When I type small integers with a 0 in front into python, they give weird results. Why is this?

>>> 011
9
>>> 0100
64
>>> 027
23

Note: Python version 2.7.3 I have tested this in Python 3.0, and apparently this is now an error. So it is something version-specific.

Edit: they are apparently still integers:

>>> type(027)
`<type 'int'>`
up vote 47 down vote accepted

These are numbers represented in base 8 (octal numbers). For example,

011 is equal to 1*(8**1) + 1*(8**0) = 9,

0100 is equal to 1*(8**2) + 0*(8**1) + 0*(8**0) = 64,

027 is equal to 2*(8**1) + 7*(8**0) = 16 + 7 = 23.

  • Perhaps the double asterisk is not the clearest way to state an exponential. If it is a Stackoverflow stantard, or anywhere else's stantard, it must be changed. – David L Jan 6 '15 at 13:47
  • 15
    @DavidL: In Python, ** is the exponential operator, and ^ is bitwise XOR. – unutbu Jan 6 '15 at 14:05
  • 2
    Just note, in Python 3, entering 011 will result in SyntaxError: invalid token. Use 0o11 instead. – piskebee Feb 24 at 11:45

In Python 2 (and a few more programming languages), these represent octal numbers.

In Python 3, 011 no longer works and you would use 0o11 instead.

In response to edit: and they are regular integers. They are just specified different way; and they are automatically converted by Python to an internal integer representation (which is base-2 actually, so both 9 and 011 are internally converted to 0b1001).

Numbers in Octal numerical system. Other prefixes are 0x for hexadecimal and 0b for binary.

  • 4
    And note that in Python 3, leading zeros are not allowed and you must use 0o for octal. – Mark Ransom Jul 23 '12 at 20:42

These are octal numbers (base 8, values 0 - 7)

You can convert a decimal number to octal with the oct() function.

In [125]: for i in range(10):
   .....:     print '{:5} {:5}'.format(i, oct(i))
   .....:
    0 0
    1 01
    2 02
    3 03
    4 04
    5 05
    6 06
    7 07
    8 010
    9 011

and convert an octal value to integer with the int() function with the appropriate base (8 in this case):

int(str(17), 8)
Out[129]: 15

The similar set of rules/functions apply for hexadecimal numbers (base 16) using the hex() function.

Both Python versions 2 & 3 understand octal written with leading '0o' and '0O' (Uppercase o), so be in the habit of using if when working with Python 2.x as well.

Only use leading zeros in numbers in strings.

You can convert integers from any of the other base systems with int().

>>> int(0o20)

16

If you want your output to display with leading zeros, then define it per this answer: Display number with leading zeros

If you ever plan to work with ZIP Codes, it's best to treat them as strings in all ways.

That is very easy. They are octal numbers.

http://en.wikipedia.org/wiki/Octal

Also there are numbers that are starting with 0x. They are hexadecimal numbers:

>>> 0x51
81

They are apparently octal (base 8) numbers, and the 0 is just an outdated prefix that Python 2 used to use.

In Python 3 you must write: 0o11 instead.

They are still integers but doing operations with them will give a result in regular base-10 form.

I have tried it out. I have learned a little bit. From Java I know this as a pitfall: A leading zero introduces an octal number. I have colleagues which didn't resp. don't know that after more than years with experience in Java.

Now I was interesting what the behaviour in Python is. I appreciate that change from Python 2 to Python 3. It is pitfall I have never understood why Java (a young language with focus on "beeing easy") could take over that stupid solution from C.

A leading zero as prefix can be accidentally typed (bad solution). 0x for a hexadecimal number is never accidentally typed (good solution). But 0 and o are to similar therefore I think 0o23 in Python is not a perfect solution. 0c23 (octal) would be a better solution in my opinion.

The latest Python specification for number literals is in PEP-3127 "Integer Literal Support and Syntax"

The syntax for 011 has been removed in Python 3.0. The syntax for 0o11 has been added in Python 2.6 and it is the only one supported after Python 3.0. There is no __future__ import in Python 2 that would disallow or atleast warn on number literals with leading zeros, so developers have to know what 011 means and that it should be avoided (and that it can actually be avoided).

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