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I want to display:

49 as 49.00

and:

54.9 as 54.90

Regardless of the length of the decimal or whether there are are any decimal places, I need to display the number with 2 decimal places, and I'd like to do it in an efficient way. The purpose is to display money values.

eg, 4898489.00

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1  
Are these money values? –  R. Martinho Fernandes Jan 3 '10 at 17:34
2  
You need it to be as long as possible? What does that mean? You could add leading zeros until you run out of memory, but I suspect that's not what you want... –  Mark Byers Jan 3 '10 at 17:42
    
I suppose it might mean that the OP is using decimal.Decimal and is unhappy with decimal context's precision which limits precision to n digits as in "n digits of precision in the strict sense" (e.g. '123.456' becomes Decimal('1.2E+2')) and not "n digits in the fractional part" (for Decimal('123.45'))... See my answer for an attempt to be helpful with this. ;-) –  Michał Marczyk Jan 3 '10 at 19:02
    
Yes, they are for money values. –  orokusaki Jan 3 '10 at 19:03
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4 Answers 4

up vote 30 down vote accepted

I suppose you're probably using the Decimal objects from the decimal module? (If you need exactly two digits of precision beyond the decimal point with arbitrarily large numbers, you definitely should be, and that's what your question's title suggests...)

If so, the FAQ section of the docs has a question/answer pair which may be useful for you:

Q. In a fixed-point application with two decimal places, some inputs have many places and need to be rounded. Others are not supposed to have excess digits and need to be validated. What methods should be used?

A. The quantize() method rounds to a fixed number of decimal places. If the Inexact trap is set, it is also useful for validation:

>>> TWOPLACES = Decimal(10) ** -2       # same as Decimal('0.01')
>>> # Round to two places
>>> Decimal('3.214').quantize(TWOPLACES)
Decimal('3.21')
>>> # Validate that a number does not exceed two places
>>> Decimal('3.21').quantize(TWOPLACES, context=Context(traps=[Inexact]))
Decimal('3.21')
>>> Decimal('3.214').quantize(TWOPLACES, context=Context(traps=[Inexact]))
Traceback (most recent call last):
   ...
Inexact: None

The next question reads

Q. Once I have valid two place inputs, how do I maintain that invariant throughout an application?

If you need the answer to that (along with lots of other useful information), see the aforementioned section of the docs. Also, if you keep your Decimals with two digits of precision beyond the decimal point (meaning as much precision as is necessary to keep all digits to the left of the decimal point and two to the right of it and no more...), then converting them to strings with str will work fine:

str(Decimal('10'))
# -> '10'
str(Decimal('10.00'))
# -> '10.00'
str(Decimal('10.000'))
# -> '10.000'
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Oh, forgot to mention efficiency in the answer... but I guess I'm no expert anyway. I see no reason why it would be particularly inefficient to keep a fixed number of "fractional digits" around -- although any operations performed on the numbers might necessitate a rounding operation on the result to bring it in line with the requirements... For efficiency's sake, this should probably be done as infrequently as possible -- like just prior to serialisation / printing out for the user. –  Michał Marczyk Jan 3 '10 at 18:54
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The String Formatting section of the Python documentation contains the answer you're looking for. In short:

"%0.2f" % (num,)

Some examples:

>>> "%0.2f" % 10
'10.00'
>>> "%0.2f" % 1000
'1000.00'
>>> "%0.2f" % 10.1
'10.10'
>>> "%0.2f" % 10.120
'10.12'
>>> "%0.2f" % 10.126
'10.13'
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There's no need for the 0 after the %, and no need to wrap num in a tuple. –  user238424 Jan 3 '10 at 23:32
8  
Actually, wrapping num in a tuple is a coding convention to prevent a duck typing error on arguments during string formatting. It doesn't have any effect in this case with a float conversion, but it prevents an unexpected type error when converting to strings. Consider r = 1; "%s" % r; r = (1, 2); "%s" % r versus r = 1; "%s" % (r,); r = (1,2 ); "%s" % (r,). As such, most sophisticated coding styles in python use the unconditional tuple now (and Python 3 deprecated the entire method of string formatting as error prone). –  Travis Bradshaw Jan 4 '10 at 1:06
    
Also, as a guy with a math background, "naked" decimal notation is ugly. The leading 0 doesn't hurt anything and looks better. :) –  Travis Bradshaw Jan 4 '10 at 1:07
2  
But it's not a number, it's a format string –  Ben James Mar 10 '10 at 10:00
2  
Aesthetically no different. Most importantly, the 0 is the default value, anyway. There's absolutely no harm in providing the default if it makes for aesthetically pleasing code. It's interesting how many developers choose not to (can't?) differentiate between correctness and style. :/ –  Travis Bradshaw Mar 10 '10 at 17:45
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There are new format specifications:

>>> from math import pi          # pi ~ 3.141592653589793
>>> "{0:.2f}".format(pi)
'3.14'

The documentation can be a bit obtuse at times, so I recommend the Python string formatting cookbook for an easier readable reference.

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+1 for format that returns a float, not a str –  Droogans Jan 20 '12 at 11:57
2  
@Droogans: Euh... format does return a str, not a float: print type({0:.2f}".format(pi)) returns <type 'str'>. –  BioGeek Feb 22 '12 at 8:57
    
Oops. Verb overloading on the word return. Please mentally change that to prints. –  Droogans Feb 22 '12 at 11:57
1  
If you don't want to use the numeric placeholder: "{:.2f}".format(pi) –  User May 31 at 0:48
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You can use the string formatting operator as so:

f = 49
x = "%.2f" % f  # x is now the string "49.00"

I'm not sure what you mean by "efficient" -- this is almost certainly not the bottleneck of your application. If your program is running slowly, profile it first to find the hot spots, and then optimize those.

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I think the variable being named 'f' might confuse some people. Better to call it something else for an example like Travis below. –  Aleck Landgraf Dec 10 '12 at 5:44
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