Some of the implementations suggested here will cause repeated evaluation of the operands in some cases, which may lead to unintended side effects and therefore must be avoided.

That said, a `xor`

implementation that returns either `True`

or `False`

is fairly simple; one that returns one of the operands, if possible, is much trickier, because no consensus exists as to which operand should be the chosen one, especially when there are more than two operands. For instance, should `xor(None, -1, [], True)`

return `None`

, `[]`

or `False`

? I bet each answer appears to some people as the most intuitive one.

For either the True- or the False-result, there are as many as five possible choices: return first operand (if it matches end result in value, else boolean), return first match (if at least one exists, else boolean), return last operand (if ... else ...), return last match (if ... else ...), or always return boolean. Altogether, that's 5 ** 2 = 25 flavors of `xor`

.

```
def xor(*operands, falsechoice = -2, truechoice = -2):
"""A single-evaluation, multi-operand, full-choice xor implementation
falsechoice, truechoice: 0 = always bool, +/-1 = first/last operand, +/-2 = first/last match"""
if not operands:
raise TypeError('at least one operand expected')
choices = [falsechoice, truechoice]
matches = {}
result = False
first = True
value = choice = None
# avoid using index or slice since operands may be an infinite iterator
for operand in operands:
# evaluate each operand once only so as to avoid unintended side effects
value = bool(operand)
# the actual xor operation
result ^= value
# choice for the current operand, which may or may not match end result
choice = choices[value]
# if choice is last match;
# or last operand and the current operand, in case it is last, matches result;
# or first operand and the current operand is indeed first;
# or first match and there hasn't been a match so far
if choice < -1 or (choice == -1 and value == result) or (choice == 1 and first) or (choice > 1 and value not in matches):
# store the current operand
matches[value] = operand
# next operand will no longer be first
first = False
# if choice for result is last operand, but they mismatch
if (choices[result] == -1) and (result != value):
return result
else:
# return the stored matching operand, if existing, else result as bool
return matches.get(result, result)
testcases = [
(-1, None, True, {None: None}, [], 'a'),
(None, -1, {None: None}, 'a', []),
(None, -1, True, {None: None}, 'a', []),
(-1, None, {None: None}, [], 'a')]
choices = {-2: 'last match', -1: 'last operand', 0: 'always bool', 1: 'first operand', 2: 'first match'}
for c in testcases:
print(c)
for f in sorted(choices.keys()):
for t in sorted(choices.keys()):
x = xor(*c, falsechoice = f, truechoice = t)
print('f: %d (%s)\tt: %d (%s)\tx: %s' % (f, choices[f], t, choices[t], x))
print()
```

`a xor a`

is defined as`(a and not b) or (not a and b)`

, and so`a xor b`

, when`a`

and`b`

are character strings, or any other types, should yield whatever`(a and not b) or (not a and b)`

yields. – Kaz May 14 '13 at 15:57