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I read somewhere that the switch statement uses "Binary Search" or some sorting techniques to exactly choose the correct case and this increases its performance compared to else-if ladder.

And also if we give the case in order does the switch work faster? is it so? Can you add your valuable suggestions on this?

We discussed here about the same and planned to post as a question.

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Depends on the compiler and the actual switch cases. Some common implementations are demonstrated in Secrets of Reverse Engineering. –  DCoder Dec 28 '12 at 9:48
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Duplicate of: stackoverflow.com/questions/2596320/… –  Reuben Morais Dec 28 '12 at 9:53
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My personal experience with GCC is limited, and I can only point to one interesting example. Edit: of course, if you're curious, you should compile multiple different switch() statements and disassemble the results. –  DCoder Dec 28 '12 at 9:54
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@DCoder codeproject.com/Articles/100473/… –  2vision2 Dec 28 '12 at 10:02
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That is a nice article, but again - the compiler is free to implement a switch however it wants - as a series of if/else, as a one-level or multi-level jump table, as a binary search pattern... the fact that MSVC implements them in a particular way does not guarantee that GCC, clang or ICC will do the same. –  DCoder Dec 28 '12 at 10:04

3 Answers 3

up vote 5 down vote accepted

It's actually up to the compiler how a switch statement is realized in code.

However, my understanding is that when it's suitable (that is, relatively dense cases), a jump table is used.

That would mean that something like:

switch(i) {
  case 0: doZero(); break
  case 1: doOne();
  case 2: doTwo(); break
  default: doOther();
}

Would end up getting compiled to something like (horrible pseudo-assembler, but it should be clear, I hope).

load i into REG
compare REG to 2
if greater, jmp to DEFAULT
compare REG to 0
if less jmp to DEFAULT
jmp to table[REG]
data table
  ZERO
  ONE
  TWO
end data
ZERO: call doZero
jmp END
ONE: call doOne
TWO: call doTwo
jmp END
DEFAULT: call doDefault
END:

If that's not the case, there are other possible implementations that allow for some extent of "better than a a sequence of conditionals".

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thanks for your answer. –  2vision2 Dec 29 '12 at 14:31

How swtich is implemented depends on what values you have. For values that are close in range, the compiler will generally generate a jump table. If the values are far apart, it will generate a linked branch, using something like a binary search to find the right value.

The order of the switch statements as such doesn't matter, it will do the same thing whether you have the order in ascending, descending or random order - do what makes most sense with regard to what you want to do.

If nothing else, switch is usually a lot easier to read than an if-else sequence.

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Thanks for your answer. –  2vision2 Dec 29 '12 at 14:31

On some googling I found some interestin link and planned to post as an answer to my question. http://www.codeproject.com/Articles/100473/Something-You-May-Not-Know-About-the-Switch-Statem

Comments are welcome..

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Yes, that's sort of what I tried to say - the compiler will build tables and use them to jump through. But it may also use compare/jump statements, and it will hybridize between the two if that leads to "better" code [all depending on what you define as better - someone may think that having 32KB of table to sort out a switch-statement is better than four jumps, because those jumps are bad to predict in the branch prediction in the processor, but someone else thinks it's ridiculous to have 32KB to solve this particular case] –  Mats Petersson Dec 28 '12 at 17:08

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