Basically all you have to do is:

shift everything right by n bits using right shift: `>>`

shift the bits you want to rotate all the way to the left: `<<`

Combine the shifted right and shifted left bits with `or`

: `|`

See this code for an example implementation using the function signature you require:

```
int rotateRight(int x, int n) {
//if n=4, x=0x12345678:
//shifted = 0x12345678 >> 4 = 0x01234567
int shifted = x >> n;
//rot_bits = (0x12345678 << 28) = 0x80000000
int rot_bits = x << (32-n);
//combined = 0x80000000 | 0x01234567 = 0x81234567
int combined = shifted | rot_bits;
return combined;
}
```

This implementation isn't safe though, at least not without a few guarantees - namely that `x`

will always be positive, and `n`

will be positive and always `<= 32`

.

If you pass in a negative integer for shifting, it will work incorrectly since it will sign-extend the left-most bit. If you want this function to work for all integers, you should change all the types from `int`

to `unsigned int`

(that way no sign-extension or negative left-shifting will take place) and then modulo `n`

by 32 (`% 32`

). Here is a safe version of the function:

```
unsigned int rotateRight(unsigned int x, unsigned int n) {
//needed so you don't right shift more than int width
n %= 32;
//needed so you don't left shift more than int width
unsigned int leftshift_val = (32-n) % 32
unsigned int shifted = x >> n;
unsigned int rot_bits = x << leftshift_val;
unsigned int combined = shifted | rot_bits;
return combined;
}
```

And golfed down to a single line, for you minimalists:

```
unsigned rotr(unsigned x, unsigned n) {
return (x >> n % 32) | (x << (32-n) % 32);
}
```

`unsigned`

and you're good to go.`%32`

- should code attempt that to fix things:`some_int%32`

is not a modulo that returns 0-31. It is the C remainder operand that return -31 to 31 in this case.`some_int%32u`

will achieve a "safe" reduction for all`int`

encodings.