这篇可能是你见过最全的鼠标键盘监测

import time
from  pynput.mouse import Button
from pynput.keyboard import Controller, Key
from pynput.keyboard import Listener as Keyboard_Listener
from pynput.mouse import Listener as Mouse_Listener
import os
from threading import Thread

#用于区分单双击
click_location=[]
time_difference=0
click_count=1
click_time=[]
path_clicked={}

#用于存放监听命令
##global command_list
command_list=[]

#表头为输入函数库
title ='\n'+ 'import pyautogui'+'\n' + 'import time' + '\n' +'\n'

def on_click(x, y , button, pressed):

    if pressed:  #点击时为ture  如果不进行判断会调用两次这个函数 一次点击一次释放 这里不需要两次
        global click_count
        global time_difference  #把时间差设为全局变量 为的是退出这个循环


        t=time.time()   #获取当前电脑时间
        click_time.append(t) #添加时间
        click_location.append((x,y)) #添加位置

        if len(click_location)!=1:  #这几个判断以及上面定义的click_ 都是为了得到双击还是单击  两个list长度都是2 第一个和第二个比较时间差
            time_difference=click_time[1]-click_time[0]  #定义时间差

            if click_location[0]==click_location[1]:
                if time_difference<=0.3:  #如果两次点击时间小于0.3秒就会判断为双击 否则就是单击
                    click_count=2
                else:
                    click_count=1
            else:
                click_count=1
            click_time.pop(0)  #删去第一个
            click_location.pop(0)

        if button == Button.left:  #判断左键还是右键还是中键
            button_name = 'Button_left'
        elif button == Button.middle:
            button_name = 'Button_middle'
        elif button == Button.right:
            button_name = 'Button_right'
        else:
            button_name = 'Unknown'

        if 'Key.esc' in all_key:
            #在按下esc时将不再监控鼠标
            return False
        else:

            if button_name == 'Button_left' and click_count == 1:
                command = 'pyautogui.click{0}'.format((x,y))+'\n' + 'time.sleep(' + str(round(time_difference,2)) + ')' +'\n'
                command_list.append(command)

            elif button_name == 'Button_left' and click_count== 2:
                command = 'pyautogui.doubleClick{0}'.format((x,y)) +'\n'+ 'time.sleep(' + str(round(time_difference,2)) + ')' +'\n'
                command_list.pop(-1)
                command_list.append(command)

            elif button_name == 'Button_right' and click_count == 1:
                command = 'pyautogui.rightClick{0}'.format((x,y))+'\n'+ 'time.sleep(' + str(round(time_difference,2)) + ')' +'\n'
                command_list.append(command)
            elif button_name == 'Button_middle' and click_count == 1:
                command = 'pyautogui.click(button= \'middle\')'+'\n'+ 'time.sleep(' + str(round(time_difference,2)) + ')' +'\n'
                command_list.append(command)

def on_scroll(x, y, dx, dy):
    # 监听鼠标滚轮
    if 'Key.esc' in all_key:
    #在按下esc时将不再监控鼠标
        return False
    else:
        command = 'pyautogui.scroll({0})'.format(dy*120) + '\n' #滚轮滚一下值为120
        command_list.append(command)
        print('pyautogui.scroll({0})'.format(dy*120))

def on_release(key):

    all_key.append(str(key)) #用于在鼠标事件中监控是否按下esc

    if len(str(key))>3:     #用于区分按了字母键和功能键
        keyword = '\'' + str(key)[4:] + '\''
    else:
        keyword = str(key)
    command = keyword + '\n'#输出autogui可用语句


    if key == Key.esc:  #当按下esc停止监控
        return False
    else:
        command_list.append(command)
        print(command_list)

def text_create(name, msg):

    desktop_path = os.path.abspath('.')  # 新创建的txt文件的存放路径
    full_path = desktop_path + '\\' + name + '~' + '.txt'
    file = open(full_path, 'a')
    file.write(msg)  
    file.close

def clear_txt(name):    #清空内容

    desktop_path = os.path.abspath('.')  # 新创建的txt文件的存放路径
    full_path = desktop_path + '\\' + name + '.txt'

    global distinguish_py   #主程序会用到
    distinguish_py = desktop_path + '\\' + name + '.py'

    if os.path.exists(full_path):
        file = open(full_path, 'r+')
        file.truncate()
        file.close

def hot_key(name):  #主要作用就是将组合键从单击字符形式转成hot_key模式
    desktop_path = os.path.abspath('.')  # 新创建的txt文件的存放路径
    global full_path
    full_path = desktop_path + '\\' + name +'~'+ '.txt' #过渡文件
    replace_path = desktop_path + '\\' + name + '.txt'  #最终文件

    b = open(replace_path, 'a')
    f = open(full_path, 'r+')

    line = f.readline()
    hotkey_list = []

    func_key_list = ['ctrl', 'alt' , 'shift','cmd']   #功能按键
    while line:
        line = f.readline() #多读了一行,刚好把原来空行过掉

        if line[:1]=='\'':  #识别字母按键
            for func_key in func_key_list:  
                if func_key in hotkey_list and func_key not in line: #当前一个为功能按键,后一个可能还是功能键可以也是字母键,此处只要字母键
                    command = 'pyautogui.hotkey(\'' + func_key  + '\''+ ','+ line.strip() + ')' +'\n'
                    b.write(command)  
                    hotkey_list = []    #清空为识别下一对组合按键,默认所有组合按键为两个按键

                if func_key in line:    #识别第一个功能按键
                    hotkey_list.append(func_key)
        else:
            b.write(line)      

    b.close
    f.close

def change_suffix(name):
    desktop_path = os.path.abspath('.')  # 新创建的txt文件的存放路径
    full_path = desktop_path + '\\' + name + '.txt'
    portion = os.path.splitext(full_path)
    if portion[1] == '.txt':
        # 重新组合文件名和后缀名
        newname = portion[0] + '.py'
        os.rename(full_path, newname)


#################################################################################################################################
def mouse_click(x, y):
    pass
def mouse_dclick(x, y):
    pass

def mouse_drag():
    (x1,y1)= on_click(x,y)
    (x2,y2)= on_dclick(x, y)
    if (x1y1) != (x2,y2):
        command = 'pyautogui.click(941,34, button=\'left\')' + '\n' + 'pyautogui.dragRel(0,100, button=\'left\', duration=5)'
        command_list.append(command)
        print(command)

    #功能待开发
    #pyautogui.dragTo(x=427, y=535, duration=3,button='left')

#################################################################################################################################
if __name__=='__main__':

    num = 0     #命名时用到
    #最小化所有窗口待开发
    export_file = 'record'  #默认文件名
    clear_txt(export_file)      #清空txt

    while os.path.isfile(distinguish_py):
        num=int(num)+1
        export_file = 'record'+ '(' + str(num) +')'
        distinguish_py = os.path.abspath('.') + '\\' + export_file + '.py'#用于命名(1)

    text_create(export_file, title)    #先把引入函数写进去,此处title多留一行空白为后面生成最终文件用

    global all_key  #获取按键信息
    all_key = []

    global keyboard_listen_thread   #分线程,两事件同时进行
    global mouse_listen_thread

    # 鼠标单独线程
    mouse_listen_thread = Mouse_Listener(on_click=on_click, on_scroll=on_scroll)
    mouse_listen_thread.start()

    # 键盘单独线程
    keyboard_listen_thread = Keyboard_Listener(on_release=on_release)
    keyboard_listen_thread.start()

    keyboard_listen_thread.join()   #当按键进程结束后,鼠标进程也随之结束,后面才继续运行

    for command in command_list:

        text_create(export_file, command)   #写入txt文件

    hot_key(export_file)        #此步骤为把热键整合
    change_suffix(export_file)  #更改后缀名
    os.remove(full_path)        #删除过渡文件.txt

    print("All commands have been recorded!")
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