I'm working on some simple bit manipulation problems in C++, and came across this while trying to visualize my steps. I understand that the number of bits assigned to different primitive types may vary from system to system. For my machine, `sizeof(int)`

outputs `4`

, so I've got 4 `char`

worth of bits for my value. I also know now that the definition of a byte is usually 8 bits, but is not necessarily the case. When I output `CHAR_BIT`

I get `8`

. I therefore expect there to be a total of 32 bits for my `int`

values.

I can then go ahead and print the binary value of my `int`

to the screen:

```
int max=~0; //All my bits are turned on now
std::cout<<std::bitset<sizeof(int)*CHAR_BIT>(max)<<std::endl;
$:11111111111111111111111111111111
```

I can increase the bitset size if I want though:

```
int max=~0;
std::cout<<std::bitset<sizeof(int)*CHAR_BIT*3>(max)<<std::endl;
$:000000000000000000000000000000001111111111111111111111111111111111111111111111111111111111111111
```

Why are there so many ones? I would have expected to have only 32 ones, padded with zeros. Instead there's twice as many, what's going on?

When I repeat the experiment with `unsigned int`

, which has the same size as `int`

, the extra ones don't appear:

```
unsigned int unmax=~0;
std::cout<<std::bitset<sizeof(unsigned int)*CHAR_BIT*3>(unmax)<<std::endl;
$:000000000000000000000000000000000000000000000000000000000000000011111111111111111111111111111111
```