Summary of operation methods in the os.path path module in Python-Python Tutorial-php.cn

Home

Backend Development

Python Tutorial

Summary of operation methods in the os.path path module in Python

WBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWB

Jul 22, 2016 am 08:56 AM

pythonfolderTable of contents

解析路径
路径解析依赖与os中定义的一些变量：

os.sep-路径各部分之间的分隔符。
os.extsep-文件名与文件扩展名之间的分隔符。
os.pardir-路径中表示目录树上一级的部分。
os.curdir-路径中当前目录的部分。

split()函数将路径分解为两个单独的部分，并返回包含这些结果的tuple。第二个元素是路径的最后部分，地一个元素是其他部分。

import os.path
for path in [ '/one/two/three',
        '/one/two/three/',
        '/',
        '.',
        '']:
  print '%15s : %s' % (path, os.path.split(path))

输入参数以os.sep结尾时，最后一个元素是空串。

输出：

 /one/two/three : ('/one/two', 'three')
/one/two/three/ : ('/one/two/three', '')
       / : ('/', '')
       . : ('', '.')
        : ('', '')

basename()函数返回的值等价与split()值的第二部分。

import os.path
for path in [ '/one/two/three',
        '/one/two/three/',
        '/',
        '.',
        '']:
  print '%15s : %s' % (path, os.path.basename(path))

整个路径会剥除到只剩下最后一个元素。

输出：

 /one/two/three : three
/one/two/three/ : 
       / : 
       . : .
        :

dirname()函数返回分解路径得到的第一部分。

import os.path
for path in [ '/one/two/three',
        '/one/two/three/',
        '/',
        '.',
        '']:
  print '%15s : %s' % (path, os.path.dirname(path))

将basename()与dirname()结合，得到原来的路径。

 /one/two/three : /one/two
/one/two/three/ : /one/two/three
       / : /
       . : 
        :

splitext()作用类似与split(),不过它会根据扩展名分隔符而不是目录分隔符来分解路径。import os.path

for path in [ '/one.txt',
        '/one/two/three.txt',
        '/',
        '.',
        ''
        'two.tar.gz']:

  print '%21s : %s' % (path, os.path.splitext(path))

查找扩展名时，只使用os.extsep的最后一次出现。

       /one.txt : ('/one', '.txt')
  /one/two/three.txt : ('/one/two/three', '.txt')
          / : ('/', '')
          . : ('.', '')
      two.tar.gz : ('two.tar', '.gz')

commonprefix()取一个路径列表作为参数，返回一个字符串，表示所有路径中出现的公共前缀。

import os.path
paths = [ '/one/two/three',
      '/one/two/threetxt',
      '/one/two/three/four',]
for path in paths:
  print 'PATH:', path

print
print 'PREFIX:', os.path.commonprefix(paths)

输出：

PATH: /one/two/three
PATH: /one/two/threetxt
PATH: /one/two/three/four

PREFIX: /one/two/three

建立路径
除了分解现有路径外，还需要从其他字符串建立路径，使用join()。

import os.path
for parts in [ ('one', 'two', 'three'),
      ('\one', 'two', 'three'),
      ('/one', '/two', '/three', '/four'),]:

  print parts, ':', os.path.join(*parts)

如果要连接的某个参数以os.sep开头，前面所有参数都会丢弃，参数会返回值的开始部分。

('one', 'two', 'three') : one\two\three
('\\one', 'two', 'three') : \one\two\three
('/one', '/two', '/three', '/four') : /four

规范化路径
使用join()或利用嵌入变量由单独的字符串组合路径时，得到的路径最后可能会有多余的分隔符或者相对路径部分，使用normpath()可以清除这些内容。

import os.path
for path in [ 'one/two/three',
       'one/./two/three',
       'one/../alt/two/three',
       ]:
  print '%20s : %s' % (path, os.path.normpath(path))

可以计算并压缩有os.curdir和os.pardir构成的路径段。

    one/two/three : one\two\three
   one/./two/three : one\two\three
one/../alt/two/three : alt\two\three

要把一个相对路径转换为一个绝对文件名，可以使用abspath()。

import os.path
for path in [ '.',
       '..',
       'one/two/three',
       'one/./two/three',
       'one/../alt/two/three',
       ]:
  print '%20s : %s' % (path, os.path.abspath(path))

结果是从一个文件系统树最顶层开始的完整路径。

          . : C:\Users\Administrator\Desktop
         .. : C:\Users\Administrator
    one/two/three : C:\Users\Administrator\Desktop\one\two\three
   one/./two/three : C:\Users\Administrator\Desktop\one\two\three
one/../alt/two/three : C:\Users\Administrator\Desktop\alt\two\three

文件时间

import os
import time
print 'File:', __file__
print 'Access time:', time.ctime(os.path.getatime(__file__))
print 'Modified time:', time.ctime(os.path.getmtime(__file__))
print 'Change time:', time.ctime(os.path.getctime(__time__))
print 'Size:', os.path.getsize(__file__)

返回访问时间，修改时间，创建时间，文件中的数据量。

测试文件
程序遇到一个路径名，通常需要知道这个路径的一些信息。

import os.path
filename = r'C:\Users\Administrator\Desktop\tmp'
print 'File    :', filename
print 'Is file&#63;   :', os.path.isfile(filename)
print 'Absoulute  :', os.path.isabs(filename)
print 'Is dir&#63;   :', os.path.isdir(filename)
print 'Is link&#63;   :', os.path.islink(filename)
print 'Mountpoint&#63; :', os.path.ismount(filename)
print 'Exists&#63;    :', os.path.exists(filename)
print 'Link Exists&#63; :', os.path.lexists(filename)

所有测试都返回布尔值。

File    : C:\Users\Administrator\Desktop\tmp
Is file&#63;   : False
Absoulute  : True
Is dir&#63;   : True
Is link&#63;   : False
Mountpoint&#63; : False
Exists&#63;    : True
Link Exists&#63; : True

遍历一个目录树

import os
import os.path
import pprint
def visit(arg, dirname, names):
  print dirname, arg
  for name in names:
    subname = os.path.join(dirname, name)
    if os.path.isdir(subname):
      print '%s/' % name 
    else:
      print ' %s' % name
  print
if not os.path.exists('example'):
  os.mkdir('example')
if not os.path.exists('example/one'):
  os.mkdir('example/one')
with open('example/one/file.txt', 'wt') as f:
  f.write('i love you')
with open('example/one/another.txt', 'wt') as f:
  f.write('i love you, two')
os.path.walk('example', visit, '(User data)')

会生成一个递归的目录列表。

example (User data)
one/

example\one (User data)
 another.txt
 file.txt

一些实际的用法合集：

#创建文件：
os.mknod("test.txt")    创建空文件
fp = open("test.txt",w)   直接打开一个文件，如果文件不存在则创建文件
 
#获取扩展名：
>>> os.path.splitext('/Volumes/Leopard/Users/Caroline/Desktop/1.mp4')[1:]
('.mp4',)
>>> os.path.splitext('/Volumes/Leopard/Users/Caroline/Desktop/1.mp4')[1]
'.mp4'
 
#获取文件名：
>>> print os.path.basename(r'/root/hahaha/123.txt')
123.txt
>>> print os.path.dirname(r'/root/hahaha/123.txt')
/root/hahaha
 
#判断目录或文件的存在：
>>> os.path.exists('/root/1.py')
True
>>> os.path.exists('/root/')
True
>>> os.path.exists('/root')
True
>>> os.path.isdir('/root')
True
 
#改变工作目录：
>>> os.chdir('/home')
>>> os.getcwd()
'/home'
 
#字符串分割：
>>> '/usr/bin/env'.split('/')
['', 'usr', 'bin', 'env']
 
#获取文件夹大小（Python2.x）：
import os 
from os.path import join, getsize 
  
def getdirsize(dir): 
  size = 0L 
  for root, dirs, files in os.walk(dir): 
   size += sum([getsize(join(root, name)) for name in files]) 
  return size 
  
if __name__ == '__main__':
  filesize = getdirsize('/tmp') 
  print 'There are %.3f' % (filesize/1024/1024), 'Mbytes in /tmp' 
 
#获取文件夹大小（Python3.x）：
import os 
from os.path import join, getsize 
  
def getdirsize(dir): 
  size = 0 
  for root, dirs, files in os.walk(dir): 
   size += sum([getsize(join(root, name)) for name in files]) 
  return size 
  
if __name__ == '__main__':
  filesize = getdirsize('/tmp') 
  print ('There are ' + str(filesize/1024/1024) + 'Mbytes in /tmp')

Statement

The content of this article is voluntarily contributed by netizens, and the copyright belongs to the original author. This site does not assume corresponding legal responsibility. If you find any content suspected of plagiarism or infringement, please contact admin@php.cn

Python vs. C : Learning Curves and Ease of UseApr 19, 2025 am 12:20 AM

Python is easier to learn and use, while C is more powerful but complex. 1. Python syntax is concise and suitable for beginners. Dynamic typing and automatic memory management make it easy to use, but may cause runtime errors. 2.C provides low-level control and advanced features, suitable for high-performance applications, but has a high learning threshold and requires manual memory and type safety management.

Python vs. C : Memory Management and ControlApr 19, 2025 am 12:17 AM

Python and C have significant differences in memory management and control. 1. Python uses automatic memory management, based on reference counting and garbage collection, simplifying the work of programmers. 2.C requires manual management of memory, providing more control but increasing complexity and error risk. Which language to choose should be based on project requirements and team technology stack.

Python for Scientific Computing: A Detailed LookApr 19, 2025 am 12:15 AM

Python's applications in scientific computing include data analysis, machine learning, numerical simulation and visualization. 1.Numpy provides efficient multi-dimensional arrays and mathematical functions. 2. SciPy extends Numpy functionality and provides optimization and linear algebra tools. 3. Pandas is used for data processing and analysis. 4.Matplotlib is used to generate various graphs and visual results.

Python and C : Finding the Right ToolApr 19, 2025 am 12:04 AM

Whether to choose Python or C depends on project requirements: 1) Python is suitable for rapid development, data science, and scripting because of its concise syntax and rich libraries; 2) C is suitable for scenarios that require high performance and underlying control, such as system programming and game development, because of its compilation and manual memory management.

Python for Data Science and Machine LearningApr 19, 2025 am 12:02 AM

Python is widely used in data science and machine learning, mainly relying on its simplicity and a powerful library ecosystem. 1) Pandas is used for data processing and analysis, 2) Numpy provides efficient numerical calculations, and 3) Scikit-learn is used for machine learning model construction and optimization, these libraries make Python an ideal tool for data science and machine learning.

Learning Python: Is 2 Hours of Daily Study Sufficient?Apr 18, 2025 am 12:22 AM

Is it enough to learn Python for two hours a day? It depends on your goals and learning methods. 1) Develop a clear learning plan, 2) Select appropriate learning resources and methods, 3) Practice and review and consolidate hands-on practice and review and consolidate, and you can gradually master the basic knowledge and advanced functions of Python during this period.

Python for Web Development: Key ApplicationsApr 18, 2025 am 12:20 AM

Key applications of Python in web development include the use of Django and Flask frameworks, API development, data analysis and visualization, machine learning and AI, and performance optimization. 1. Django and Flask framework: Django is suitable for rapid development of complex applications, and Flask is suitable for small or highly customized projects. 2. API development: Use Flask or DjangoRESTFramework to build RESTfulAPI. 3. Data analysis and visualization: Use Python to process data and display it through the web interface. 4. Machine Learning and AI: Python is used to build intelligent web applications. 5. Performance optimization: optimized through asynchronous programming, caching and code

Python vs. C : Exploring Performance and EfficiencyApr 18, 2025 am 12:20 AM

Python is better than C in development efficiency, but C is higher in execution performance. 1. Python's concise syntax and rich libraries improve development efficiency. 2.C's compilation-type characteristics and hardware control improve execution performance. When making a choice, you need to weigh the development speed and execution efficiency based on project needs.

See all articles