# Why is true && false equal to 1 in C++?

I was playing around with booleans and ended up with this line of code:

`std::cout << true && false;`

which, for some reason, produces `1`. How is this possible, if `&&` requires both sides to be true, in order to produce `1`?

• Because its actually seen by the compiler as (std::cout << true ) then the function result is ANDed with false and the result discarded. Use Brackets to avoid operator precedence issues en.cppreference.com/w/cpp/language/operator_precedence eg std::cout<< (true && false) Commented Aug 3, 2021 at 7:51
• IMO, the design decision regarding the precedence of the C << and >> operators was a sad mistake.
– user1196549
Commented Aug 3, 2021 at 7:54
• @YvesDaoust -- in C, the precedence does what's expected. The problem in C++ is that `<<` and `>>` are overloaded for use with streams, and the precedence that works in mixed arithmetic/logical expressions doesn't work well for stream operations. Commented Aug 3, 2021 at 12:39
• @PeteBecker: no, you don't get it. a << b + c should mean (a << b) + c, not a << (b + c). This is a mistake of K & R.
– user1196549
Commented Aug 3, 2021 at 14:59
• @Caleth: the point is not what you would do (such as rejecting centuries of math notation). The point is that K & R made a design mistake.
– user1196549
Commented Aug 3, 2021 at 16:01

Because `operator<<` has higher precedence than `operator&&`, `std::cout << true && false;` is just same as `(std::cout << true) && false;` (i.e. print out `true` firstly, then the returned `std::cout` is converted to `bool`, which is used as operand with `false` for the `operator&&`, the result is discarded at last).

Note that `std::cout` could be converted to `bool` via `operator bool`, which could be used in contextual conversions (including as operand of built-in `operator&&`) even it's marked as `explicit`.

Returns `true` if the stream has no errors and is ready for I/O operations. Specifically, returns `!fail()`.

You might specify precedence by adding parentheses.

``````std::cout << (true && false);
``````

Due to operator precedence, the `true` is printed and then the return of the `operator<<` (the `std::cout`) is `&&` with the `false`.

``````(std::cout << true) && false; // Equivalent
``````