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Just starting out with Python, so this is probably my mistake, but...

I'm trying out Python. I like to use it as a calculator, and I'm slowly working through some tutorials.

I ran into something weird today. I wanted to find out 2013*2013, but I wrote the wrong thing and wrote 2013*013, and got this:

>>> 2013*013

I checked with my calculator, and 22143 is the wrong answer! 2013 * 13 is supposed to be 26169.

Why is Python giving me a wrong answer? My old Casio calculator doesn't do this...

share|improve this question
related: – mgilson Apr 9 '13 at 6:14
+1 for actually noticing. I knew it was an octal number, but if I would not have known, I would now think 2013*13 was 22143. How did you discover it was the wrong answer? – 11684 Apr 9 '13 at 6:45
I did mental math for a while back in high school, and I thought 22143 was a bit smaller than it should be. So I checked with my trusty calculator. – James Elegan Apr 9 '13 at 6:46
+1 for trusting your good ole' noggin. – Sean Allred Apr 9 '13 at 11:52
@11684 If the last digit in both numbers is 3, the last digit of the product must be 9. elementary school mathematics... – Aleksandar Apr 9 '13 at 12:29
up vote 135 down vote accepted

Because of octal arithmetic, 013 is actually the integer 11.

>>> 013

With a leading zero, 013 is interpreted as a base-8 number and 1*81 + 3*80 = 11.

Note: this behaviour was changed in python 3. Here is a particularly appropriate quote from PEP 3127

The default octal representation of integers is silently confusing to people unfamiliar with C-like languages. It is extremely easy to inadvertently create an integer object with the wrong value, because '013' means 'decimal 11', not 'decimal 13', to the Python language itself, which is not the meaning that most humans would assign to this literal.

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Anyone who deals with filesystem permissions will use octal .. – wim Apr 9 '13 at 5:49
@JamesElegan: Maybe that's one reason why Python 3 makes the 0123 syntax illegal and always requires 0o123. – Tim Pietzcker Apr 9 '13 at 5:49
Why do programmers always confuse Halloween and Christmas? Because DEC25 == OCT31! Nyuk nyuk nyuk. – Joe Frambach Apr 9 '13 at 5:53
@JoeFrambach, 0 prefix followed by 0-7 is octal :) – Mark Tolonen Apr 9 '13 at 6:10
The benevolent dictator didn't copy from Lisp properly the first time round. These things have to be loud and clear: #xFF, #o777, #b1011. – Kaz Apr 9 '13 at 8:30

013 is an octal integer literal (equivalent to the decimal integer literal 11), due to the leading 0.

>>> 2013*013
>>> 2013*11
>>> 2013*13

It is very common (certainly in most of the languages I'm familiar with) to have octal integer literals start with 0 and hexadecimal integer literals start with 0x. Due to the exact confusion you experienced, Python 3 raises a SyntaxError:

>>> 2013*013
  File "<stdin>", line 1
SyntaxError: invalid token

and requires either 0o or 0O instead:

>>> 2013*0o13
>>> 2013*0O13
share|improve this answer
Thanks for the answer! I think this octal thing is a bit confusing, but at least now I know about it :) – James Elegan Apr 9 '13 at 5:58
You're very welcome. As noted in mine and @wim's answer, the Python community is doing what they can to minimize newbie confusion around octal literals with Python 3. Still, it's a very good thing to be aware of -- you can be sure you'll run into 0-prefixed octal literals again, whether in Python 2.X or some other language. – Darshan Rivka Whittle Apr 9 '13 at 6:18
the PEP 3127 is a slightly amusing read in this respect ... e.g. "a new Python user may (currently) be mystified at the delayed discovery that his numbers don't work properly, we can fix it by explaining to him immediately that Python doesn't like leading zeros (hopefully with a reasonable message!), or we can delegate this teaching experience to the JavaScript interpreter in the Internet Explorer browser, and let him try to debug his issue there." – wim Apr 9 '13 at 8:21

Python's 'leading zero' syntax for octal literals is a common gotcha:

Python 2.7.3
>>> 010

The syntax was changed in Python 3.x

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This is mostly just expanding on @Wim's answer a bit, but Python indicates the base of integer literals using certain prefixes. Without a prefix, integers are interpreted as being in base-10. With an "0x", the integer will be interpreted as a hexadecimal int. The full grammar specification is here, though it's a bit tricky to understand if you're not familiar with formal grammars:

The table essentially says that if you want a long value (i.e. one that exceeds the capacity of a normal int), write the number followed by the letter "L" or "l"; if you want your number to be interpreted in decimal, write the number normally (with no leading 0); if you want it interpreted in octal, prefix it with "0", "0o", or "0O"; if you want it in hex, prefix it with "0x"; and if you want it in binary, prefix it with "0b" or "0B".

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Python seems to be adding that L automatically, when I enter really big numbers (like 9999999999999999999999999, but not like 3333333333). Is there any time when I would have to add it myself? – James Elegan Apr 9 '13 at 6:05
@JamesElegan only if you're using an insanely old version of Python. And in Python 3, the L is gone completely, as are all the other distinctions between int and long types. – lvc Apr 9 '13 at 6:12
Python 2.7 is not insanely old, I take it? So I never need to add the L. (I keep hearing good things about Python 3, maybe I should just install and use that?) – James Elegan Apr 9 '13 at 6:14
@JamesElegan I can't find any exact information on which previous version required the suffix for literals that were bigger than could fit in an int (and I might actually be wrong about there being one) - my own memory goes back as far as being fairly sure that 2.4 didn't need it. But yes, Python 3 is generally worthwhile to move to if you don't depend on any libraries that haven't been ported yet. – lvc Apr 9 '13 at 6:17
Python 2.7 is the most recent version of Python 2; in fact, 2.7.4 was released just this weekend. Python 3 is substantially different from Python 2, but ultimately most Python code will be written as Python 3 code in the not-too-distant future, or at least, that seems to be the goal. So if you're just starting out and you can choose which one to learn, I'd recommend either 3 or both 2 and 3. – Kyle Strand Apr 9 '13 at 6:36

protected by Marcin Jul 17 '13 at 17:45

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