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I've seen the operators >> and << in various code that i've looked at (none of which I actually understood), but I'm just wondering what they actually do and what some practical uses of them are.

EDIT

If the shifts are like x * 2 and x / 2, what is the real difference from actually using the * and / operators? Is there a performance difference?

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Googling for "bitwise shift" and looking at the first result (Wikipedia) probably isn't that hard. It also answers all of the above. –  Jon Jun 17 '11 at 12:38
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3 Answers

Here is an applet where you can exercise some bit-operations, including shifting.

You have a collection of bits, and you move some of them beyond their bounds:

1111 1110 << 2 
1111 1000 

it is filled from right with fresh zeros. :)

0001 1111 >> 3 
0000 0011 

filled from left. A special case is the leading 1. It indicates often a negative value - depending on the language and datatyp. So often it is wanted, that if you shift right, the first bit stays as it is.

1100 1100 >> 1
1110 0110 

and it is conserved over multiple shifts:

1100 1100 >> 2
1111 0011

If you don't want the first bit to be preserved, you use (in Java, Scala, C++, C afaik, and maybe more) a triple-sign-operator:

1100 1100 >>> 1
0110 0110 

There is no equivalent in the other direction, because it makes no sense - maybe in your very special context, but not in general.

Mathematically, a left-shift is a *=2, 2 left-shifts is a *=4 and so on. A right-shift is a /= 2 and so on.

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ANSI C defines only the two bitwise shift operators >> and <<. –  TML Jun 17 '11 at 20:01
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Left bit shifting to multiply by any power of two and Right bit shifting to divide by any power of two. For example x = x * 2; can also be written as x<<1 or x = x*8 can be written as x<<3 (since 2 to the power of 3 is 8). Similarly x = x / 2; is x>>1 and so on.

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Some examples:

  • Bit operations for example converting to and from base64 (which is 6 bits instead of 8)
  • doing power of 2 operations (1 << 4 equal to 2^4 i.e. 16)
  • Writing more readable code when working with bits. For example, defining constants using 1 << 4 or 1 << 5 is more readable.
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