As an exercise I have to write the following function:

multiply x by 2, saturating to Tmin / Tmax if overflow, using only bit-wise and bit-shift operations.

Now this is my code:

```
// xor MSB and 2nd MSB. if diferent, we have an overflow and SHOULD get 0xFFFFFFFF. otherwise we get 0.
int overflowmask = ((x & 0x80000000) ^ ((x & 0x40000000)<<1)) >>31;
// ^ this arithmetic bit shift seems to be wrong
// this gets you Tmin if x < 0 or Tmax if x >= 0
int overflowreplace = ((x>>31)^0x7FFFFFFF);
// if overflow, return x*2, otherwise overflowreplace
return ((x<<1) & ~overflowmask)|(overflowreplace & overflowmask);
```

now when `overflowmask`

should be `0xFFFFFFFF`

, it is 1 instead, which means that the arithmetic bit shift `>>31`

shifted in 0s instead of 1s (MSB got XORed to 1, then shifted to the bottom).

x is signed and the MSB is 1, so according to C99 an arithmetic right shift should fill in 1s. What am I missing?

EDIT: I just guessed that this code isn't correct. To detect an overflow it suffices for the 2nd MSB to be 1.

However, I still wonder why the bit shift filled in 0s.

EDIT:

Example: x = 0xA0000000

```
x & 0x80000000 = 0x80000000
x & 0x40000000 = 0
XOR => 0x80000000
>>31 => 0x00000001
```

EDIT:

Solution:

```
int msb = x & 0x80000000;
int msb2 = (x & 0x40000000) <<1;
int overflowmask = (msb2 | (msb^msb2)) >>31;
int overflowreplace = (x >>31) ^ 0x7FFFFFFF;
return ((x<<1) & ~overflowmask) | (overflowreplace & overflowmask);
```

signedvalues are always going to be a problem. – Some programmer dude Jan 9 '20 at 11:17`x`

where it doesn't work as you expect? And have you tried to divide the complex expressions you have into smaller and more easily debugable expressions to see that each small sub-expression gives the value you expect? – Some programmer dude Jan 9 '20 at 11:29`0x80000000`

in`x & 0x80000000`

becomes anunsignedinteger, making the whole expression unsigned.Or`0x80000000`

is a`long`

or`long long`

value, which means it's not negative. So you're shifting an unsigned or otherwise non-negative number, which means it's filled up with zeros instead of ones. I'm trying to find a reference or quote about this behavior for an answer. – Some programmer dude Jan 9 '20 at 11:52`unsigned int`

ora 64-bit signed integer (`long`

or`long long`

, depending on platform and compiler). – Some programmer dude Jan 9 '20 at 11:586more comments