刘康康 2019-06-28
本文将展示如何利用Pyhton中的异步模块来提高爬虫的效率。
我们需要爬取的目标为:融360网站上的理财产品信息(https://www.rong360.com/licai...),页面如下:
我们需要爬取86394条理财产品的信息,每页10条,也就是8640个页面。
在文章Python爬虫(16)利用Scrapy爬取银行理财产品信息(共12多万条)中,我们使用爬虫框架Scrapy实现了该爬虫,爬取了127130条数据,并存入MongoDB,整个过程耗时3小时。按道理来说,使用Scrapy实现爬虫是较好的选择,但是在速度上,是否能有所提升呢?本文将展示如何利用Pyhton中的异步模块(aiohtpp和asyncio)来提高爬虫的效率。
我们的爬虫分两步走:
首先,我们爬取融360网页上的理财产品信息并存入csv文件,我们使用aiohttp和asyncio来加速爬虫,完整的Python代码如下:
import re import time import aiohttp import asyncio import pandas as pd import logging # 设置日志格式 logging.basicConfig(level = logging.INFO, format='%(asctime)s - %(levelname)s: %(message)s') logger = logging.getLogger(__name__) df = pd.DataFrame(columns=['name', 'bank', 'currency', 'startDate',\ 'endDate', 'period', 'proType', 'profit', 'amount']) # 异步HTTP请求 async def fetch(sem, session, url): async with sem: headers = {'User-Agent': 'Mozilla/5.0 (Windows NT 10.0; WOW64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/67.0.3396.87 Safari/537.36'} async with session.get(url, headers=headers) as response: return await response.text() # 解析网页 async def parser(html): # 利用正则表达式解析网页 tbody = re.findall(r"<tbody>[\s\S]*?</tbody>", html)[0] trs = re.findall(r"<tr [\s\S]*?</tr>", tbody) for tr in trs: tds = re.findall(r"<td[\s\S]*?</td>", tr) name,bank = re.findall(r'title="(.+?)"', ''.join(tds)) name = name.replace('&', '').replace('quot;', '') currency, startDate, endDate, amount = re.findall(r'<td>(.+?)</td>', ''.join(tds)) period = ''.join(re.findall(r'<td class="td7">(.+?)</td>', tds[5])) proType = ''.join(re.findall(r'<td class="td7">(.+?)</td>', tds[6])) profit = ''.join(re.findall(r'<td class="td8">(.+?)</td>', tds[7])) df.loc[df.shape[0] + 1] = [name, bank, currency, startDate, endDate, \ period, proType, profit, amount] logger.info(str(df.shape[0])+'\t'+name) # 处理网页 async def download(sem, url): async with aiohttp.ClientSession() as session: try: html = await fetch(sem, session, url) await parser(html) except Exception as err: print(err) # 全部网页 urls = ["https://www.rong360.com/licai-bank/list/p%d"%i for i in range(1, 8641)] # 统计该爬虫的消耗时间 print('*' * 50) t3 = time.time() # 利用asyncio模块进行异步IO处理 loop = asyncio.get_event_loop() sem=asyncio.Semaphore(100) tasks = [asyncio.ensure_future(download(sem, url)) for url in urls] tasks = asyncio.gather(*tasks) loop.run_until_complete(tasks) df.to_csv('E://rong360.csv') t4 = time.time() print('总共耗时:%s' % (t4 - t3)) print('*' * 50)
输出的结果如下(中间的输出已省略,以......代替):
************************************************** 2018-10-17 13:33:50,717 - INFO: 10 金百合第245期 2018-10-17 13:33:50,749 - INFO: 20 金荷恒升2018年第26期 ...... 2018-10-17 14:03:34,906 - INFO: 86381 翠竹同益1M22期FGAB15015A 2018-10-17 14:03:35,257 - INFO: 86391 润鑫月月盈2号 总共耗时:1787.4312353134155 **************************************************
可以看到,在这个爬虫中,我们爬取了86391条数据,耗时1787.4秒,不到30分钟。虽然数据比预期的少了3条,但这点损失不算什么。来看一眼csv文件中的数据:
OK,离我们的目标还差一步,将这个csv文件存入至MySQL,具体的操作方法可参考文章:Python之使用Pandas库实现MySQL数据库的读写:https://www.jianshu.com/p/238... 。完整的Python代码如下:
# -*- coding: utf-8 -*- # 导入必要模块 import pandas as pd from sqlalchemy import create_engine # 初始化数据库连接,使用pymysql模块 engine = create_engine('mysql+pymysql://root:******@localhost:33061/test', echo=True) print("Read CSV file...") # 读取本地CSV文件 df = pd.read_csv("E://rong360.csv", sep=',', encoding='gb18030') # 将新建的DataFrame储存为MySQL中的数据表,不储存index列 df.to_sql('rong360', con=engine, index= False, index_label='name' ) print("Write to MySQL successfully!")
输出结果如下(耗时十几秒):
Read CSV file... 2018-10-17 15:07:02,447 INFO sqlalchemy.engine.base.Engine SHOW VARIABLES LIKE 'sql_mode' 2018-10-17 15:07:02,447 INFO sqlalchemy.engine.base.Engine {} 2018-10-17 15:07:02,452 INFO sqlalchemy.engine.base.Engine SELECT DATABASE() 2018-10-17 15:07:02,452 INFO sqlalchemy.engine.base.Engine {} 2018-10-17 15:07:02,454 INFO sqlalchemy.engine.base.Engine show collation where `Charset` = 'utf8mb4' and `Collation` = 'utf8mb4_bin' 2018-10-17 15:07:02,454 INFO sqlalchemy.engine.base.Engine {} 2018-10-17 15:07:02,455 INFO sqlalchemy.engine.base.Engine SELECT CAST('test plain returns' AS CHAR(60)) AS anon_1 2018-10-17 15:07:02,456 INFO sqlalchemy.engine.base.Engine {} 2018-10-17 15:07:02,456 INFO sqlalchemy.engine.base.Engine SELECT CAST('test unicode returns' AS CHAR(60)) AS anon_1 2018-10-17 15:07:02,456 INFO sqlalchemy.engine.base.Engine {} 2018-10-17 15:07:02,457 INFO sqlalchemy.engine.base.Engine SELECT CAST('test collated returns' AS CHAR CHARACTER SET utf8mb4) COLLATE utf8mb4_bin AS anon_1 2018-10-17 15:07:02,457 INFO sqlalchemy.engine.base.Engine {} 2018-10-17 15:07:02,458 INFO sqlalchemy.engine.base.Engine DESCRIBE `rong360` 2018-10-17 15:07:02,458 INFO sqlalchemy.engine.base.Engine {} 2018-10-17 15:07:02,459 INFO sqlalchemy.engine.base.Engine ROLLBACK 2018-10-17 15:07:02,462 INFO sqlalchemy.engine.base.Engine CREATE TABLE rong360 ( `Unnamed: 0` BIGINT, name TEXT, bank TEXT, currency TEXT, `startDate` TEXT, `endDate` TEXT, enduration TEXT, `proType` TEXT, profit TEXT, amount TEXT ) 2018-10-17 15:07:02,462 INFO sqlalchemy.engine.base.Engine {} 2018-10-17 15:07:02,867 INFO sqlalchemy.engine.base.Engine COMMIT 2018-10-17 15:07:02,909 INFO sqlalchemy.engine.base.Engine BEGIN (implicit) 2018-10-17 15:07:03,973 INFO sqlalchemy.engine.base.Engine INSERT INTO rong360 (`Unnamed: 0`, name, bank, currency, `startDate`, `endDate`, enduration, `proType`, profit, amount) VALUES (%(Unnamed: 0)s, %(name)s, %(bank)s, %(currency)s, %(startDate)s, %(endDate)s, %(enduration)s, %(proType)s, %(profit)s, %(amount)s) 2018-10-17 15:07:03,974 INFO sqlalchemy.engine.base.Engine ({'Unnamed: 0': 1, 'name': '龙信20183773', 'bank': '龙江银行', 'currency': '人民币', 'startDate': '2018-10-12', 'endDate': '2018-10-14', 'enduration': '99天', 'proType': '不保本', 'profit': '4.8%', 'amount': '5万'}, {'Unnamed: 0': 2, 'name': '福瀛家NDHLCS20180055B', 'bank': '宁波东海银行', 'currency': '人民币', 'startDate': '2018-10-12', 'endDate': '2018-10-17', 'enduration': '179天', 'proType': '保证收益', 'profit': '4.8%', 'amount': '5万'}, {'Unnamed: 0': 3, 'name': '薪鑫乐2018年第6期', 'bank': '无为农商行', 'currency': '人民币', 'startDate': '2018-10-12', 'endDate': '2018-10-21', 'enduration': '212天', 'proType': '不保本', 'profit': '4.8%', 'amount': '5万'}, {'Unnamed: 0': 4, 'name': '安鑫MTLC18165', 'bank': '民泰商行', 'currency': '人民币', 'startDate': '2018-10-12', 'endDate': '2018-10-15', 'enduration': '49天', 'proType': '不保本', 'profit': '4.75%', 'amount': '5万'}, {'Unnamed: 0': 5, 'name': '农银私行·如意ADRY181115A', 'bank': '农业银行', 'currency': '人民币', 'startDate': '2018-10-12', 'endDate': '2018-10-16', 'enduration': '90天', 'proType': '不保本', 'profit': '4.75%', 'amount': '100万'}, {'Unnamed: 0': 6, 'name': '稳健成长(2018)176期', 'bank': '威海市商业银行', 'currency': '人民币', 'startDate': '2018-10-12', 'endDate': '2018-10-15', 'enduration': '91天', 'proType': '不保本', 'profit': '4.75%', 'amount': '5万'}, {'Unnamed: 0': 7, 'name': '季季红J18071', 'bank': '温州银行', 'currency': '人民币', 'startDate': '2018-10-12', 'endDate': '2018-10-16', 'enduration': '96天', 'proType': '不保本', 'profit': '4.75%', 'amount': '1万'}, {'Unnamed: 0': 8, 'name': '私人银行客户84618042', 'bank': '兴业银行', 'currency': '人民币', 'startDate': '2018-10-12', 'endDate': '2018-10-17', 'enduration': '99天', 'proType': '不保本', 'profit': '4.75%', 'amount': '50万'} ... displaying 10 of 86391 total bound parameter sets ... {'Unnamed: 0': 86390, 'name': '润鑫月月盈3号RX1M003', 'bank': '珠海华润银行', 'currency': '人民币', 'startDate': '2015-06-24', 'endDate': '2015-06-30', 'enduration': '35天', 'proType': '不保本', 'profit': '4.5%', 'amount': '5万'}, {'Unnamed: 0': 86391, 'name': '润鑫月月盈2号', 'bank': '珠海华润银行', 'currency': '人民币', 'startDate': '2015-06-17', 'endDate': '2015-06-23', 'enduration': '35天', 'proType': '不保本', 'profit': '4.4%', 'amount': '5万'}) 2018-10-17 15:07:14,106 INFO sqlalchemy.engine.base.Engine COMMIT Write to MySQL successfully!
如果你还不放心,也许我们可以看一眼MySQL中的数据:
让我们来比较该爬虫与使用Scrapy的爬虫。使用Scrap用的爬虫爬取了127130条数据,耗时3小时,该爬虫爬取86391条数据,耗时半小时。如果是同样的数据量,那么Scrapy爬取86391条数据耗时约2小时,该爬虫仅用了Scrapy爬虫的四分之一的时间就出色地完成了任务。
最后,让我们看看前十名的银行及理财产品数量(按理财产品数量从高到低排列),输入以下MySQL命令:
use test; SELECT bank, count(*) as product_num FROM rong360 GROUP BY bank ORDER BY product_num DESC LIMIT 10;
输出结果如下: