# Pythonic way to eval all octal values in a string as integers

So I've got a string that looks like "012 + 2 - 01 + 24" for example. I want to be able to quickly (less code) evaluate that expression...

I could use eval() on the string, but I don't want 012 to be represented in octal form (10), I want it to be represented as an int (12).

My solution for this works, but it is not elegant. I am sort of assuming that there is a really good pythonic way to do this.

My solution:

#expression is some string that looks like "012 + 2 - 01 + 24"
atomlist = []
for atom in expression.split():
if "+" not in atom and "-" not in atom:
atomlist.append(int(atom))
else:
atomlist.append(atom)
#print atomlist
evalstring = ""
for atom in atomlist:
evalstring+=str(atom)
#print evalstring
num = eval(evalstring)

Basically, I tear appart the string, and find numbers in it and turn them into ints, and then I rebuild the string with the ints (essentially removing leading 0's except where 0 is a number on its own).

How can this be done better?

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Side note: eval('012') will raise a SyntaxError in Python 3 :) –  Rik Poggi Mar 23 '12 at 17:07
@RikPoggi: That is a very interesting side note... –  Dream Lane Mar 23 '12 at 18:07

I'd be tempted to use regular expressions to remove the leading zeroes:

>>> re.sub(r'\b0+(?!\b)', '', '012 + 2 + 0 - 01 + 204 - 0')
'12 + 2 + 0 - 1 + 204 - 0'

This removes zeroes at the start of every number, except when the number consists entirely of zeroes:

• the first \b matches a word (token) boundary;
• the 0+ matches one or more consecutive zeroes;
• the (?!\b) (negative lookahead) inhibits matches where the sequence of zeroes is followed by a token boundary.

One advantage of this approach over split()-based alternatives is that it doesn't require spaces in order to work:

>>> re.sub(r'\b0+(?!\b)', '', '012+2+0-01+204-0')
'12+2+0-1+204-0'
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One more reason why I need to start learning regular expressions –  Dream Lane Mar 23 '12 at 17:03

You can do this in one line using lstrip() to strip off any leading zeros:

>>> eval("".join(token.lstrip('0') for token in s.split()))
37
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What about s = '0 * 10'? –  Rik Poggi Mar 23 '12 at 16:49
Good point! Not sure there's any easy way around this using my approach. –  grifaton Mar 23 '12 at 17:01
+1'd for a good answer anyways. In my particular case the only operations are + and - –  Dream Lane Mar 23 '12 at 17:02
One way to fix the problem would be to use token.lstrip('0') if token.lstrip('0') else token or something. It would still maybe be a little too accepting ("00+" would become "+"). –  DSM Mar 23 '12 at 19:20

I'd like to do it this way:

>>> s = '012 + 2 + 0 - 01 + 204 - 0'
>>> ' '.join(str(int(x)) if x.isdigit() else x for x in s.split())
'12 + 2 + 0 - 1 + 204 - 0'

Use float() if you want to handle them too :)

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+1 for selfish reasons; this is the first thing I thought of. –  DSM Mar 23 '12 at 19:19

int does not assume that a leading zero indicates an octal number:

In [26]: int('012')
Out[26]: 12

Accordingly, you can safely evalute the expression with the following code

from collections import deque

def mapper(item, opmap = {'+': add, '-': sub}):
try: return int(item)
except ValueError: pass

return opmap[item]

stack = deque()
# if item filters out empty strings between whitespace sequences
for item in (mapper(item) for item in "012 + 2 - 01 + 24".split(' ') if item):
if stack and callable(stack[-1]):
f = stack.pop()
stack.append(f(stack.pop(), item))
else: stack.append(item)

print stack.pop()

Not a one-liner, but it is safe, because you control all of the functions which can be executed.

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