I ran across the caret operator in python today and trying it out, I got the following output:
>>> 8^3
11
>>> 8^4
12
>>> 8^1
9
>>> 8^0
8
>>> 7^1
6
>>> 7^2
5
>>> 7^7
0
>>> 7^8
15
>>> 9^1
8
>>> 16^1
17
>>> 15^1
14
>>>
It seems to be based on 8, so I'm guessing some sort of byte operation? I can't seem to find much about this searching sites other than it behaves oddly for floats, does anybody have a link to what this operator does or can you explain it here?
It's a bitwise XOR (exclusive OR).
It evaluates to True if and only if its arguments differ (one is True, the other is False).
To demonstrate:
>>> 0^0
0
>>> 1^1
0
>>> 1^0
1
>>> 0^1
1
To explain one of your own examples:
>>> 8^3
11
Think about it this way:
1000 # 8 (binary)
0011 # 3 (binary)
---- # APPLY XOR ('vertically')
1011 # result = 11 (binary)
1 in the same bit to make it clear that 1 xor 1 = 0.
Commented
Mar 16, 2010 at 2:36
0bX where X is your binary. 0b0001, 0b0010, etc. So, 0b1101 ^ 0b1110 would give you 0b0011 (or 3).
It invokes the __xor__() or __rxor__() method of the object as needed, which for integer types does a bitwise exclusive-or.
It's a bit-by-bit exclusive-or. Binary bitwise operators are documented in chapter 5 of the Python Language Reference.
Generally speaking, the symbol ^ is an infix version of the __xor__ or __rxor__ methods. Whatever data types are placed to the right and left of the symbol must implement this function in a compatible way. For integers, it is the common XOR operation, but for example there is not a built-in definition of the function for type float with type int:
In [12]: 3 ^ 4
Out[12]: 7
In [13]: 3.3 ^ 4
---------------------------------------------------------------------------
TypeError Traceback (most recent call last)
<ipython-input-13-858cc886783d> in <module>()
----> 1 3.3 ^ 4
TypeError: unsupported operand type(s) for ^: 'float' and 'int'
One neat thing about Python is that you can override this behavior in a class of your own. For example, in some languages the ^ symbol means exponentiation. You could do that this way, just as one example:
class Foo(float):
def __xor__(self, other):
return self ** other
Then something like this will work, and now, for instances of Foo only, the ^ symbol will mean exponentiation.
In [16]: x = Foo(3)
In [17]: x
Out[17]: 3.0
In [18]: x ^ 4
Out[18]: 81.0
+ operator works too?
+ symbol is able to do one kind of action for list (concatenation) while doing another kind of action (mathematical addition) for numeric types. In that case, you would override the __add__ or __radd__ methods in your class.
__r*__ version of these (like __rxor__ or __radd__) will be invoked from the argument appearing on the right hand side of the infix symbol, and only if the call to the function for the left hand symbol doesn't work. You can think of it like try: left_hand_symbol.__xor__(right_hand_symbol); except: right_hand_symbol.__rxor__(left_hand_symbol), but xor can be replaced by any of the available infix operators in the Python Data Model.
int concatenation with strings? man, python is way complex than I thought
__xor__ method, but to do that for real would be bad practice.
When you use the ^ operator, behind the curtains the method __xor__ is called.
a^b is equivalent to a.__xor__(b).
Also, a ^= b is equivalent to a = a.__ixor__(b) (where __xor__ is used as a fallback when __ixor__ is implicitly called via using ^= but does not exist).
In principle, what __xor__ does is completely up to its implementation. Common use cases in Python are:
Demo:
>>> a = {1, 2, 3}
>>> b = {1, 4, 5}
>>> a^b
{2, 3, 4, 5}
>>> a.symmetric_difference(b)
{2, 3, 4, 5}
Demo:
>>> a = 5
>>> b = 6
>>> a^b
3
Explanation:
101 (5 decimal)
XOR 110 (6 decimal)
-------------------
011 (3 decimal)
help('^')**, the exponentiation operator.help('^')does nothing in my Python 2.6.1 (apple build). @S.Lott: do you mean this (docs.python.org/reference/…) when you're saying "completely covered"?. Seems a bit sparse for someone unfamiliar with the concept...