欢迎您访问程序员文章站本站旨在为大家提供分享程序员计算机编程知识!
您现在的位置是: 首页  >  IT编程

“基于医疗知识图谱的问答系统”代码解析

程序员文章站 2022-07-08 15:43:18
“基于医疗知识图谱的问答系统”代码解析(二)question_classifier.py --问题分类器代码解析“基于知识医疗图谱的问答系统”代码解析(一)#!/usr/bin/env python3# coding: utf-8# File: question_classifier.py# Author: lhy# Date: 18-10-4# 导入操作系统接口模块imp...

“基于医疗知识图谱的问答系统”代码解析(二)

question_classifier.py --问题分类器代码解析

“基于知识医疗图谱的问答系统”代码解析(一)
“基于医疗知识图谱的问答系统”代码解析(三)
“基于医疗知识图谱的问答系统”代码解析(四)
“基于医疗知识图谱的问答系统”代码解析(五)

#!/usr/bin/env python3
# coding: utf-8
# File: question_classifier.py
# Author: lhy<lhy_in_blcu@126.com,https://huangyong.github.io>
# Date: 18-10-4

# 导入操作系统接口模块
import os
# ahocosick:自动机的意思
#  可实现自动批量匹配字符串的作用,即可一次返回该条字符串中命中的所有关键词
import ahocorasick

# 建立问题分类器的类
class QuestionClassifier:
    def __init__(self):
        # cur_dir 是当前目录 其中[:-1]可以达到返回上一层的效果
        cur_dir = '/'.join(os.path.abspath(__file__).split('/')[:-1])
        # 加载特征词路径
        self.disease_path = os.path.join(cur_dir, 'dict/disease.txt')
        self.department_path = os.path.join(cur_dir, 'dict/department.txt')
        self.check_path = os.path.join(cur_dir, 'dict/check.txt')
        self.drug_path = os.path.join(cur_dir, 'dict/drug.txt')
        self.food_path = os.path.join(cur_dir, 'dict/food.txt')
        self.producer_path = os.path.join(cur_dir, 'dict/producer.txt')
        self.symptom_path = os.path.join(cur_dir, 'dict/symptom.txt')
        self.deny_path = os.path.join(cur_dir, 'dict/deny.txt')
        # 加载特征词  这里encoding用的是‘utf-8’模式,不加的话,我的pycharm会报错
        self.disease_wds= [i.strip() for i in open(self.disease_path,encoding='utf-8') if i.strip()]
        self.department_wds= [i.strip() for i in open(self.department_path,encoding='utf-8') if i.strip()]
        self.check_wds= [i.strip() for i in open(self.check_path,encoding='utf-8') if i.strip()]
        self.drug_wds= [i.strip() for i in open(self.drug_path,encoding='utf-8') if i.strip()]
        self.food_wds= [i.strip() for i in open(self.food_path,encoding='utf-8') if i.strip()]
        self.producer_wds= [i.strip() for i in open(self.producer_path,encoding='utf-8') if i.strip()]
        self.symptom_wds= [i.strip() for i in open(self.symptom_path,encoding='utf-8') if i.strip()]
        self.region_words = set(self.department_wds + self.disease_wds + self.check_wds + self.drug_wds + self.food_wds + self.producer_wds + self.symptom_wds)
        self.deny_words = [i.strip() for i in open(self.deny_path,encoding='utf-8') if i.strip()]
        # 构造领域 actree
        self.region_tree = self.build_actree(list(self.region_words))
        # 构建词典 格式比如{'感冒':'disease'....}
        self.wdtype_dict = self.build_wdtype_dict()
        # 问句疑问词
        self.symptom_qwds = ['症状', '表征', '现象', '症候', '表现']
        self.cause_qwds = ['原因','成因', '为什么', '怎么会', '怎样才', '咋样才', '怎样会', '如何会', '为啥', '为何', '如何才会', '怎么才会', '会导致', '会造成']
        self.acompany_qwds = ['并发症', '并发', '一起发生', '一并发生', '一起出现', '一并出现', '一同发生', '一同出现', '伴随发生', '伴随', '共现']
        self.food_qwds = ['饮食', '饮用', '吃', '食', '伙食', '膳食', '喝', '菜' ,'忌口', '补品', '保健品', '食谱', '菜谱', '食用', '食物','补品']
        self.drug_qwds = ['药', '药品', '用药', '胶囊', '口服液', '炎片']
        self.prevent_qwds = ['预防', '防范', '抵制', '抵御', '防止','躲避','逃避','避开','免得','逃开','避开','避掉','躲开','躲掉','绕开',
                             '怎样才能不', '怎么才能不', '咋样才能不','咋才能不', '如何才能不',
                             '怎样才不', '怎么才不', '咋样才不','咋才不', '如何才不',
                             '怎样才可以不', '怎么才可以不', '咋样才可以不', '咋才可以不', '如何可以不',
                             '怎样才可不', '怎么才可不', '咋样才可不', '咋才可不', '如何可不']
        self.lasttime_qwds = ['周期', '多久', '多长时间', '多少时间', '几天', '几年', '多少天', '多少小时', '几个小时', '多少年']
        self.cureway_qwds = ['怎么治疗', '如何医治', '怎么医治', '怎么治', '怎么医', '如何治', '医治方式', '疗法', '咋治', '怎么办', '咋办', '咋治']
        self.cureprob_qwds = ['多大概率能治好', '多大几率能治好', '治好希望大么', '几率', '几成', '比例', '可能性', '能治', '可治', '可以治', '可以医']
        self.easyget_qwds = ['易感人群', '容易感染', '易发人群', '什么人', '哪些人', '感染', '染上', '得上']
        self.check_qwds = ['检查', '检查项目', '查出', '检查', '测出', '试出']
        self.belong_qwds = ['属于什么科', '属于', '什么科', '科室']
        self.cure_qwds = ['治疗什么', '治啥', '治疗啥', '医治啥', '治愈啥', '主治啥', '主治什么', '有什么用', '有何用', '用处', '用途',
                          '有什么好处', '有什么益处', '有何益处', '用来', '用来做啥', '用来作甚', '需要', '要']

        print('model init finished ......')

        return

    '''分类主函数'''
    def classify(self, question):
        data = {}
        # check_medical 是定义在后面的函数 搜寻最终提取词的信息 比如{'感冒‘:’diseases‘.....}
        medical_dict = self.check_medical(question)
        # 若不存在
        if not medical_dict:
            return {}
        data['args'] = medical_dict
        # 收集问句当中所涉及到的实体类型
        types = []
        for type_ in medical_dict.values():
            types += type_
        # 定义问题类型
        question_type = 'others'
        question_types = []

        # 症状
        if self.check_words(self.symptom_qwds, question) and ('disease' in types):
            question_type = 'disease_symptom'
            question_types.append(question_type)
        if self.check_words(self.symptom_qwds, question) and ('symptom' in types):
            question_type = 'symptom_disease'
            question_types.append(question_type)

        # 原因
        if self.check_words(self.cause_qwds, question) and ('disease' in types):
            question_type = 'disease_cause'
            question_types.append(question_type)

        # 并发症
        if self.check_words(self.acompany_qwds, question) and ('disease' in types):
            question_type = 'disease_acompany'
            question_types.append(question_type)

        # 推荐食品
        if self.check_words(self.food_qwds, question) and 'disease' in types:
            deny_status = self.check_words(self.deny_words, question)
            if deny_status:
                question_type = 'disease_not_food'
            else:
                question_type = 'disease_do_food'
            question_types.append(question_type)

        # 已知食物找疾病
        if self.check_words(self.food_qwds+self.cure_qwds, question) and 'food' in types:
            deny_status = self.check_words(self.deny_words, question)
            if deny_status:
                question_type = 'food_not_disease'
            else:
                question_type = 'food_do_disease'
            question_types.append(question_type)

        # 推荐药品
        if self.check_words(self.drug_qwds, question) and 'disease' in types:
            question_type = 'disease_drug'
            question_types.append(question_type)

        # 药品治啥病
        if self.check_words(self.cure_qwds, question) and 'drug' in types:
            question_type = 'drug_disease'
            question_types.append(question_type)

        # 疾病接受检查项目
        if self.check_words(self.check_qwds, question) and 'disease' in types:
            question_type = 'disease_check'
            question_types.append(question_type)

        # 已知检查项目查相应疾病
        if self.check_words(self.check_qwds+self.cure_qwds, question) and 'check' in types:
            question_type = 'check_disease'
            question_types.append(question_type)

        # 症状防御
        if self.check_words(self.prevent_qwds, question) and 'disease' in types:
            question_type = 'disease_prevent'
            question_types.append(question_type)

        # 疾病医疗周期
        if self.check_words(self.lasttime_qwds, question) and 'disease' in types:
            question_type = 'disease_lasttime'
            question_types.append(question_type)

        # 疾病治疗方式
        if self.check_words(self.cureway_qwds, question) and 'disease' in types:
            question_type = 'disease_cureway'
            question_types.append(question_type)

        # 疾病治愈可能性
        if self.check_words(self.cureprob_qwds, question) and 'disease' in types:
            question_type = 'disease_cureprob'
            question_types.append(question_type)

        # 疾病易感染人群
        if self.check_words(self.easyget_qwds, question) and 'disease' in types :
            question_type = 'disease_easyget'
            question_types.append(question_type)

        # 若没有查到相关的外部查询信息,那么则将该疾病的描述信息返回
        if question_types == [] and 'disease' in types:
            question_types = ['disease_desc']

        # 若没有查到相关的外部查询信息,那么则将该疾病的描述信息返回
        if question_types == [] and 'symptom' in types:
            question_types = ['symptom_disease']

        # 将多个分类结果进行合并处理,组装成一个字典
        data['question_types'] = question_types

        return data

    '''构造词对应的类型'''
    def build_wdtype_dict(self):
        wd_dict = dict()
        # region_words 包含了一系列信息
        for wd in self.region_words:
            wd_dict[wd] = []
            # 查询 关键词 是否在对应的列表中存在,若存在则添加,不存在返回空
            if wd in self.disease_wds:
                wd_dict[wd].append('disease')
            if wd in self.department_wds:
                wd_dict[wd].append('department')
            if wd in self.check_wds:
                wd_dict[wd].append('check')
            if wd in self.drug_wds:
                wd_dict[wd].append('drug')
            if wd in self.food_wds:
                wd_dict[wd].append('food')
            if wd in self.symptom_wds:
                wd_dict[wd].append('symptom')
            if wd in self.producer_wds:
                wd_dict[wd].append('producer')
        return wd_dict

    '''构造actree,加速过滤'''
    def build_actree(self, wordlist):
        # 类似kmp  快速匹配
        actree = ahocorasick.Automaton()
        for index, word in enumerate(wordlist):
            actree.add_word(word, (index, word))
        actree.make_automaton()
        return actree

    '''问句过滤'''
    def check_medical(self, question):
        region_wds = []
        # region_tree 是一棵用region_wds 做出来的actree,快速找出question与之匹配的实体
        # 但是有时候匹配的结果与我们想的不一,比如“瓜烧白菜”和“白菜”是不一样的
        for i in self.region_tree.iter(question):
            # wd是question 用actree做了加速
            wd = i[1][1]
            region_wds.append(wd)
        # 利用停用词过滤
        stop_wds = []
        for wd1 in region_wds:
            for wd2 in region_wds:
                # 如果词语不一样,则添加较长的
                if wd1 in wd2 and wd1 != wd2:
                    stop_wds.append(wd1)
        # 更新最后剩下的词语组合
        final_wds = [i for i in region_wds if i not in stop_wds]
        # 更新字典,格式比如{'感冒':'disease'....}
        final_dict = {i:self.wdtype_dict.get(i) for i in final_wds}
        return final_dict

    '''基于特征词进行分类'''
    def check_words(self, wds, sent):
        for wd in wds:
            if wd in sent:
                return True
        return False


if __name__ == '__main__':
    handler = QuestionClassifier()
    # 问题输入到分类过程
    while 1:
        question = input('input an question:')
        data = handler.classify(question)
        print(data)

总结

就是把问题里的关键词提取,然后各个分类了一下,如有不足,欢迎提出。

本文地址:https://blog.csdn.net/qq_41521728/article/details/112598636