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- #!/usr/bin/env/python
- # -*- coding:utf-8 -*-
- import re
- from structure.ans_structure import only_parse_split
- from structure.option import option_structure
- from structure.stems_to_groups import suojin
- def get_slave(one_item, con, parse, ans, parse_split=1):
- """
- 带小问的大题 按小问切分
- parse_split=1:解析拆
- :return:
- """
- # if re.search(r"[;;]", ans) and len(re.findall(r"[((]\s*\d\s*[))]", con)) > 1:
- # 模板要求老师小题题号(1)(2)
- con = re.sub("(<[/a-z]+>|[((]\s*\d+\s*分\s*[))])\s*([((]\s*\d\s*[))])", r"\1" + "\n" + r"\2", con)
- parse = re.sub("(<[/a-z]+>)\s*([((]\s*\d\s*[))])", r"\1" + "\n" + r"\2", parse)
- # kuo_num = len(re.findall(r"[((]\d[))]", con.replace(" ", "")))
- # circle_num = len(re.findall(r"\n[((](i{1,3}|[ⅰⅱⅲⅳ①②③④⑤])[))]|\n[①②③④⑤]\s*(?![+-])", con.replace(" ", "")))
- # 小题干按\n(\d)拆
- if len(re.findall(r"\n[((]\d[))](?!小?题中)", con.replace(" ", ""))) > 1:
- # by_sub_item = True # 答案是按照小题获取
- # -----------------------题干拆分-----------------------------
- con = re.sub(r"((?<=[\n::;;。求])|^)\s*([((]\s*[1-9]\s*[))])\s*(?!小?题中)|\n\s*[((]\s*\d{2}\s*[))]",
- "【ⅳ】", con)
- con_list = re.split(r"【ⅳ】", con)
- con_list = [con_list[0]] + [c for c in con_list[1:] if c.strip()]
- # ---------------答案和解析拆分---------------------------------------
- # ans_list = [] if ans != "见解析" else "见解析"
- ans_list = []
- parse_list = []
- analy_comment = []
- com_ans = ""
- if parse_split: # 解析需拆分
- # 答案
- if re.search(r"(\n|\s{2,})[((](\d)[))]", ans.replace(" ", "")):
- if len(re.findall(r"[((]\d[))]", ans.replace(" ", ""))) > 1: # 优先按(\d)拆分
- ans = re.sub(r"((?<=[\n::;;。])\s*|\s{2,}|^\s*)([((]\s*\d\s*[))])", "【ⅳ】", ans)
- ans_list.extend(re.split(r"【ⅳ】", ans))
- com_ans = ans_list[0]
- ans_list = ans_list[1:]
- while ans_list and not ans_list[0]:
- ans_list = ans_list[1:]
- elif ans.strip() == "见解析":
- ans_list = ["见解析"] * (len(con_list) - 1)
- # 解析
- if parse:
- if re.search('【(详解|解析|解答|分析)】', parse): # 2020-6-10
- temp_parse = re.split('【详解】|【解析】|【解答】', parse, maxsplit=1)
- if len(temp_parse) == 1:
- temp_parse = re.split('【分析】', parse, maxsplit=1)
- parse = temp_parse[1]
- analy_comment.append(temp_parse[0])
- # 若分析也分小问来,则单独拆分
- # if len(re.findall(r"[((]\d[))]", temp_parse[0].replace(" ", ""))) > 1:
- # syn = re.sub(r"((?<=[\n::;;。】])|^)\s*([((]\s*\d\s*[))])", "【ⅳ】", temp_parse[0])
- # syn_list.extend(re.split(r"【ⅳ】", syn))
- # syn_list.append(temp_parse[0]) # 【详解】|【解析】|【解答】 前面的部分
- if re.search("【(点评|点睛)】", parse):
- comment = re.split('(【点评】|【点睛】)', parse, maxsplit=1)
- analy_comment.append(comment[-2] + comment[-1])
- parse = comment[0]
- other_parse_info = re.search("\n\s*" + str(one_item["item_id"]) + "\s*[、..、]\s*[((]\s*1\s*[))]",
- "\n"+parse) # \d、(1)xxxx
- if other_parse_info:
- parse = "(1)" + parse[other_parse_info.end():]
- analy_comment.append(parse[:other_parse_info.start()])
- # 解析拆分小问
- if len(re.findall(r"[((]\d[))]", parse.replace(" ", ""))) > 1:
- parse = re.sub(r"((?<=[\n::;;。])|^)\s*([((]\s*\d\s*[))])", "【ⅳ】", parse)
- parse = re.sub(r"(/>)\s*([((]\s*\d\s*[))])", r"\1【ⅳ】", parse)
- # 将解析末尾出现的‘故答案为’在成功slave后删掉,还是容易出错
- if re.search('(故|因[而此]|所以)\s*[::]?\s*答案分?别?([为是]|填)?\s*[::]\s*(.+?)(\n|$)', parse):
- ans_s = re.search('(\n.*?|^.*?|<p>)((故|因[而此]|所以)\s*[::]?\s*答案分?别?'
- '([为是]|填)?\s*[::]\s*(.+?))(\n|$)', parse)
- if ans_s.group(5) and ans_s.group(5).count("【ⅳ】") > 1: # 答案综述中(\d)出现多个时
- ans_summarize = ans_s.group(2)
- ans_s_index = parse.index(ans_summarize) if ans_s.group(1) == '<p>' or not ans_s.group(1).strip() \
- or ans_s.group(1).strip() is None else parse.index(ans_s.group(1))
- # ans_summarize = [ans_s.group(2), ans_s_index]
- # parse = parse.replace(ans_summarize[0], "")
- parse = parse.replace(ans_summarize, "")
- elif ans_s.group(5) and "【ⅳ】" in ans_s.group(5):
- aa5 = ans_s.group(5).replace("【ⅳ】", "")
- parse = parse.replace(ans_s.group(5), aa5)
- # -----------------------------------------------
- parse = re.sub("(【ⅳ】\s*解答?\s[::])\s*【ⅳ】", r"\1", parse)
- little_parse = re.split(r"【ⅳ】", parse)
- if len(little_parse) > 1:
- parse_list = little_parse[1:]
- if re.search("\n\s*(【参考译文】|参考译文\s*[::])", "\n"+little_parse[0]):
- analy_comment.append(little_parse[0])
- # -----------------------------------拆分后组合----------------------------------------
- one_item, yiwen = split2little_con(con_list, ans_list, parse_list, one_item) # 解析不拆分时,小问也要拆
- if parse_split and "slave" in one_item: # 解析需拆分; # 小问解析个数与小问一致时才组合的
- # 里层答案/解析存在时,外层就不需要了
- if one_item["slave"][0]["parse"].strip():
- one_item['parse'] = "\n".join(analy_comment)
- if one_item["slave"][0]["key"].strip(): # 里层答案存在时,外层就不需要了
- one_item['key'] = com_ans.strip()
- if yiwen:
- one_item['parse'] += "\n" + yiwen
- else: # 题干不存在多个\n(\d),不存在多问
- if re.findall(r"_{2,}", one_item["stem"]):
- one_item["blank_num"] = len(re.findall(r"_{2,}", one_item["stem"]))
- one_item["answer_type"] = "填空题"
- # if parse_split and re.search("^[A-Z]{2,}$", re.sub("\W", "", ans)):
- # one_item["type"] = "多选题"
- elif len(re.findall(r"[\n\s\u4e00-\u9fa5]\s*[A-D]\s*[..、、]", one_item["stem"])) >= 3: # 增加对选项的拆分处理
- one_item = option_structure(one_item, con, ans, 1)
- one_item["answer_type"] = "选择题"
- if 'options' not in one_item:
- one_item["options"] = []
- elif re.search("[((]\s+[))][\s\n]*$", one_item["stem"]) or one_item["type"] == "判断题":
- one_item["answer_type"] = "判断题"
- if re.match("【?(对的?|正确的?|[T√])】?$", one_item["key"].strip()):
- one_item["key"] = "正确"
- elif re.match("【?(错误?的?|不对的?|不正确的?|[F×])】?$", one_item["key"].strip()):
- one_item["key"] = "错误"
- elif re.search("[横划画]线处填写", one_item["stem"]) and "com_stem" in one_item:
- one_item["answer_type"] = "填空题"
- if "com_stem" in one_item:
- blank_num = len(re.findall(r"_{2,}", one_item["com_stem"]))
- if blank_num > 0:
- one_item["blank_num"] = blank_num
- else:
- one_item["answer_type"] = "解答题"
- else:
- one_item["answer_type"] = "解答题"
- return one_item
- def split2little_con(con_list, ans_list, parse_list, one_item):
- """
- 将按小问切分开的题干、答案、解析 进行 【结构化组合】,
- 包含将小问题干继续按选项拆分的情况
- :param con_list:切开了小问的题干
- :param ans_list:切开了小问的答案
- :param parse_list:切开了小问的解析
- :param one_item: 初步切开的一道题目
- :param is_sub_item: 答案是否按小题号获取(还是按照空的个数获取)的标志
- :param ans_summarize: 解析中的综述 [内容,索引]
- :return:
- """
- # print(con_list)
- # print(ans_list)
- # print(parse_list)
- # print('***********************')
- yiwen = ""
- if len(con_list) > 1:
- if con_list[0] == "": # 说明全是小题,没有总题文
- one_item["stem"] = ""
- else:
- # one_item["stem"] = suojin(con_list[0]) # 公共题文缩进处理
- one_item["stem"] = con_list[0]
- slave = []
- for index, s in enumerate(con_list[1:]): # 以题干拆分为主
- blank_num = len(re.findall(r"_{2,}", s))
- s = re.sub(r"[((]\d+分[))]", "", s[:9]) + s[9:]
- # 格式行调整
- if index > 0 and re.search('<p style=".*?">\n+$', slave[index - 1]["stem"]):
- slave[index - 1]["stem"], b, _ = re.split('(<p style=".*?">\n+)$', slave[index - 1]["stem"])
- s = b + s
- elif re.search('<p style=".*?">\n+$', one_item["stem"]):
- one_item["stem"], b, _ = re.split('(<p style=".*?">\n+)$', one_item["stem"])
- s = b + s
- one_slave = {"slave_no": "(%s)" % (index + 1),
- "stem": s,
- "key": "",
- "parse": "",
- "answer_type": "解答题",
- "errmsgs": [],
- }
- if len(con_list) - len(parse_list) == 1:
- one_slave["parse"] = parse_list[index] # 按索引取解析
- if index == len(parse_list) - 1 and re.search("\n\s*(【参考译文】|参考译文\s*[::])", "\n"+parse_list[index]):
- one_slave["parse"], yiwen = re.split("\n\s*【参考译文】|\n\s*参考译文\s*[::]",
- "\n"+parse_list[index])
- yiwen = "【参考译文】" + yiwen
- if isinstance(ans_list, list) and len(con_list) - len(ans_list) == 1:
- one_slave["key"] = ans_list[index]
- # 将小题干中的材料拿到公共题干中
- # may_stem_info = re.search("\n材料[一二三四五六七八九十]\s", s)
- # if may_stem_info:
- # one_slave["stem"] = s[:may_stem_info.start()]
- # one_item["stem"] += s[may_stem_info.start()+1:]
- # 判断小题干是否可以是选择题
- if len(re.findall(r"[\n\s\u4e00-\u9fa5]\s*[A-D]\s*[..、、]", s)) >= 3:
- raw_ans = one_slave["key"]
- raw_stem = one_slave["stem"]
- one_slave = option_structure(one_slave, s, one_slave["key"], 1)
- one_slave["answer_type"] = "选择题"
- if "options" not in one_slave or not one_slave["options"]:
- one_slave["key"] = raw_ans # 选择题解析不成功时,答案还原
- elif blank_num > 1:
- one_slave["answer_type"] = "填空题"
- one_slave["key"] = raw_ans
- one_slave["stem"] = raw_stem
- del one_slave["options"], one_slave["options_rank"]
- if "options" not in one_slave or not one_slave["options"]:
- if blank_num > 0:
- one_slave["blank_num"] = blank_num
- one_slave["answer_type"] = "填空题"
- elif re.search("[((]\s+[))]\s*$|判断.*?正误", s):
- one_slave["answer_type"] = "判断题"
- elif re.search("[横划画]线处填写", s):
- one_slave["answer_type"] = "填空题"
- blank_num = len(re.findall(r"_{2,}", one_item["stem"]))
- if blank_num > 0:
- one_slave["blank_num"] = blank_num
- else:
- one_slave["answer_type"] = "解答题"
- if "errmsgs" in one_slave:
- del one_slave["errmsgs"]
- # 对带小题的大题,对每个小题的答案重新再提取一次
- if one_slave["parse"].strip() and (not ans_list or "key" not in one_slave or not one_slave["key"]
- or one_slave["key"] == '见解析'):
- new_ans = only_parse_split(one_slave["parse"], one_item["type"], one_slave["stem"], reparse_n=2) # 再解析
- if new_ans["key"]:
- one_slave["key"] = new_ans["key"]
- if not new_ans["parse"]:
- one_slave["parse"] = ""
- slave.append(one_slave)
- one_item["slave"] = slave
- one_item["slave_no"] = "1-{}".format(len(slave)) if len(slave) > 1 else "1"
- # if slave:
- # pass
- # else:
- # if ans_summarize:
- # one_item["parse"] = one_item["parse"][:ans_summarize[1]] + '\n' + ans_summarize[0] \
- # + '\n' + one_item["parse"][ans_summarize[1]:]
- return one_item, yiwen
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