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Python 2.6 introduced the str.format() method with a slightly different syntax from the existing % operator. Which is better and for what situations?

  1. The following uses each method and has the same outcome, so what is the difference?

    sub1 = "python string!"
    sub2 = "an arg"
    a = "i am a %s" % sub1
    b = "i am a {0}".format(sub1)
    c = "with %(kwarg)s!" % {'kwarg':sub2}
    d = "with {kwarg}!".format(kwarg=sub2)
    print a    # "i am a python string!"
    print b    # "i am a python string!"
    print c    # "with an arg!"
    print d    # "with an arg!"
  2. Furthermore when does string formatting occur in Python? For example, if my logging level is set to HIGH will I still take a hit for performing the following % operation? And if so, is there a way to avoid this?

    log.debug("some debug info: %s" % some_info)
share|improve this question
similar to… – carl Feb 22 '11 at 18:50
@S.Lott, the point is that there is is non zero work going on, if a logging statement is not printing I want zero work done for the string formatting. – NorthIsUp Feb 23 '11 at 18:58
More info: – Juanlu001 Jun 9 at 10:17

11 Answers 11

up vote 481 down vote accepted

To answer your first question... .format just seems more sophisticated in many ways. An annoying thing about % is also how it can either take a variable or a tuple. You'd think the following would always work:

"hi there %s" % name

yet, if name happens to be (1, 2, 3), it will throw a TypeError. To guarantee that it always prints, you'd need to do

"hi there %s" % (name,)   # supply the single argument as a single-item tuple

which is just ugly. .format doesn't have those issues. Also in the second example you gave, the .format example is much cleaner looking.

Why would you not use it?

  • not knowing about it (me before reading this)
  • having to be compatible with Python 2.5

To answer your second question, string formatting happens at the same time as any other operation - when the string formatting expression is evaluated. And Python, not being a lazy language, evaluates expressions before calling functions, so in your log.debug example, the expression "some debug info: %s"%some_infowill first evaluate to, e.g. "some debug info: roflcopters are active", then that string will be passed to log.debug().

share|improve this answer
what about "%(a)s, %(a)s" % {'a':'test'} – ted Aug 23 '12 at 9:53
Note that you will waste time for log.debug("something: %s" % x) but not for log.debug("something: %s", x) The string formatting will be handled in the method and you won't get the performance hit if it won't be logged. As always, Python anticipates your needs =) – darkfeline Dec 14 '12 at 23:13
ted: that’s a worse-looking hack to do the same as '{0}, {0}'.format('test'). – flying sheep Jan 30 '13 at 20:43
The point is: The one recurring argument that the new syntax allows reordering of items is a moot point: You can do the same with the old syntax. Most people do not know that this is actually already defined in the Ansi C99 Std! Check out a recent copy of man sprintf and learn about the $ notation inside % placeholders – cfi Feb 20 '13 at 12:42
@cfi: If you mean something like, printf("%2$d", 1, 3) to print out "3", that's specified in POSIX, not C99. The very man page you referenced notes, "The C99 standard does not include the style using '$'…". – Thanatos Mar 7 '13 at 23:55

Something that the modulo operator ( % ) can't do, afaik:

tu = (12,45,22222,103,6)
print '{0} {2} {1} {2} {3} {2} {4} {2}'.format(*tu)


12 22222 45 22222 103 22222 6 22222

Very useful.

Another point: format(), being a function, can be used as an argument in other functions:

li = [12,45,78,784,2,69,1254,4785,984]
print map('the number is {}'.format,li)   


from datetime import datetime,timedelta

once_upon_a_time = datetime(2010, 7, 1, 12, 0, 0)
delta = timedelta(days=13, hours=8,  minutes=20)

gen =(once_upon_a_time +x*delta for x in xrange(20))

print '\n'.join(map('{:%Y-%m-%d %H:%M:%S}'.format, gen))

Results in:

['the number is 12', 'the number is 45', 'the number is 78', 'the number is 784', 'the number is 2', 'the number is 69', 'the number is 1254', 'the number is 4785', 'the number is 984']

2010-07-01 12:00:00
2010-07-14 20:20:00
2010-07-28 04:40:00
2010-08-10 13:00:00
2010-08-23 21:20:00
2010-09-06 05:40:00
2010-09-19 14:00:00
2010-10-02 22:20:00
2010-10-16 06:40:00
2010-10-29 15:00:00
2010-11-11 23:20:00
2010-11-25 07:40:00
2010-12-08 16:00:00
2010-12-22 00:20:00
2011-01-04 08:40:00
2011-01-17 17:00:00
2011-01-31 01:20:00
2011-02-13 09:40:00
2011-02-26 18:00:00
2011-03-12 02:20:00
share|improve this answer
You can use old style formatting in map just as easily as format. map('some_format_string_%s'.__mod__, some_iterable) – agf Nov 28 '12 at 5:49
@cfi: please prove you are right by rewriting the example above in C99 – MarcH Feb 15 '14 at 14:11
@MarcH: printf("%2$s %1$s\n", "One", "Two"); compiled with gcc -std=c99 test.c -o test, the output is Two One. But I stand corrected: It is actually a POSIX extension and not C. I cannot find it again in the C/C++ standard, where I thought I'd seen it. The code works even with 'c90' std flag. sprintf man page. This does not list it, but allows libs to implement a superset. My original argument is still valid, replacing C with Posix – cfi Feb 15 '14 at 15:18
My first comment here, does not apply to this answer. I regret the phrasing. In Python we cannot use the modulo operator % for reordering placeholders. I'd still like to not delete that first comment for the sake of comment consistency here. I apologize for having vented my anger here. It is directed against the often made statement that the old syntax per se would not allow this. Instead of creating a completely new syntax we could have introduced the std Posix extensions. We could have both. – cfi Feb 15 '14 at 15:25
'modulo' refers to the operator that evaluates a remainder after a division. in this case the percent sign is not a modulo operator. – Octopus May 8 '14 at 21:09

Assuming you're using Python's logging module, you can pass the string formatting arguments as arguments to the .debug() method rather than doing the formatting yourself:

log.debug("some debug info: %s", some_info)

which avoids doing the formatting unless the logger actually logs something.

share|improve this answer
This is some useful info that I just learned now. It's a pity it doesn't have it's own question as it seems separate to the main question. Pity the OP didn't split his question in two separate questions. – snth Nov 14 '12 at 7:36
You can use dict formatting like this: log.debug("some debug info: %(this)s and %(that)s", dict(this='Tom', that='Jerry')) However, you can't use the new style .format() syntax here, not even in Python 3.3, which is a shame. – Cito Nov 25 '12 at 17:00
@Cito: See this:… – Vinay Sajip Jan 30 '13 at 19:56
The primary benefit of this is not performance (doing the string interpolation will be quick compared to whatever you're doing with the output from logging, e.g displaying in a terminal, saving to disk) It is that if you have a logging aggregator, it can tell you "you got 12 instances of this error message", even if they all had different 'some_info' values. If the string formatting is done before passing the string to log.debug, then this is impossible. The aggregator can only say "you had 12 different log messages" – Jonathan Hartley Oct 10 '13 at 8:04
If you're concerned about performance, use literal dict {} syntax instead of a dict() class instantiation:… – trojjer Feb 14 '14 at 11:03

Also, PEP 3101 proposes the replacement of the % operator with the new, advanced string formatting in Python 3, where it would be the default.

share|improve this answer
+1 for referencing the PEP – yprez Aug 29 '12 at 8:54
Untrue: "Backwards compatibility can be maintained by leaving the existing mechanisms in place."; of course, .format won't replace % string formatting. – Tobias Jan 28 '13 at 23:32
No, BrainStorms postulation is true: "intended as a replacement for the existing '%'". Tobias quote means both systems will coexist for some time. RTFPEP – phobie Aug 19 at 15:00

But please be careful, just now I've discovered one issue when trying to replace all % with .format in existing code: '{}'.format(unicode_string) will try to encode unicode_string and will probably fail.

Just look at this Python interactive session log:

Python 2.7.2 (default, Aug 27 2012, 19:52:55) 
[GCC 4.1.2 20080704 (Red Hat 4.1.2-48)] on linux2
; s='й'
; u=u'й'
; s
; u

s is just a string (called 'byte array' in Python3) and u is a Unicode string (called 'string' in Python3):

; '%s' % s
; '%s' % u

When you give a Unicode object as a parameter to % operator it will produce a Unicode string even if the original string wasn't Unicode:

; '{}'.format(s)
; '{}'.format(u)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
UnicodeEncodeError: 'latin-1' codec can't encode character u'\u0439' in position 0: ordinal not in range(256)

but the .format function will raise "UnicodeEncodeError":

; u'{}'.format(s)
; u'{}'.format(u)

and it will work with a Unicode argument fine only if the original string was Unicode.

; '{}'.format(u'i')

or if argument string can be converted to a string (so called 'byte array')

share|improve this answer
There is simply no reason to change working code unless the additional features of the new format method are really needed ... – Tobias Jan 28 '13 at 22:51
absolutely agree with you, Tobias, but sometimes it's needed when upgrading to newer versions of Python – khrf9 Jan 30 '13 at 13:17
For instance? AFAIK, it has never been needed; I don't consider it likely that the % string interpolation would ever go away. – Tobias Jan 31 '13 at 13:45
I consider .format() function safer than % for strings. Often I see beginners' mistakes like this "p1=%s p2=%d" % "abc", 2 or "p1=%s p2=%s" % (tuple_p1_p2,). You might think it's the coder's fault but I think it's just weird faulty syntax that looks nice for the quicky-scriptie but is bad for production code. – khrf9 Jan 6 '14 at 15:07
But I don't like the syntax of .format(), I'd be happier with good old %s, %02d like "p1=%s p2=%02d".format("abc", 2). I blame those who invented and approved the curly braces formatting that needs you to escape them like {{}} and looks ugly imho. – khrf9 Jan 6 '14 at 15:15

As I discovered today, the old way of formatting strings via % doesn't support Decimal, Python's module for decimal fixed point and floating point arithmetic, out of the box.

Example (using Python 3.3.5):

#!/usr/bin/env python3

from decimal import *

getcontext().prec = 50
d = Decimal('3.12375239e-24') # no magic number, I rather produced it by banging my head on my keyboard

print('%.50f' % d)


0.00000000000000000000000312375239000000009907464850 0.00000000000000000000000312375239000000000000000000

There surely might be work-arounds but you still might consider using the format() method right away.

share|improve this answer
That's probably because new-style formatting calls str(d) before expanding the parameter, whereas old-style formatting probably calls float(d) first. – David Sanders Oct 21 '14 at 19:53
You'd think so, but str(d) returns "3.12375239e-24", not "0.00000000000000000000000312375239000000000000000000" – Jack Jun 18 at 16:52

Yet another advantage of .format (which I don't see in the answers): it can take object properties.

In [12]: class A(object):
   ....:     def __init__(self, x, y):
   ....:         self.x = x
   ....:         self.y = y

In [13]: a = A(2,3)

In [14]: 'x is {0.x}, y is {0.y}'.format(a)
Out[14]: 'x is 2, y is 3'

Or, as a keyword argument:

In [15]: 'x is {a.x}, y is {a.y}'.format(a=a)
Out[15]: 'x is 2, y is 3'

This is not possible with % as far as I can tell.

share|improve this answer
This looks more unreadable than necessary compared to the equivalent 'x is {0}, y is {1}'.format(a.x, a.y). Should only be used when the a.x operation is very costly. – dtheodor Mar 29 at 14:03
@dtheodor With a tweak to use a keyword argument instead of positional argument... 'x is {a.x}, y is {a.y}'.format(a=a). More readable than both examples. – CivFan Apr 17 at 21:11
@CivFan Or, if you have more than one object, 'x is {a.x}, y is {a.y}'.format(**vars()) – Jack Jun 18 at 17:02

As a side note, you don't have to take a performance hit to use new style formatting with logging. You can pass any object to logging.debug,, etc. that implements the __str__ magic method. When the logging module has decided that it must emit your message object (whatever it is), it calls str(message_object) before doing so. So you could do something like this:

import logging

class NewStyleLogMessage(object):
    def __init__(self, message, *args, **kwargs):
        self.message = message
        self.args = args
        self.kwargs = kwargs

    def __str__(self):
        args = (i() if callable(i) else i for i in self.args)
        kwargs = dict((k, v() if callable(v) else v) for k, v in self.kwargs.items())

        return self.message.format(*args, **kwargs)

N = NewStyleLogMessage

# Neither one of these messages are formatted (or calculated) until they're
# needed

# Emits "Lazily formatted log entry: 123 foo" in log
logging.debug(N('Lazily formatted log entry: {0} {keyword}', 123, keyword='foo'))

def expensive_func():
    # Do something that takes a long time...
    return 'foo'

# Emits "Expensive log entry: foo" in log
logging.debug(N('Expensive log entry: {keyword}', keyword=expensive_func))

This is all described in the Python 3 documentation ( However, it will work with Python 2.6 as well (

One of the advantages of using this technique, other than the fact that it's formatting-style agnostic, is that it allows for lazy values e.g. the function expensive_func above. This provides a more elegant alternative to the advice being given in the Python docs here:

share|improve this answer
I wish I could upvote this more. It allows logging with format without the performance hit -- does it by overriding __str__ precisely as logging was designed for -- shortens the function call to a single letter (N) which feels very similar to some of the standard ways to define strings -- AND allows for lazy function calling. Thank you! +1 – CivFan Jan 26 at 22:21

% gives much better performance than format from my test.

format runs twice slower than %

share|improve this answer
Instead, str.format gives more functionalities (especially type-specialized formatting e.g. '{0:%Y-%m-%d}'.format(datetime.datetime.utcnow())). Performance cannot be the absolute requirement of all jobs. Use the right tool for the job. – minhee Sep 18 '11 at 17:25
"Premature optimization is the root of all evil" or so Donald Knuth once said... – YatharthROCK Oct 17 '12 at 13:07
Sticking with a well-known formatting scheme (as long as it suits the needs, which it does in the vast majority of cases), and which is twice as fast, is no "premature optimization" but simply reasonable. BTW, the % operator allows to reuse printf knowledge; dictionary interpolation is a very simple extension of the principle. – Tobias Jan 28 '13 at 23:03
From my test there is also a huge difference between Python3 and Python 2.7. Where % is much more efficient than format() in Python 3. The code that I used can be found here:… and… – Sebastian Raschka Jan 24 '14 at 14:15
I've actually experienced the opposite in one situation. New-style formatting was faster. Can you provide the test code you used? – David Sanders Oct 21 '14 at 19:54

Using timeit I get that format is 1.17x faster (not much) than using the % operator. Here is my test:

>>>timeit( "%d and %.1f" % (4,2.2) )
1000000 loops, best of 3: 1.1 us per loop

>>>timeit( "{} and {}".format(4,2.2) )
1000000 loops, best of 3: 940 ns per loop
share|improve this answer
The correct test for format is: timeit("{0} y {1:1}".format(4,2.2)) – Mario César Apr 13 '14 at 14:51
All these examples format the strings before calling timeit, so timeit only evaluates constant strings without any formatting. – musiphil Jun 22 at 23:29

One situation where % may help is when you are formatting regex expressions. For example,

'{type_names} [a-z]{2}'.format(type_names='triangle|square')

raises IndexError. In this situation, you can use:

'%(type_names)s [a-z]{2}' % {'type_names': 'triangle|square'}

This avoids writing the regex as '{type_names} [a-z]{{2}}'. This can be useful when you have two regexes, where one is used alone without format, but the concatenation of both is formatted.

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