Think easy, think bits.

First you must decide whether the most significant bit (MSB) is output first, or the least significant bit (MSB). For this example, I will show how to output least significant bit first.

## Binary Logic

The first concept to understand is the binary AND operator. A 1 AND 0 is zero, a 1 AND 1 is 1, and 0 AND 0 is zero. By using this operator, any bit can be isolated.

## Bit Shifting

Another concept is bit shifting. Shifting means moving each bit one position either right (dividing by 2) or left (multiplying by 2). This concept will be used to determine which bit to isolate.

## Isolating zeros and ones

This algorithm will test a bit and and output a zero or a 1 for the bit's value:

```
if ((value & 1) == 0) cout << "0"
else cout << "1";
```

## Binary Output for an 8 bit unsigned integer:

Each bit will be tested by shifting a "mask" bit by 1 in a loop:

```
uint8_t mask = 1; // Modify this line for outputting MSB.
uint8_t value = 0x5a; // 0101 1010
for (unsigned int count = 0; count < CHAR_BIT; ++count)
{
if ((value & mask) == 0)
{
cout << "0";
}
else
{
cout << "1";
}
mask = mask << 1; // Modify this line to output MSB format
}
```

Applying this algorithm to multiple bytes is left to the reader. :-)

`1`

rather than`0001`

. Are you sure that's what you want? Usually binary representations are padded to some meaningful size (such as eight bits or thirty-two bits). – ruakh Mar 5 '12 at 20:00