It comes from the history of using integer values as booleans.
x is an
int, but I am using it as a boolean as per
if(x)... then incrementing will mean that whatever its truth value before the operation, it will have a truth-value of
true after it (barring overflow).
However, it's impossible to predict the result of
-- given knowledge only of the truth value of
x, as it could result in
false (if the integral value is 1) or
true (if the integral value is anything else - notably this includes 0 [
false] and 2 or more [
So as a short-hand
++ worked, and
++ is allowed on bools for compatibility with this, but its use is deprecated in the standard and it was removed in C++17.
This assumes that I only use
x as an boolean, meaning that overflow can't happen until I've done
++ often enough to cause an overflow on it's own. Even with char as the type used and
CHAR_BITS something low like 5, that's 32 times before this doesn't work any more (that's still argument enough for it being a bad practice, I'm not defending the practice, just explaining why it works) for a 32-bit
int we of course would have to use
++ 2^32 times before this is an issue. With
-- though it will only result in
false if I started with a value of 1 for
true, or started with 0 and used
++ precisely once before.
This is different if we start with a value that is just a few below 0. Indeed, in such a case we might want
++ to result in the
false value eventually such as in:
int x = -5;
However, this example treats
x as an
int everywhere except the conditional, so it's equivalent to:
int x = -5;
while(++x != 0)
Which is different to only using
x as a boolean.