import os
import numpy as np
from numpy.linalg import norm
import pandas as pd
# from rouge import Rouge
from rouge_chinese import Rouge
from Rouge_w import Rouge_w, Rouge_l
import json
import pymysql
import re
import requests
from flask import Flask, jsonify
from flask import request
import uuid
import time
import redis
from threading import Thread
from multiprocessing import Pool
app = Flask(__name__)
app.config["JSON_AS_ASCII"] = False
pool = redis.ConnectionPool(host='localhost', port=63179, max_connections=100, db=7, password="zhicheng123*")
redis_ = redis.Redis(connection_pool=pool, decode_responses=True)
db_key_query = 'query'
db_key_querying = 'querying'
db_key_queryset = 'queryset'
nums_cpus = 24
rouge = Rouge()
rouge_model = Rouge_w()
rouge_l_model = Rouge_l()
def bert_check(text, recall_data_list):
'''
bert 查重
:return:
'''
sen_0 = [text] * len(recall_data_list)
sen_1 = [i[0] for i in recall_data_list]
return_list = []
request_json = {
"texts": [sen_0, sen_1],
}
paper_dict = dialog_line_parse("http://192.168.31.74:16002/", request_json)
score_list = paper_dict["res"]
# 后期要改
# return_list.append(re1[0][1])
# return_list.append(re1[0][0])
if 1 in score_list:
index_score = score_list.index(1)
else:
index_score = "NaN"
if index_score == "NaN":
return_list.append(0)
return_list.append("")
else:
return_list.append(1)
return_list.append(index_score)
return return_list
def rouge_value_self(data_1, data_2):
data_1 = [' '.join(i) for i in data_1]
data_2 = [' '.join(i) for i in data_2]
rouge_l_list = []
for sen_1, sen_2 in zip(data_1, data_2):
sen_1 = sen_1.split(" ")
sen_2 = sen_2.split(" ")
rouge_l_score = rouge_l_model.score(sen_1, sen_2)
rouge_l_list.append(rouge_l_score)
return "", "", rouge_l_list
def rouge_pre(text, df_train_nuoche):
return_list = []
index_rouge_list = []
text_list = [text] * len(df_train_nuoche)
data_list = []
for data_dan in df_train_nuoche:
data_list.append(data_dan[0])
rouge_1, rouge_2, rouge_l = rouge_value_self(text_list, data_list)
index_rouge_list.extend(rouge_l)
re1 = [(i[0], i[1]) for i in sorted(list(enumerate(index_rouge_list)), key=lambda x: x[1], reverse=True)]
return_list.append(re1[0][1])
return_list.append(re1[0][0])
return return_list
def rouge_pre_m(text, df_train_nuoche):
return_list = []
index_rouge_list = []
text_list = [text] * len(df_train_nuoche)
data_list = []
for data_dan in df_train_nuoche:
data_list.append(data_dan[0])
rouge_1, rouge_2, rouge_l = rouge_value_self(text_list, data_list)
index_rouge_list.extend(rouge_l)
re1 = [(i[0], i[1]) for i in sorted(list(enumerate(index_rouge_list)), key=lambda x: x[1], reverse=True)]
return_list.extend(re1)
return return_list
# 以单个章节为例
def similar_content_func():
'''
重复文章
:return:
'''
return [{
"content": "重复的内容标红",
"thesis_info": "论文标题 + 论文作者 + 来源 + 年份日期--敞开式奶牛舍环境控制系统的设计 李晓红,刘晓丽,余泳昌 - 商丘工学院机械工程学院 - 2015-04-01",
"title": "标题",
"year": "日期",
"degree": "来源",
"author": "作者"
}]
def original_text_contrast_func(data_sentence_dan, paper_dict):
'''
重复的对比详细信息
:param similar_content:
:return:
'''
original_text = ""
start = len(data_sentence_dan[0][1])
end = 0
similar_content = []
for i in data_sentence_dan: # 可能有很多个暂且确定是一个
similar_content_dan = {
"paper_red_len_word": "",
"content": "重复的内容标红",
"thesis_info": "论文标题 + 论文作者 + 来源 + 年份日期--敞开式奶牛舍环境控制系统的设计 李晓红,刘晓丽,余泳昌 - 商丘工学院机械工程学院 - 2015-04-01",
"title": "标题",
"year": "日期",
"degree": "来源",
"author": "作者",
"paper_len_word": ""
}
sentence_0_bool, sentence_0_dan_red = original_text_marked_red(i[1], paper_dict[i[0]][0],
paper_dict[i[0]][
1]) # text_original, bert_text, bert_text_pre
sentence_1_bool, sentence_1_dan_red = original_text_marked_red(i[2], paper_dict[i[0]][2],
paper_dict[i[0]][
3]) # text_original, bert_text, bert_text_pre
start_dan = sentence_0_dan_red.index("")
end_dan = sentence_0_dan_red.index("") - len("")
if start_dan < start:
start = start_dan
if end_dan > end:
end = end_dan
if sentence_0_bool == False or sentence_1_bool == False:
continue
similar_content_dan["content"] = sentence_1_dan_red
similar_content_dan["title"] = i[3]["title"]
similar_content_dan["author"] = i[3]["author"]
similar_content_dan["degree"] = i[3]["degree"]
similar_content_dan["year"] = i[3]["year"]
similar_content_dan["paper_len_word"] = i[3]["paper_len_word"]
similar_content_dan["paper_red_len_word"] = len(paper_dict[i[0]][3])
thesis_info = " ".join(
[similar_content_dan["title"], similar_content_dan["author"], similar_content_dan["degree"],
similar_content_dan["year"]])
similar_content_dan["thesis_info"] = thesis_info
similar_content.append(similar_content_dan)
original_text_list = list(data_sentence_dan[0][1])
original_text_list.insert(end, "")
original_text_list.insert(start, "")
original_text = "".join(original_text_list)
return_info = {
"original_text": original_text,
"dan_sentence_word_nums": end - start,
"similar_content": similar_content
}
return return_info
def repeat_quote_info_func(original_text_contrast):
'''
重复的引用信息
:return:
'''
chongfuwendang = {}
for sentence_dan in original_text_contrast:
for i in sentence_dan["similar_content"]:
thesis_info = i["thesis_info"]
if thesis_info not in chongfuwendang:
chongfuwendang[thesis_info] = {
"quote": False,
"thesis_author": i["author"],
"thesis_date": i["year"],
"thesis_info": thesis_info,
"thesis_repeat_rate": (i["paper_red_len_word"] / i["paper_len_word"]) * 100,
# round(repetition_rate, 3) * 100
"thesis_title": i["title"],
"thesis_link": "",
"thesis_publish": i["degree"],
"thesis_repeat_word": i["paper_red_len_word"],
"thesis_teacher": "",
"paper_len_word": i["paper_len_word"]
}
else:
chongfuwendang[thesis_info]["thesis_repeat_word"] += i["paper_red_len_word"]
chongfuwendang[thesis_info]["thesis_repeat_rate"] = (chongfuwendang[thesis_info]["thesis_repeat_word"] /
chongfuwendang[thesis_info][
"paper_len_word"]) * 100
chongfuwendang = sorted(chongfuwendang.items(),
key=lambda x: x[1]["thesis_repeat_rate"], reverse=False)
chongfuwendang_list = [i[1] for i in chongfuwendang]
return chongfuwendang_list
def total_data_func(section_data_list):
'''
总体数据
:return:
'''
# "end_page_index": 0,
# "name": "第1部分",
# "repeat_rate": repeat_rate,
# "repeat_words": repeat_words,
# "start_page_index": 0,
# "words": section_words,
# "original_text": original_text,
# "original_text_oneself": original_text,
# "original_text_contrast/重复的对比详细信息": original_text_contrast,
# "repeat_quote_info/重复的引用信息": repeat_quote_info
repeat_words = 0
words = 0
for i in section_data_list:
repeat_words += i["repeat_words"]
words += i["words"]
exclude_personal_rate = str(repeat_words / words * 100) + "%"
exclude_quote_rate = str(repeat_words / words * 100) + "%"
single_max_rate = section_data_list[0]["repeat_quote_info"][0]["thesis_repeat_rate"]
single_max_repeat_words = section_data_list[0]["repeat_quote_info"][0]["thesis_repeat_word"]
total_repeat_rate = str(repeat_words / words * 100) + "%"
total_repeat_words = repeat_words
total_words = words
return {
"back_repeat_words": "",
"exclude_personal_rate": exclude_personal_rate,
"exclude_quote_rate": exclude_quote_rate,
"front_repeat_words": "",
"single_max_rate": single_max_rate,
"single_max_repeat_words": single_max_repeat_words,
"suspected_paragraph": "",
"suspected_paragraph_max_repeat_words": "",
"suspected_paragraph_min_repeat_words": "",
"total_paragraph": "",
"total_repeat_rate": total_repeat_rate,
"total_repeat_words": total_repeat_words,
"total_words": total_words,
"tables": 0
}
def section_data_func_dan():
'''
章节信息单个
:return:
'''
# {
# "section_name": "章节名称",
# "section_repeat_rate": "重复率",
# "section_repeat_words": "重复字数",
# "section_words": "章节字数",
# "oneself_repeat_words": "去除本人后重复字数",
# "reference_repeat_words": "去除引用后重复字数",
# "section_oneself_rate": "去除本人后重复率"
# }
return {
"section_name": "",
"section_repeat_rate": "",
"section_repeat_words": "",
"section_words": "",
"oneself_repeat_words": "",
"reference_repeat_words": "",
"section_oneself_rate": ""
}
def section_data_func(section_details):
'''
章节信息
:return:
'''
# "end_page_index": 0,
# "name": "第1部分",
# "repeat_rate": repeat_rate,
# "repeat_words": repeat_words,
# "start_page_index": 0,
# "words": section_words,
# "original_text": original_text,
# "original_text_oneself": original_text,
# "original_text_contrast/重复的对比详细信息": original_text_contrast,
# "repeat_quote_info/重复的引用信息": repeat_quote_info
section_name = section_details["name"]
section_repeat_rate = section_details["repeat_rate"]
section_repeat_words = section_details["repeat_words"]
section_words = section_details["words"]
oneself_repeat_words = section_details["repeat_words"]
reference_repeat_words = section_details["repeat_words"]
section_oneself_rate = section_details["repeat_rate"]
return {
"section_name": section_name,
"section_repeat_rate": section_repeat_rate,
"section_repeat_words": section_repeat_words,
"section_words": section_words,
"oneself_repeat_words": oneself_repeat_words,
"reference_repeat_words": reference_repeat_words,
"section_oneself_rate": section_oneself_rate
}
def section_details_func(data_section_dan, paper_dict):
'''
章节详细信息
:param original_text_contrast:
:param repeat_quote_info:
:return:
'''
original_text_contrast = []
section_repeat_rate = ""
repeat_words = 0
section_words = 0
oneself_repeat_words = ""
reference_repeat_words = ""
section_oneself_rate = ""
original_text_list = []
for sentence_dan in data_section_dan:
original_text_contrast_dan = original_text_contrast_func(sentence_dan, paper_dict)
original_text_contrast.append(original_text_contrast_dan)
repeat_words += original_text_contrast_dan["dan_sentence_word_nums"]
original_text_list.append(original_text_contrast_dan["original_text"])
section_words += len(sentence_dan[0][1])
original_text = "。".join(original_text_list)
repeat_rate = repeat_words / section_words
repeat_quote_info = repeat_quote_info_func(original_text_contrast)
return {
"end_page_index": 0,
"name": "第1部分",
"repeat_rate": repeat_rate,
"repeat_words": repeat_words,
"start_page_index": 0,
"words": section_words,
"original_text": original_text,
"original_text_oneself": original_text,
"original_text_contrast": original_text_contrast,
"repeat_quote_info": repeat_quote_info
}
def accurate_check_rouge(
title,
author,
text_paper,
recall_data_list
):
'''
精确查重出相似句子
:param text:
:param recall_data_list: list [[sentence, filename],[sentence, filename],[sentence, filename]]
:return:
'''
# 文本处理
centent_list = []
text_paper = str(text_paper).replace("。\n", "。")
centent_list.extend(text_paper.split("。"))
data_zong = []
sentence_word_nums = 0
# rouge算法查重
rst = []
p = Pool(nums_cpus) # 进程池中含有n个子进程
print("centent_list", centent_list)
for i in range(len(centent_list)):
text = centent_list[i]
a = p.apply_async(rouge_pre_m, args=(text, recall_data_list,))
rst.append(a)
p.close()
p.join() # 等待所有子进程执行完毕。调用join()之前必须先调用close(),调用close()之后就不能继续添加新的Process了。
rst = [i.get() for i in rst]
for i in range(len(rst)):
print(rst[i])
data_zong.append(rst[i])
t0 = time.time()
# bert算法查重
# for text in centent_list:
# bert_pre_list = bert_check(text, recall_data_list)
# data_zong.append(bert_pre_list)
t1 = time.time()
original_dict = []
# 找出相似的句子序号
bool_check_sentense = []
# bert算法
# for i in range(len(data_zong)):
# if data_zong[i][0] == 1:
# bool_check_sentense.append([i,data_zong[i][1]])
# rouge算法
for i in range(len(data_zong)):
for j in range(len(data_zong[i])):
if data_zong[i][j][1] > 0.47:
bool_check_sentense.append([i, data_zong[i][j][0]])
biao_red = biaohong(bool_check_sentense, data_zong,
recall_data_list) # [[[0, 1, 2], [479, 480, 481]], [[3, 4, 5], [481, 482, 483]], [[6, 7, 8], [484, 485, 486]]]
print("bert精确查重时间", t1 - t0)
print(biao_red)
sentence_0_list = []
sentence_1_list = []
sim_paper_name = []
for i in biao_red:
if recall_data_list[i[1][0]][1] == recall_data_list[i[1][1]][1] == recall_data_list[i[1][2]][1]:
sentence_0_list.append("。".join([centent_list[i[0][0]], centent_list[i[0][1]], centent_list[i[0][2]]]))
sentence_1_list.append(
"".join([recall_data_list[i[1][0]][0], recall_data_list[i[1][1]][0], recall_data_list[i[1][2]][0]]))
sim_paper_name.append(recall_data_list[i[1][0]][1])
else:
continue
sentence_0_list_new = []
sentence_1_list_new = []
for i in zip(sentence_0_list, sentence_1_list):
if len(i[0]) + len(i[1]) < 1200:
sentence_0_list_new.append(i[0])
sentence_1_list_new.append(i[1])
else:
print(len(i[0]) + len(i[1]))
continue
t2 = time.time()
paper_dict = biaohong_bert_predict(sentence_0_list_new, sentence_1_list_new)
t3 = time.time()
print("标红时间", t3 - t2)
original_text = []
original_text_contrast = []
repeat_quote_info = []
chongfuwendang = {}
print("paper_dict", paper_dict)
print("sentence_0_list_new", sentence_0_list_new)
print("sentence_1_list_new", sentence_1_list_new)
print("sim_paper_name", sim_paper_name)
similar_content_control = [[]]
with open("data/10235513_大型商业建筑人员疏散设计研究_沈福禹/paper_dict.json", "w") as f:
json.dump(paper_dict, f, ensure_ascii=False)
sentence_0_list_new_cursor = sentence_0_list_new[0]
for paper_dict_dan_id, sentence_0_dan, sentence_1_dan, sim_paper_name_dan in zip(range(len(paper_dict)),
sentence_0_list_new,
sentence_1_list_new,
sim_paper_name):
if sentence_0_list_new_cursor != sentence_0_dan:
similar_content_control.append([[paper_dict_dan_id, sentence_0_dan, sentence_1_dan, sim_paper_name_dan]])
else:
similar_content_control[-1].append([paper_dict_dan_id, sentence_0_dan, sentence_1_dan, sim_paper_name_dan])
data = [similar_content_control]
# 模拟多个章节
section_details_list = []
for data_dan in data:
data_section_dan = data_dan
# 章节详细信息
section_details = section_details_func(data_section_dan, paper_dict)
section_details_list.append(section_details)
# 模拟多个章节
section_data_list = []
for section_details in section_details_list:
section_data = section_data_func(section_details)
total_data = total_data_func(section_details_list)
format = '%Y-%m-%d %H:%M:%S'
value = time.localtime(int(time.time()))
dt = time.strftime(format, value)
paper_data = {
"author": author,
"check_time": dt,
"time_range": "1900-01-01至2023-08-08",
"title": title,
"total_data": total_data,
"section_data": section_data_list,
"section_details": section_details_list
}
return paper_data
def biaohong(bool_check_sentense, data_zong, df_train_nuoche):
'''
标红的序号 [[0,1,2],[3,4,5]]
:param bool_check_sentense:
:return: list
'''
biao_red = []
i = 0
start = -1
end = -1
while True:
if i >= len(bool_check_sentense) or bool_check_sentense[i][0] + 1 >= len(data_zong) or bool_check_sentense[i][1] \
+ 1 >= len(df_train_nuoche):
break
elif bool_check_sentense[i][0] - 1 == start:
i += 1
continue
elif bool_check_sentense[i][0] == end:
i += 1
continue
elif bool_check_sentense[i][0] - 1 == end:
i += 1
continue
else:
biao_red_dan = []
biao_red_dan.append([bool_check_sentense[i][0] - 1, bool_check_sentense[i][1] - 1])
biao_red_dan.append([bool_check_sentense[i][0], bool_check_sentense[i][1]])
biao_red_dan.append([bool_check_sentense[i][0] + 1, bool_check_sentense[i][1] + 1])
biao_red.append([[bool_check_sentense[i][0] - 1, bool_check_sentense[i][0], bool_check_sentense[i][0] + 1],
[bool_check_sentense[i][1] - 1, bool_check_sentense[i][1], bool_check_sentense[i][1] + 1]])
start = bool_check_sentense[i][0] - 1
end = bool_check_sentense[i][0] + 1
i += 1
return biao_red
def dialog_line_parse(url, text):
"""
将数据输入模型进行分析并输出结果
:param url: 模型url
:param text: 进入模型的数据
:return: 模型返回结果
"""
response = requests.post(
url,
json=text,
timeout=100000
)
if response.status_code == 200:
return response.json()
else:
# logger.error(
# "【{}】 Failed to get a proper response from remote "
# "server. Status Code: {}. Response: {}"
# "".format(url, response.status_code, response.text)
# )
print("【{}】 Failed to get a proper response from remote "
"server. Status Code: {}. Response: {}"
"".format(url, response.status_code, response.text))
print(text)
return {}
def is_english_char(char):
code = ord(char)
return 32 <= code <= 126
def original_text_marked_red(text_original, bert_text, bert_text_pre):
'''
把原文标红字段找到
:param text_original:
:param bert_text:
:param bert_text_pre:
:return:
'''
fuhao = ["\n"]
up_pointer = 0
down_pointer = 0
pointer_list = []
if len(bert_text_pre) > len(bert_text):
return False, ""
while True:
if down_pointer >= len(bert_text_pre):
break
elif down_pointer == len(bert_text_pre) - 1:
if bert_text[up_pointer] == bert_text_pre[down_pointer]:
pointer_list.append(up_pointer)
break
else:
up_pointer += 1
down_pointer = 0
pointer_list = []
elif bert_text[up_pointer] in fuhao:
up_pointer += 1
else:
if bert_text[up_pointer] == bert_text_pre[down_pointer]:
pointer_list.append(up_pointer)
up_pointer += 1
down_pointer += 1
else:
if bert_text_pre[down_pointer:down_pointer + 5] == "[UNK]":
up_pointer += 1
down_pointer += 5
pointer_list.append(up_pointer)
elif is_english_char(bert_text_pre[down_pointer]) == True:
up_pointer += 1
down_pointer += 1
pointer_list.append(up_pointer)
else:
up_pointer += 1
down_pointer = 0
pointer_list = []
start = pointer_list[0]
end = pointer_list[-1]
bert_text_list = list(bert_text)
bert_text_list.insert(start, "")
bert_text_list.insert(end + 2, "")
text_original_list = list(text_original)
up = 0
down = 0
while True:
if up == len(text_original_list):
break
if text_original_list[up] == bert_text_list[down]:
up += 1
down += 1
else:
if bert_text_list[down] == "":
down += 1
elif bert_text_list[down] == "":
down += 1
else:
bert_text_list.insert(down, text_original_list[up])
up += 1
down += 1
bert_text = "".join(bert_text_list)
return True, bert_text
def biaohong_bert_predict(sentence_0_list, sentence_1_list):
'''
找出标红字符
:param bool_check_sentense:
:return:
'''
paper_dict = \
dialog_line_parse("http://192.168.31.74:16003/",
{"sentence_0": sentence_0_list, "sentence_1": sentence_1_list})[
"resilt"]
return paper_dict
def ulit_text(title, text):
data = []
try:
text = json.loads(text)["content"]
except:
pass
text = text.strip().replace("\n", "").replace(" ", "").replace("。", "。\n")
text_list = text.split("\n")
for i in text_list:
data.append([i, title])
return data
def run_query(conn, sql, params):
with conn.cursor() as cursor:
cursor.execute(sql, params)
result = cursor.fetchall()
return result
def processing_one_text(paper_id):
conn = pymysql.connect(
host='192.168.31.145',
port=3306,
user='root',
password='123456',
db='zhiwang_db',
charset='utf8mb4',
cursorclass=pymysql.cursors.DictCursor
)
sql = 'SELECT * FROM main_table_paper_detail_message WHERE doc_id=%s'
params = (paper_id,)
result = run_query(conn, sql, params)
conn.close()
print(result[0]['title'], result[0]['author'])
title = result[0]['title']
author = result[0]['author']
degree = result[0]['degree']
year = result[0]['content'].split("/")[5]
content_path = result[0]['content']
try:
with open(content_path, encoding="utf-8") as f:
text = f.read()
except:
with open(content_path, encoding="gbk") as f:
text = f.read()
paper_info = {
"title": title,
"author": author,
"degree": degree,
"year": year,
"paper_len_word": len(text)
}
data = ulit_text(paper_info, text)
return data
def ulit_recall_paper(recall_data_list_dict):
'''
对返回的十篇文章路径读取并解析
:param recall_data_list_path:
:return data: list [[sentence, filename],[sentence, filename],[sentence, filename]]
'''
# data = []
# for path in recall_data_list_path:
# filename = path.split("/")[-1]
# with open(path, encoding="gbk") as f:
# text = f.read()
# text_list = text.split("\n")
# for sentence in text_list:
# if sentence != "":
# data.append([sentence, filename])
# return data
data = []
for i in list(recall_data_list_dict.items())[:10]:
data_one = processing_one_text(i[0])
data.extend(data_one)
return data
def recall_10(title, abst_zh, content) -> dict:
'''
宇鹏召回接口
:param paper_name:
:return:
'''
request_json = {
"title": title,
"abst_zh": abst_zh,
"content": content
}
paper_dict = dialog_line_parse("http://192.168.31.145:50004/check", request_json)
return paper_dict
def uilt_content(content):
zhaiyao_list = ["摘要"]
zhaiyao_en_list = ["Abstract", "abstract"]
mulu_list = ["目录"]
key_word_list = ["关键词"]
key_word_bool = False
key_word_str = ""
zhaiyao_bool = False
zhaiyao_en_bool = False
zhaiyao_str = ""
zhaiyao_en_str = ""
mulu_str = ""
zhaiyao_text = ""
mulu_bool = False
for i in zhaiyao_list:
if i in content:
zhaiyao_bool = True
zhaiyao_str = i
break
for i in zhaiyao_en_list:
if i in content:
zhaiyao_en_bool = True
zhaiyao_en_str = i
break
for i in mulu_list:
if i in content:
mulu_str = i
mulu_bool = True
break
for i in key_word_list:
if i in content:
key_word_str = i
key_word_bool = True
break
if zhaiyao_bool == True and zhaiyao_en_bool == True:
pantten_zhaiyao = "{}(.*?){}".format(zhaiyao_str, zhaiyao_en_str)
result_biaoti_list = re.findall(pantten_zhaiyao, content)
zhaiyao_text = result_biaoti_list[0]
elif zhaiyao_bool == True and key_word_bool == True:
pantten_zhaiyao = "{}(.*?){}".format(zhaiyao_str, key_word_str)
result_biaoti_list = re.findall(pantten_zhaiyao, content)
zhaiyao_text = result_biaoti_list[0]
elif zhaiyao_bool == True and mulu_bool == True:
pantten_zhaiyao = "{}(.*?){}".format(zhaiyao_str, mulu_str)
result_biaoti_list = re.findall(pantten_zhaiyao, content)
zhaiyao_text = result_biaoti_list[0]
return zhaiyao_text
def ulit_request_file(file):
file_name = file.filename
if file_name.split(".")[-1] == "txt":
file_name_save = "data/request/{}".format(file_name)
file.save(file_name_save)
try:
with open(file_name_save, encoding="gbk") as f:
content = f.read()
except:
with open(file_name_save, encoding="utf-8") as f:
content = f.read()
content = content.strip().replace("\n", "").replace(" ", "")
abst_zh = uilt_content(content)
return abst_zh, content
# @app.route("/", methods=["POST"])
# def handle_query():
# print(request.remote_addr)
#
# # request.form.get('prompt')
# dataBases = request.form.get("dataBases")
# minSimilarity = request.form.get("minSimilarity") # txt
# minWords = request.form.get("minWords")
# title = request.form.get("title")
# author = request.form.get("author") # txt
# file = request.files.get('file')
# token = request.form.get("token")
# account = request.form.get("account")
# goodsId = request.form.get("goodsId")
# callbackUrl = request.form.get("callbackUrl")
#
#
# t0 = time.time()
# abst_zh, content = ulit_request_file(file)
#
# # 调用宇鹏查询相似十篇
# # recall_data_list_dict = recall_10(title, abst_zh, content)
#
# t1 = time.time()
# print("查找相似的50篇完成")
# with open("data/rell_json.txt") as f:
# recall_data_list_dict = eval(f.read())
#
# # 读取文章转化成格式数据
# recall_data_list = ulit_recall_paper(recall_data_list_dict)
# print("文章格式转化完成")
#
# # recall_data_list = pd.read_csv("data/10235513_大型商业建筑人员疏散设计研究_沈福禹/查重.csv", encoding="utf-8").values.tolist()
#
# # 进入精确查重系统
# print("进入精确查重系统")
# return_list = accurate_check_rouge(title, author, content, recall_data_list)
#
# print("召回50篇", t1 - t0)
#
# return_text = {"resilt": return_list, "probabilities": None, "status_code": 200}
# return jsonify(return_text) # 返回结果
def classify(): # 调用模型,设置最大batch_size
while True:
if redis_.llen(db_key_query) == 0: # 若队列中没有元素就继续获取
time.sleep(3)
continue
query = redis_.lpop(db_key_query).decode('UTF-8') # 获取query的text
data_dict_path = json.loads(query)
path = data_dict_path['path']
# text_type = data_dict["text_type"]
with open(path, encoding='utf8') as f1:
# 加载文件的对象
data_dict = json.load(f1)
query_id = data_dict['id']
print(query_id)
dataBases = data_dict['dataBases']
minSimilarity = data_dict['minSimilarity']
minWords = data_dict['minWords']
title = data_dict['title']
author = data_dict['author']
abst_zh = data_dict['abst_zh']
content = data_dict['content']
token = data_dict['token']
account = data_dict['account']
goodsId = data_dict['goodsId']
callbackUrl = data_dict['callbackUrl']
# 调用宇鹏查询相似十篇
# recall_data_list_dict = recall_10(title, abst_zh, content)
t1 = time.time()
print("查找相似的50篇完成")
with open("data/rell_json.txt") as f:
recall_data_list_dict = eval(f.read())
# 读取文章转化成格式数据
recall_data_list = ulit_recall_paper(recall_data_list_dict)
print("文章格式转化完成")
# recall_data_list = pd.read_csv("data/10235513_大型商业建筑人员疏散设计研究_沈福禹/查重.csv", encoding="utf-8").values.tolist()
# 进入精确查重系统
print("进入精确查重系统")
return_list = accurate_check_rouge(title, author, content, recall_data_list)
return_text = {"resilt": return_list, "probabilities": None, "status_code": 200}
load_result_path = "./new_data_logs/{}.json".format(query_id)
print("query_id: ", query_id)
print("load_result_path: ", load_result_path)
with open(load_result_path, 'w', encoding='utf8') as f2:
# ensure_ascii=False才能输入中文,否则是Unicode字符
# indent=2 JSON数据的缩进,美观
json.dump(return_text, f2, ensure_ascii=False, indent=4)
print(query_id)
print(load_result_path)
redis_.set(query_id, load_result_path, 86400)
redis_.srem(db_key_querying, query_id)
@app.route("/", methods=["POST"])
def handle_query():
try:
print(request.remote_addr)
# request.form.get('prompt')
dataBases = request.form.get("dataBases")
minSimilarity = request.form.get("minSimilarity") # txt
minWords = request.form.get("minWords")
title = request.form.get("title")
author = request.form.get("author") # txt
file = request.files.get('file')
token = request.form.get("token")
account = request.form.get("account")
goodsId = request.form.get("goodsId")
callbackUrl = request.form.get("callbackUrl")
abst_zh, content = ulit_request_file(file)
id_ = str(uuid.uuid1()) # 为query生成唯一标识
print("uuid: ", uuid)
print(id_)
d = {
'id': id_,
'dataBases': dataBases,
'minSimilarity': minSimilarity,
'minWords': minWords,
'title': title,
'author': author,
'abst_zh': abst_zh,
'content': content,
'token': token,
'account': account,
'goodsId': goodsId,
'callbackUrl': callbackUrl
}
# 绑定文本和query id
print(d)
load_request_path = './request_data_logs/{}.json'.format(id_)
with open(load_request_path, 'w', encoding='utf8') as f2:
# ensure_ascii=False才能输入中文,否则是Unicode字符
# indent=2 JSON数据的缩进,美观
json.dump(d, f2, ensure_ascii=False, indent=4)
redis_.rpush(db_key_query, json.dumps({"id": id_, "path": load_request_path})) # 加入redis
redis_.sadd(db_key_querying, id_)
redis_.sadd(db_key_queryset, id_)
return_text = {
'code': 0,
'msg': "请求成功",
'data': {
'balances': "",
'orderId': id_,
'consumeNum': ""
}
}
print("ok")
except:
return_text = {'code': 1}
return jsonify(return_text) # 返回结果
t = Thread(target=classify)
t.start()
if __name__ == "__main__":
app.run(host="0.0.0.0", port=16001, threaded=True, debug=True)