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>>> def mod2(n):
...   print 'the remainder is', n % 2
>>> mod2(5)
the remainder is 1
>>> mod2(2)
the remainder is 0
>>> mod2('%d')
the remainder is 2
>>> mod2('%d\rHELLO. I AM A POTATO!')

Is there anyway to disable % symbol (operator.mod) from doing wacky string substitution stuff? I always use str.format if I need anything like that, and would generally rather this string substitution feature didn't exist at all, giving a TypeError instead.

share|improve this question
Sorry guys, I'm not asking about how I can re-implement mod2 .. I'm asking if this awkward/unnecessary feature of the language can be disabled - similar to how you can change the behaviour of / with __future__ – wim Dec 11 '12 at 11:43
You can't. The str() type implements a __mod__ method to handle the interpolation. – Martijn Pieters Dec 11 '12 at 11:45
You can't, it's a feature. ;-) But modulus on a string doesn't make much sense, otherwise. So just "cast" it. – Keith Dec 11 '12 at 11:46
up vote 4 down vote accepted

You can't disable it with a switch, no. The str() type implements a __mod__ method to handle the formatting, it's not that Python special-cased the expression just for strings.

As such, to prevent this you either need to cast the n argument to something that is not a string (by converting it to int() for example), or subclass str() to override the __mod__ method:

>>> class noformattingstr(str):
...     def __mod__(self, other):
...         raise TypeError('String formatting using "%" has been deprecated')
>>> noformattingstr('hello world: %d') % 10
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<stdin>", line 3, in __mod__
TypeError: String formatting using "%" has been deprecated

You can assign this to __builtins__.str, but this does not mean that all string literals will then use your subclass. You'd have to explicitly cast your str() values to noformattingstr() instances instead.

share|improve this answer
While a nice theoretical solution, using this in practice is a terrible idea. – Gareth Latty Dec 11 '12 at 11:58
Agreed, I can’t believe you seriously suggested monkey-patching built-in types. – poke Dec 11 '12 at 11:59
@Lattyware: Absolutely agree, but the OP was asking specifically how to disable it. It's going to be ugly in either direction. – Martijn Pieters Dec 11 '12 at 11:59
Oh, I never presumed you were posing this as a good solution - just as an example of how awesome Python is and what one can do. – Gareth Latty Dec 11 '12 at 12:01
This is the "answer" I was looking for. I did not realise that str implements __mod__ method, for something completely unrelated to modulo! I probably should have left out the silly mod2 example, because it seems to have distracted everyone else ;) – wim Dec 11 '12 at 12:44

If you want to ensure that n is a number, the simplest way, I would argue, is to perform a numeric operation with it beforehand:

def mod2(n):
    n - 1
    print 'the remainder is', n % 2

This will ensure a TypeError will be raised as you cannot take away from a string, while you can from all numeric types.

You may want to encircle it in a try/catch block and raise your own exception which is a little more descriptive of the actual problem.

As another note, it might just be worth being more careful about storing your types of data. While Python is duck typed, it's a little odd to have a situation where a number or a string can be passed in. A note saying it won't handle strings correctly might be the right call.

share|improve this answer
def mod2(n):
    print('the remainder is %d' % (n % 2))

# the remainder is 1
mod2('%d\rHELLO. I AM A POTATO!')
# TypeError: %d format: a number is required, not str
share|improve this answer
This presumes that all the asker actually wants to do is print the value, which may not be the case. – Gareth Latty Dec 11 '12 at 11:55
I think this is actually a nice trick, but it again won’t work for non-ints. – poke Dec 11 '12 at 12:01

Cast n with int() in the function.

def mod2(n):
    print 'the remainder is', int(n) % 2
share|improve this answer
This will break for other numeric types though, e.g. 3.14 % 2. – poke Dec 11 '12 at 11:46
That's true. Better solution is to call the method with precasted actual parameter so the function is more reusable. In this case of course the function does not contain cast. – Laszlo Papp Dec 11 '12 at 11:52
Besides, it will work for calls like mod2('123') which might lead to some unfortunate behaviors (when used in a slightly more complex code). Unless __doc__ clearly specifies that argument is converted to int when possible. – Dawid Fatyga Dec 11 '12 at 11:59

You wouldn't want to, even if you could; huge amounts of code out there still uses the % string formatting methods, including code in the Python libraries.

The % operator compiles to the BINARY_MODULO opcode:

>>> dis.dis(mod2)
  2           0 LOAD_CONST               1 ('the remainder is')
              3 PRINT_ITEM          
              4 LOAD_FAST                0 (n)
              7 LOAD_CONST               2 (2)
             10 BINARY_MODULO       
             11 PRINT_ITEM          
             12 PRINT_NEWLINE       
             13 LOAD_CONST               0 (None)
             16 RETURN_VALUE        

That means that there's no way to prevent string formatting occurring without modifying the parameter; and if you want to allow arbitrary numeric types to work in your code then you need to allow them to handle the modulo operation in their own way, i.e. using the % operator.

To check that the argument is of a numeric type, use numbers:

from number import Number
if not isinstance(n, Number):
    raise TypeError(n)
share|improve this answer
BINARY_MODULO uses the __mod__ method if present; str() implements that method. – Martijn Pieters Dec 11 '12 at 11:57

I don’t know why eumiro removed his answer, but that’s what I would have suggested as well. Except that I would check the type explicitely for unsupported types to keep it open for types that actually support the modulo operator (like floats):

def mod2(n):
    if isinstance(n, basestring): # for Py3 use `isinstance(n, str)`
        raise TypeError('unsupported type')
        print 'the remainder is', n % 2
share|improve this answer
If you are going to type check a string, just check against basestr in 2.x or str in 3.x. – Gareth Latty Dec 11 '12 at 11:51
@Lattyware Good point! – poke Dec 11 '12 at 11:56

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