To get the highest power of 2 representable by a certain integer type you may use `limits.h`

instead of the `sizeof`

operator. For instance:

```
#include <stdlib.h>
#include <stdio.h>
#include <limits.h>
int main() {
int max = INT_MAX;
int hmax = max>>1;
int mpow2 = max ^ hmax;
printf("The maximum representable integer is %d\n",max);
printf("The maximum representable power of 2 is %d\n",mpow2);
return 0;
}
```

This should always work as the right shift of a positive integer is always defined. Quoting from the standard C section 6.5.7.5 (Bitwise shift operator):

The result of **E1** >> **E2** is **E1** right-shifted **E2** bit positions. If **E1**
has an unsigned type or if **E1** has a signed type and a nonnegative
value, the value of the result is the integral part of the quotient of
**E1** divided by the quantity, 2 raised to the power **E2**.

If the use of `sizeof`

is mandatory you can use:

```
1 << (CHAR_BIT*sizeof(param)-1)
```

for unsigned integer types and:

```
1 << (CHAR_BIT*sizeof(param)-2)
```

for signed integer types. The lines above will work only in the case of integer types **without padding bits**. The part of the standard C ensuring these lines to work is in section 6.2.6.2. In particular:

For unsigned integer types other than **unsigned char**, the bits of the
object representation shall be divided into two groups: value bits and
padding bits (there need not be any of the latter). If there are N
value bits, each bit shall represent a different power of 2 between 1
and 2N-1, so that objects of that type shall be capable of
representing values from 0 to 2N - 1 using a pure binary
representation; this shall be known as the value representation.

guarantees the first method to work while:

For signed integer types, the bits of the object representation shall
be divided into three groups: value bits, padding bits, and the sign
bit. There need not be any padding bits; there shall be exactly one
sign bit.

...

A valid (non-trap) object representation of a signed integer type
where the sign bit is zero is a valid object representation of the
corresponding unsigned type, and shall represent the same value.

explains why the second line give the right answer.