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I tested right shift with Visual Studio, Ubuntu's GCC, Intel compiler, MinGW. All shift in the sign bit. I guess Xcode's GCC does the same.

I know that the behavior is implementation specific, but it looks like that all major desktop/server compilers implement arithmetic shift. Are there any widely used compiler that doesn't shift in the sign bit?

Thank you.

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Implementation defined behaviour is exactly that - defined by the implementation. Bit shifts are for treating the value as a collection of bits. Signed numbers are not meant to be treated as a collection of bits. Use an unsigned value. Or if you want to divide by two, then divide by two - don't use a shift. If and when that optimization is valid, the compiler will do it for you. See also securecoding.cert.org/confluence/display/cplusplus/… –  Karl Knechtel Jun 27 '11 at 1:49
Wait, so you're saying right-shifting an unsigned value in C++ is undefined by the standard?! Didn't know that... –  Mehrdad Jun 27 '11 at 2:11
The problem is that a divide by 2 has different behavior that an arithmetic right shift. So if you use a divide, the compiler can't change it to a shift, and if you want the signed shift behavior, there's no easy, portable way of expressing it in C –  Chris Dodd Jun 27 '11 at 2:11
@Mehrdad: it's right-shifting of a signed value that's implementation defined... unsigned values are fine. @pic11: btw - it's not just whether the sign bit "shifts in", it's also whether the new m.s.b. is a 0 or a 1 (although of course with implementation defined behaviour some pathological case is possible where the result is none-of-the-above :-/). –  Tony D Jun 27 '11 at 2:17
You're best off not knowing and not caring. That way, you won't be tempted to write non-portable code by accident. –  Jonathan Leffler Jun 27 '11 at 4:49

3 Answers 3

up vote 11 down vote accepted

C runs on a lot of different architectures. I mean a lot of different architectures. You can get C code running on an embedded DSP and on a Cray supercomputer.

Most of the "implementation-defined" parts of the C standard that people take for granted really only do break on obscure architectures. For example, there are DSPs and Cray supercomputers where CHAR_BIT is something huge like 32 or 64. So if you try out your code on an x86, and maybe if you're generous a PowerPC, ARM, or SPARC, you're not likely to run into any of the really weird cases. And that's okay. Most code these days will always run on a byte-oriented architecture with twos-complement integers and arithmetic shifts. I have no doubt that any new CPU architectures in the foreseeable future will be the same.

But let's look at the two most common representations for integers: twos-complement and ones complement:

switch ((-1) >> 1) {
case 0:
case -0:
    puts("Hello, one's complement world!");
    // Possibly sign-magnitude.
case -1:
    puts("Hello, two's complement world!");
    puts("Hello, computer without arithmetic shift");

Don't sweat it. Just stick to / when you want to divide, and >> when you need to shift. Even bad compilers are good at optimizing these operations. (And remember that x/2 != x>>1 if x is negative, unless you're on a one's complement machine, which is almost certainly not true.)

The standard does guarantee that if (int) x is not negative, then (int) x >> n == (unsigned) x >> n, so there is not a lot of room for a compiler to do something completely unexpected.

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I tried your code. All compiler I run it had arithmetic shift implemented. –  pic11 Jul 11 '11 at 14:24
@pic11: Changing your compiler won't do anything, which is exactly the point I'm making. You need to change to a one's complement architecture to see the difference. –  Dietrich Epp Jul 11 '11 at 22:27

Generally it depends more on the target architecture that the compiler used. If the arch has both arithmetic (signed) and logical (unsigned) shift instructions, then C compilers for that arch will use whichever is appropriate. On the other hand, if it has only logical shifts, the C compiler will just use that, even though it doesn't 'do the right thing' for negative values, as the C spec allows the compiler to do anything.

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As far as I can tell, the >> operator does arithmetic shift. There is however a difference between how the shift is performed for signed and unsigned integers - signed will extend the MSB (which usually is a sign bit) and unsigned will not (they are always non-negative so sign bit is always zero).

EDIT: apply "usually" to everything I wrote above ;).

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