# shifting the binary numbers in c++

``````#include <iostream>

int main()
{
using namespace std;

int number, result;

cout << "Enter a number: ";
cin >> number;
result = number << 1;
cout << "Result after bitshifting: " << result << endl;
}
``````

If the user inputs `12`, the program outputs `24`.

In a binary representation, `12` is `0b1100`. However, the result the program prints is `24` in decimal, not `8` (`0b1000`).

Why does this happen? How may I get the result I except?

• Please read the document regarding how to post a question on stackoverflow. – user3286661 Sep 20 '16 at 17:11
• You can use std::bitset to handle bit level manipulation easily. – seccpur Sep 20 '16 at 17:17
• `int` is at least 16 bits (specicifcally, it must be large enough to hold any integer in the ranges of -32,767..32,767 [signed] or 0..65,535 [unsigned], which requires a minimum of 16 bits), but may be more (it is typically, but not always, 32 bits). As such, the number that is shifted on standard platforms is generally not `0b1100`, but `0b0000000000001100`. If you want to treat the number as a 4-digit binary number, you should use `std::bitset` to give you finer control, as @seccpur said above, or a mask, as the answers specify and illustrate. – Justin Time Sep 20 '16 at 22:02

Why does the program output `24`?

You are right, `12` is `0b1100` in its binary representation. That being said, it also is `0b001100` if you want. In this case, bitshifting to the left gives you `0b011000`, which is `24`. The program produces the excepted result.

Where does this stop?

You are using an `int` variable. Its size is typically 4 bytes (32 bits) when targeting 32-bit. However, it is a bad idea to rely on `int`'s size. Use stdint.h when you need specific sizes variables.

A word of warning for bitshifting over signed types

Using the `<<` bitshift operator over negative values is undefined behavior. `>>`'s behaviour over negative values is implementation-defined. In your case, I would recommend you to use an `unsigned int` (or just `unsigned` which is the same), because `int` is signed.

How to get the result you except?

If you know the size (in bits) of the number the user inputs, you can use a bitmask using the `&` (bitwise AND) operator. e.g.

``````result = (number << 1) & 0b1111; // 0xF would also do the same
``````