# Is there an implication logical operator in python?

I would like to write a statement in python with logical implication. Something like:

``````if x => y:
do_sth()
``````

Of course, I know I could use:

``````if (x and y) or not x:
do_sth()
``````

But is there a logical operator for this in python?

`p => q` is the same as `not(p) or q`, so you could try that!

• And that is simplier than (x and y) or not x. Thanks Commented May 6, 2013 at 19:39
• The TTL agrees - but it's not necessarily so easy to see in code, although simpler than the original. A function - i.e. `implies(x, y)` - might help with transferring the idea more, if such a construct occurs often enough to warrant a name. Commented May 6, 2013 at 19:39
• @user2246674 Agreed, I would recommend making this a function for clarity. Commented May 6, 2013 at 19:42
• en.wikipedia.org/wiki/Material_nonimplication also equivalent to `p and not(q)` Commented Jan 15, 2019 at 10:36
• One potential gotcha if you make an `implies(x, y)` function: because of Python's strict evaluation, the consequent `y` will always be evaluated (the operation will not be short-circuiting). You would think this would be obvious, but I just spent 30 minutes scratching my head over this problem. Commented Apr 5, 2021 at 1:12

Just because it's funny: x => y could be `bool(x) <= bool(y)` in python.

• And this is (finally) conclusive proof that `True` should be `-1` and `False` should be `0` for booleans! (Instead of the current Python convention of `True == 1`.) Because then we'd have `x => y` matching `y <= x` (which looks like a right-to-left implication) for booleans. Commented Oct 7, 2015 at 18:44

There is a converse implication operator:

``````if y ** x:
do_sth()
``````

This reads: If y is implied by x.

Credits to https://github.com/cosmologicon/pywat

• Yes. This is exactly what I was looking for. And it looks like this converse implication is undocumented, so @Latty 's answer basically is incorrect. Commented Nov 18, 2015 at 10:08
• @running.t This is something that happens to have the same effect as `x => y`, but is not an operator for that purpose. This is the power operator, and is not a logical operator, but a numerical one. It does not return `True` or `False`, but a number. This is slower, and could potentially introduce bugs, not to mention being incredibly unclear and hard to read. I would highly recommend against ever doing this, and instead would use `not(p) or q` as per Juampi's answer. Commented Nov 22, 2015 at 14:02
• I would have liked to have a bitwise version of this too. Commented Jul 12, 2019 at 8:37
• @GarethLatty, a "purpose" of an operator only makes sense for a particular class/type (operators can and should be overloaded). Note by the way that the `+` operator is arguably not for the purpose of doing `"Hell" + "o"`. Regarding the power operator `**` for Booleans that is not properly overloaded and does not return `True`/`False`, IMO this is a Python's bug or misfeature. If `A` and `B` are two sets, then `A^B` (`A` to the power `B`) is the standard notation for the set of functions `B -> A`. Under Curry–Howard correspondence, a function `B -> A` represents a proof of `B => A`. Commented Jul 12, 2019 at 9:00
• @Alexey "Operators can and should be overloaded." is a strong statement. Operators are hard to search for and rely on the user's perception of the operator, so should generally be avoided in favour of functions where the meaning isn't very clear to most people. The vast majority of people reading that code will find it less clear than the alternative, and—regardless of it being a bug or intentionally not done—it isn't implemented efficiently. You can argue that shouldn't be the case, but it definitely is at the moment. Given that, I'd highly recommend against it. Commented Jul 12, 2019 at 9:32

Your question asks if there is a single logical operator for this in Python, the simple answer is no: The docs list boolean operations, and Python simply doesn't have anything like that.

Obviously, as Juampi's answer points out, there are logically equivalent operations that are a little shorter, but no single operators as you asked.

• Please take a look at this answer. It looks like not everything can be found in docs. Commented Nov 18, 2015 at 10:11
• @running.t It is not in the docs because that answer is wrong - there is no such operator, instead, it is an abuse of another operator that happens to produce the same result. The end result of using that would be horribly unlcear, inefficient code which may introduce bugs. Commented Nov 22, 2015 at 14:03

Additional details based on what I have found here and there as I was looking for an implication operator : you can use a clever hack to define your own operators. Here is a running example annotated with sources leading me to this result.

``````#!/usr/bin/python

# From http://code.activestate.com/recipes/384122/ (via http://stackoverflow.com/questions/932328/python-defining-my-own-operators)
class Infix:
def __init__(self, function):
self.function = function
def __ror__(self, other):
return Infix(lambda x, self=self, other=other: self.function(other, x))
def __rlshift__(self, other):
return Infix(lambda x, self=self, other=other: self.function(other, x))
def __or__(self, other):
return self.function(other)
def __rshift__(self, other):
return self.function(other)
def __call__(self, value1, value2):
return self.function(value1, value2)

from itertools import product

booleans = [False,True]

# http://stackoverflow.com/questions/16405892/is-there-an-implication-logical-operator-in-python
# http://jacob.jkrall.net/lost-operator/
operators=[
(Infix(lambda p,q: False),                  "F"),
(Infix(lambda p,q: True),                   "T"),
(Infix(lambda p,q: p and q),                "&"),
(Infix(lambda p,q: p or q)           ,      "V"),
(Infix(lambda p,q: p != q)           ,      "^"),
(Infix(lambda p,q: ((not p) or not q)),     "nad"),
(Infix(lambda p,q: ((not p) and not q)),    "nor"),
(Infix(lambda p,q: ((not p) or q)),         "=>"),
]

for op,sym in operators:
print "\nTruth tables for %s" % sym

print "\np\tq\tp %s q\tq %s p" % (sym,sym)
for p,q in product(booleans,repeat=2):
print "%d\t%d\t%d\t%d" % (p,q,p |op| q,q |op| p)

print "\np\tq\tr\tp %s q\tq %s r\t(p %s q) %s r\tp %s (q %s r)\tp %s q %s r" % (sym,sym,sym,sym,sym,sym,sym,sym)
for p,q,r in product(booleans,repeat=3):
print "%d\t%d\t%d\t%d\t%d\t%d\t\t%d\t\t%d" % (p,q,r,p |op| q,q |op| r, (p |op| q) |op| r, p |op| (q |op| r), p |op| q |op| r)
assert( (p |op| q) |op| r == p |op| q |op| r)
``````

I would argue a more readable one-liner would be

``````x_implies_y = y if x else True
``````

``````if (y if x else True): do_sth()
``````

You can use the comparison operator `<=` to get an implication for two variables. Examples:

``````A   B   A <- B  A <= B
0   0   1       1
0   1   1       1
1   0   0       0
1   1   1       1
``````
• This is wrong. Writing `A <- B` means B implies A, which is false when A is false end B is true, but `A <= B` is true in that case. `A <= B` can be interpreted, counterintuitively, as A implies B. Commented Feb 11, 2023 at 10:20

I found XOR to be a good solution. you can change A implies B to not A or B. Then you use xor to negate A like this

``````A^1 or B
``````

Since A xor(^) 1 is equal to not A

• It is more common in Python to use `not A` instead of `A ^ 1` to negate a boolean, though. Commented Feb 11, 2023 at 10:21

You can use == (which is an ARITHMETICAL operator) instead of logic equivalency as well as use <= (which is an ARITHMETICAL operator) instead of logic implication. But you get onto a minefield in this case, because:

1. you should be sure that your arguments are pure int 0 or 1 only,
2. precedence of arithmetical <= and == is HIGHER than precedence of logical not (but it should be even lower than precedence of or in a world of logic),
3. an "arrow" you see as <= looks opposite to an actual direction of implication (which can be confusing).

Be careful.