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The data in Python are all objects, such as the well-known int integer object, float double precision floating point type, bool logical object, they are all is a single element. Give two examples.
Prefix with 0x
to create a hexadecimal integer:
0xa5 # 等于十进制的 165
Use e
to create a floating point number represented in scientific notation:
1.05e3 # 1050.0
A container object that can accommodate multiple elements. Commonly used ones include: list list object, tuple tuple object, dict dictionary object, and set collection object. Python defines these types of variables with a very concise syntax.
Examples are as follows.
Use a pair of square brackets []
to create a list variable:
lst = [1,3,5] # list 变量
As can be seen from the diagram, the container on the right is open-loop, which means that the container can Adding and deleting elements in:
Use a pair of brackets ()
to create a tuple object:
tup = (1,3,5) # tuple 变量
As shown in the diagram , the container on the right is closed, which means that once a tuple is created, elements cannot be added or deleted from the container:
But it should be noted that tuples containing a single element A comma must be left behind to be interpreted as a tuple.
tup = (1,) # 必须保留逗号
Otherwise it will be considered the element itself:
In [14]: tup=(1) ...: print(type(tup)) <class></class>
Use a pair of curly braces {}
and use a colon :
to create a dict object:
dic = {'a':1, 'b':3, 'c':5} # dict变量
The dictionary is a hash table. The following diagram vividly expresses the "shape" of the dictionary.
Use only a pair of curly braces {}
to create a set object:
s = {1,3,5} # 集合变量
Python container type, list, dict , tuple, set, etc. can easily implement powerful functions. Here are a few cases.
1. Find the average
After removing a minimum value and a maximum value in the list, calculate the average of the remaining elements.
def score_mean(lst): lst.sort() lst2=lst[1:-1] return round((sum(lst2)/len(lst2)),1) lst=[9.1, 9.0,8.1, 9.7, 19,8.2, 8.6,9.8] score_mean(lst) # 9.1
Code execution process, animation demonstration:
2. Print 99 multiplication table
Print out the following The multiplication table in the format:
1*1=1 1*2=2 2*2=4 1*3=3 2*3=6 3*3=9 1*4=4 2*4=8 3*4=12 4*4=16 1*5=5 2*5=10 3*5=15 4*5=20 5*5=25 1*6=6 2*6=12 3*6=18 4*6=24 5*6=30 6*6=36 1*7=7 2*7=14 3*7=21 4*7=28 5*7=35 6*7=42 7*7=49 1*8=8 2*8=16 3*8=24 4*8=32 5*8=40 6*8=48 7*8=56 8*8=64 1*9=9 2*9=18 3*9=27 4*9=36 5*9=45 6*9=54 7*9=63 8*9=72 9*9=81
has 10 rows in total. The j-th column of the i-th row is equal to: j*i
, where:
i Value range: 1
j Value range: 1
According to the language description of "example analysis", it is converted into the following code:
In [13]: for i in range(1,10): ...: for j in range(1,i+1): ...: print('%d*%d=%d'%(j,i,j*i),end='\t') ...: print()
3. Sample sampling
Use sample sampling , the following example randomly samples 10 samples from 100.
from random import randint,sample lst = [randint(0,50) for _ in range(100)] print(lst[:5])# [38, 19, 11, 3, 6] lst_sample = sample(lst,10) print(lst_sample) # [33, 40, 35, 49, 24, 15, 48, 29, 37, 24]
Note that there is no character type (char) like C in Python, and all characters or strings are unified into str objects. For example, the type of a single character c
is also str.
The str type will be frequently used. Let’s first list 5 frequently used methods.
strip is used to remove spaces before and after a string:
In [1]: ' I love python\t\n '.strip() Out[1]: 'I love python'
replace is used to replace strings:
In [2]: 'i love python'.replace(' ','_') Out[2]: 'i_love_python'
join is used to merge strings:
In [3]: '_'.join(['book', 'store','count']) Out[3]: 'book_store_count'
title is used to capitalize the first character of a word:
In [4]: 'i love python'.title() Out[4]: 'I Love Python'
find is used to return the starting position index of the matching string:
In [5]: 'i love python'.find('python') Out[5]: 7
As an example of applying strings, determine whether str1 is composed of str2 is rotated.
String stringbook is rotated to obtain bookstring. Write a code to verify whether str1 is str2 obtained by rotation.
Convert to judgment: whether str1 is a substring of str2 str2.
下面函数原型中,注明了每个参数的类型、返回值的类型,增强代码的可读性和可维护性。
def is_rotation(s1: str, s2: str) -> bool: if s1 is None or s2 is None: return False if len(s1) != len(s2): return False def is_substring(s1: str, s2: str) -> bool: return s1 in s2 return is_substring(s1, s2 + s2)
测试函数 is_rotation:
r = is_rotation('stringbook', 'bookstring') print(r) # True r = is_rotation('greatman', 'maneatgr') print(r) # False
代码执行过程,动画演示:
55555
字符串的匹配操作除了使用 str 封装的方法外,Python 的 re 正则模块功能更加强大,写法更为简便,广泛适用于爬虫、数据分析等。
下面这个案例实现:密码安全检查,使用正则表达式非常容易实现。
密码安全要求:
要求密码为 6 到 20 位;
密码只包含英文字母和数字。
import re pat = re.compile(r'\w{6,20}') # 这是错误的,因为 \w 通配符匹配的是字母,数字和下划线,题目要求不能含有下划线 # 使用最稳的方法:\da-zA-Z 满足“密码只包含英文字母和数字” # \d匹配数字 0-9 # a-z 匹配所有小写字符;A-Z 匹配所有大写字符 pat = re.compile(r'[\da-zA-Z]{6,20}')
选用最保险的 fullmatch 方法,查看是否整个字符串都匹配。
以下测试例子都返回 None,原因都在解释里。
pat.fullmatch('qaz12') # 返回 None,长度小于 6 pat.fullmatch('qaz12wsxedcrfvtgb67890942234343434') # None 长度大于 22 pat.fullmatch('qaz_231') # None 含有下划线
下面这个字符串 n0passw0Rd
完全符合:
In [20]: pat.fullmatch('n0passw0Rd') Out[20]: <re.match></re.match>
Python 使用关键字 class 定制自己的类,self 表示类实例对象本身。
一个自定义类内包括属性、方法,其中有些方法是自带的。
类(对象):
class Dog(object): pass
以上定义一个 Dog 对象,它继承于根类 object,pass 表示没有自定义任何属性和方法。
下面创建一个 Dog 类型的实例:
wangwang = Dog()
Dog 类现在没有定义任何方法,但是刚才说了,它会有自带的方法,使用 dir() 查看这些自带方法:
In [26]: wangwang.__dir__() Out[26]: ['__module__', '__dict__', '__weakref__', '__doc__', '__repr__', '__hash__', '__str__', '__getattribute__', '__setattr__', '__delattr__', '__lt__', '__le__', '__eq__', '__ne__', '__gt__', '__ge__', '__init__', '__new__', '__reduce_ex__', '__reduce__', '__subclasshook__', '__init_subclass__', '__format__', '__sizeof__', '__dir__', '__class__']
有些地方称以上方法为魔法方法,它们与创建类时自定义个性化行为有关。比如:
init 方法能定义一个带参数的类;
new 方法自定义实例化类的行为;
getattribute 方法自定义读取属性的行为;
setattr 自定义赋值与修改属性时的行为。
类的属性:
def __init__(self, name, dtype): self.name = name self.dtype = dtype
通过 init,定义 Dog 对象的两个属性:name、dtype。
类的实例:
wangwang = Dog('wangwang','cute_type')
wangwang
是 Dog
类的实例。
类的方法:
def shout(self): print('I\'m %s, type: %s' % (self.name, self.dtype))
注意:
自定义方法的第一个参数必须是 self,它指向实例本身,如 Dog 类型的实例 dog;
引用属性时,必须前面添加 self,比如 self.name
等。
总结以上代码:
In [40]: class Dog(object): ...: def __init__(self,name,dtype): ...: self.name=name ...: self.dtype=dtype ...: def shout(self): ...: print('I\'m %s, type: %s' % (self.name, self.dtype)) In [41]: wangwang = Dog('wangwang','cute_type') In [42]: wangwang.name Out[42]: 'wangwang' In [43]: wangwang.dtype Out[43]: 'cute_type' In [44]: wangwang.shout() I'm wangwang, type: cute_type
看到创建的两个属性和一个方法都被暴露在外面,可被 wangwang 调用。这样的话,这些属性就会被任意修改:
In [49]: wangwang.name='wrong_name' In [50]: wangwang.name Out[50]: 'wrong_name'
如果想避免属性 name 被修改,可以将它变为私有变量。改动方法:属性前加 2 个 _
后,变为私有属性。如:
In [51]: class Dog(object): ...: def __init__(self,name,dtype): ...: self.__name=name ...: self.__dtype=dtype ...: def shout(self): ...: print('I\'m %s, type: %s' % (self.name, self.dtype))
同理,方法前加 2 个 _
后,方法变为“私有方法”,只能在 Dog 类内被共享使用。
但是这样改动后,属性 name 不能被访问了,也就无法得知 wangwang 的名字叫啥。不过,这个问题有一种简单的解决方法,直接新定义一个方法就行:
def get_name(self): return self.__name
综合代码:
In [52]: class Dog(object): ...: def __init__(self,name,dtype): ...: self.__name=name ...: self.__dtype=dtype ...: def shout(self): ...: print('I\'m %s, type: %s' % (self.name, self.dtype)) ...: def get_name(self): ...: return self.__name ...: In [53]: wangwang = Dog('wangwang','cute_type') In [54]: wangwang.get_name() Out[54]: 'wangwang'
但是,通过此机制,改变属性的可读性或可写性,怎么看都不太优雅!因为无形中增加一些冗余的方法,如 get_name。
下面,通过另一个例子,解释如何更优雅地改变某个属性为只读或只写。
自定义一个最精简的 Book 类,它继承于系统的根类 object:
class Book(object): def __init__(self,name,sale): self.__name = name self.__sale = sale
使用 Python 自带的 property 类,就会优雅地将 name 变为只读的。
@property def name(self): return self.__name
使用 @property 装饰后 name 变为属性,意味着 .name
就会返回这本书的名字,而不是通过 .name()
这种函数调用的方法。这样变为真正的属性后,可读性更好。
In [101]: class Book(object): ...: def __init__(self,name,sale): ...: self.__name = name ...: self.__sale = sale ...: @property ...: def name(self): ...: return self.__name In [102]: a_book = Book('magic_book',100000) In [103]: a_book.name Out[103]: 'magic_book'
property 是 Python 自带的类,前三个参数都是函数类型。更加详细的讨论放在后面讨论装饰器时再展开。
In [104]: help(property) Help on class property in module builtins: class property(object) | property(fget=None, fset=None, fdel=None, doc=None)
如果使 name 既可读又可写,就再增加一个装饰器 @name.setter。
In [105]: class Book(object): ...: def __init__(self,name,sale): ...: self.__name = name ...: self.__sale = sale ...: @property ...: def name(self): ...: return self.__name ...: @name.setter ...: def name(self,new_name): ...: self.__name = new_name In [106]: a_book = Book('magic_book',100000) In [107]: a_book.name = 'magic_book_2.0' In [108]: a_book.name Out[108]: 'magic_book_2.0'
注意这种装饰器写法:name.setter,name 已经被包装为 property 实例,调用实例上的 setter 函数再包装 name 后就会可写。对于 Python 入门者,可以暂时不用太纠结这部分理论,使用 Python 一段时间后,再回过头来自然就会理解。
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