I am trying to figure out how exactly arithmetic bit-shift operators work in C, and how it will affect signed 32-bit integers.

To make things simple, let's say we work within one byte (8 bits):

```
x = 1101.0101
MSB[ 1101.0101 ]LSB
```

Reading other posts on Stack Overflow and some websites, I found that:
`<<`

will shift toward MSB (to the left, in my case), and fill "empty" LSB bits with 0s.

And `>>`

will shift toward LSB (to the right, in my case) and fill "empty" bits with MS bit

So, `x = x << 7`

will result in moving LSB to MSB, and setting everything to 0s.

```
1000.0000
```

Now, let's say I would `>> 7`

, last result. This would result in `[0000.0010]`

? Am I right?

Am I right about my assumptions about shift operators?

I just tested on my machine, **

```
int x = 1; //000000000......01
x = x << 31; //100000000......00
x = x >> 31; //111111111......11 (Everything is filled with 1s !!!!!)
```

Why?

your implementationsays so. Check the documentation: itmustdefine the behaviour of right shifting a negative value (or you do not have a C compiler).`2`

. If any multiplication overflows you haveUndefined Behaviour.1more comment