Python3实现简单的接口性能测试

# -*- coding:utf-8 -*-


import requests
import datetime
import time
import threading

'''
allow_redirects = False禁止重定向,添加在request参数后
get请求用params传参
post请求,数据类型form,用data传参
post请求,数据类型form,用data传参
post请求,数据类型json,json传参
timeout:请求超时时间,添加在request参数后
nub = 10#设置并发线程数
ResponseTime=float(result.elapsed.microseconds)/1000 #获取响应时间,单位ms
ThinkTime = 0.5#设置思考时间
AverageTime = "{:.3f}".format(float(sum(myrequest.times))/float(len(myrequest.times)))#计算数组的平均值,保留3位小数
totaltime = float(hour)*60*60 + float(minute)*60 + float(second) #计算总的思考时间+请求时间
'''

class url_request:
    times = []
    error = []
    def weather_DC(self):
        myrequest=url_request()
        weatherinfo_search = 'https://restapi.amap.com/v3/weather/weatherInfo?parameters'
        params = {'key': 'cd1b11e80ffac05253196aa2a1233f25',
                  'city': 110101,
                  'extensions': 'base',
                  'output': 'JSON'}

        result = requests.get(url=weatherinfo_search, params=params)
        print("状态码:",result.status_code)
        print("返回报文:",result.text)
        ResponseTime=float(result.elapsed.microseconds)/1000
        myrequest.times.append(ResponseTime)
        if result.status_code !=200 :
            myrequest.error.append("0")
if __name__=='__main__':
    myrequest=url_request()
    threads = []
    starttime = datetime.datetime.now()
    print("请求开始时间:request start time %s" %starttime)
    nub = 10
    ThinkTime = 0.5
    for i in range(1, nub+1):
        t = threading.Thread(target=myrequest.weather_DC())
        threads.append(t)
    for t in threads:
        time.sleep(ThinkTime)
        print("线程数:thread %s" %t)
        t.setDaemon(True)
        t.start()
        t.join()
    endtime = datetime.datetime.now()
    print("请求结束时间:request end time %s" %endtime)
    time.sleep(3)
    AverageTime = "{:.3f}".format(float(sum(myrequest.times))/float(len(myrequest.times)))
    print("平均响应时间:Average Response Time %s ms" %AverageTime)
    usetime = str(endtime - starttime)
    hour = usetime.split(':').pop(0)
    minute = usetime.split(':').pop(1)
    second = usetime.split(':').pop(2)
    totaltime = float(hour)*60*60 + float(minute)*60 + float(second)
    print("并发数:Concurrent processing %s" %nub)
    print("#总共消耗的时间:use total time %s s" %(totaltime-float(nub*ThinkTime)))
    print("错误请求数:fail request %s s" %myrequest.error.count("0"))

参考文章:https://www.cnblogs.com/clarke/p/5965778.html

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