Where are the ampersand and vertical bar characters used in Python?
Solution 1:
The wikipedia page is wrong, I've corrected it. |
and &
are not boolean operators, even though they are eager operators, which just means that they are not short circuit operators. As you probably know, here's how the python and
and or
operators work:
>>> def talk(x):
... print "Evaluating: ", bool(x)
... return x
...
>>> talk(1 == 1) or talk(2 == 1) # 2 == 1 is not evaluated
Evaluating: True
True
>>> talk(1 == 1) and talk(2 == 1)
Evaluating: True
Evaluating: False
False
>>> talk(1 == 2) and talk(1 == 3) # 1 == 3 is not evaluated
Evaluating: False
False
As far as I know, python has no eager boolean operators, they would have to be explicitly coded, for instance like this:
>>> def eager_or(a, b):
... return a or b
...
>>> eager_or(talk(1 == 1), talk(2 == 1))
Evaluating: True
Evaluating: False
True
Now a
and b
are automatically evaluated when the function is called, even though or
still short circuits.
As for the usage of |
and &
, when used with numbers, they are binary operators:
>>> bin(0b11110000 & 0b10101010)
'0b10100000'
>>> bin(0b11110000 | 0b10101010)
'0b11111010'
You're most likely to use |
this way with python bindings to libraries that uses flags, like wxWidgets:
>>> frame = wx.Frame(title="My Frame", style=wx.MAXIMIZE | wx.STAY_ON_TOP)
>>> bin(wx.MAXIMIZE)
'0b10000000000000'
>>> bin(wx.STAY_ON_TOP)
'0b1000000000000000'
>>> bin(wx.MAXIMIZE | wx.STAY_ON_TOP)
'0b1010000000000000'
When used with sets, they do the intersection and union operations, respectively:
>>> set("abcd") & set("cdef")
set(['c', 'd'])
>>> set("abcd") | set("cdef")
set(['a', 'c', 'b', 'e', 'd', 'f'])
Solution 2:
Something missing from the other answers here is that &
and |
don't have any universal meaning in Python; their meaning depends on the operands' types, using the magic __and__
and __or__
methods. Since these are methods, the operands are both evaluated (i.e. without short-circuiting) before being passed as arguments.
On bool
values they are logical "and" and logical "or":
>>> True & False
False
>>> True | False
True
>>> bool.__and__(True, False)
False
>>> bool.__or__(True, False)
True
On int
values they are bitwise "and" and bitwise "or":
>>> bin(0b1100 & 0b1010)
'0b1000'
>>> bin(0b1100 | 0b1010)
'0b1110'
>>> bin(int.__and__(0b1100, 0b1010))
'0b1000'
>>> bin(int.__or__(0b1100, 0b1010))
'0b1110'
On sets, they are intersection and union:
>>> {1, 2} & {1, 3}
{1}
>>> {1, 2} | {1, 3}
{1, 2, 3}
>>> set.__and__({1, 2}, {1, 3})
{1}
>>> set.__or__({1, 2}, {1, 3})
{1, 2, 3}
A couple of extra notes:
- The
__and__
and__or__
methods are always looked up on the class, not on the instance. So if you assignobj.__and__ = lambda x, y: ...
then it's stillobj.__class__.__and__
that's invoked. - The
__rand__
and__ror__
methods on the class will take priority, if they are defined.
See the Python language reference for more details.
Solution 3:
It means the left operand and the right operand are always evaluated. &
is the bitwise AND operator and |
is the bitwise OR operator.
Solution 4:
& ----> Used to AND bitwise i.e. bit by bit
similarly,
| ---> used to OR bitwise
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