In [1]:
# len: 获取元组的长度
t = (1,2,3,4,5)
len(t)
Out[1]:
In [2]:
# max, min:最大最小值
print(max(t))
print(min(t))
In [3]:
# tuple:转化或创建元组
l = [1,2,3,4,5]
t = tuple(l)
print(t)
t = tuple()
print(t)
In [4]:
# count: 计算制定数据出现的次数
t = (2,1,2,3,45,1,1,2,)
print(t.count(2))
# index:求制定元素在元组中的索引位置
print(t.index(45))
# 如果需要查找的数字是多个,则返回第一个
print(t.index(1))
In [6]:
# 两个变量交换值
a = 1
b = 3
# python的写法
a,b = b,a
print(a)
print(b)
In [1]:
# 集合的定义
s = set()
print(type(s))
print(s)
# 此时,大括号内一定要有值,否则定义出的是一个dict
s = {1,2,3,4,5,6,7}
print(s)
In [2]:
# 如果只是用大括号定义,则定义的是一个dict类型
d = {}
print(type(d))
print(d)
In [3]:
# 成员检测
# in, not in
s = {4,5,"i", "love", "wangxiaojing"}
print(s)
if "love" in s:
print("爱呀")
if "haha" not in s:
print("挨个锤子")
In [4]:
# for 循环
s = {4,5,"i", "love", "wangxiaojing"}
for i in s:
print(i, end=" ")
In [5]:
# 带有元组的集合遍历
s = {(1,2,3), ("i", "love", "wangxiaojing"), (4,5,6)}
for k,m,n in s:
print(k, "--", m, "--", n)
for k in s:
print(k)
In [6]:
# 普通集合内涵
# 以下集合在初始化后自动过滤掉重复元素
s = {23,223,545,3,1,2,3,4,3,2,3,1,2,4,3}
print(s)
# 普通集合内涵
ss = {i for i in s}
print(ss)
In [8]:
# 带条件的集合内涵
sss = {i for i in s if i % 2 == 0}
print(sss)
In [11]:
# 多循环的集合内涵
s1 = {1,2,3,4}
s2 = {"i", "love", "wangxiaojing"}
s = {m*n for m in s2 for n in s1}
print(s)
print("*"*80)
s = {m*n for m in s2 for n in s1 if n ==2}
print(s)
In [12]:
# len, max, min:跟其他基本函数一致
s = {43,23,56,223,4,2,1222,4,323,1}
print(len(s))
print( max(s))
print(min(s))
In [13]:
# set:生成一个集合
l = [1,2,3,4,3,23,1,2,3,4]
s = set(l)
print(s)
In [14]:
# add:向集合内添加元素
s = {1}
s.add(334)
print(s)
In [15]:
#clear
s = {1,2,3,4,5}
print(id(s))
s.clear()
print(id(s))
# 结果表明clear函数是原地清空数据
In [18]:
# copy:拷贝
# remove:移除制定的值,直接改变原有值,如果要删除的值不存在,报错
# discard:移除集合中指定的值,跟remvoe一样,但是如果要删除的值不存在,不报错
s = {23,3,4,5,1,2,3}
s.remove(4)
print(s)
s.discard(1)
print(s)
print("*" * 20)
s.discard(1100)
print(s)
s.remove(1100)
print(s)
In [20]:
# pop 随机移除一个元素
s = {1,2,3,4,5,6,7}
d = s.pop()
print(d)
print(s)
In [24]:
# 集合函数
# intersection: 交集
# difference:差集
# union: 并集
# issubset: 检查一个集合是否为另一个子集
# issuperset: 检查一个集合是否为另一个超集
s1 = {1,2,3,4,5,6}
s2 = {5,6,7,8,9}
s_1 = s1.intersection(s2)
print(s_1)
s_2 = s1.difference(s2)
print(s_2)
s_3 = s1.issubset(s2)
print(s_3)
In [25]:
# 创建
s = frozenset()
print(type(s))
print(s)
In [26]:
# 字典的创建
# 创建空字典1
d = {}
print(d)
# 创建空字典2
d = dict()
print(d)
# 创建有值的字典, 每一组数据用冒号隔开, 每一对键值对用逗号隔开
d = {"one":1, "two":2, "three":3}
print(d)
# 用dict创建有内容字典1
d = dict({"one":1, "two":2, "three":3})
print(d)
# 用dict创建有内容字典2
# 利用关键字参数
d = dict(one=1, two=2, three=3)
print(d)
#
d = dict( [("one",1), ("two",2), ("three",3)])
print(d)
In [27]:
# 访问数据
d = {"one":1, "two":2, "three":3}
# 注意访问格式
# 中括号内是键值
print(d["one"])
d["one"] = "eins"
print(d)
# 删除某个操作
# 使用del操作
del d["one"]
print(d)
In [28]:
# 成员检测, in, not in
# 成员检测检测的是key内容
d = {"one":1, "two":2, "three":3}
if 2 in d:
print("value")
if "two" in d:
print("key")
if ("two",2) in d:
print("kv")
In [29]:
# 遍历在python2 和 3 中区别比较大,代码不通用
# 按key来使用for循环
d = {"one":1, "two":2, "three":3}
# 使用for循环,直接按key值访问
for k in d:
print(k, d[k])
# 上述代码可以改写成如下
for k in d.keys():
print(k, d[k])
# 只访问字典的值
for v in d.values():
print(v)
# 注意以下特殊用法
for k,v in d.items():
print(k,'--',v)
In [30]:
d = {"one":1, "two":2, "three":3}
# 常规字典生成式
dd = {k:v for k,v in d.items()}
print(dd)
# 加限制条件的字典生成式
dd = {k:v for k,v in d.items() if v % 2 == 0}
print(dd)
In [31]:
# 通用函数: len, max, min, dict
# str(字典): 返回字典的字符串格式
d = {"one":1, "two":2, "three":3}
print(str(d))
In [32]:
# clear: 清空字典
# items: 返回字典的键值对组成的元组格式
d = {"one":1, "two":2, "three":3}
i = d.items()
print(type(i))
print(i)
In [33]:
# keys:返回字典的键组成的一个结构
k = d.keys()
print(type(k))
print(k)
In [34]:
# values: 同理,一个可迭代的结构
v = d.values()
print(type(v))
print(v)
In [36]:
# get: 根据制定键返回相应的值, 好处是,可以设置默认值
d = {"one":1, "two":2, "three":3}
print(d.get("on333"))
# get默认值是None,可以设置
print(d.get("one", 100))
print(d.get("one333", 100))
In [37]:
# fromkeys: 使用指定的序列作为键,使用一个值作为字典的所有的键的值
l = ["eins", "zwei", "drei"]
# 注意fromkeys两个参数的类型
# 注意fromkeys的调用主体
d = dict.fromkeys(l, "hahahahahah")
print(d)