# Disadvantages of the bitlevel operators.

You ask:

“Is there any reason not to use the bitwise operators `&`

, `|`

, and `^`

for "bool" values in C++? ”

Yes, the **logical operators**, that is the built-in high level boolean operators `!`

, `&&`

and `||`

, offer the following advantages:

Guaranteed **conversion of arguments** to `bool`

, i.e. to `0`

and `1`

ordinal value.

Guaranteed **short circuit evaluation** where expression evaluation stops as soon as the final result is known.

This can be interpreted as a tree-value logic, with *True*, *False* and *Indeterminate*.

Readable textual equivalents `not`

, `and`

and `or`

, even if I don't use them myself.

As reader Antimony notes in a comment also the bitlevel operators have alternative tokens, namely `bitand`

, `bitor`

, `xor`

and `compl`

, but in my opinion these are less readable than `and`

, `or`

and `not`

.

Simply put, each such advantage of the high level operators is a disadvantage of the bitlevel operators.

In particular, since the bitwise operators lack argument conversion to 0/1 you get e.g. `1 & 2`

→ `0`

, while `1 && 2`

→ `true`

. Also `^`

, bitwise exclusive or, can misbehave in this way. Regarded as boolean values 1 and 2 are the same, namely `true`

, but regarded as bitpatterns they're different.

# How to express logical *either/or* in C++.

You then provide a bit of background for the question,

“I sometimes run into situations where I want exactly one of two conditions to be true (XOR), so I just throw the ^ operator into a conditional expression.”

Well, the bitwise operators have **higher precedence** than the logical operators. This means in particular that in a mixed expression such as

```
a && b ^ c
```

you get the perhaps unexpected result `a && (b ^ c)`

.

Instead write just

```
(a && b) != c
```

expressing more concisely what you mean.

For the multiple argument *either/or* there is no C++ operator that does the job. For example, if you write `a ^ b ^ c`

than that is not an expression that says “either `a`

, `b`

or `c`

is true“. Instead it says, “An odd number of `a`

, `b`

and `c`

are true“, which might be 1 of them or all 3…

To express the general either/or when `a`

, `b`

and `c`

are of type `bool`

, just write

```
(a + b + c) == 1
```

or, with non-`bool`

arguments, convert them to `bool`

:

```
(!!a + !!b + !!c) == 1
```

# Using `&=`

to accumulate boolean results.

You further elaborate,

“I also need to accumulate Boolean values sometimes, and `&=`

and `|=?`

can be quite useful.”

Well, this corresponds to checking whether respectively *all* or *any* condition is satisfied, and **de Morgan’s law** tells you how to go from one to the other. I.e. you only need one of them. You could in principle use `*=`

as a `&&=`

-operator (for as good old George Boole discovered, logical AND can very easily be expressed as multiplication), but I think that that would perplex and perhaps mislead maintainers of the code.

Consider also:

```
struct Bool
{
bool value;
void operator&=( bool const v ) { value = value && v; }
operator bool() const { return value; }
};
#include <iostream>
int main()
{
using namespace std;
Bool a = {true};
a &= true || false;
a &= 1234;
cout << boolalpha << a << endl;
bool b = {true};
b &= true || false;
b &= 1234;
cout << boolalpha << b << endl;
}
```

Output with Visual C++ 11.0 and g++ 4.7.1:

true
false

The reason for the difference in results is that the bitlevel `&=`

does not provide a conversion to `bool`

of its right hand side argument.

So, which of these results do you desire for your use of `&=`

?

If the former, `true`

, then better define an operator (e.g. as above) or named function, or use an explicit conversion of the right hand side expression, or write the update in full.