课程设计-在校整理-10 基于知识图谱的医疗智能问答小程序实现示例
【在校整理-10 基于知识图谱的医疗智能问答小程序实现示例】(注:仅供参考学习使用)
- 一、课题内容和要求
-
- 1、问题描述
- 2、功能要求
- 二、需求分析
- 三、概要设计
- 四、源程序代码
- 五、测试总结
- 六、其他
一、课题内容和要求
1、问题描述
基于知识图谱的智能问答小程序主要流程如下:首先构建出某一领域的知识图谱,然后通过一个微信聊天小程序实现将该领域知识图谱接入到聊天小程序中来完成智能问答。本次课程实践的主要组成部分包括:知识图谱的构建,问答系统的构建和微信聊天小程序的构建
2、功能要求
(1)知识图谱构建部分应实现:知识录入。通过某一领域开源数据集,构建该领域的知识图谱(比如医疗领域等)。
(2)问答系统实现部分应具有以下功能:
a)自然语言处理:根据用户提出的自然问句进行分类处理。
b)查询语句:根据(1)的分类结果,转换成相应的查询语句。
c)回复设置:根据(2)的查询结果,设置相应回复语言。
d)进行回复:将(3)设置的回复语言发送给用户。
(3)微信小程序实现部分应具有以下功能:
a)功能选择:设置获取用户权限功能,和进入问答系统的界面(聊天室界面)
b)问答相关:实现问答的循环进行,模拟真实交流环境。实现聊天输入框中只有在存在文字时才可以点击类似“发送”按钮的功能等。
通过一个完整的软件设计,掌握软件工程的基本理论和方法。要求通过软件课题的开发实践活动,了解软件开发过程的基本模型,掌握软件需求分析、软件设计、软件测试的基本理论和方法,掌握分析与设计工具、编码与测试工具、团队协同开发工具等专业软件的使用。
二、需求分析
智能问答系统,要求系统能够理解用户提出的问题,能够对问题进行分析处理,将自然语言的问题转化成计算机能够理解的语言,然后再从计算机知识库中匹配相应的答案进行自然语言的处理,最后返回给用户。如今在医疗领域内,每天产生大量的问诊治疗记录,这些记录存储在医院数据库中,并没有被完全高效的利用,如果能够利用这些医疗数据构建一个庞大的知识知识图谱,尽可能的涵盖医疗领域内的各种疾病。再基于这个医疗知识图谱来搭建智能问答系统,那么这将会极大的推动医学信息化、智能化的发展。除此之外,一个良好的系统需要一个优秀的前端载体供用户使用,而目前看来,微信小程序是一个非常优秀的前端。所以本次程序设计周中,我们组将智能问答和医疗领域相融合,希望在设计一个有关医疗知识的智能问答系统,该系统在前端界面显示上采用微信小程序作为前端界面。
三、概要设计
根据上述的需求,该系统需要完成以下几点工作:
(1)构建一个医疗知识图谱。
(2)基于知识图谱设计一个自动回复系统。
(3)设计一个微信小程序聊天界面作为智能问答系统的人机交互界面。
数据存储层:在进行系统构建前,采集了部分医疗数据,利用这部分医疗数据组成一个数据集,将数据内容存储到neo4j数据库里,以此来构建一个医疗领域知识图谱,作为系统的数据支持。
数据处理层:读取用户提出的自然语言问题,对问题进行分析处理,转换成计算机能够理解的查询语言,从neo4j数据库中匹配相应的答案再返回给用户。
界面展示层:以微信小程序作为前端展示界面对结果进行展示,实现智能问答中的人机交互任务。
四、源程序代码
前端的代码部分就不贴啦,这里放一下重要部分的代码吧。
// 代码很烂,轻喷。注:仅供参考学习使用。
// build_medicalgraph.py
# coding: utf-8
import os
import json
from py2neo import Graph, Node
class MedicalGraph:
def __init__(self):
cur_dir = '/'.join(os.path.abspath(__file__).split('/')[:-1])
self.data_path = os.path.join(cur_dir, 'data/medical.json')
self.g = Graph("http://localhost:7474", username="neo4j", password="hwjie")
'''读取文件'''
def read_nodes(self):
# 共7类节点
drugs = [] # 药品
foods = [] # 食物
checks = [] # 检查
departments = [] # 科室
producers = [] # 药品大类
diseases = [] # 疾病
symptoms = [] # 症状
disease_infos = [] # 疾病信息
# 构建节点实体关系
rels_department = [] # 科室-科室关系
rels_noteat = [] # 疾病-忌吃食物关系
rels_doeat = [] # 疾病-宜吃食物关系
rels_recommandeat = [] # 疾病-推荐吃食物关系
rels_commonddrug = [] # 疾病-通用药品关系
rels_recommanddrug = [] # 疾病-热门药品关系
rels_check = [] # 疾病-检查关系
rels_drug_producer = [] # 厂商-药物关系
rels_symptom = [] # 疾病症状关系
rels_acompany = [] # 疾病并发关系
rels_category = [] # 疾病与科室之间的关系
count = 0
for data in open(self.data_path, 'rb'):
disease_dict = {}
count += 1
print(count)
data_json = json.loads(data) # 加载该条数据
disease = data_json['name'] # 把病的名字拿出来
disease_dict['name'] = disease # 把上面的名字赋给dict字典的‘name’
diseases.append(disease)
disease_dict['desc'] = ''
disease_dict['prevent'] = ''
disease_dict['cause'] = ''
disease_dict['easy_get'] = ''
disease_dict['cure_department'] = ''
disease_dict['cure_way'] = ''
disease_dict['cure_lasttime'] = ''
disease_dict['symptom'] = ''
disease_dict['cured_prob'] = ''
# 症状
if 'symptom' in data_json:
symptoms += data_json['symptom']
for symptom in data_json['symptom']:
rels_symptom.append([disease, symptom])
# 并发症
if 'acompany' in data_json:
for acompany in data_json['acompany']:
rels_acompany.append([disease, acompany])
# 疾病相关的信息
if 'desc' in data_json:
disease_dict['desc'] = data_json['desc']
# 注意事项
if 'prevent' in data_json:
disease_dict['prevent'] = data_json['prevent']
# 病因
if 'cause' in data_json:
disease_dict['cause'] = data_json['cause']
# 发病率
if 'get_prob' in data_json:
disease_dict['get_prob'] = data_json['get_prob']
# 传染性
if 'easy_get' in data_json:
disease_dict['easy_get'] = data_json['easy_get']
#诊治科室
if 'cure_department' in data_json:
cure_department = data_json['cure_department']
if len(cure_department) == 1:
rels_category.append([disease, cure_department[0]])
if len(cure_department) == 2:
big = cure_department[0]
small = cure_department[1]
rels_department.append([small, big])
rels_category.append([disease, small])
disease_dict['cure_department'] = cure_department
departments += cure_department
if 'cure_way' in data_json:
disease_dict['cure_way'] = data_json['cure_way']
if 'cure_lasttime' in data_json:
disease_dict['cure_lasttime'] = data_json['cure_lasttime']
if 'cured_prob' in data_json:
disease_dict['cured_prob'] = data_json['cured_prob']
if 'common_drug' in data_json:
common_drug = data_json['common_drug']
for drug in common_drug:
rels_commonddrug.append([disease, drug])
drugs += common_drug
if 'recommand_drug' in data_json:
recommand_drug = data_json['recommand_drug']
drugs += recommand_drug
for drug in recommand_drug:
rels_recommanddrug.append([disease, drug])
if 'not_eat' in data_json:
not_eat = data_json['not_eat']
for _not in not_eat:
rels_noteat.append([disease, _not])
foods += not_eat
do_eat = data_json['do_eat']
for _do in do_eat:
rels_doeat.append([disease, _do])
foods += do_eat
recommand_eat = data_json['recommand_eat']
for _recommand in recommand_eat:
rels_recommandeat.append([disease, _recommand])
foods += recommand_eat
if 'check' in data_json:
check = data_json['check']
for _check in check:
rels_check.append([disease, _check])
checks += check
if 'drug_detail' in data_json:
drug_detail = data_json['drug_detail']
producer = [i.split('(')[0] for i in drug_detail]
rels_drug_producer += [[i.split('(')[0], i.split('(')[-1].replace(')', '')] for i in drug_detail]
producers += producer
disease_infos.append(disease_dict)
return set(drugs), set(foods), set(checks), set(departments), set(producers), set(symptoms), set(
diseases), disease_infos, \
rels_check, rels_recommandeat, rels_noteat, rels_doeat, rels_department, rels_commonddrug, rels_drug_producer, rels_recommanddrug, \
rels_symptom, rels_acompany, rels_category
'''建立节点'''
def create_node(self, label, nodes):
count = 0
for node_name in nodes:
node = Node(label, name=node_name)
self.g.create(node)
count += 1
print(count, len(nodes))
return
'''创建知识图谱中心疾病的节点'''
def create_diseases_nodes(self, disease_infos):
count = 0
for disease_dict in disease_infos:
node = Node("Disease", name=disease_dict['name'], desc=disease_dict['desc'],
prevent=disease_dict['prevent'], cause=disease_dict['cause'],
easy_get=disease_dict['easy_get'], cure_lasttime=disease_dict['cure_lasttime'],
cure_department=disease_dict['cure_department']
, cure_way=disease_dict['cure_way'], cured_prob=disease_dict['cured_prob'])
self.g.create(node)
count += 1
print(count)
return
'''创建知识图谱实体节点类型schema'''
def create_graphnodes(self):
Drugs, Foods, Checks, Departments, Producers, Symptoms, Diseases, disease_infos, rels_check, rels_recommandeat, rels_noteat, rels_doeat, rels_department, rels_commonddrug, rels_drug_producer, rels_recommanddrug, rels_symptom, rels_acompany, rels_category = self.read_nodes()
self.create_diseases_nodes(disease_infos)
self.create_node('Drug', Drugs)
print(len(Drugs))
self.create_node('Food', Foods)
print(len(Foods))
self.create_node('Check', Checks)
print(len(Checks))
self.create_node('Department', Departments)
print(len(Departments))
self.create_node('Producer', Producers)
print(len(Producers))
self.create_node('Symptom', Symptoms)
return
'''创建实体关系边'''
def create_graphrels(self):
Drugs, Foods, Checks, Departments, Producers, Symptoms, Diseases, disease_infos, rels_check, rels_recommandeat, rels_noteat, rels_doeat, rels_department, rels_commonddrug, rels_drug_producer, rels_recommanddrug, rels_symptom, rels_acompany, rels_category = self.read_nodes()
self.create_relationship('Disease', 'Food', rels_recommandeat, 'recommand_eat', '推荐食谱')
self.create_relationship('Disease', 'Food', rels_noteat, 'no_eat', '忌吃')
self.create_relationship('Disease', 'Food', rels_doeat, 'do_eat', '宜吃')
self.create_relationship('Department', 'Department', rels_department, 'belongs_to', '属于')
self.create_relationship('Disease', 'Drug', rels_commonddrug, 'common_drug', '常用药品')
self.create_relationship('Producer', 'Drug', rels_drug_producer, 'drugs_of', '生产药品')
self.create_relationship('Disease', 'Drug', rels_recommanddrug, 'recommand_drug', '好评药品')
self.create_relationship('Disease', 'Check', rels_check, 'need_check', '诊断检查')
self.create_relationship('Disease', 'Symptom', rels_symptom, 'has_symptom', '症状')
self.create_relationship('Disease', 'Disease', rels_acompany, 'acompany_with', '并发症')
self.create_relationship('Disease', 'Department', rels_category, 'belongs_to', '所属科室')
'''创建实体关联边'''
def create_relationship(self, start_node, end_node, edges, rel_type, rel_name):
count = 0
# 去重处理
set_edges = []
for edge in edges:
set_edges.append('###'.join(edge))
all = len(set(set_edges))
for edge in set(set_edges):
edge = edge.split('###')
p = edge[0]
q = edge[1]
query = "match(p:%s),(q:%s) where p.name='%s'and q.name='%s' create (p)-[rel:%s{name:'%s'}]->(q)" % (
start_node, end_node, p, q, rel_type, rel_name)
try:
self.g.run(query)
count += 1
print(rel_type, count, all)
except Exception as e:
print(e)
return
'''导出数据'''
def export_data(self):
Drugs, Foods, Checks, Departments, Producers, Symptoms, Diseases, disease_infos, rels_check, rels_recommandeat, rels_noteat, rels_doeat, rels_department, rels_commonddrug, rels_drug_producer, rels_recommanddrug, rels_symptom, rels_acompany, rels_category = self.read_nodes()
f_drug = open('drug.txt', 'w+')
f_food = open('food.txt', 'w+')
f_check = open('check.txt', 'w+')
f_department = open('department.txt', 'w+')
f_producer = open('producer.txt', 'w+')
f_symptom = open('symptoms.txt', 'w+')
f_disease = open('disease.txt', 'w+')
f_drug.write('\n'.join(list(Drugs)))
f_food.write('\n'.join(list(Foods)))
f_check.write('\n'.join(list(Checks)))
f_department.write('\n'.join(list(Departments)))
f_producer.write('\n'.join(list(Producers)))
f_symptom.write('\n'.join(list(Symptoms)))
f_disease.write('\n'.join(list(Diseases)))
f_drug.close()
f_food.close()
f_check.close()
f_department.close()
f_producer.close()
f_symptom.close()
f_disease.close()
return
if __name__ == '__main__':
handler = MedicalGraph()
# handler.export_data()
handler.create_graphnodes()
handler.create_graphrels()
//question_classifier.py
import os
import ahocorasick
class QuestionClassifier:
def __init__(self):
cur_dir = '/'.join(os.path.abspath(__file__).split('/')[:-1])
# 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
self.disease_wds= [i.strip() for i in open(self.disease_path,encoding="utf-8") if i.strip()]#encoding="utf-8"
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
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','挂什么科']
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 = {}
medical_dict = self.check_medical(question)
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_
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()
for wd in self.region_words:
wd_dict[wd] = []
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):
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 = []
for i in self.region_tree.iter(question):
wd = i[1][1]
region_wds.append(wd)
stop_wds = []
for wd1 in region_wds:
for wd2 in region_wds:
if wd1 in wd2 and wd1 != wd2:
stop_wds.append(wd1)
final_wds = [i for i in region_wds if i not in stop_wds]
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()
while 1:
question = input('input an question:')
data = handler.classify(question)
print(data)
//question_parser.py
class QuestionPaser:
'''构建实体节点'''
def build_entitydict(self, args):
entity_dict = {}
for arg, types in args.items():
for type in types:
if type not in entity_dict:
entity_dict[type] = [arg]
else:
entity_dict[type].append(arg)
return entity_dict
'''解析主函数'''
def parser_main(self, res_classify):
args = res_classify['args']
entity_dict = self.build_entitydict(args)
question_types = res_classify['question_types']
sqls = []
for question_type in question_types:
sql_ = {}
sql_['question_type'] = question_type
sql = []
if question_type == 'disease_symptom':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
elif question_type == 'symptom_disease':
sql = self.sql_transfer(question_type, entity_dict.get('symptom'))
elif question_type == 'disease_cause':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
elif question_type == 'disease_acompany':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
elif question_type == 'disease_not_food':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
elif question_type == 'disease_do_food':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
elif question_type == 'food_not_disease':
sql = self.sql_transfer(question_type, entity_dict.get('food'))
elif question_type == 'food_do_disease':
sql = self.sql_transfer(question_type, entity_dict.get('food'))
elif question_type == 'disease_drug':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
elif question_type == 'drug_disease':
sql = self.sql_transfer(question_type, entity_dict.get('drug'))
elif question_type == 'disease_check':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
elif question_type == 'check_disease':
sql = self.sql_transfer(question_type, entity_dict.get('check'))
elif question_type == 'disease_prevent':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
elif question_type == 'disease_lasttime':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
elif question_type == 'disease_cureway':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
elif question_type == 'disease_cureprob':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
elif question_type == 'disease_easyget':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
elif question_type == 'disease_desc':
sql = self.sql_transfer(question_type, entity_dict.get('disease'))
if sql:
sql_['sql'] = sql
sqls.append(sql_)
return sqls
'''针对不同的问题类型,选择不同的sql语句,分开进行处理'''
def sql_transfer(self, question_type, entities):
if not entities:
return []
# 查询语句
sql = []
# 查询疾病的原因
if question_type == 'disease_cause':
sql = ["MATCH (m:Disease) where m.name = '{0}' return m.name, m.cause".format(i) for i in entities]
# 查询疾病的防御措施
elif question_type == 'disease_prevent':
sql = ["MATCH (m:Disease) where m.name = '{0}' return m.name, m.prevent".format(i) for i in entities]
# 查询疾病的持续时间
elif question_type == 'disease_lasttime':
sql = ["MATCH (m:Disease) where m.name = '{0}' return m.name, m.cure_lasttime".format(i) for i in entities]
# 查询疾病的治愈概率
elif question_type == 'disease_cureprob':
sql = ["MATCH (m:Disease) where m.name = '{0}' return m.name, m.cured_prob".format(i) for i in entities]
# 查询疾病的治疗方式
elif question_type == 'disease_cureway':
sql = ["MATCH (m:Disease) where m.name = '{0}' return m.name, m.cure_way".format(i) for i in entities]
# 查询疾病的易发人群
elif question_type == 'disease_easyget':
sql = ["MATCH (m:Disease) where m.name = '{0}' return m.name, m.easy_get".format(i) for i in entities]
# 查询疾病的相关介绍
elif question_type == 'disease_desc':
sql = ["MATCH (m:Disease) where m.name = '{0}' return m.name, m.desc".format(i) for i in entities]
# 查询疾病有哪些症状
elif question_type == 'disease_symptom':
sql = ["MATCH (m:Disease)-[r:has_symptom]->(n:Symptom) where m.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
# 查询症状会导致哪些疾病
elif question_type == 'symptom_disease':
sql = ["MATCH (m:Disease)-[r:has_symptom]->(n:Symptom) where n.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
# 查询疾病的并发症
elif question_type == 'disease_acompany':
sql1 = ["MATCH (m:Disease)-[r:acompany_with]->(n:Disease) where m.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
sql2 = ["MATCH (m:Disease)-[r:acompany_with]->(n:Disease) where n.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
sql = sql1 + sql2
# 查询疾病的忌口
elif question_type == 'disease_not_food':
sql = ["MATCH (m:Disease)-[r:no_eat]->(n:Food) where m.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
# 查询疾病建议吃的东西
elif question_type == 'disease_do_food':
sql1 = ["MATCH (m:Disease)-[r:do_eat]->(n:Food) where m.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
sql2 = ["MATCH (m:Disease)-[r:recommand_eat]->(n:Food) where m.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
sql = sql1 + sql2
# 已知忌口查疾病
elif question_type == 'food_not_disease':
sql = ["MATCH (m:Disease)-[r:no_eat]->(n:Food) where n.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
# 已知推荐查疾病
elif question_type == 'food_do_disease':
sql1 = ["MATCH (m:Disease)-[r:do_eat]->(n:Food) where n.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
sql2 = ["MATCH (m:Disease)-[r:recommand_eat]->(n:Food) where n.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
sql = sql1 + sql2
# 查询疾病常用药品-药品别名记得扩充
elif question_type == 'disease_drug':
sql1 = ["MATCH (m:Disease)-[r:common_drug]->(n:Drug) where m.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
sql2 = ["MATCH (m:Disease)-[r:recommand_drug]->(n:Drug) where m.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
sql = sql1 + sql2
# 已知药品查询能够治疗的疾病
elif question_type == 'drug_disease':
sql1 = ["MATCH (m:Disease)-[r:common_drug]->(n:Drug) where n.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
sql2 = ["MATCH (m:Disease)-[r:recommand_drug]->(n:Drug) where n.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
sql = sql1 + sql2
# 查询疾病应该进行的检查
elif question_type == 'disease_check':
sql = ["MATCH (m:Disease)-[r:need_check]->(n:Check) where m.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
# 已知检查查询疾病
elif question_type == 'check_disease':
sql = ["MATCH (m:Disease)-[r:need_check]->(n:Check) where n.name = '{0}' return m.name, r.name, n.name".format(i) for i in entities]
return sql
if __name__ == '__main__':
handler = QuestionPaser()
//answer_search.py
from py2neo import Graph
class AnswerSearcher:
def __init__(self):
self.g = Graph("http://localhost:7474", username="neo4j", password="hwjie")
self.num_limit = 20
'''执行cypher查询,并返回相应结果'''
def search_main(self, sqls):
final_answers = []
for sql_ in sqls:
question_type = sql_['question_type']
queries = sql_['sql']
answers = []
for query in queries:
ress = self.g.run(query).data()
answers += ress
final_answer = self.answer_prettify(question_type, answers)
if final_answer:
final_answers.append(final_answer)
return final_answers
'''根据对应的qustion_type,调用相应的回复模板'''
def answer_prettify(self, question_type, answers):
final_answer = []
if not answers:
return ''
if question_type == 'disease_symptom':
desc = [i['n.name'] for i in answers]
subject = answers[0]['m.name']
final_answer = '{0}的症状包括:{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'symptom_disease':
desc = [i['m.name'] for i in answers]
subject = answers[0]['n.name']
final_answer = '症状{0}可能染上的疾病有:{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'disease_cause':
desc = [i['m.cause'] for i in answers]
subject = answers[0]['m.name']
final_answer = '{0}可能的成因有:{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'disease_prevent':
desc = [i['m.prevent'] for i in answers]
subject = answers[0]['m.name']
final_answer = '{0}的预防措施包括:{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'disease_lasttime':
desc = [i['m.cure_lasttime'] for i in answers]
subject = answers[0]['m.name']
final_answer = '{0}治疗可能持续的周期为:{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'disease_cureway':
desc = [';'.join(i['m.cure_way']) for i in answers]
subject = answers[0]['m.name']
final_answer = '{0}可以尝试如下治疗:{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'disease_cureprob':
desc = [i['m.cured_prob'] for i in answers]
subject = answers[0]['m.name']
final_answer = '{0}治愈的概率为(仅供参考):{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'disease_easyget':
desc = [i['m.easy_get'] for i in answers]
subject = answers[0]['m.name']
final_answer = '{0}的易感人群包括:{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'disease_desc':
desc = [i['m.desc'] for i in answers]
subject = answers[0]['m.name']
final_answer = '{0},一般是指:{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'disease_acompany':
desc1 = [i['n.name'] for i in answers]
desc2 = [i['m.name'] for i in answers]
subject = answers[0]['m.name']
desc = [i for i in desc1 + desc2 if i != subject]
final_answer = '{0}的症状包括:{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'disease_not_food':
desc = [i['n.name'] for i in answers]
subject = answers[0]['m.name']
final_answer = '{0}忌食的食物包括有:{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'disease_do_food':
do_desc = [i['n.name'] for i in answers if i['r.name'] == '宜吃']
recommand_desc = [i['n.name'] for i in answers if i['r.name'] == '推荐食谱']
subject = answers[0]['m.name']
final_answer = '{0}宜食的食物包括有:{1}\n推荐食谱包括有:{2}'.format(subject, ';'.join(list(set(do_desc))[:self.num_limit]), ';'.join(list(set(recommand_desc))[:self.num_limit]))
elif question_type == 'food_not_disease':
desc = [i['m.name'] for i in answers]
subject = answers[0]['n.name']
final_answer = '患有{0}的人最好不要吃{1}'.format(';'.join(list(set(desc))[:self.num_limit]), subject)
elif question_type == 'food_do_disease':
desc = [i['m.name'] for i in answers]
subject = answers[0]['n.name']
final_answer = '患有{0}的人建议多试试{1}'.format(';'.join(list(set(desc))[:self.num_limit]), subject)
elif question_type == 'disease_drug':
desc = [i['n.name'] for i in answers]
subject = answers[0]['m.name']
final_answer = '{0}通常的使用的药品包括:{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'drug_disease':
desc = [i['m.name'] for i in answers]
subject = answers[0]['n.name']
final_answer = '{0}主治的疾病有{1},可以试试'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'disease_check':
desc = [i['n.name'] for i in answers]
subject = answers[0]['m.name']
final_answer = '{0}通常可以通过以下方式检查出来:{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
elif question_type == 'check_disease':
desc = [i['m.name'] for i in answers]
subject = answers[0]['n.name']
final_answer = '通常可以通过{0}检查出来的疾病有{1}'.format(subject, ';'.join(list(set(desc))[:self.num_limit]))
return final_answer
if __name__ == '__main__':
searcher = AnswerSearcher()
//start.py
from flask import Flask, request, jsonify
from question_classifier import *
from question_parser import *
from answer_search import *
from wsgiref.simple_server import make_server
'''问答类'''
class ChatBotGraph:
def __init__(self):
self.classifier = QuestionClassifier()
self.parser = QuestionPaser()
self.searcher = AnswerSearcher()
def chat_main(self, sent):
answer = '没能理解您的问题,我数据量有限。。。能不能问的标准点'
res_classify = self.classifier.classify(sent)
if not res_classify:
return answer
res_sql = self.parser.parser_main(res_classify)
final_answers = self.searcher.search_main(res_sql)
if not final_answers:
return answer
else:
return '\n'.join(final_answers)
app = Flask(__name__)
@app.route("/medical")
def medical():
msg = request.args.get("msg")
answer = handler.chat_main(msg)
if answer is not None:
status = 1
else:
status = 0
return jsonify(status = status, answer = answer)
if __name__ == '__main__':
handler = ChatBotGraph()
server = make_server('127.0.0.1', 5000, app)
server.serve_forever()
app.run()
五、测试总结
程序运行的部分就不贴图啦。有兴趣的话,大家自己运行一下吧~
六、其他
以上以及博客中含有在校整理字样的博客内容,均是本人本科在校学习期间所写的代码,源文件以及数据文件等在个人主页资源区可以获取。本人水平很低,大佬轻喷。整理出来是为了帮助初学者学习的过程中,在有需要的情况下能够有所参考。再次声明:仅供学习交流使用。大家有什么问题,欢迎留言~