• 七丶人生苦短,我用python【第七篇】


    模块

    模块,用一砣代码实现了某个功能的代码集合。 

    类似于函数式编程和面向过程编程,函数式编程则完成一个功能,其他代码用来调用即可,提供了代码的重用性和代码间的耦合。而对于一个复杂的功能来,可能需要多个函数才能完成(函数又可以在不同的.py文件中),n个 .py 文件组成的代码集合就称为模块。

    如:os 是系统相关的模块;file是文件操作相关的模块

    模块分为三种:

    • 自定义模块
    • 第三方模块
    • 内置模块

    自定义模块

    1、定义模块

    情景一:

      

    情景二:

      

    情景三:

      

    2、导入模块

    Python之所以应用越来越广泛,在一定程度上也依赖于其为程序员提供了大量的模块以供使用,如果想要使用模块,则需要导入。导入模块有一下几种方法:

    import module
    from module.xx.xx import xx
    from module.xx.xx import xx as rename  
    from module.xx.xx import *
    

    导入模块其实就是告诉Python解释器去解释那个py文件

    • 导入一个py文件,解释器解释该py文件
    • 导入一个包,解释器解释该包下的 __init__.py 文件 【py2.7】

    那么问题来了,导入模块时是根据那个路径作为基准来进行的呢?即:sys.path

    import sys
    print sys.path
      
    结果:
    ['/Users/wupeiqi/PycharmProjects/calculator/p1/pp1', '/usr/local/lib/python2.7/site-packages/setuptools-15.2-py2.7.egg', '/usr/local/lib/python2.7/site-packages/distribute-0.6.28-py2.7.egg', '/usr/local/lib/python2.7/site-packages/MySQL_python-1.2.4b4-py2.7-macosx-10.10-x86_64.egg', '/usr/local/lib/python2.7/site-packages/xlutils-1.7.1-py2.7.egg', '/usr/local/lib/python2.7/site-packages/xlwt-1.0.0-py2.7.egg', '/usr/local/lib/python2.7/site-packages/xlrd-0.9.3-py2.7.egg', '/usr/local/lib/python2.7/site-packages/tornado-4.1-py2.7-macosx-10.10-x86_64.egg', '/usr/local/lib/python2.7/site-packages/backports.ssl_match_hostname-3.4.0.2-py2.7.egg', '/usr/local/lib/python2.7/site-packages/certifi-2015.4.28-py2.7.egg', '/usr/local/lib/python2.7/site-packages/pyOpenSSL-0.15.1-py2.7.egg', '/usr/local/lib/python2.7/site-packages/six-1.9.0-py2.7.egg', '/usr/local/lib/python2.7/site-packages/cryptography-0.9.1-py2.7-macosx-10.10-x86_64.egg', '/usr/local/lib/python2.7/site-packages/cffi-1.1.1-py2.7-macosx-10.10-x86_64.egg', '/usr/local/lib/python2.7/site-packages/ipaddress-1.0.7-py2.7.egg', '/usr/local/lib/python2.7/site-packages/enum34-1.0.4-py2.7.egg', '/usr/local/lib/python2.7/site-packages/pyasn1-0.1.7-py2.7.egg', '/usr/local/lib/python2.7/site-packages/idna-2.0-py2.7.egg', '/usr/local/lib/python2.7/site-packages/pycparser-2.13-py2.7.egg', '/usr/local/lib/python2.7/site-packages/Django-1.7.8-py2.7.egg', '/usr/local/lib/python2.7/site-packages/paramiko-1.10.1-py2.7.egg', '/usr/local/lib/python2.7/site-packages/gevent-1.0.2-py2.7-macosx-10.10-x86_64.egg', '/usr/local/lib/python2.7/site-packages/greenlet-0.4.7-py2.7-macosx-10.10-x86_64.egg', '/Users/wupeiqi/PycharmProjects/calculator', '/usr/local/Cellar/python/2.7.9/Frameworks/Python.framework/Versions/2.7/lib/python27.zip', '/usr/local/Cellar/python/2.7.9/Frameworks/Python.framework/Versions/2.7/lib/python2.7', '/usr/local/Cellar/python/2.7.9/Frameworks/Python.framework/Versions/2.7/lib/python2.7/plat-darwin', '/usr/local/Cellar/python/2.7.9/Frameworks/Python.framework/Versions/2.7/lib/python2.7/plat-mac', '/usr/local/Cellar/python/2.7.9/Frameworks/Python.framework/Versions/2.7/lib/python2.7/plat-mac/lib-scriptpackages', '/usr/local/Cellar/python/2.7.9/Frameworks/Python.framework/Versions/2.7/lib/python2.7/lib-tk', '/usr/local/Cellar/python/2.7.9/Frameworks/Python.framework/Versions/2.7/lib/python2.7/lib-old', '/usr/local/Cellar/python/2.7.9/Frameworks/Python.framework/Versions/2.7/lib/python2.7/lib-dynload', '/usr/local/lib/python2.7/site-packages', '/Library/Python/2.7/site-packages']
    

    如果sys.path路径列表没有你想要的路径,可以通过 sys.path.append('路径') 添加。

    import sys
    import os
    project_path = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))
    sys.path.append(project_path)
    

    模块

    内置模块是Python自带的功能,在使用内置模块相应的功能时,需要【先导入】再【使用】

    一、sys

    用于提供对Python解释器相关的操作:

    sys.argv           命令行参数List,第一个元素是程序本身路径
    sys.exit(n)        退出程序,正常退出时exit(0)
    sys.version        获取Python解释程序的版本信息
    sys.maxint         最大的Int值
    sys.path           返回模块的搜索路径,初始化时使用PYTHONPATH环境变量的值
    sys.platform       返回操作系统平台名称
    sys.stdin          输入相关
    sys.stdout         输出相关
    sys.stderror       错误相关
    
    import sys
    import time
    
    
    def view_bar(num, total):
        rate = float(num) / float(total)
        rate_num = int(rate * 100)
        r = '
    %d%%' % (rate_num, )
        sys.stdout.write(r)
        sys.stdout.flush()
    
    
    if __name__ == '__main__':
        for i in range(0, 100):
            time.sleep(0.1)
            view_bar(i, 100)
    进度百分比

    二、os

    用于提供系统级别的操作:

    os.getcwd()                 获取当前工作目录,即当前python脚本工作的目录路径
    os.chdir("dirname")         改变当前脚本工作目录;相当于shell下cd
    os.curdir                   返回当前目录: ('.')
    os.pardir                   获取当前目录的父目录字符串名:('..')
    os.makedirs('dir1/dir2')    可生成多层递归目录
    os.removedirs('dirname1')   若目录为空,则删除,并递归到上一级目录,如若也为空,则删除,依此类推
    os.mkdir('dirname')         生成单级目录;相当于shell中mkdir dirname
    os.rmdir('dirname')         删除单级空目录,若目录不为空则无法删除,报错;相当于shell中rmdir dirname
    os.listdir('dirname')       列出指定目录下的所有文件和子目录,包括隐藏文件,并以列表方式打印
    os.remove()                 删除一个文件
    os.rename("oldname","new")  重命名文件/目录
    os.stat('path/filename')    获取文件/目录信息
    os.sep                      操作系统特定的路径分隔符,win下为"\",Linux下为"/"
    os.linesep                  当前平台使用的行终止符,win下为"	
    ",Linux下为"
    "
    os.pathsep                  用于分割文件路径的字符串
    os.name                     字符串指示当前使用平台。win->'nt'; Linux->'posix'
    os.system("bash command")   运行shell命令,直接显示
    os.environ                  获取系统环境变量
    os.path.abspath(path)       返回path规范化的绝对路径
    os.path.split(path)         将path分割成目录和文件名二元组返回
    os.path.dirname(path)       返回path的目录。其实就是os.path.split(path)的第一个元素
    os.path.basename(path)      返回path最后的文件名。如何path以/或结尾,那么就会返回空值。即os.path.split(path)的第二个元素
    os.path.exists(path)        如果path存在,返回True;如果path不存在,返回False
    os.path.isabs(path)         如果path是绝对路径,返回True
    os.path.isfile(path)        如果path是一个存在的文件,返回True。否则返回False
    os.path.isdir(path)         如果path是一个存在的目录,则返回True。否则返回False
    os.path.join(path1[, path2[, ...]])  将多个路径组合后返回,第一个绝对路径之前的参数将被忽略
    os.path.getatime(path)      返回path所指向的文件或者目录的最后存取时间
    os.path.getmtime(path)      返回path所指向的文件或者目录的最后修改时间
    

    三、hashlib

    用于加密相关的操作,代替了md5模块和sha模块,主要提供 SHA1, SHA224, SHA256, SHA384, SHA512 ,MD5 算法

    import hashlib
    
    # ######## md5 ########
    hash = hashlib.md5()
    # help(hash.update)
    hash.update(bytes('admin', encoding='utf-8'))
    print(hash.hexdigest())
    print(hash.digest())
    
    
    ######## sha1 ########
    
    hash = hashlib.sha1()
    hash.update(bytes('admin', encoding='utf-8'))
    print(hash.hexdigest())
    
    # ######## sha256 ########
    
    hash = hashlib.sha256()
    hash.update(bytes('admin', encoding='utf-8'))
    print(hash.hexdigest())
    
    
    # ######## sha384 ########
    
    hash = hashlib.sha384()
    hash.update(bytes('admin', encoding='utf-8'))
    print(hash.hexdigest())
    
    # ######## sha512 ########
    
    hash = hashlib.sha512()
    hash.update(bytes('admin', encoding='utf-8'))
    print(hash.hexdigest())
    

    以上加密算法虽然依然非常厉害,但时候存在缺陷,即:通过撞库可以反解。所以,有必要对加密算法中添加自定义key再来做加密。

    import hashlib
    
    # ######## md5 ########
    
    hash = hashlib.md5(bytes('898oaFs09f',encoding="utf-8"))
    hash.update(bytes('admin',encoding="utf-8"))
    print(hash.hexdigest())
    

    python内置还有一个 hmac 模块,它内部对我们创建 key 和 内容 进行进一步的处理然后再加密

    import hmac
    
    h = hmac.new(bytes('898oaFs09f',encoding="utf-8"))
    h.update(bytes('admin',encoding="utf-8"))
    print(h.hexdigest())
    

    四、random

    import random
    
    print(random.random())
    print(random.randint(1, 2))
    print(random.randrange(1, 10))
    
    import random
    checkcode = ''
    for i in range(4):
        current = random.randrange(0,4)
        if current != i:
            temp = chr(random.randint(65,90))
        else:
            temp = random.randint(0,9)
        checkcode += str(temp)
    print checkcode
    随机验证码

    五、re

    python中re模块提供了正则表达式相关操作

    字符:

      . 匹配除换行符以外的任意字符
      w 匹配字母或数字或下划线或汉字
      s 匹配任意的空白符
      d 匹配数字
       匹配单词的开始或结束
      ^ 匹配字符串的开始
      $ 匹配字符串的结束

    次数:

      * 重复零次或更多次
      + 重复一次或更多次
      ? 重复零次或一次
      {n} 重复n次
      {n,} 重复n次或更多次
      {n,m} 重复n到m次

    match

           # match,从起始位置开始匹配,匹配成功返回一个对象,未匹配成功返回None
    
    
            match(pattern, string, flags=0)
            # pattern: 正则模型
            # string : 要匹配的字符串
            # falgs  : 匹配模式
                X  VERBOSE     Ignore whitespace and comments for nicer looking RE's.
                I  IGNORECASE  Perform case-insensitive matching.
                M  MULTILINE   "^" matches the beginning of lines (after a newline)
                               as well as the string.
                               "$" matches the end of lines (before a newline) as well
                               as the end of the string.
                S  DOTALL      "." matches any character at all, including the newline.
    
                A  ASCII       For string patterns, make w, W, , B, d, D
                               match the corresponding ASCII character categories
                               (rather than the whole Unicode categories, which is the
                               default).
                               For bytes patterns, this flag is the only available
                               behaviour and needn't be specified.
                
                L  LOCALE      Make w, W, , B, dependent on the current locale.
                U  UNICODE     For compatibility only. Ignored for string patterns (it
                               is the default), and forbidden for bytes patterns.
            # 无分组
            r = re.match("hw+", origin)
            print(r.group())     # 获取匹配到的所有结果
            print(r.groups())    # 获取模型中匹配到的分组结果
            print(r.groupdict()) # 获取模型中匹配到的分组结果
    
            # 有分组
    
            # 为何要有分组?提取匹配成功的指定内容(先匹配成功全部正则,再匹配成功的局部内容提取出来)
    
            r = re.match("h(w+).*(?P<name>d)$", origin)
            print(r.group())     # 获取匹配到的所有结果
            print(r.groups())    # 获取模型中匹配到的分组结果
            print(r.groupdict()) # 获取模型中匹配到的分组中所有执行了key的组
    Demo

    search

    # search,浏览整个字符串去匹配第一个,未匹配成功返回None
    # search(pattern, string, flags=0)
            # 无分组
    
            r = re.search("aw+", origin)
            print(r.group())     # 获取匹配到的所有结果
            print(r.groups())    # 获取模型中匹配到的分组结果
            print(r.groupdict()) # 获取模型中匹配到的分组结果
    
            # 有分组
    
            r = re.search("a(w+).*(?P<name>d)$", origin)
            print(r.group())     # 获取匹配到的所有结果
            print(r.groups())    # 获取模型中匹配到的分组结果
            print(r.groupdict()) # 获取模型中匹配到的分组中所有执行了key的组
    demo

    findall

            # findall,获取非重复的匹配列表;如果有一个组则以列表形式返回,且每一个匹配均是字符串;如果模型中有多个组,则以列表形式返回,且每一个匹配均是元祖;
            # 空的匹配也会包含在结果中
            #findall(pattern, string, flags=0)
    
            # 无分组
            r = re.findall("aw+",origin)
            print(r)
    
            # 有分组
            origin = "hello alex bcd abcd lge acd 19"
            r = re.findall("a((w*)c)(d)", origin)
            print(r)
    Demo

    sub

            # sub,替换匹配成功的指定位置字符串
    
            sub(pattern, repl, string, count=0, flags=0)
            # pattern: 正则模型
            # repl   : 要替换的字符串或可执行对象
            # string : 要匹配的字符串
            # count  : 指定匹配个数
            # flags  : 匹配模式
    
            # 与分组无关
    
            origin = "hello alex bcd alex lge alex acd 19"
            r = re.sub("aw+", "999", origin, 2)
            print(r)
    Demo

    split

            # split,根据正则匹配分割字符串
    
            split(pattern, string, maxsplit=0, flags=0)
            # pattern: 正则模型
            # string : 要匹配的字符串
            # maxsplit:指定分割个数
            # flags  : 匹配模式
    
            # 无分组
            origin = "hello alex bcd alex lge alex acd 19"
            r = re.split("alex", origin, 1)
            print(r)
    
            # 有分组
            
            origin = "hello alex bcd alex lge alex acd 19"
            r1 = re.split("(alex)", origin, 1)
            print(r1)
            r2 = re.split("(al(ex))", origin, 1)
            print(r2)
    Demo
    IP:
    ^(25[0-5]|2[0-4]d|[0-1]?d?d)(.(25[0-5]|2[0-4]d|[0-1]?d?d)){3}$
    手机号:
    ^1[3|4|5|8][0-9]d{8}$
    邮箱:
    [a-zA-Z0-9_-]+@[a-zA-Z0-9_-]+(.[a-zA-Z0-9_-]+)+
    常用正则表达式

    六、序列化

    Python中用于序列化的两个模块

    • json     用于【字符串】和 【python基本数据类型】 间进行转换
    • pickle   用于【python特有的类型】 和 【python基本数据类型】间进行转换

    Json模块提供了四个功能:dumps、dump、loads、load

    pickle模块提供了四个功能:dumps、dump、loads、load

     

    七、configparser

    configparser用于处理特定格式的文件,其本质上是利用open来操作文件。

    # 注释1
    ;  注释2
     
    [section1] # 节点
    k1 = v1    # 值
    k2:v2       # 值
     
    [section2] # 节点
    k1 = v1    # 值
    指定格式

    1、获取所有节点

    import configparser
    
    config = configparser.ConfigParser()
    config.read('xxxooo', encoding='utf-8')
    ret = config.sections()
    print(ret)
    

    2、获取指定节点下所有的键值对

    import configparser
    
    config = configparser.ConfigParser()
    config.read('xxxooo', encoding='utf-8')
    ret = config.items('section1')
    print(ret)
    

    3、获取指定节点下所有的建

    import configparser
    
    config = configparser.ConfigParser()
    config.read('xxxooo', encoding='utf-8')
    ret = config.options('section1')
    print(ret)
    

    4、获取指定节点下指定key的值

    import configparser
    
    config = configparser.ConfigParser()
    config.read('xxxooo', encoding='utf-8')
    
    
    v = config.get('section1', 'k1')
    # v = config.getint('section1', 'k1')
    # v = config.getfloat('section1', 'k1')
    # v = config.getboolean('section1', 'k1')
    
    print(v)

    5、检查、删除、添加节点

    import configparser
    
    config = configparser.ConfigParser()
    config.read('xxxooo', encoding='utf-8')
    
    
    # 检查
    has_sec = config.has_section('section1')
    print(has_sec)
    
    # 添加节点
    config.add_section("SEC_1")
    config.write(open('xxxooo', 'w'))
    
    # 删除节点
    config.remove_section("SEC_1")
    config.write(open('xxxooo', 'w'))
    

    6、检查、删除、设置指定组内的键值对

    import configparser
    
    config = configparser.ConfigParser()
    config.read('xxxooo', encoding='utf-8')
    
    # 检查
    has_opt = config.has_option('section1', 'k1')
    print(has_opt)
    
    # 删除
    config.remove_option('section1', 'k1')
    config.write(open('xxxooo', 'w'))
    
    # 设置
    config.set('section1', 'k10', "123")
    config.write(open('xxxooo', 'w'))
    

    八、XML

    XML是实现不同语言或程序之间进行数据交换的协议,XML文件格式如下:

    <data>
        <country name="Liechtenstein">
            <rank updated="yes">2</rank>
            <year>2023</year>
            <gdppc>141100</gdppc>
            <neighbor direction="E" name="Austria" />
            <neighbor direction="W" name="Switzerland" />
        </country>
        <country name="Singapore">
            <rank updated="yes">5</rank>
            <year>2026</year>
            <gdppc>59900</gdppc>
            <neighbor direction="N" name="Malaysia" />
        </country>
        <country name="Panama">
            <rank updated="yes">69</rank>
            <year>2026</year>
            <gdppc>13600</gdppc>
            <neighbor direction="W" name="Costa Rica" />
            <neighbor direction="E" name="Colombia" />
        </country>
    </data>

    1、解析XML

    from xml.etree import ElementTree as ET
    
    
    # 打开文件,读取XML内容
    str_xml = open('xo.xml', 'r').read()
    
    # 将字符串解析成xml特殊对象,root代指xml文件的根节点
    root = ET.XML(str_xml)
    利用ElementTree.XML将字符串解析成xml对象
    from xml.etree import ElementTree as ET
    
    # 直接解析xml文件
    tree = ET.parse("xo.xml")
    
    # 获取xml文件的根节点
    root = tree.getroot()
    利用ElementTree.parse将文件直接解析成xml对象

    2、操作XML

    XML格式类型是节点嵌套节点,对于每一个节点均有以下功能,以便对当前节点进行操作:

    class Element:
        """An XML element.
    
        This class is the reference implementation of the Element interface.
    
        An element's length is its number of subelements.  That means if you
        want to check if an element is truly empty, you should check BOTH
        its length AND its text attribute.
    
        The element tag, attribute names, and attribute values can be either
        bytes or strings.
    
        *tag* is the element name.  *attrib* is an optional dictionary containing
        element attributes. *extra* are additional element attributes given as
        keyword arguments.
    
        Example form:
            <tag attrib>text<child/>...</tag>tail
    
        """
    
        当前节点的标签名
        tag = None
        """The element's name."""
    
        当前节点的属性
    
        attrib = None
        """Dictionary of the element's attributes."""
    
        当前节点的内容
        text = None
        """
        Text before first subelement. This is either a string or the value None.
        Note that if there is no text, this attribute may be either
        None or the empty string, depending on the parser.
    
        """
    
        tail = None
        """
        Text after this element's end tag, but before the next sibling element's
        start tag.  This is either a string or the value None.  Note that if there
        was no text, this attribute may be either None or an empty string,
        depending on the parser.
    
        """
    
        def __init__(self, tag, attrib={}, **extra):
            if not isinstance(attrib, dict):
                raise TypeError("attrib must be dict, not %s" % (
                    attrib.__class__.__name__,))
            attrib = attrib.copy()
            attrib.update(extra)
            self.tag = tag
            self.attrib = attrib
            self._children = []
    
        def __repr__(self):
            return "<%s %r at %#x>" % (self.__class__.__name__, self.tag, id(self))
    
        def makeelement(self, tag, attrib):
            创建一个新节点
            """Create a new element with the same type.
    
            *tag* is a string containing the element name.
            *attrib* is a dictionary containing the element attributes.
    
            Do not call this method, use the SubElement factory function instead.
    
            """
            return self.__class__(tag, attrib)
    
        def copy(self):
            """Return copy of current element.
    
            This creates a shallow copy. Subelements will be shared with the
            original tree.
    
            """
            elem = self.makeelement(self.tag, self.attrib)
            elem.text = self.text
            elem.tail = self.tail
            elem[:] = self
            return elem
    
        def __len__(self):
            return len(self._children)
    
        def __bool__(self):
            warnings.warn(
                "The behavior of this method will change in future versions.  "
                "Use specific 'len(elem)' or 'elem is not None' test instead.",
                FutureWarning, stacklevel=2
                )
            return len(self._children) != 0 # emulate old behaviour, for now
    
        def __getitem__(self, index):
            return self._children[index]
    
        def __setitem__(self, index, element):
            # if isinstance(index, slice):
            #     for elt in element:
            #         assert iselement(elt)
            # else:
            #     assert iselement(element)
            self._children[index] = element
    
        def __delitem__(self, index):
            del self._children[index]
    
        def append(self, subelement):
            为当前节点追加一个子节点
            """Add *subelement* to the end of this element.
    
            The new element will appear in document order after the last existing
            subelement (or directly after the text, if it's the first subelement),
            but before the end tag for this element.
    
            """
            self._assert_is_element(subelement)
            self._children.append(subelement)
    
        def extend(self, elements):
            为当前节点扩展 n 个子节点
            """Append subelements from a sequence.
    
            *elements* is a sequence with zero or more elements.
    
            """
            for element in elements:
                self._assert_is_element(element)
            self._children.extend(elements)
    
        def insert(self, index, subelement):
            在当前节点的子节点中插入某个节点,即:为当前节点创建子节点,然后插入指定位置
            """Insert *subelement* at position *index*."""
            self._assert_is_element(subelement)
            self._children.insert(index, subelement)
    
        def _assert_is_element(self, e):
            # Need to refer to the actual Python implementation, not the
            # shadowing C implementation.
            if not isinstance(e, _Element_Py):
                raise TypeError('expected an Element, not %s' % type(e).__name__)
    
        def remove(self, subelement):
            在当前节点在子节点中删除某个节点
            """Remove matching subelement.
    
            Unlike the find methods, this method compares elements based on
            identity, NOT ON tag value or contents.  To remove subelements by
            other means, the easiest way is to use a list comprehension to
            select what elements to keep, and then use slice assignment to update
            the parent element.
    
            ValueError is raised if a matching element could not be found.
    
            """
            # assert iselement(element)
            self._children.remove(subelement)
    
        def getchildren(self):
            获取所有的子节点(废弃)
            """(Deprecated) Return all subelements.
    
            Elements are returned in document order.
    
            """
            warnings.warn(
                "This method will be removed in future versions.  "
                "Use 'list(elem)' or iteration over elem instead.",
                DeprecationWarning, stacklevel=2
                )
            return self._children
    
        def find(self, path, namespaces=None):
            获取第一个寻找到的子节点
            """Find first matching element by tag name or path.
    
            *path* is a string having either an element tag or an XPath,
            *namespaces* is an optional mapping from namespace prefix to full name.
    
            Return the first matching element, or None if no element was found.
    
            """
            return ElementPath.find(self, path, namespaces)
    
        def findtext(self, path, default=None, namespaces=None):
            获取第一个寻找到的子节点的内容
            """Find text for first matching element by tag name or path.
    
            *path* is a string having either an element tag or an XPath,
            *default* is the value to return if the element was not found,
            *namespaces* is an optional mapping from namespace prefix to full name.
    
            Return text content of first matching element, or default value if
            none was found.  Note that if an element is found having no text
            content, the empty string is returned.
    
            """
            return ElementPath.findtext(self, path, default, namespaces)
    
        def findall(self, path, namespaces=None):
            获取所有的子节点
            """Find all matching subelements by tag name or path.
    
            *path* is a string having either an element tag or an XPath,
            *namespaces* is an optional mapping from namespace prefix to full name.
    
            Returns list containing all matching elements in document order.
    
            """
            return ElementPath.findall(self, path, namespaces)
    
        def iterfind(self, path, namespaces=None):
            获取所有指定的节点,并创建一个迭代器(可以被for循环)
            """Find all matching subelements by tag name or path.
    
            *path* is a string having either an element tag or an XPath,
            *namespaces* is an optional mapping from namespace prefix to full name.
    
            Return an iterable yielding all matching elements in document order.
    
            """
            return ElementPath.iterfind(self, path, namespaces)
    
        def clear(self):
            清空节点
            """Reset element.
    
            This function removes all subelements, clears all attributes, and sets
            the text and tail attributes to None.
    
            """
            self.attrib.clear()
            self._children = []
            self.text = self.tail = None
    
        def get(self, key, default=None):
            获取当前节点的属性值
            """Get element attribute.
    
            Equivalent to attrib.get, but some implementations may handle this a
            bit more efficiently.  *key* is what attribute to look for, and
            *default* is what to return if the attribute was not found.
    
            Returns a string containing the attribute value, or the default if
            attribute was not found.
    
            """
            return self.attrib.get(key, default)
    
        def set(self, key, value):
            为当前节点设置属性值
            """Set element attribute.
    
            Equivalent to attrib[key] = value, but some implementations may handle
            this a bit more efficiently.  *key* is what attribute to set, and
            *value* is the attribute value to set it to.
    
            """
            self.attrib[key] = value
    
        def keys(self):
            获取当前节点的所有属性的 key
    
            """Get list of attribute names.
    
            Names are returned in an arbitrary order, just like an ordinary
            Python dict.  Equivalent to attrib.keys()
    
            """
            return self.attrib.keys()
    
        def items(self):
            获取当前节点的所有属性值,每个属性都是一个键值对
            """Get element attributes as a sequence.
    
            The attributes are returned in arbitrary order.  Equivalent to
            attrib.items().
    
            Return a list of (name, value) tuples.
    
            """
            return self.attrib.items()
    
        def iter(self, tag=None):
            在当前节点的子孙中根据节点名称寻找所有指定的节点,并返回一个迭代器(可以被for循环)。
            """Create tree iterator.
    
            The iterator loops over the element and all subelements in document
            order, returning all elements with a matching tag.
    
            If the tree structure is modified during iteration, new or removed
            elements may or may not be included.  To get a stable set, use the
            list() function on the iterator, and loop over the resulting list.
    
            *tag* is what tags to look for (default is to return all elements)
    
            Return an iterator containing all the matching elements.
    
            """
            if tag == "*":
                tag = None
            if tag is None or self.tag == tag:
                yield self
            for e in self._children:
                yield from e.iter(tag)
    
        # compatibility
        def getiterator(self, tag=None):
            # Change for a DeprecationWarning in 1.4
            warnings.warn(
                "This method will be removed in future versions.  "
                "Use 'elem.iter()' or 'list(elem.iter())' instead.",
                PendingDeprecationWarning, stacklevel=2
            )
            return list(self.iter(tag))
    
        def itertext(self):
            在当前节点的子孙中根据节点名称寻找所有指定的节点的内容,并返回一个迭代器(可以被for循环)。
            """Create text iterator.
    
            The iterator loops over the element and all subelements in document
            order, returning all inner text.
    
            """
            tag = self.tag
            if not isinstance(tag, str) and tag is not None:
                return
            if self.text:
                yield self.text
            for e in self:
                yield from e.itertext()
                if e.tail:
                    yield e.tail
    节点功能一览表

    由于 每个节点 都具有以上的方法,并且在上一步骤中解析时均得到了root(xml文件的根节点),so   可以利用以上方法进行操作xml文件。

    a. 遍历XML文档的所有内容

    from xml.etree import ElementTree as ET
    
    ############ 解析方式一 ############
    """
    # 打开文件,读取XML内容
    str_xml = open('xo.xml', 'r').read()
    
    # 将字符串解析成xml特殊对象,root代指xml文件的根节点
    root = ET.XML(str_xml)
    """
    ############ 解析方式二 ############
    
    # 直接解析xml文件
    tree = ET.parse("xo.xml")
    
    # 获取xml文件的根节点
    root = tree.getroot()
    
    
    ### 操作
    
    # 顶层标签
    print(root.tag)
    
    
    # 遍历XML文档的第二层
    for child in root:
        # 第二层节点的标签名称和标签属性
        print(child.tag, child.attrib)
        # 遍历XML文档的第三层
        for i in child:
            # 第二层节点的标签名称和内容
            print(i.tag,i.text)
    View Code

    b、遍历XML中指定的节点

    from xml.etree import ElementTree as ET
    
    ############ 解析方式一 ############
    """
    # 打开文件,读取XML内容
    str_xml = open('xo.xml', 'r').read()
    
    # 将字符串解析成xml特殊对象,root代指xml文件的根节点
    root = ET.XML(str_xml)
    """
    ############ 解析方式二 ############
    
    # 直接解析xml文件
    tree = ET.parse("xo.xml")
    
    # 获取xml文件的根节点
    root = tree.getroot()
    
    
    ### 操作
    
    # 顶层标签
    print(root.tag)
    
    
    # 遍历XML中所有的year节点
    for node in root.iter('year'):
        # 节点的标签名称和内容
        print(node.tag, node.text)
    View Code

    c、修改节点内容

    由于修改的节点时,均是在内存中进行,其不会影响文件中的内容。所以,如果想要修改,则需要重新将内存中的内容写到文件。

    from xml.etree import ElementTree as ET
    
    ############ 解析方式一 ############
    
    # 打开文件,读取XML内容
    str_xml = open('xo.xml', 'r').read()
    
    # 将字符串解析成xml特殊对象,root代指xml文件的根节点
    root = ET.XML(str_xml)
    
    ############ 操作 ############
    
    # 顶层标签
    print(root.tag)
    
    # 循环所有的year节点
    for node in root.iter('year'):
        # 将year节点中的内容自增一
        new_year = int(node.text) + 1
        node.text = str(new_year)
    
        # 设置属性
        node.set('name', 'alex')
        node.set('age', '18')
        # 删除属性
        del node.attrib['name']
    
    
    ############ 保存文件 ############
    tree = ET.ElementTree(root)
    tree.write("newnew.xml", encoding='utf-8')
    解析字符串方式,修改,保存
    from xml.etree import ElementTree as ET
    
    ############ 解析方式二 ############
    
    # 直接解析xml文件
    tree = ET.parse("xo.xml")
    
    # 获取xml文件的根节点
    root = tree.getroot()
    
    ############ 操作 ############
    
    # 顶层标签
    print(root.tag)
    
    # 循环所有的year节点
    for node in root.iter('year'):
        # 将year节点中的内容自增一
        new_year = int(node.text) + 1
        node.text = str(new_year)
    
        # 设置属性
        node.set('name', 'alex')
        node.set('age', '18')
        # 删除属性
        del node.attrib['name']
    
    
    ############ 保存文件 ############
    tree.write("newnew.xml", encoding='utf-8')
    解析文件方式,修改,保存

    d、删除节点

    from xml.etree import ElementTree as ET
    
    ############ 解析字符串方式打开 ############
    
    # 打开文件,读取XML内容
    str_xml = open('xo.xml', 'r').read()
    
    # 将字符串解析成xml特殊对象,root代指xml文件的根节点
    root = ET.XML(str_xml)
    
    ############ 操作 ############
    
    # 顶层标签
    print(root.tag)
    
    # 遍历data下的所有country节点
    for country in root.findall('country'):
        # 获取每一个country节点下rank节点的内容
        rank = int(country.find('rank').text)
    
        if rank > 50:
            # 删除指定country节点
            root.remove(country)
    
    ############ 保存文件 ############
    tree = ET.ElementTree(root)
    tree.write("newnew.xml", encoding='utf-8')
    解析字符串方式打开,删除,保存
    from xml.etree import ElementTree as ET
    
    ############ 解析文件方式 ############
    
    # 直接解析xml文件
    tree = ET.parse("xo.xml")
    
    # 获取xml文件的根节点
    root = tree.getroot()
    
    ############ 操作 ############
    
    # 顶层标签
    print(root.tag)
    
    # 遍历data下的所有country节点
    for country in root.findall('country'):
        # 获取每一个country节点下rank节点的内容
        rank = int(country.find('rank').text)
    
        if rank > 50:
            # 删除指定country节点
            root.remove(country)
    
    ############ 保存文件 ############
    tree.write("newnew.xml", encoding='utf-8')
    解析文件方式打开,删除,保存

    3、创建XML文档

    from xml.etree import ElementTree as ET
    
    
    # 创建根节点
    root = ET.Element("famliy")
    
    
    # 创建节点大儿子
    son1 = ET.Element('son', {'name': '儿1'})
    # 创建小儿子
    son2 = ET.Element('son', {"name": '儿2'})
    
    # 在大儿子中创建两个孙子
    grandson1 = ET.Element('grandson', {'name': '儿11'})
    grandson2 = ET.Element('grandson', {'name': '儿12'})
    son1.append(grandson1)
    son1.append(grandson2)
    
    
    # 把儿子添加到根节点中
    root.append(son1)
    root.append(son1)
    
    tree = ET.ElementTree(root)
    tree.write('oooo.xml',encoding='utf-8', short_empty_elements=False)
    创建方式(一)
    from xml.etree import ElementTree as ET
    
    # 创建根节点
    root = ET.Element("famliy")
    
    
    # 创建大儿子
    # son1 = ET.Element('son', {'name': '儿1'})
    son1 = root.makeelement('son', {'name': '儿1'})
    # 创建小儿子
    # son2 = ET.Element('son', {"name": '儿2'})
    son2 = root.makeelement('son', {"name": '儿2'})
    
    # 在大儿子中创建两个孙子
    # grandson1 = ET.Element('grandson', {'name': '儿11'})
    grandson1 = son1.makeelement('grandson', {'name': '儿11'})
    # grandson2 = ET.Element('grandson', {'name': '儿12'})
    grandson2 = son1.makeelement('grandson', {'name': '儿12'})
    
    son1.append(grandson1)
    son1.append(grandson2)
    
    
    # 把儿子添加到根节点中
    root.append(son1)
    root.append(son1)
    
    tree = ET.ElementTree(root)
    tree.write('oooo.xml',encoding='utf-8', short_empty_elements=False)
    创建方式(二)
    from xml.etree import ElementTree as ET
    
    
    # 创建根节点
    root = ET.Element("famliy")
    
    
    # 创建节点大儿子
    son1 = ET.SubElement(root, "son", attrib={'name': '儿1'})
    # 创建小儿子
    son2 = ET.SubElement(root, "son", attrib={"name": "儿2"})
    
    # 在大儿子中创建一个孙子
    grandson1 = ET.SubElement(son1, "age", attrib={'name': '儿11'})
    grandson1.text = '孙子'
    
    
    et = ET.ElementTree(root)  #生成文档对象
    et.write("test.xml", encoding="utf-8", xml_declaration=True, short_empty_elements=False)
    创建方式(三)

    由于原生保存的XML时默认无缩进,如果想要设置缩进的话, 需要修改保存方式:

    from xml.etree import ElementTree as ET
    from xml.dom import minidom
    
    
    def prettify(elem):
        """将节点转换成字符串,并添加缩进。
        """
        rough_string = ET.tostring(elem, 'utf-8')
        reparsed = minidom.parseString(rough_string)
        return reparsed.toprettyxml(indent="	")
    
    # 创建根节点
    root = ET.Element("famliy")
    
    
    # 创建大儿子
    # son1 = ET.Element('son', {'name': '儿1'})
    son1 = root.makeelement('son', {'name': '儿1'})
    # 创建小儿子
    # son2 = ET.Element('son', {"name": '儿2'})
    son2 = root.makeelement('son', {"name": '儿2'})
    
    # 在大儿子中创建两个孙子
    # grandson1 = ET.Element('grandson', {'name': '儿11'})
    grandson1 = son1.makeelement('grandson', {'name': '儿11'})
    # grandson2 = ET.Element('grandson', {'name': '儿12'})
    grandson2 = son1.makeelement('grandson', {'name': '儿12'})
    
    son1.append(grandson1)
    son1.append(grandson2)
    
    
    # 把儿子添加到根节点中
    root.append(son1)
    root.append(son1)
    
    
    raw_str = prettify(root)
    
    f = open("xxxoo.xml",'w',encoding='utf-8')
    f.write(raw_str)
    f.close()
    View Code

    4、命名空间

    详细介绍,猛击这里

    from xml.etree import ElementTree as ET
    
    ET.register_namespace('com',"http://www.company.com") #some name
    
    # build a tree structure
    root = ET.Element("{http://www.company.com}STUFF")
    body = ET.SubElement(root, "{http://www.company.com}MORE_STUFF", attrib={"{http://www.company.com}hhh": "123"})
    body.text = "STUFF EVERYWHERE!"
    
    # wrap it in an ElementTree instance, and save as XML
    tree = ET.ElementTree(root)
    
    tree.write("page.xml",
               xml_declaration=True,
               encoding='utf-8',
               method="xml")
    命名空间

    九、requests

    Python标准库中提供了:urllib等模块以供Http请求,但是,它的 API 太渣了。它是为另一个时代、另一个互联网所创建的。它需要巨量的工作,甚至包括各种方法覆盖,来完成最简单的任务。

    import urllib.request
    
    
    f = urllib.request.urlopen('http://www.webxml.com.cn//webservices/qqOnlineWebService.asmx/qqCheckOnline?qqCode=424662508')
    result = f.read().decode('utf-8')
    发送GET请求
    import urllib.request
    
    req = urllib.request.Request('http://www.example.com/')
    req.add_header('Referer', 'http://www.python.org/')
    r = urllib.request.urlopen(req)
    
    result = f.read().decode('utf-8')
    发送携带请求头的GET请求

    注:更多见Python官方文档:https://docs.python.org/3.5/library/urllib.request.html#module-urllib.request

    Requests 是使用 Apache2 Licensed 许可证的 基于Python开发的HTTP 库,其在Python内置模块的基础上进行了高度的封装,从而使得Pythoner进行网络请求时,变得美好了许多,使用Requests可以轻而易举的完成浏览器可有的任何操作。

    1、安装模块

    pip3 install requests
    

    2、使用模块

    # 1、无参数实例
     
    import requests
     
    ret = requests.get('https://github.com/timeline.json')
     
    print(ret.url)
    print(ret.text)
     
     
     
    # 2、有参数实例
     
    import requests
     
    payload = {'key1': 'value1', 'key2': 'value2'}
    ret = requests.get("http://httpbin.org/get", params=payload)
     
    print(ret.url)
    print(ret.text)
    GET请求
    # 1、基本POST实例
     
    import requests
     
    payload = {'key1': 'value1', 'key2': 'value2'}
    ret = requests.post("http://httpbin.org/post", data=payload)
     
    print(ret.text)
     
     
    # 2、发送请求头和数据实例
     
    import requests
    import json
     
    url = 'https://api.github.com/some/endpoint'
    payload = {'some': 'data'}
    headers = {'content-type': 'application/json'}
     
    ret = requests.post(url, data=json.dumps(payload), headers=headers)
     
    print(ret.text)
    print(ret.cookies)
    POST请求
    requests.get(url, params=None, **kwargs)
    requests.post(url, data=None, json=None, **kwargs)
    requests.put(url, data=None, **kwargs)
    requests.head(url, **kwargs)
    requests.delete(url, **kwargs)
    requests.patch(url, data=None, **kwargs)
    requests.options(url, **kwargs)
     
    # 以上方法均是在此方法的基础上构建
    requests.request(method, url, **kwargs)
    其他请求

    更多requests模块相关的文档见:http://cn.python-requests.org/zh_CN/latest/

    3、Http请求和XML实例

    实例:检测QQ账号是否在线

    import urllib
    import requests
    from xml.etree import ElementTree as ET
    
    # 使用内置模块urllib发送HTTP请求,或者XML格式内容
    """
    f = urllib.request.urlopen('http://www.webxml.com.cn//webservices/qqOnlineWebService.asmx/qqCheckOnline?qqCode=424662508')
    result = f.read().decode('utf-8')
    """
    
    
    # 使用第三方模块requests发送HTTP请求,或者XML格式内容
    r = requests.get('http://www.webxml.com.cn//webservices/qqOnlineWebService.asmx/qqCheckOnline?qqCode=424662508')
    result = r.text
    
    # 解析XML格式内容
    node = ET.XML(result)
    
    # 获取内容
    if node.text == "Y":
        print("在线")
    else:
        print("离线")
    View Code

    实例:查看火车停靠信息

    import urllib
    import requests
    from xml.etree import ElementTree as ET
    
    # 使用内置模块urllib发送HTTP请求,或者XML格式内容
    """
    f = urllib.request.urlopen('http://www.webxml.com.cn/WebServices/TrainTimeWebService.asmx/getDetailInfoByTrainCode?TrainCode=G666&UserID=')
    result = f.read().decode('utf-8')
    """
    
    # 使用第三方模块requests发送HTTP请求,或者XML格式内容
    r = requests.get('http://www.webxml.com.cn/WebServices/TrainTimeWebService.asmx/getDetailInfoByTrainCode?TrainCode=G666&UserID=')
    result = r.text
    
    # 解析XML格式内容
    root = ET.XML(result)
    for node in root.iter('TrainDetailInfo'):
        print(node.find('TrainStation').text,node.find('StartTime').text,node.tag,node.attrib)
    View Code

    注:更多接口猛击这里

    十、logging

    用于便捷记录日志且线程安全的模块

    1、单文件日志

    import logging
     
     
    logging.basicConfig(filename='log.log',
                        format='%(asctime)s - %(name)s - %(levelname)s -%(module)s:  %(message)s',
                        datefmt='%Y-%m-%d %H:%M:%S %p',
                        level=10)
     
    logging.debug('debug')
    logging.info('info')
    logging.warning('warning')
    logging.error('error')
    logging.critical('critical')
    logging.log(10,'log')

    日志等级:

    CRITICAL = 50
    FATAL = CRITICAL
    ERROR = 40
    WARNING = 30
    WARN = WARNING
    INFO = 20
    DEBUG = 10
    NOTSET = 0

    注:只有【当前写等级】大于【日志等级】时,日志文件才被记录。

    日志记录格式:

    2、多文件日志

    对于上述记录日志的功能,只能将日志记录在单文件中,如果想要设置多个日志文件,logging.basicConfig将无法完成,需要自定义文件和日志操作对象。

    # 定义文件
    file_1_1 = logging.FileHandler('l1_1.log', 'a', encoding='utf-8')
    fmt = logging.Formatter(fmt="%(asctime)s - %(name)s - %(levelname)s -%(module)s:  %(message)s")
    file_1_1.setFormatter(fmt)
    
    file_1_2 = logging.FileHandler('l1_2.log', 'a', encoding='utf-8')
    fmt = logging.Formatter()
    file_1_2.setFormatter(fmt)
    
    # 定义日志
    logger1 = logging.Logger('s1', level=logging.ERROR)
    logger1.addHandler(file_1_1)
    logger1.addHandler(file_1_2)
    
    
    # 写日志
    logger1.critical('1111')
    日志一
    # 定义文件
    file_2_1 = logging.FileHandler('l2_1.log', 'a')
    fmt = logging.Formatter()
    file_2_1.setFormatter(fmt)
    
    # 定义日志
    logger2 = logging.Logger('s2', level=logging.INFO)
    logger2.addHandler(file_2_1)
    日志(二)

    如上述创建的两个日志对象

    • 当使用【logger1】写日志时,会将相应的内容写入 l1_1.log 和 l1_2.log 文件中
    • 当使用【logger2】写日志时,会将相应的内容写入 l2_1.log 文件中

    十一、系统命令

    可以执行shell命令的相关模块和函数有:

    • os.system
    • os.spawn*
    • os.popen*          --废弃
    • popen2.*           --废弃
    • commands.*      --废弃,3.x中被移除
    import commands
    
    result = commands.getoutput('cmd')
    result = commands.getstatus('cmd')
    result = commands.getstatusoutput('cmd')
    commands

    以上执行shell命令的相关的模块和函数的功能均在 subprocess 模块中实现,并提供了更丰富的功能。

    call 

    执行命令,返回状态码

    ret = subprocess.call(["ls", "-l"], shell=False)
    ret = subprocess.call("ls -l", shell=True)
    

    check_call

    执行命令,如果执行状态码是 0 ,则返回0,否则抛异常

    subprocess.check_call(["ls", "-l"])
    subprocess.check_call("exit 1", shell=True)
    

    check_output

    执行命令,如果状态码是 0 ,则返回执行结果,否则抛异常

    subprocess.check_output(["echo", "Hello World!"])
    subprocess.check_output("exit 1", shell=True)
    

    subprocess.Popen(...)

    用于执行复杂的系统命令

    参数:

    • args:shell命令,可以是字符串或者序列类型(如:list,元组)
    • bufsize:指定缓冲。0 无缓冲,1 行缓冲,其他 缓冲区大小,负值 系统缓冲
    • stdin, stdout, stderr:分别表示程序的标准输入、输出、错误句柄
    • preexec_fn:只在Unix平台下有效,用于指定一个可执行对象(callable object),它将在子进程运行之前被调用
    • close_sfs:在windows平台下,如果close_fds被设置为True,则新创建的子进程将不会继承父进程的输入、输出、错误管道。
      所以不能将close_fds设置为True同时重定向子进程的标准输入、输出与错误(stdin, stdout, stderr)。
    • shell:同上
    • cwd:用于设置子进程的当前目录
    • env:用于指定子进程的环境变量。如果env = None,子进程的环境变量将从父进程中继承。
    • universal_newlines:不同系统的换行符不同,True -> 同意使用
    • startupinfo与createionflags只在windows下有效
      将被传递给底层的CreateProcess()函数,用于设置子进程的一些属性,如:主窗口的外观,进程的优先级等等 
    import subprocess
    ret1 = subprocess.Popen(["mkdir","t1"])
    ret2 = subprocess.Popen("mkdir t2", shell=True)
    执行普通命令

    终端输入的命令分为两种:

    • 输入即可得到输出,如:ifconfig
    • 输入进行某环境,依赖再输入,如:python
    import subprocess
    
    obj = subprocess.Popen("mkdir t3", shell=True, cwd='/home/dev',)
    View Code
    import subprocess
    
    obj = subprocess.Popen(["python"], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE, universal_newlines=True)
    obj.stdin.write("print(1)
    ")
    obj.stdin.write("print(2)")
    obj.stdin.close()
    
    cmd_out = obj.stdout.read()
    obj.stdout.close()
    cmd_error = obj.stderr.read()
    obj.stderr.close()
    
    print(cmd_out)
    print(cmd_error)
    View Code
    import subprocess
    
    obj = subprocess.Popen(["python"], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE, universal_newlines=True)
    obj.stdin.write("print(1)
    ")
    obj.stdin.write("print(2)")
    
    out_error_list = obj.communicate()
    print(out_error_list)
    View Code
    import subprocess
    
    obj = subprocess.Popen(["python"], stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE, universal_newlines=True)
    out_error_list = obj.communicate('print("hello")')
    print(out_error_list)
    View Code

    十二、shutil

    高级的 文件、文件夹、压缩包 处理模块

    shutil.copyfileobj(fsrc, fdst[, length])
    将文件内容拷贝到另一个文件中

    import shutil
    
    shutil.copyfileobj(open('old.xml','r'), open('new.xml', 'w'))
    

    shutil.copyfile(src, dst)
    拷贝文件

    shutil.copyfile('f1.log', 'f2.log')
    

    shutil.copymode(src, dst)
    仅拷贝权限。内容、组、用户均不变

    shutil.copymode('f1.log', 'f2.log')
    

    shutil.copystat(src, dst)
    仅拷贝状态的信息,包括:mode bits, atime, mtime, flags

    shutil.copystat('f1.log', 'f2.log')
    

    shutil.copy(src, dst)
    拷贝文件和权限

    import shutil
    
    shutil.copy('f1.log', 'f2.log')
    

    shutil.copy2(src, dst)
    拷贝文件和状态信息

    import shutil
    
    shutil.copy2('f1.log', 'f2.log')
    

    shutil.ignore_patterns(*patterns)
    shutil.copytree(src, dst, symlinks=False, ignore=None)
    递归的去拷贝文件夹

    import shutil
    
    shutil.copytree('folder1', 'folder2', ignore=shutil.ignore_patterns('*.pyc', 'tmp*'))
    
    import shutil
    
    shutil.copytree('f1', 'f2', symlinks=True, ignore=shutil.ignore_patterns('*.pyc', 'tmp*'))
    View Code

    shutil.rmtree(path[, ignore_errors[, onerror]])
    递归的去删除文件

    import shutil
    
    shutil.rmtree('folder1')

    shutil.move(src, dst)
    递归的去移动文件,它类似mv命令,其实就是重命名。

    import shutil
    
    shutil.move('folder1', 'folder3')
    

    shutil.make_archive(base_name, format,...)

    创建压缩包并返回文件路径,例如:zip、tar

    创建压缩包并返回文件路径,例如:zip、tar

    • base_name: 压缩包的文件名,也可以是压缩包的路径。只是文件名时,则保存至当前目录,否则保存至指定路径,
      如:www                        =>保存至当前路径
      如:/Users/wupeiqi/www =>保存至/Users/wupeiqi/
    • format: 压缩包种类,“zip”, “tar”, “bztar”,“gztar”
    • root_dir: 要压缩的文件夹路径(默认当前目录)
    • owner: 用户,默认当前用户
    • group: 组,默认当前组
    • logger: 用于记录日志,通常是logging.Logger对象
    #将 /Users/wupeiqi/Downloads/test 下的文件打包放置当前程序目录
    import shutil
    ret = shutil.make_archive("wwwwwwwwww", 'gztar', root_dir='/Users/wupeiqi/Downloads/test')
     
     
    #将 /Users/wupeiqi/Downloads/test 下的文件打包放置 /Users/wupeiqi/目录
    import shutil
    ret = shutil.make_archive("/Users/wupeiqi/wwwwwwwwww", 'gztar', root_dir='/Users/wupeiqi/Downloads/test')
    

    shutil 对压缩包的处理是调用 ZipFile 和 TarFile 两个模块来进行的,详细:

    import zipfile
    
    # 压缩
    z = zipfile.ZipFile('laxi.zip', 'w')
    z.write('a.log')
    z.write('data.data')
    z.close()
    
    # 解压
    z = zipfile.ZipFile('laxi.zip', 'r')
    z.extractall()
    z.close()
    zipfile解压缩
    import tarfile
    
    # 压缩
    tar = tarfile.open('your.tar','w')
    tar.add('/Users/wupeiqi/PycharmProjects/bbs2.log', arcname='bbs2.log')
    tar.add('/Users/wupeiqi/PycharmProjects/cmdb.log', arcname='cmdb.log')
    tar.close()
    
    # 解压
    tar = tarfile.open('your.tar','r')
    tar.extractall()  # 可设置解压地址
    tar.close()
    tarfile解压缩

    十三、paramiko

    paramiko是一个用于做远程控制的模块,使用该模块可以对远程服务器进行命令或文件操作,值得一说的是,fabric和ansible内部的远程管理就是使用的paramiko来现实。

    1、下载安装

    pycrypto,由于 paramiko 模块内部依赖pycrypto,所以先下载安装pycrypto
    pip3 install pycrypto
    pip3 install paramiko
    

    2、模块使用

    #!/usr/bin/env python
    #coding:utf-8
    
    import paramiko
    
    ssh = paramiko.SSHClient()
    ssh.set_missing_host_key_policy(paramiko.AutoAddPolicy())
    ssh.connect('192.168.1.108', 22, 'alex', '123')
    stdin, stdout, stderr = ssh.exec_command('df')
    print stdout.read()
    ssh.close();
    执行命令 - 用户名+密码
    import paramiko
    
    private_key_path = '/home/auto/.ssh/id_rsa'
    key = paramiko.RSAKey.from_private_key_file(private_key_path)
    
    ssh = paramiko.SSHClient()
    ssh.set_missing_host_key_policy(paramiko.AutoAddPolicy())
    ssh.connect('主机名 ', 端口, '用户名', key)
    
    stdin, stdout, stderr = ssh.exec_command('df')
    print stdout.read()
    ssh.close()
    执行命令 - 密钥
    import os,sys
    import paramiko
    
    t = paramiko.Transport(('182.92.219.86',22))
    t.connect(username='wupeiqi',password='123')
    sftp = paramiko.SFTPClient.from_transport(t)
    sftp.put('/tmp/test.py','/tmp/test.py') 
    t.close()
    
    
    import os,sys
    import paramiko
    
    t = paramiko.Transport(('182.92.219.86',22))
    t.connect(username='wupeiqi',password='123')
    sftp = paramiko.SFTPClient.from_transport(t)
    sftp.get('/tmp/test.py','/tmp/test2.py')
    t.close()
    上传或下载文件 - 用户名+密码
    import paramiko
    
    pravie_key_path = '/home/auto/.ssh/id_rsa'
    key = paramiko.RSAKey.from_private_key_file(pravie_key_path)
    
    t = paramiko.Transport(('182.92.219.86',22))
    t.connect(username='wupeiqi',pkey=key)
    
    sftp = paramiko.SFTPClient.from_transport(t)
    sftp.put('/tmp/test3.py','/tmp/test3.py') 
    
    t.close()
    
    import paramiko
    
    pravie_key_path = '/home/auto/.ssh/id_rsa'
    key = paramiko.RSAKey.from_private_key_file(pravie_key_path)
    
    t = paramiko.Transport(('182.92.219.86',22))
    t.connect(username='wupeiqi',pkey=key)
    
    sftp = paramiko.SFTPClient.from_transport(t)
    sftp.get('/tmp/test3.py','/tmp/test4.py') 
    
    t.close()
    上传或下载文件 - 密钥

    十四、time

    时间相关的操作,时间有三种表示方式:

    • 时间戳               1970年1月1日之后的秒,即:time.time()
    • 格式化的字符串    2014-11-11 11:11,    即:time.strftime('%Y-%m-%d')
    • 结构化时间          元组包含了:年、日、星期等... time.struct_time    即:time.localtime()
    print time.time()
    print time.mktime(time.localtime())
      
    print time.gmtime()    #可加时间戳参数
    print time.localtime() #可加时间戳参数
    print time.strptime('2014-11-11', '%Y-%m-%d')
      
    print time.strftime('%Y-%m-%d') #默认当前时间
    print time.strftime('%Y-%m-%d',time.localtime()) #默认当前时间
    print time.asctime()
    print time.asctime(time.localtime())
    print time.ctime(time.time())
      
    import datetime
    '''
    datetime.date:表示日期的类。常用的属性有year, month, day
    datetime.time:表示时间的类。常用的属性有hour, minute, second, microsecond
    datetime.datetime:表示日期时间
    datetime.timedelta:表示时间间隔,即两个时间点之间的长度
    timedelta([days[, seconds[, microseconds[, milliseconds[, minutes[, hours[, weeks]]]]]]])
    strftime("%Y-%m-%d")
    '''
    import datetime
    print datetime.datetime.now()
    print datetime.datetime.now() - datetime.timedelta(days=5)
    
        %Y  Year with century as a decimal number.
        %m  Month as a decimal number [01,12].
        %d  Day of the month as a decimal number [01,31].
        %H  Hour (24-hour clock) as a decimal number [00,23].
        %M  Minute as a decimal number [00,59].
        %S  Second as a decimal number [00,61].
        %z  Time zone offset from UTC.
        %a  Locale's abbreviated weekday name.
        %A  Locale's full weekday name.
        %b  Locale's abbreviated month name.
        %B  Locale's full month name.
        %c  Locale's appropriate date and time representation.
        %I  Hour (12-hour clock) as a decimal number [01,12].
        %p  Locale's equivalent of either AM or PM.
    格式化占位符

    转自:http://www.cnblogs.com/wupeiqi/articles/5501365.html

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  • 原文地址:https://www.cnblogs.com/Rcsec/p/8808323.html
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