I figured out that `double`

type on my machine corresponds to this Wikipedia article, and `long double`

corresponds to this text: x86 Extended Precision Format.

That's why `floor(52/log2(10))`

or 15 digits of `double`

should be correct and `floor(63/log2(10))`

or 19 digits of `long double`

are trusted.

The code:

```
int main()
{
double d=0.1;
long double ld=0.1;
std::cout.precision(19);
std::cout.setf(std::ios_base::scientific);
std::cout << d << std::endl;
std::cout << ld << std::endl;
return 0;
}
```

gives the output:

```
1.0000000000000000555e-01
1.0000000000000000555e-01
```

If we set `cout.precision`

to 16, the output will be:

```
1.0000000000000001e-01
1.0000000000000001e-01
```

It's allright, that 17th digit of `double`

in 1st output and 16th digit of `double`

in second output is incorrect. But why is it incorrect for `long double`

? Is there a way to get all 19 correct digits of `long double`

variables?

If I try `printf("%.19Le\n",ld);`

for long double, I get exactly the same result.

I use OpenSUSE 12.1 and g++ 4.6.2.