If performance is your only criterion, then the answer is:

```
bool get_random()
{
return true; // chosen by fair coin flip.
// guaranteed to be random.
}
```

Unfortunately, the entropy of this random number is zero, but the performance is quite fast.

Since I suspect that this random number generator is not very useful to you, you will need to quantify **how random you want your booleans to be**. How about a cycle length of 2048? One million? 2^19937-1? Until the end of the universe?

I suspect that, since you explicitly stated that performance is your utmost concern, then a good old fashioned linear congruential generator might be "good enough". Based on this article, I'm guessing that this generator's period is around 32*((2^31)-5), or about 68 trillion iterations. If that's not "good enough", you can drop in any C++11 compatible generator you like instead of minstd_rand.

For extra credit, and a small performance hit, modify the below code to use the biased coin algorithm to remove bias in the generator.

```
#include <iostream>
#include <random>
bool get_random()
{
typedef std::minstd_rand generator_type;
typedef generator_type::result_type result_type;
static generator_type generator;
static unsigned int bits_remaining = 0;
static result_type random_bits;
if ( bits_remaining == 0 )
{
random_bits = generator();
bits_remaining = sizeof( result_type ) * CHAR_BIT - 1;
}
return ( ( random_bits & ( 1 << bits_remaining-- ) ) != 0 );
}
int main()
{
for ( unsigned int i = 0; i < 1000; i++ )
{
std::cout << " Choice " << i << ": ";
if ( get_random() )
std::cout << "true";
else
std::cout << "false";
std::cout << std::endl;
}
}
```

`std::bernoulli_distribution`

is slow from my experience. The best way is to generate`unsigned long long`

(for x64) and use its bits as boolean values. – Vitalii Feb 12 '16 at 9:04undefinedbehaviour - no guarantee your program will work. – Tony Delroy Feb 12 '16 at 9:08`bool`

altogether. It's a very sparse way to store the information if you have a lot of them, and if they're random then they're likely to stress branch prediction. It depends on your code, but the PRNG is unlikely to be the bottleneck. – sh1 Feb 12 '16 at 17:49