C bits shifting short ints

Why result of

``````include <stdio.h>
int main()
{
unsigned short int i = 0xff ;
unsigned short int j;
j= i<<2;
printf("%x n%x\n", i, j);
return 0;
}
``````

is j = 3fc ?

if both i and j are short int - so they are 2bytes values, so j shouldnt =fc ??

thx in advance for explanations. ~
~

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No, 0x3fc is correct. Note that a byte is two hex digits, so a (16-bit) short has a total of 4 hex digits.

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Shifting 0xff left two bits looks like this:

```    0000 0000 1111 1111
0    0    f    f

0000 0011 1111 1100     -- Shifted left 2 bits.
0    3    f    c
```

So 0x00ff << 2 = 0x03fc. Everything looks as it should be .

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``````0xff << 2 == 0xff * 4 == 0x3fc == 1020
``````

Even if they are 2-bytes, they are allowed to hold this small value.

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3FC requires only 12 bits to store so it can be stored in 2 bytes.

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even 10 bits are sufficient..but if we keep a hex digit as 4 bits then 12.. –  Naveen Feb 12 '10 at 16:34

C++ makes no guarantee as to the number of bytes in an `unsigned short int`. It in fact makes almost no guarantee about the size of any type other than `char` which is guaranteed to be 1 byte.

In this case though it's irrelevant because 3fc can be successfully stored in only 2 bytes.

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Maybe this is what you actually tried to write? (Remember an hex digit is 4 bits only, ie, half a byte)

``````#include <stdio.h>
int main()
{
unsigned short int i = 0xffff;
unsigned short int j;
j = i<<8;
printf("%x  %x\n", i, j);
return 0;
}
``````

This outputs `ffff ff00`

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