# 各题型结构化
import re
from structure.option import option_structure, new_options_rank, table_option_struc
from structure.dati2slave import get_slave
def one_item_structure(xyz):
"""
判断解析类型,解析类型为:
if:
1.stem不需要再做其他处理<-- 答案没有[;;],且答案不是ABCDEFG
2.选择题类,需要把stem中的ABCD各选项内容提取出来<--答案是ABCDEFG
else:
都要看是否含有小题,如果含有小题,需要把小题提取出来,slave
3.填空题类,(1)需要提取stem中下划线的个数
选择题结构化:单选或者多选<--要把各选项是什么提取出来放在slave中
one_item:{"stem":xxxx,"key":xxx,"parse":xxx}
consumer: 分“高中数学”还是“全学科”;
item_no_type:题号是否以(\d)的形式
:return:
"""
one_item, consumer, item_no_type = xyz
if "【章节】" in one_item["parse"]: # 属于后一个题的,后面须调整
one_item["chapter"] = one_item["parse"].split("【章节】")[1].split("\n")[0]
one_item["parse"] = one_item["parse"].replace("【章节】" + one_item["chapter"], "")
if "【章节】" in one_item["stem"]: # 属于后一个题的,后面须调整
one_item["chapter"] = one_item["stem"].split("【章节】")[1].split("\n")[0]
one_item["stem"] = one_item["stem"].replace("【章节】" + one_item["chapter"], "")
if "【选做题】" in one_item["stem"] + one_item["key"] + one_item["parse"]:
opt_str = re.search(r"【选做题】:'(\d+)分'", one_item["stem"] + one_item["key"] + one_item["parse"])
one_item["option_st"] = "选做题,"+opt_str.group(1) if opt_str else "选做题" # 选做题开始的位置,后面的题开始是选做题
one_item["stem"] = re.sub("【选做题】(:'(\d+)分')?", "", one_item["stem"])
one_item["key"] = re.sub("【选做题】(:'(\d+)分')?", "", one_item["key"])
one_item["parse"] = re.sub("【选做题】(:'(\d+)分')?", "", one_item["parse"])
ans = one_item["key"]
con = one_item["stem"]
parse = re.sub(r"((?<=[\n】])|^)\s*解\s*[::]", "", one_item["parse"])
if not one_item["type"]:
# one_item["errmsgs"].append("本题没有给出明确题型!")
# return one_item
if re.match(r"[A-Z][A-Z;;和与、、\s]*?$", ans.strip()):
one_item["type"] = "单选题" if len(ans.strip()) == 1 else "多选题"
elif re.search(r"[((]\s*[))]", one_item["stem"]) or \
len(re.findall(r"[\n\s]\s*[A-D]\s*[..、、]", one_item["stem"])) >= 4:
one_item["type"] = "选择题"
elif re.findall(r"_{2,}", one_item["stem"]):
one_item["type"] = "填空题"
else:
one_item["type"] = "简答题"
elif one_item["type"].replace("题", "") in ["单选", "多选", "选择", "不定选择"]:
# # 存在试卷所给题型不规范或本身就是错的情况
if len(re.findall("\n\s*[((]\s*[1-9]\s*[))]", "\n" + con)) > 1 \
or (re.search(r"[((]\s*[))][\s\n]*()(
|\n)+\s*(?!" in one_item["stem"]:
may_options = table_option_struc(one_item["stem"])
if may_options:
one_item["options"] = may_options
one_item["options_rank"] = 2
one_item["errmsgs"] = [emg for emg in one_item["errmsgs"] if "选项格式不正确" not in emg]
else: # 选择题结构化成功时,对选项排列方式再换思路算
options_rank_2 = new_options_rank(one_item["options"])
if options_rank_2:
one_item["options_rank"] = options_rank_2
one_item["blank_num"] = len(re.findall(r"_{2,}", one_item["stem"]))
one_item["answer_type"] = "选择题"
elif consumer == 'toslave': # 拆小题
one_item = get_slave(one_item, con, parse, ans)
# if ('slave' not in one_item or not one_item['slave']) and 'analy' in one_item:
# del one_item['analy']
# if one_item["type"] == "多选题":
# one_item = option_structure(one_item, con, ans, item_no_type)
# if 'options' not in one_item:
# one_item["options"] = []
else: # 不拆小题,非选择题
if "#" in ans:
one_item["key"] = one_item["key"].replace("#", "; ")
pattern1 = re.compile(r"([是为点]|等于|=|=|有|存在)\s*_+(().)*?/>|[^_;;。?!\n])+?)_+"
r"([cdkm上]?m?\s*.?[。.?]?\s*($|
|<==×÷/()()﹙﹚\[\]﹛﹜{\}∧∨∠▰▱△∆⊙⌒"
r"⊆⊂⊇⊃∈∩∉∪⊕∥∣≌∽∞∝⊥∫∬∮∯Φ∅≮≯∁∴∵∷←↑→↓↖↗↘↙‖〒¤○′″¢°℃℉"
r"αβγδεζηθικλμνξορστυφχψωϕ%‰℅㎎㎏㎜㎝㎞㎡㎥㏄㏎㏕$£¥º¹²³⁴ⁿ₁₂₃₄·∶½⅓⅔¼¾⅛⅜⅝⅞"
r"ΑΒΓΔΕΖΗΘΙΚΜ]", "", ans)):
one_item["type"] = "多选题"
one_item = option_structure(one_item, con, ans, item_no_type)
if 'options' not in one_item:
one_item["options"] = []
if one_item["type"] == "填空题" and re.search("_{2,}|填正确答案", one_item['stem']) is None:
# -----放在huanhang_wash_after中调整--------------
# blank_ans =[]
# while re.search(pattern1, one_item["stem"]): # 答案直接填在____上的情况
# blank_con1 = re.search(pattern1, one_item["stem"])
# one_item["stem"] = one_item["stem"].replace(blank_con1.group(0),
# blank_con1.group(1) + "____" + blank_con1.group(5))
# blank_ans.append(blank_con1.group(2))
# while re.search(pattern2, one_item["stem"]): # 答案直接填在____上的情况
# blank_con1 = re.search(pattern2, one_item["stem"])
# one_item["stem"] = one_item["stem"].replace(blank_con1.group(0),
# blank_con1.group(1) + "____" + blank_con1.group(3))
# blank_ans.append(blank_con1.group(2))
# if not ans:
# one_item["key"] = ";".join(blank_ans)
# one_item["blank_num"] = len(blank_ans)
# ----------------------------------------------
if re.match(r"[A-Z][A-Z;;和与、、\s]*?$", ans.strip()):
one_item["type"] = "单选题" if len(ans.strip()) == 1 else "多选题"
one_item = option_structure(one_item, con, ans, item_no_type)
if 'options' not in one_item:
one_item["options"] = []
elif re.search(r"[((]\s*[))]", one_item["stem"]) or ('步骤' not in one_item["stem"] and
len(re.findall(r"[\n\s]\s*[A-D]\s*[..、、]", one_item["stem"])) >= 4):
one_item["type"] = "选择题"
one_item = option_structure(one_item, con, ans, item_no_type)
if 'options' not in one_item:
one_item["options"] = []
elif re.findall('(有|存在|[是为==])[ \s]{3,}[a-zA-Z]', one_item["stem"]):
one_item["blank_num"] = len(re.findall('(有|存在|[是为==])[ \s]{3,}[a-zA-Z]', one_item["stem"]))
elif re.findall('[ \s]{3,}[a-zA-Z]\s*[,;.。;,]', one_item["stem"]):
one_item["blank_num"] = len(re.findall('\s{3,}\n*\s*[a-zA-Z]\s*[,;.。;,.]', one_item["stem"]))
elif re.search(pattern1, one_item["stem"]) is None and re.search(pattern2, one_item["stem"]) is None:
stem = re.sub("|[,,.。.、、]", "", one_item["stem"])
if len(stem) > 2:
one_item["type"] = "解答题"
# print('------------------------------------------------')
if one_item:
# if re.match(r"(\[.*?\])?\s*\(.*?(\d+)分\)", one_item["stem"].strip()):
# # print(one_item["stem"])
# score_info = re.match(r"(\[.*?\])?\s*\(.*?(\d+)分\)", one_item["stem"].strip())
# one_item["score"] = float(score_info.group(2))
one_item["stem"] = re.sub(r"(\[.*?\])?\(.*?\d+分\)", "", one_item["stem"][:20]) + one_item["stem"][20:]
return one_item