Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.
  1. What is the purpose of using Shift operators rather than using division and multiplication?

  2. Are there any other benefits of using shift operators?

  3. Where should one try to use the shift operator?

share|improve this question

5 Answers 5

up vote 10 down vote accepted

Division and multiplication are not really a use of bit-shift operators. They're an outdated 'optimization' some like to apply.

They are bit operations, and completely necessary when working at the level of bits within an integer value.

For example, say I have two bytes that are the high-order and low-order bytes of a two-byte (16-bit) unsigned value. Say you need to construct that value. In Java, that's:

int high = ...;
int low = ...;
int twoByteValue = (high << 8) | low;

You couldn't otherwise do this without a shift operator.

To answer your questions: you use them where you need to use them! and nowhere else.

share|improve this answer
i heard,it makes faster integer division/multiplication operations than *,/ –  Saravanan Sep 17 '11 at 12:22
Shifting left by 1 is faster than multiplying by 2. But, your JIT compiler and your processor know this better than you, and should do that automatically. In any event, this is not the primary use of shifts; it's arguably not even a good use. –  Sean Owen Sep 17 '11 at 12:25
not in java. Not even in C these days. The compilers are smart enough to optimize your code. It's best to make sure your code is readable and expresses what it wants to do rather than trying to outsmart the compiler and make it unreadable. –  Savvas Dalkitsis Sep 17 '11 at 12:25
shift operators aren't necessary, are just convenient, due to the fact a left (right) shift by n is equivalent to a multiplication (division) by 2^n. –  akappa Sep 17 '11 at 12:25
@akappa actually that's a fairly good answer -- except that you can't achieve an unsigned shift ('>>>' in Java) with division. –  Sean Owen Sep 17 '11 at 13:53

The shift operator is used when you're performing logical bits operations, as opposed to mathematical operations.

It can be used for speed, being significantly faster than division/multiplication when dealing with operands that are powers of two, but clarity of code is usually preferred over raw speed.

share|improve this answer

It might also used in encryption/decryption .. Example: http://freedom2blog.com/2010/05/easy-encryption-using-bitwise-exclusive-or-xor/

share|improve this answer

It is useful in constructing values which are a combination of numbers, where bits are grouped as different values themselves. (Sean Owen's answer explains this better.)

For example, working with colours which are:

  • "#AARRGGBB" as a base16 string
  • 0xAAAARRRRGGGGBBBB as an integer

In its integer format, you can use shift to get the actual value of a component of the integer as a usable number.

public static int stringToColor(String s) throws JSExn {
    // string starts with '#' - parse integer from string
    try {
        // used to build up the return value
        int a, r, g, b;

        switch (s.length()) {
        case 4:
            a = 0xFF000000;
            r = Integer.parseInt(s.substring(1, 2), 16);
            r = r << 16 | r << 20;
            b = Integer.parseInt(s.substring(2, 3), 16);
            b = b << 8 | b << 12;
            g = Integer.parseInt(s.substring(3, 4), 16);
            g = g | g << 4;
        case 5:
            a = Integer.parseInt(s.substring(1, 2), 16);
            a = a << 24 | a << 28;
            r = Integer.parseInt(s.substring(2, 3), 16);
            r = r << 16 | r << 20;
            b = Integer.parseInt(s.substring(3, 4), 16);
            b = b << 8 | b << 12;
            g = Integer.parseInt(s.substring(4, 5), 16);
            g = g | g << 4;
        case 7:
            a = 0xFF000000;
            r = Integer.parseInt(s.substring(1, 3), 16) << 16;
            b = Integer.parseInt(s.substring(3, 5), 16) << 8;
            g = Integer.parseInt(s.substring(5, 7), 16);
        case 9:
            a = Integer.parseInt(s.substring(1, 3), 16) << 24;
            r = Integer.parseInt(s.substring(3, 5), 16) << 16;
            b = Integer.parseInt(s.substring(5, 7), 16) << 8;
            g = Integer.parseInt(s.substring(7, 9), 16);
            throw new JSExn("Not a valid color: '"+s+"'");

        // return our integer ARGB
        return a | r | b | g;
share|improve this answer

Strength reduction occurs when an operation is replaced by an equivalent operation that executes faster.

  1. replacing integer division or multiplication by a power of 2 with an arithmetic shift or logical shift..
  2. replacing integer multiplication by a constant with a combination of shifts, adds or subtracts.
  3. replacing integer division by a constant with a multiplication, taking advantage of the limited range of machine integers.

Why is this wrong?

1.Reduces performance as time required for calculation increases. 2. Arithmetic Operations like division and multiplication are slower. 3. Expensive operations


  1. Improves performance.
  2. Faster calculations.


  1. Readability of Code decreases.
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.