This chapter covers all the basic I/O functions available in Python 3. For more functions, please refer to the standard Python documentation.
The simplest way to produce output is using the print statement where you can pass zero or more expressions separated by commas. This function converts the expressions you pass into a string and writes the result to standard output as follows −
#!/usr/bin/python3 print ("Python is really a great language,", "isn't it?")
This produces the following result on your standard screen −
Python is really a great language, isn't it?
Python 2 has two built-in functions to read data from standard input, which by default comes from the keyboard. These functions are input() and raw_input()
In Python 3, raw_input() function is deprecated. Moreover, input() functions read data from keyboard as string, irrespective of whether it is enclosed with quotes ('' or "" ) or not.
The input([prompt]) function is equivalent to raw_input, except that it assumes that the input is a valid Python expression and returns the evaluated result to you.
#!/usr/bin/python3 >>> x = input("something:") something:10 >>> x '10' >>> x = input("something:") something:'10' #entered data treated as string with or without '' >>> x "'10'"
Until now, you have been reading and writing to the standard input and output. Now, we will see how to use actual data files.
Python provides basic functions and methods necessary to manipulate files by default. You can do most of the file manipulation using a file object.
Before you can read or write a file, you have to open it using Python's built-in open() function. This function creates a file object, which would be utilized to call other support methods associated with it.
file object = open(file_name [, access_mode][, buffering])
Here are parameter details −
file_name − The file_name argument is a string value that contains the name of the file that you want to access.
access_mode − The access_mode determines the mode in which the file has to be opened, i.e., read, write, append, etc. A complete list of possible values is given below in the table. This is an optional parameter and the default file access mode is read (r).
buffering − If the buffering value is set to 0, no buffering takes place. If the buffering value is 1, line buffering is performed while accessing a file. If you specify the buffering value as an integer greater than 1, then buffering action is performed with the indicated buffer size. If negative, the buffer size is the system default(default behavior).
Here is a list of the different modes of opening a file −
Sr.No. | Mode & Description |
---|---|
1 | r Opens a file for reading only. The file pointer is placed at the beginning of the file. This is the default mode. |
2 | rb Opens a file for reading only in binary format. The file pointer is placed at the beginning of the file. This is the default mode. |
3 | r+ Opens a file for both reading and writing. The file pointer placed at the beginning of the file. |
4 | rb+ Opens a file for both reading and writing in binary format. The file pointer placed at the beginning of the file. |
5 | w Opens a file for writing only. Overwrites the file if the file exists. If the file does not exist, creates a new file for writing. |
6 | wb Opens a file for writing only in binary format. Overwrites the file if the file exists. If the file does not exist, creates a new file for writing. |
7 | w+ Opens a file for both writing and reading. Overwrites the existing file if the file exists. If the file does not exist, creates a new file for reading and writing. |
8 | wb+ Opens a file for both writing and reading in binary format. Overwrites the existing file if the file exists. If the file does not exist, creates a new file for reading and writing. |
9 | a Opens a file for appending. The file pointer is at the end of the file if the file exists. That is, the file is in the append mode. If the file does not exist, it creates a new file for writing. |
10 | ab Opens a file for appending in binary format. The file pointer is at the end of the file if the file exists. That is, the file is in the append mode. If the file does not exist, it creates a new file for writing. |
11 | a+ Opens a file for both appending and reading. The file pointer is at the end of the file if the file exists. The file opens in the append mode. If the file does not exist, it creates a new file for reading and writing. |
12 | ab+ Opens a file for both appending and reading in binary format. The file pointer is at the end of the file if the file exists. The file opens in the append mode. If the file does not exist, it creates a new file for reading and writing. |
Once a file is opened and you have one file object, you can get various information related to that file.
Here is a list of all the attributes related to a file object −
Sr.No. | Attribute & Description |
---|---|
1 | file.closed Returns true if file is closed, false otherwise. |
2 | file.mode Returns access mode with which file was opened. |
3 | file.name Returns name of the file. |
Note − softspace attribute is not supported in Python 3.x
#!/usr/bin/python3 # Open a file fo = open("foo.txt", "wb") print ("Name of the file: ", fo.name) print ("Closed or not : ", fo.closed) print ("Opening mode : ", fo.mode) fo.close()
This produces the following result −
Name of the file: foo.txt Closed or not : False Opening mode : wb
The close() method of a file object flushes any unwritten information and closes the file object, after which no more writing can be done.
Python automatically closes a file when the reference object of a file is reassigned to another file. It is a good practice to use the close() method to close a file.
fileObject.close();
#!/usr/bin/python3 # Open a file fo = open("foo.txt", "wb") print ("Name of the file: ", fo.name) # Close opened file fo.close()
This produces the following result −
Name of the file: foo.txt
The file object provides a set of access methods to make our lives easier. We would see how to use read() and write() methods to read and write files.
The write() method writes any string to an open file. It is important to note that Python strings can have binary data and not just text.
The write() method does not add a newline character ('\n') to the end of the string −
fileObject.write(string);
Here, passed parameter is the content to be written into the opened file.
#!/usr/bin/python3 # Open a file fo = open("foo.txt", "w") fo.write( "Python is a great language.\nYeah its great!!\n") # Close opend file fo.close()
The above method would create foo.txt file and would write given content in that file and finally it would close that file. If you would open this file, it would have the following content −
Python is a great language. Yeah its great!!
The read() method reads a string from an open file. It is important to note that Python strings can have binary data. apart from text data.
fileObject.read([count]);
Here, passed parameter is the number of bytes to be read from the opened file. This method starts reading from the beginning of the file and if count is missing, then it tries to read as much as possible, maybe until the end of file.
Let us take a file foo.txt, which we created above.
#!/usr/bin/python3 # Open a file fo = open("foo.txt", "r+") str = fo.read(10) print ("Read String is : ", str) # Close opened file fo.close()
This produces the following result −
Read String is : Python is
The tell() method tells you the current position within the file; in other words, the next read or write will occur at that many bytes from the beginning of the file.
The seek(offset[, from]) method changes the current file position. The offset argument indicates the number of bytes to be moved. The from argument specifies the reference position from where the bytes are to be moved.
If from is set to 0, the beginning of the file is used as the reference position. If it is set to 1, the current position is used as the reference position. If it is set to 2 then the end of the file would be taken as the reference position.
Let us take a file foo.txt, which we created above.
#!/usr/bin/python3 # Open a file fo = open("foo.txt", "r+") str = fo.read(10) print ("Read String is : ", str) # Check current position position = fo.tell() print ("Current file position : ", position) # Reposition pointer at the beginning once again position = fo.seek(0, 0) str = fo.read(10) print ("Again read String is : ", str) # Close opened file fo.close()
This produces the following result −
Read String is : Python is Current file position : 10 Again read String is : Python is
Python os module provides methods that help you perform file-processing operations, such as renaming and deleting files.
To use this module, you need to import it first and then you can call any related functions.
The rename() method takes two arguments, the current filename and the new filename.
os.rename(current_file_name, new_file_name)
Following is an example to rename an existing file test1.txt −
#!/usr/bin/python3 import os # Rename a file from test1.txt to test2.txt os.rename( "test1.txt", "test2.txt" )
You can use the remove() method to delete files by supplying the name of the file to be deleted as the argument.
os.remove(file_name)
Following is an example to delete an existing file test2.txt −
#!/usr/bin/python3 import os # Delete file test2.txt os.remove("text2.txt")
All files are contained within various directories, and Python has no problem handling these too. The os module has several methods that help you create, remove, and change directories.
You can use the mkdir() method of the os module to create directories in the current directory. You need to supply an argument to this method, which contains the name of the directory to be created.
os.mkdir("newdir")
Following is an example to create a directory test in the current directory −
#!/usr/bin/python3 import os # Create a directory "test" os.mkdir("test")
You can use the chdir() method to change the current directory. The chdir() method takes an argument, which is the name of the directory that you want to make the current directory.
os.chdir("newdir")
Following is an example to go into "/home/newdir" directory −
#!/usr/bin/python3 import os # Changing a directory to "/home/newdir" os.chdir("/home/newdir")
The getcwd() method displays the current working directory.
os.getcwd()
Following is an example to give current directory −
#!/usr/bin/python3 import os # This would give location of the current directory os.getcwd()
The rmdir() method deletes the directory, which is passed as an argument in the method.
Before removing a directory, all the contents in it should be removed.
os.rmdir('dirname')
Following is an example to remove the "/tmp/test" directory. It is required to give fully qualified name of the directory, otherwise it would search for that directory in the current directory.
#!/usr/bin/python3 import os # This would remove "/tmp/test" directory. os.rmdir( "/tmp/test" )
There are three important sources, which provide a wide range of utility methods to handle and manipulate files & directories on Windows and Unix operating systems. They are as follows −
The file object provides functions to manipulate files.
This provides methods to process files as well as directories.