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In this chapter, different techniques for formatting the output will be discussed.

String Formatting Operator

One of Python's coolest features is the string format operator %. This operator is unique to strings and makes up for the pack of having functions from C's printf() family. Format specification symbols (%d %c %f %s etc) used in C language are used as placeholders in a string.

Following is a simple example −

 
print ("My name is %s and weight is %d kg!" % ('Zara', 21))

It will produce the following output −

My name is Zara and weight is 21 kg!

The format() Method

Python 3.0, introduced format() method to str class for handling complex string formatting more efficiently. This method has since been backported to Python 2.6 and Python 2.7.

This method of in-built string class provides ability to do complex variable substitutions and value formatting. This new formatting technique is regarded as more elegant.

Syntax

The general syntax of format() method is as follows −

str.format(var1, var2,...)

Return Value

The method returns a formatted string.

The string itself contains placeholders {} in which values of variables are successively inserted.

Example

 
name="Rajesh" age=23 print ("my name is {} and my age is {} years".format(name, age))

It will produce the following output −

my name is Rajesh and my age is 23 years

You can use variables as keyword arguments to format() method and use the variable name as the placeholder in the string.

print ("my name is {name} and my age is {age} years".format(name="Rajesh", age=23))

You can also specify C style formatting symbols. Only change is using : instead of %. For example, instead of %s use {:s} and instead of %d use (:d}

name="Rajesh" age=23 print ("my name is {:s} and my age is {:d} years".format(name, age))

f-strings

In Python, f-strings or Literal String Interpolation is another formatting facility. With this formatting method you can use embedded Python expressions inside string constants. Python f-strings are a faster, more readable, more concise, and less error prone.

The string starts with a 'f' prefix, and one or more place holders are inserted in it, whose value is filled dynamically.

 
name = 'Rajesh' age = 23 fstring = f'My name is {name} and I am {age} years old' print (fstring)

It will produce the following output −

My name is Rajesh and I am 23 years old

Template Strings

The Template class in string module provides an alternative method to format the strings dynamically. One of the benefits of Template class is to be able to customize the formatting rules.

A valid template string, or placeholder, consists of two parts: The "$" symbol followed by a valid Python identifier.

You need to create an object of Template class and use the template string as an argument to the constructor.

Next, call the substitute() method of Template class. It puts the values provided as the parameters in place of template strings.

Example

 
from string import Template temp_str = "My name is $name and I am $age years old" tempobj = Template(temp_str) ret = tempobj.substitute(name='Rajesh', age=23) print (ret)

It will produce the following output −

My name is Rajesh and I am 23 years old

The textwrap Module

The wrap class in Python's textwrap module contains functionality to format and wrap plain texts by adjusting the line breaks in the input paragraph. It helps in making the text wellformatted and beautiful.

The textwrap module has the following convenience functions −

textwrap.wrap(text, width=70)

Wraps the single paragraph in text (a string) so every line is at most width characters long. Returns a list of output lines, without final newlines. Optional keyword arguments correspond to the instance attributes of TextWrapper. width defaults to 70.

textwrap.fill(text, width=70)

Wraps the single paragraph in text, and returns a single string containing the wrapped paragraph.

Both methods internally create an object of TextWrapper class and calling a single method on it. Since the instance is not reused, it will be more efficient for you to create your own TextWrapper object.

Example

 
import textwrap text = ''' Python is a high-level, general-purpose programming language. Its design philosophy emphasizes code readability with the use of significant indentation via the off-side rule. Python is dynamically typed and garbage-collected. It supports multiple programming paradigms, including structured (particularly procedural), object-oriented and functional programming. It is often described as a "batteries included" language due to its comprehensive standard library. ''' wrapper = textwrap.TextWrapper(width=40) wrapped = wrapper.wrap(text = text) # Print output for element in wrapped: print(element)

It will produce the following output −

Python is a high-level, general-purpose
programming language. Its design
philosophy emphasizes code readability
with the use of significant indentation
via the off-side rule. Python is
dynamically typed and garbage-collected.
It supports multiple programming
paradigms, including structured
(particularly procedural), objectoriented and functional programming. It
is often described as a "batteries
included" language due to its
comprehensive standard library.

Following attributes are defined for a TextWrapper object −

  • width − (default: 70) The maximum length of wrapped lines.

  • expand_tabs − (default: True) If true, then all tab characters in text will be expanded to spaces using the expandtabs() method of text.

  • tabsize − (default: 8) If expand_tabs is true, then all tab characters in text will be expanded to zero or more spaces, depending on the current column and the given tab size.

  • replace_whitespace − (default: True) If true, after tab expansion but before wrapping, the wrap() method will replace each whitespace character with a single space.

  • drop_whitespace − (default: True) If true, whitespace at the beginning and ending of every line (after wrapping but before indenting) is dropped. Whitespace at the beginning of the paragraph, however, is not dropped if non-whitespace follows it. If whitespace being dropped takes up an entire line, the whole line is dropped.

  • initial_indent − (default: '') String that will be prepended to the first line of wrapped output.

  • subsequent_indent − (default: '') String that will be prepended to all lines of wrapped output except the first.

  • fix_sentence_endings − (default: False) If true, TextWrapper attempts to detect sentence endings and ensure that sentences are always separated by exactly two spaces. This is generally desired for text in a monospaced font.

  • break_long_words − (default: True) If true, then words longer than width will be broken in order to ensure that no lines are longer than width. If it is false, long words will not be broken, and some lines may be longer than width.

  • break_on_hyphens − (default: True) If true, wrapping will occur preferably on whitespaces and right after hyphens in compound words, as it is customary in English. If false, only whitespaces will be considered as potentially good places for line breaks.

The shorten() Function

Collapse and truncate the given text to fit in the given width. The text first has its whitespace collapsed. If it then fits in the *width*, it is returned as is. Otherwise, as many words as possible are joined and then the placeholder is appended −

Example

 
import textwrap python_desc = """Python is a general-purpose interpreted, interactive, object-oriented, and high-level programming language. It was created by Guido van Rossum during 1985- 1990. Like Perl, Python source code is also available under the GNU General Public License (GPL). This tutorial gives enough understanding on Python programming language.""" my_wrap = textwrap.TextWrapper(width = 40) short_text = textwrap.shorten(text = python_desc, width=150) print('\n\n' + my_wrap.fill(text = short_text))

It will produce the following output −

Python is a general-purpose interpreted,
interactive, object-oriented,and high
level programming language. It was 
created by Guido van Rossum [...]

The pprint Module

The pprint module in Python's standard library enables aesthetically good looking appearance of Python data structures. The name pprint stands for pretty printer. Any data structure that can be correctly parsed by Python interpreter is elegantly formatted.

The formatted expression is kept in one line as far as possible, but breaks into multiple lines if the length exceeds the width parameter of formatting. One unique feature of pprint output is that the dictionaries are automatically sorted before the display representation is formatted.

PrettyPrinter Class

The pprint module contains definition of PrettyPrinter class. Its constructor takes following format −

Syntax

pprint.PrettyPrinter(indent, width, depth, stream, compact)

Parameters

  • indent − defines indentation added on each recursive level. Default is 1.

  • width − by default is 80. Desired output is restricted by this value. If the length is greater than width, it is broken in multiple lines.

  • depth − controls number of levels to be printed.

  • stream − is by default std.out − the default output device. It can take any stream object such as file.

  • compact − id set to False by default. If true, only the data adjustable within width will be displayed.

The PrettyPrinter class defines following methods −

pprint() method

prints the formatted representation of PrettyPrinter object.

pformat() method

Returns the formatted representation of object, based on parameters to the constructor.

Example

The following example demonstrates a simple use of PrettyPrinter class −

 
import pprint students={"Dilip":["English", "Maths", "Science"],"Raju":{"English":50,"Maths":60, "Science":70},"Kalpana":(50,60,70)} pp=pprint.PrettyPrinter() print ("normal print output") print (students) print ("----") print ("pprint output") pp.pprint(students)

The output shows normal as well as pretty print display −

normal print output
{'Dilip': ['English', 'Maths', 'Science'], 'Raju': {'English': 50, 'Maths': 60, 'Science': 70}, 'Kalpana': (50, 60, 70)}
----
pprint output
{'Dilip': ['English', 'Maths', 'Science'],
 'Kalpana': (50, 60, 70),
 'Raju': {'English': 50, 'Maths': 60, 'Science': 70}}

The pprint module also defines convenience functions pprint() and pformat() corresponding to PrettyPrinter methods. The example below uses pprint() function.

 
from pprint import pprint students={"Dilip":["English", "Maths", "Science"], "Raju":{"English":50,"Maths":60, "Science":70}, "Kalpana":(50,60,70)} print ("normal print output") print (students) print ("----") print ("pprint output") pprint (students)

Example

The next example uses pformat() method as well as pformat() function. To use pformat() method, PrettyPrinter object is first set up. In both cases, the formatted representation is displayed using normal print() function.

 
import pprint students={"Dilip":["English", "Maths", "Science"], "Raju":{"English":50,"Maths":60, "Science":70}, "Kalpana":(50,60,70)} print ("using pformat method") pp=pprint.PrettyPrinter() string=pp.pformat(students) print (string) print ('------') print ("using pformat function") string=pprint.pformat(students) print (string)

Here is the output of the above code −

using pformat method
{'Dilip': ['English', 'Maths', 'Science'],
 'Kalpana': (50, 60, 70),
 'Raju': {'English': 50, 'Maths': 60, 'Science': 70}}
------
using pformat function
{'Dilip': ['English', 'Maths', 'Science'],
 'Kalpana': (50, 60, 70),
 'Raju': {'English': 50, 'Maths': 60, 'Science': 70}}

Pretty printer can also be used with custom classes. Inside the class __repr__() method is overridden. The __repr__() method is called when repr() function is used. It is the official string representation of Python object. When we use object as parameter to print() function it prints return value of repr() function.

Example

In this example, the __repr__() method returns the string representation of player object −

 
import pprint class player: def __init__(self, name, formats=[], runs=[]): self.name=name self.formats=formats self.runs=runs def __repr__(self): dct={} dct[self.name]=dict(zip(self.formats,self.runs)) return (repr(dct)) l1=['Tests','ODI','T20'] l2=[[140, 45, 39],[15,122,36,67, 100, 49],[78,44, 12, 0, 23, 75]] p1=player("virat",l1,l2) pp=pprint.PrettyPrinter() pp.pprint(p1)

The output of above code is −

{'virat': {'Tests': [140, 45, 39], 'ODI': [15, 122, 36, 67, 100, 49],
'T20': [78, 44, 12, 0, 23, 75]}}




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