html_again_parse.py 11 KB

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  1. # -*- coding: utf-8 -*-
  2. import re
  3. from pprint import pprint
  4. from pyquery import PyQuery as pq
  5. #
  6. # pattern = re.compile(r"\[来源.*?\]|www\..*?com")
  7. #
  8. # filter_words = ["学科网", "高考资源网", "Ziyuanku.com", "WWW.ziyuanku.com",
  9. # "高☆考♂资♀源€网", "w.w.w.k.s.5.u.c.o.m", "本资料由《七彩教育网》www.7caiedu.cn 提供!",
  10. # "本资料来源于《七彩教育网》http://www.7caiedu.cn", "本资料由《七彩教育网》www.7caiedu.cn 提",
  11. # "高考试题来源:"]
  12. #
  13. #
  14. # def filter_word(txt_list):
  15. # new_txt_list = []
  16. # for word in txt_list:
  17. # if not word.strip():
  18. # continue
  19. # new_word = re.sub(pattern, "", word)
  20. # for keys in filter_words:
  21. # if keys in new_word:
  22. # new_word = new_word.replace(keys, "")
  23. # new_txt_list.append(new_word)
  24. # return new_txt_list
  25. def filter_data(x):
  26. if not str(x).replace(" ", "").strip():
  27. pass
  28. else:
  29. return str(x)
  30. def replace_k(con):
  31. # con = str(con).replace(" ", "+")
  32. # con = str(con).replace(" ", "+")
  33. con = re.sub(r'\s(?!(src="http|_src="http|class="tiankong"|data-num=))', "#+#", str(con))
  34. return pq(con, parser="html")
  35. def css_label_wash(content):
  36. # todo add 9-4
  37. """
  38. 清洗文本中带有的css标签
  39. :param content:
  40. :return:
  41. """
  42. # temp_con = re.sub('</?p(\s*|\s+style=.*?")?>', "", str(content))
  43. if re.search('</?(span|font|article|ul|ol|div)(\s*|\s+style=.*?")>|text\s*-\s*decoration: underline|border\s*-\s*bottom:', str(content)) is None:
  44. # content = re.sub('</p\s*>', "\n", content).strip().replace("\n\n", "\n").replace("\n", "<br/>").
  45. content = re.sub('<p(\s*|\s+style=.*?")>', "<p>", content)
  46. content = re.sub('</p><p>', "</p>\n<p>", content)
  47. return content
  48. else:
  49. content = re.sub(r'<font\s+style="color: red">', "", str(content))
  50. content = re.sub(r'<span\s+style="color: red">', "", str(content))
  51. content = re.sub(r'<span\s+style="color: blue">', "", str(content))
  52. content = re.sub(r'<font\s+style="color: blue">', "", str(content))
  53. content = content.replace("</font >", "").replace("</font>", "")
  54. # content = content.replace("</span >", "").replace("</span>", "")
  55. content = content.replace('<p style="height: 0;">&nbsp;</p>', "\n").replace('<p><br/></p>', "\n")
  56. # content = content.replace("</p>", "</p>\n") # 2022-4-25
  57. content = re.sub(r"</p>\s*(?!\n)", "</p>\n", content)
  58. content = re.sub(r"<br\s*/?>", "<p>", content) # 2022/1/6
  59. # content = re.sub('<p( style=.*?")?>', "", content)
  60. # content = re.sub('<br\s*/?>', "\n", content)
  61. # parm = False
  62. # if "<article>" not in str(content):
  63. # parm = True
  64. subs2img = {}
  65. if re.search('<img.*? src="',content) or "</table>" in content:
  66. all_imgs = re.findall('<img.*? src=.*?[\s/"]>|<table.*?>.*?</table>',
  67. content, flags=re.S)
  68. for k, img in enumerate(all_imgs):
  69. content = content.replace(img, "&{}&".format(k))
  70. subs2img["&{}&".format(k)] = img
  71. content = re.sub(r"<(su[bp])>(.*?)</(su[bp])>", r"【\1】\2【/\3】", content)
  72. content = content.replace("&lt;", "【#lt;】")
  73. html = pq(content, parser="html")
  74. a = []
  75. if html.children():
  76. for line in html.children().items(): # <p>.*?</p>里面的内容可能会被过滤掉
  77. test = line.text()
  78. # 保留下划线及着重符标签 <span style="text-decoration: underline;">
  79. # 波浪线:<span style="text-decoration: underline wavy;">
  80. # pq会将多个空格换成一个
  81. if '<span style="text-decoration: underline' in str(line) or '<span class="dots"' in str(line) \
  82. or '<p style="text-indent:' in str(line) or '<p style="text-align:' in str(line):
  83. line = re.sub(r'<span style="text-decoration: underline(.*?">.+?)</span>', r"【1#\1##】", str(line))
  84. line = re.sub(r'<span class="dots">(.+?)</span>', r"【2#\1##】", str(line))
  85. line = re.sub(r'<(p style="text-(indent|align):.*?">.+?)</p>', r"【\1##3】", str(line))
  86. line = line.replace(" ", "【+】")
  87. line = pq(line)
  88. new_line = list(map(lambda x: str(x).replace("【1#", '<span style="text-decoration: underline')
  89. .replace("##】", "</span>").replace("【2#", '<span class="dots">')
  90. .replace("【p【+】style=", "<p style=").replace("##3】", "</p>").replace("【+】",
  91. " "),
  92. line.text().split("\n")))
  93. a.extend(new_line)
  94. elif str(line).startswith("<p") and line.text().strip():
  95. if '<img src="http://' in str(line) or "text-decoration: underline" in str(line) or "border-bottom:" in str(line) or "text - decoration: underline" in str(line):
  96. # a.append(line.html().replace("<br />", "\n").replace("<br/>", "\n").replace("<br>", "\n") + "\n")
  97. a.append(line.html())
  98. else:
  99. line = replace_k(line)
  100. if re.search(r"\n|<br\s*/?>", str(line), flags=re.S):
  101. line = re.sub(r"\n|<br\s*/?>", "#*#", str(line), flags=re.S)
  102. line = pq(line)
  103. new_line = list(map(lambda x: str(x).replace("#+#", " "), line.text().split("#*#")))
  104. a.extend(new_line)
  105. else:
  106. if line.text().strip():
  107. a.append(line.text().replace("#+#", " "))
  108. elif "<article>" in str(line) and "</article>" in str(line):
  109. line = re.sub(r'<p.*?>', "", str(line.html()))
  110. b = line.replace('</p>', ""). \
  111. replace("<br>", "\n"). \
  112. replace("<br/>", "\n"). \
  113. replace("<br />", "\n"). \
  114. replace('<p style="height: 0;">&nbsp;</p>', "\n"). \
  115. replace('<p style="height: 0;"> </p>', "\n")
  116. b_list = b.split("\n")
  117. # b_list = list(filter(lambda x: str(x), b_list))
  118. b_list = list(filter(filter_data, b_list))
  119. b_list = list(map(lambda x: str(x), b_list))
  120. a.extend(b_list)
  121. elif str(line).startswith("<ul"):
  122. a.append(line.text())
  123. elif line.attr("class") == "slave-datas":
  124. for j, ss in enumerate(line.children().items()):
  125. if ss(".read-list-title").text():
  126. a.append(str(j + 1) + "." + ss(".read-list-title").text())
  127. if ss(".read-list-opt").text():
  128. a.append(ss(".read-list-opt").text().replace("\n", "\t"))
  129. if str(ss).startswith("<ul"):
  130. a.append(ss.text())
  131. elif str(line).startswith("<table"):
  132. a.append(str(line))
  133. elif str(line).startswith("<ol"):
  134. for i, ss in enumerate(line.children().items()):
  135. a.append(str(i + 1) + "." + ss.text())
  136. else:
  137. # print('test:',line.text()) # 自动去掉了图片
  138. if line.text().strip():
  139. line = replace_k(line)
  140. # a.append(line.text().replace("+", "\xa0") + "\n")
  141. a.append(line.text().replace("#+#", " "))
  142. else:
  143. # if html.text().strip(): 把换行\n 都去掉了
  144. # a.append(html.text())
  145. # a.append(str(html)) # 会自动带上</?p> ;&变为&amp;
  146. a.append(content.strip())
  147. new_a = "\n".join(list(map(lambda x: str(x).strip(), a)))
  148. if subs2img:
  149. new_a = re.sub("|".join(subs2img.keys()), lambda x: subs2img[x.group()], new_a)
  150. new_a = "<p>" + new_a.replace("\n\n", "\n").replace("\n", "</p>\n<p>") + "</p>"
  151. # for sb, img in subs2img.items(): # 2021
  152. # new_a = new_a.replace(sb, img)
  153. # if parm:
  154. # new_a[0] = "\xa0" * 4 + new_a[0]
  155. new_a = re.sub(r"【(/?su[bp])】", r"<\1>", new_a).replace("【#lt;】", "&lt;")
  156. return new_a
  157. if __name__ == '__main__':
  158. cons = r'''
  159. <div>(1)求货物和重物的质量关系;</div>
  160. (2)要使货物运送到B端,若采用在重物下方挖坑的方法,求至少挖多深的坑;<br>(3)要使货物运送到B端,若采用配重落地时传送带立刻顺时针转动的方法(启动时间可<br>忽略),求传送带速度大小的范围和货物从A端传送到B端所用时间的范围(结果保留三位有<br>效数字)。<br><br><br><br>物理参考答案<br>
  161. <div>1.C</div>
  162. <div>【解析】绝大多数α粒子沿直线穿过,偏转角很</div>
  163. <div>小,说明原子核很小;A项错误;少数α粒子穿过金箱</div>
  164. <div>后发生较犬角度的偏转是由于少数α粒子穿过金箱</div>
  165. <div>时距离金原子核较近,受到的库仑斥力较大,B项错</div>
  166. <div>误;极少数α粒子被弹回,说明原子核是一个体积小、</div>
  167. '''
  168. cons1 = '''
  169. 9 . 中国古代的政治权力由“传贤”转变为“传子”,“家天下”制度开始形成于<table name=\"optionsTable\" style=\"width:100%;table-layout:fixed;\" cols=\"4\"><tr><td>A.夏朝</td><td>B.商朝</td><td>C.周朝</td><td>D.秦朝</td></tr></table>
  170. '''
  171. # pprint(cons)
  172. # print(again_parse(cons))
  173. # print(again_parse(cons))
  174. # print(list(map(lambda x: str(x).replace(" ", " "), again_parse(cons))))
  175. # con1 = r'<p>解:A.研究跨栏动作时,刘翔的大小和形状不能忽略,不能看作质点,故A错误;<br/>B.选取不同的参考系,物体的运动状态是不相同的,故B错误;<br/>C.出租车收费是按路程收费的,故C错误;<br/>D.第<img src="http://192.168.1.145:10811/static/physical_formulas_imgs/16184553930794225.png" data-latex="${4 \rm{s} }$" width="13",height="11" />是指<img src="http://192.168.1.145:10811/static/physical_formulas_imgs/16184553931930702.png" data-latex="${1 \rm{s} }$" width="12",height="11" />的时间,是指从<img src="http://192.168.1.145:10811/static/physical_formulas_imgs/16184553930220437.png" data-latex="${3 \rm{s} }$" width="13",height="11" />末到<img src="http://192.168.1.145:10811/static/physical_formulas_imgs/16184553930794225.png" data-latex="${4 \rm{s} }$" width="13",height="11" />末这一段时间,故D正确;<br/>故选:D.</p>'
  176. cons = css_label_wash(cons1)
  177. print(cons)