构...")
for j in range(cols):
column_headers = []
last_header = None
for i in range(max_header_rows):
try:
cell = table.cell(i, j)
text = cell.text.strip()
# 检查垂直合并
if cell._element.tcPr is not None:
vmerge = cell._element.tcPr.xpath('.//w:vMerge')
if vmerge:
val = vmerge[0].get(qn('w:val'), 'continue')
if val == 'continue':
# 使用上一个非空表头
if last_header:
print(f"表头分析: 垂直合并单元格 at [{i},{j}],使用上一行值: {last_header}")
text = last_header
# 记录合并关系
header_merge_map[(i, j)] = (i-1, j)
else:
# 向上查找第一个非continue的单元格
for k in range(i-1, -1, -1):
try:
prev_cell = table.cell(k, j)
prev_text = prev_cell.text.strip()
if prev_text:
text = prev_text
print(f"表头分析: 垂直合并单元格 at [{i},{j}],使用上方值 [{k},{j}]: {text}")
break
except Exception:
continue
# 检查水平合并
if cell._element.tcPr is not None:
gridspan = self._get_gridspan_value(cell._element)
if gridspan > 1:
# 标记这是一个跨列的表头
print(f"表头分析: 水平合并单元格 at [{i},{j}],跨度 {gridspan},值: {text}")
if text: # 只处理有内容的单元格
text = f"SPAN_{gridspan}_{text}"
# 记录水平合并影响的列
for k in range(1, gridspan):
if j + k < cols:
header_merge_map[(i, j+k)] = (i, j)
if text:
column_headers.append(text)
last_header = text
except Exception as e:
print(f"表头分析: 处理表头单元格 [{i},{j}] 时出错: {str(e)}")
continue
header_structure.append(column_headers)
print(f"列 {j} 的表头结构: {column_headers}")
# 第二步:构建完整的表头标识符
full_headers = []
print("开始构建完整表头标识符...")
# 处理跨行跨列的表头
# 先进行一次预处理,处理合并单元格
for j, headers in enumerate(header_structure):
if not headers:
# 检查是否是被合并的列
is_merged = False
for i in range(max_header_rows):
if (i, j) in header_merge_map:
src_i, src_j = header_merge_map[(i, j)]
src_cell = table.cell(src_i, src_j)
src_text = src_cell.text.strip()
if src_text and src_j != j: # 确保是水平合并
print(f"表头补全: 列 {j} 被列 {src_j} 合并,添加表头: {src_text}")
header_structure[j].append(src_text)
is_merged = True
break
if not is_merged:
print(f"表头补全: 列 {j} 无表头,使用默认值: 列{j+1}")
header_structure[j].append(f"列{j+1}")
# 构建每列的完整表头
for j, headers in enumerate(header_structure):
if not headers:
full_headers.append(f"列{j+1}")
continue
# 处理跨列的表头
header_text = []
current_prefix = ""
for h in headers:
if h.startswith('SPAN_'):
parts = h.split('_', 2)
span = int(parts[1])
text = parts[2]
# 将跨列的表头添加到后续的列
for k in range(span):
if j + k < cols:
if k == 0:
if text != current_prefix: # 避免重复前缀
header_text.append(text)
current_prefix = text
else:
if text not in header_structure[j + k]:
header_structure[j + k].insert(0, text)
else:
if h != current_prefix: # 避免重复前缀
header_text.append(h)
current_prefix = h
# 移除重复的表头部分
unique_headers = []
seen = set()
for h in header_text:
if h not in seen:
unique_headers.append(h)
seen.add(h)
# 构建完整表头,使用特殊分隔符
if unique_headers:
full_header = '_'.join(unique_headers)
print(f"列 {j} 的完整表头: {full_header}")
full_headers.append(full_header)
else:
full_headers.append(f"列{j+1}")
# 确定实际的表头行数
header_row_count = max(len(headers) for headers in header_structure)
if header_row_count == 0:
header_row_count = 1
print(f"表头行数: {header_row_count}")
print(f"开始处理数据行,从第 {header_row_count} 行开始...")
# 创建跟踪已处理垂直合并单元格的集合
processed_vmerge = set()
# 处理数据行
for i in range(header_row_count, rows):
try:
row_data = []
j = 0
while j < cols:
try:
cell = table.cell(i, j)
text = cell.text.strip()
# 处理垂直合并单元格
if not text and cell._element.tcPr is not None:
vmerge = cell._element.tcPr.xpath('.//w:vMerge')
if vmerge:
val = vmerge[0].get(qn('w:val'), 'continue')
if val == 'continue':
# 向上查找非continue的值
for k in range(i-1, header_row_count-1, -1):
if (k, j) in processed_vmerge:
continue
try:
src_cell = table.cell(k, j)
src_text = src_cell.text.strip()
if src_text:
text = src_text
print(f"数据行处理: 垂直合并单元格 at [{i},{j}],使用上方值 [{k},{j}]: {text}")
break
except Exception:
continue
processed_vmerge.add((i, j))
# 处理水平合并
gridspan = self._get_gridspan_value(cell._element)
# 将值复制到所有合并的列
for k in range(gridspan):
if j + k < len(full_headers):
# 使用冒号分隔表头和值
if text:
row_data.append(f"{full_headers[j+k]}:{text}")
else:
row_data.append(f"{full_headers[j+k]}:")
j += gridspan
except Exception as e:
print(f"数据行处理: 处理数据单元格 [{i},{j}] 时出错: {str(e)}")
if j < len(full_headers):
row_data.append(f"{full_headers[j]}:")
j += 1
# 确保行中至少有一个非空值
if any(len(data.split(':', 1)) > 1 and data.split(':', 1)[1].strip() for data in row_data):
processed_line = " ".join(row_data)
print(f"添加处理行 {i}: {processed_line[:100]}..." if len(processed_line) > 100 else f"添加处理行 {i}: {processed_line}")
processed_data.append(processed_line)
except Exception as e:
print(f"数据行处理: 处理数据行 {i} 时出错: {str(e)}")
continue
else:
# 使用简单表格处理逻辑
print("使用简单表格处理逻辑...")
# 获取表头
headers = []
for j in range(cols):
try:
header_text = table.cell(0, j).text.strip()
if not header_text: # 如果表头为空,使用默认值
header_text = f"列{j+1}"
headers.append(header_text)
print(f"简单表格表头 {j}: {header_text}")
except Exception as e:
print(f"简单表格处理: 处理表头单元格 [0,{j}] 时出错: {str(e)}")
headers.append(f"列{j+1}")
# 处理数据行
for i in range(1, rows):
try:
row_data = []
for j in range(cols):
try:
text = table.cell(i, j).text.strip()
row_data.append(f"{headers[j]}:{text}")
except Exception as e:
print(f"简单表格处理: 处理数据单元格 [{i},{j}] 时出错: {str(e)}")
row_data.append(f"{headers[j]}:")
# 确保行中至少有一个非空值
if any(len(data.split(':', 1)) > 1 and data.split(':', 1)[1].strip() for data in row_data):
processed_line = " ".join(row_data)
print(f"添加简单表格行 {i}: {processed_line[:100]}..." if len(processed_line) > 100 else f"添加简单表格行 {i}: {processed_line}")
processed_data.append(processed_line)
except Exception as e:
print(f"简单表格处理: 处理数据行 {i} 时出错: {str(e)}")
continue
# 返回处理后的表格文本
if processed_data:
final_text = " ".join(processed_data)
print(f"表格处理完成,生成 {len(processed_data)} 行数据")
print(f"表格文本示例: {final_text[:200]}..." if len(final_text) > 200 else f"表格文本: {final_text}")
return final_text
else:
print("表格无有效数据")
return "【表格无有效数据】"
except Exception as e:
print(f"表格处理失败: {str(e)}")
import traceback
traceback.print_exc()
return "【表格处理失败】"
def _extract_table_text(self, table: Table) -> str:
"""
提取表格中的文本内容,现在会返回格式化的文本表示
Args:
table: docx表格对象
Returns:
str: 表格内容的文本表示
"""
return self._convert_table_to_text(table)
def process_directory(input_dir: str, output_dir: str = None):
"""
处理指定目录下的所有文档文件
Args:
input_dir: 输入目录路径
output_dir: 输出目录路径,如果为None则使用输入目录
"""
# 如果未指定输出目录,使用输入目录
if output_dir is None:
output_dir = input_dir
if not os.path.exists(output_dir):
os.makedirs(output_dir)
cleaner = DocCleaner()
for root, _, files in os.walk(input_dir):
for file in files:
if file.endswith(('.doc', '.docx')):
input_path = os.path.join(root, file)
try:
# 清理文档
main_content, appendix, tables = cleaner.clean_doc(input_path)
# 创建输出文件名(统一使用docx扩展名)
base_name = os.path.splitext(file)[0]
output_path = os.path.join(output_dir, f"{base_name}_cleaned.docx")
# 保存为docx格式
cleaner.save_as_docx(main_content, appendix, tables, output_path)
except Exception as e:
print(f"处理文件 {file} 时出错: {str(e)}")
# 添加更详细的错误信息
if isinstance(e, subprocess.CalledProcessError):
print(f"命令执行错误: {e.output}")
elif isinstance(e, FileNotFoundError):
print("请确保已安装LibreOffice并将其添加到系统PATH中")
def qn(tag: str) -> str:
"""
将标签转换为带命名空间的格式
Args:
tag: 原始标签
Returns:
str: 带命名空间的标签
"""
prefix = "{http://schemas.openxmlformats.org/wordprocessingml/2006/main}"
return prefix + tag
if __name__ == '__main__':
import argparse
# parser = argparse.ArgumentParser(description='文档清理工具')
# parser.add_argument('input_dir', help='输入目录路径')
# parser.add_argument('--output_dir', help='输出目录路径(可选,默认为输入目录)', default=None)
#
# args = parser.parse_args()
process_directory("D:\\rzData\\poject\\AI项目\\UDI智能体\\测试文档", "D:\\rzData\\poject\\AI项目\\UDI智能体\\测试文档")
# 确保目录存在,如果不存在则创建
# 创建基础目录(使用更安全的方式)
# base_dir = 'D:\Desktop\DEMO'
# text_dir = os.path.join(base_dir, "测试")
#
# os.makedirs(text_dir, exist_ok=True, mode=0o777)
#
# print(f"目录是否存在: {os.path.exists(text_dir)}")
# print(f"完整路径: {os.path.abspath(text_dir)}") # 或者直接 print(f"完整路径: {text_dir}")