三元运算
三元运算又叫三目运算,是对简单的条件语句的缩写,例如if判断
# 标准if判断语法 if 1 == 1: name = "yes" else: name = "no" # 如果 1==1 成立,name = "yes", 否则 name = "no" # 三元运算简写语法 name = "yes" if 1 == 1 else "no" # 如果条件成立,将yes赋值给name变量,否则将no赋值给name变量
集合
set集合,是一个无序且不重复的元素集合
# 创建集合 s1 = {11,22} s2 = set() s3 = set([11,22,33,4]) # 操作集合 s = set() s.add(123) # 把要传入的元素做为一个整个添加到集合中 s.update(123) # 把要传入的元素拆分,做为个体传入到集合中 s.clear() # 删除集合中所有元素 s1 = {11,22,33} s2 = {22,33,44} s3 = s1.difference(s2) # s1中存在,s2中不存在 s3 = s2.difference(s1) # s2中存在,s2中不存在 s3 = s1.symmetric_difference(s2) #s1 s2 中不同时存在的 s1.difference_update(s2) # 更新s1中存在,s2中不存在 s1.symmetric_difference_update(s2) # 更新s1 s2 中不同时存在的 s1 = {11,22,33} s1.discard(1111) # 如果1111是集合s1中的元素删除,不存在不报错 s1.remove(11111) # 如果1111是集合s1中的元素删除,不存在报错 ret = s1.pop() # 删除集合中任意一个对象,返回它 s3 = s1.union(s2) # 返回一个新集合,集合元素是s1 s2的并集 s3 = s1.intersection(s2)# 返回一个新集合,集合元素是s1 s2的交集 s1.intersection_update(s2) # s1中成员是共同属于s1和s2 # li = [11,22,33] # list __init__ # li() # list __call__ # li[0] # list __getitem__ # li[0] = 123 # list __setitem__ # def li[1] # list __delitem__ old_dict = { "#1": 8, "#2": 4, "#4": 2, } new_dict = { "#1": 4, "#2": 4, "#3": 2, } # old_kyes = old_dict.keys() # old_set = set(old_kyes) new_set = set(new_dict.keys()) old_set = set(old_dict.keys()) remove_set = old_set.difference(new_set) add_set = new_set.difference(old_set) update_set = old_set.intersection(new_set) import re re.match()
函数
描述
在学习函数之前,一直遵循:面向过程编程,即:根据业务逻辑从上到下实现功能,其往往用一长段代码来实现指定功能,开发过程中最常见的操作就是粘贴复制,也就是将之前实现的代码块复制到现需功能处,函数式编程最重要的是增强代码的重用性和可读性
def sendmail(): try: import smtplib from email.mime.text import MIMEText from email.utils import formataddr msg = MIMEText('邮件内容', 'plain', 'utf-8') msg['From'] = formataddr(["武沛齐",'wptawy@126.com']) msg['To'] = formataddr(["走人",'424662508@qq.com']) msg['Subject'] = "主题" server = smtplib.SMTP("smtp.126.com", 25) server.login("wptawy@126.com", "WW.3945.5") server.sendmail('wptawy@126.com', ['3628905@qq.com',], msg.as_string()) server.quit() except: # 发送失败 return "失败" else: # 发送成功 return "cc" ret = sendmail() print(ret) if ret == "cc": print('发送成功') else: print("发送失败")
定义和使用
def 函数名(参数): ... 函数体 ... 返回值
函数的定义主要有如下要点:
- def:表示函数的关键字
- 函数名:函数的名称,日后根据函数名调用函数
- 函数体:函数中进行一系列的逻辑计算,如:发送邮件、计算出 [11,22,38,888,2]中的最大数等...
- 参数:为函数体提供数据
- 返回值:当函数执行完毕后,可以给调用者返回数据。
返回值
# 在函数中,一旦执行return,函数执行过程立即终止 def f1(): print(123) return "111" print(456) r = f1() print(r) def f2(): print(123) r = f2() print(r)
参数
函数中有不通的参数
- 普通参数(严格按照顺序,将实际参数赋值给形式参数)
def sendmail(xxoo, content): # xxoo = alex try: import smtplib from email.mime.text import MIMEText from email.utils import formataddr msg = MIMEText(content, 'plain', 'utf-8') msg['From'] = formataddr(["武沛齐",'wptawy@126.com']) msg['To'] = formataddr(["走人",'424662508@qq.com']) msg['Subject'] = "主题" server = smtplib.SMTP("smtp.126.com", 25) server.login("wptawy@126.com", "WW.3945.59") server.sendmail('wptawy@126.com', [xxoo,], msg.as_string()) server.quit() except: # 发送失败 return "失败" else: # 发送成功 return "cc" while True: em = input("请输入邮箱地址:") result = sendmail(em, "SB") if result == "cc": print("发送成功") else: print("发送失败")
- 默认参数(必须放置在参数列表的最后)
def send(xxoo, content, xx="OK"): print(xxoo, content, xx) print("发送邮件成功:", xxoo, content) return True while True: em = input("请输入邮箱地址:") result = send(em, "SB", "ok") if result == True: print("发送成功") else: print("发送失败")
- 指定参数(将实际参数赋值给制定的形式参数)
def send(xxoo, content): print(xxoo, content) # print("发送邮件成功:", xxoo, content) return True send(content="alex", xxoo="sb")
- 动态参数:
* 默认将传入的参数,全部放置在元组中, f1(*[1`1,22,33,44])
** 默认将传入的参数,全部放置在字典中 f1(**{"kl":"v1", "k2":"v2"})
f1(n1="alex", n2=18) dic = {'k1': "v1", "k2":"v2"} f1(kk=dic) dic = {'k1': "v1", "k2":"v2"} f1(**dic) f1(11) li = [11,22,"alex", "hhhh"] f1(li, '12') li = [11,22,"alex", "hhhh"] f1(li) f1(*li) li = "alex" f1(*li)
- 万能参数, *args,**kwargs
def f1(*args, **kwargs): print(args) print(kwargs) f1(k1="v1") def f1(*args): # args = (11,) # args = ([11,22,"alex", "hhhh"],"12") print(args, type(args)) f1(11,22,33,44) li = [11,22,33,44] f1(*li) def f1(**args): # args = (11,) # args = ([11,22,"alex", "hhhh"],"12") print(args, type(args))
全局变量
- 全局变量,所有作用域都可读
- 对全局变量进行【重新赋值】,需要global
- 特殊:列表字典,可修改,不可重新赋值
def f1(): age = 18 global NAME # 表示,name是全局变量 # NAME = "123" print(age, NAME) def f2(): age = 19 print(age, NAME) f1() f2()
文件处理
f = open('db', 'r') # 只读 f = open('db', 'w') # 只写,先清空原文件 f = open('db', 'x') # 文件存在,报错;不存在,创建并只写 f = open('db', 'a') # 追加 f = open('db','r', encoding="utf-8") data = f.read() print(data, type(data)) f.close() f = open('db','r') data = f.read() print(data,type(data)) f = open('db','rb') data = f.read() print(data,type(data)) f = open("db", 'a') f.write("李杰") f.close() f = open("db", 'ab') f.write(bytes("李杰", encoding="utf-8")) f.close() f = open("db", 'r+', encoding="utf-8") # f.fileno() # 如果打开模式无 b,则read,按照字符读取 data = f.read(1) # tell当前指针所在的位置(字节) print(f.tell()) # 调整当前指着你的位置(字节) f.seek(f.tell()) # 当前指针位置开始向覆盖 f.write("888") f.close()
read() # 无参数,读全部;有参数, b,按字节 无b,按字符 tell() 获取当前指针位置(字节) seek(1) 指针跳转到指定位置(字节) write() 写数据,b,字节;无b,字符 close fileno flush 强刷 readline 仅读取一行 truncate 截断,指针为后的清空 for循环文件对象 f = open(xxx) for line in f: print(line) f = open("db", 'r+', encoding="utf-8") f.seek(3) f.truncate() f.close() f = open("db", 'r+', encoding="utf-8") for line in f: print(line)
f.close() with open('xb') as f: pass with open('xb') as f: pass with open('db1', 'r', encoding="utf-8") as f1, open("db2", 'w',encoding="utf-8") as f2: for line in f1: if line == "xx": f2.write() f2.write() # new_str = line.replace("alex", 'st') # f2.write(new_str)