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Say I have a function like this:

inline int shift( int what, int bitCount )
    return what >> bitCount;

It will be called from different sites each time bitCount will be non-negative and within the number of bits in int. I'm particularly concerned about call with bitCount equal to zero - will it work correctly then?

Also is there a chance that a compiler seeing the whole code of the function when compiling its call site will reduce calls with bitCount equal to zero to a no-op?

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up vote 16 down vote accepted

It is certain that at least one C++ compiler will recognize the situation (when the 0 is known at compile time) and make it a no-op:


inline int shift( int what, int bitcount)
  return what >> bitcount ;

int f() {
  return shift(42,0);

Compiler switches

icpc -S -O3 -mssse3 -fp-model fast=2 bitsh.C

Intel C++ 11.0 assembly

# -- Begin  _Z1fv
# mark_begin;
       .align    16,0x90
        .globl _Z1fv
..B1.1:                         # Preds ..B1.0
        movl      $42, %eax                                     #7.10
        ret                                                     #7.10
        .align    16,0x90
                                # LOE
# mark_end;
        .type   _Z1fv,@function
        .size   _Z1fv,.-_Z1fv
# -- End  _Z1fv
        .section .note.GNU-stack, ""
# End

As you can see at ..B1.1, Intel compiles "return shift(42,0)" to "return 42."

Intel 11 also culls the shift for these two variations:

int g() {
  int a = 5;
  int b = 5;
  return shift(42,a-b);

int h(int k) {
  return shift(42,k*0);

For the case when the shift value is unknowable at compile time ...

int egad(int m, int n) {
  return shift(42,m-n);

... the shift cannot be avoided ...

# -- Begin  _Z4egadii
# mark_begin;
       .align    16,0x90
        .globl _Z4egadii
# parameter 1: 4 + %esp
# parameter 2: 8 + %esp
..B1.1:                         # Preds ..B1.0
        movl      4(%esp), %ecx                                 #20.5
        subl      8(%esp), %ecx                                 #21.21
        movl      $42, %eax                                     #21.10
        shrl      %cl, %eax                                     #21.10
        ret                                                     #21.10
        .align    16,0x90
                                # LOE
# mark_end;

... but at least it's inlined so there's no call overhead.

Bonus assembly: volatile is expensive. The source ...

int g() {
  int a = 5;
  volatile int b = 5;
  return shift(42,a-b);

... instead of a no-op, compiles to ...

..B3.1:                         # Preds ..B3.0
        pushl     %esi                                          #10.9
        movl      $5, (%esp)                                    #12.18
        movl      (%esp), %ecx                                  #13.21
        negl      %ecx                                          #13.21
        addl      $5, %ecx                                      #13.21
        movl      $42, %eax                                     #13.10
        shrl      %cl, %eax                                     #13.10
        popl      %ecx                                          #13.10
        ret                                                     #13.10
        .align    16,0x90
                                # LOE
# mark_end;

... so if you're working on a machine where values you push on the stack might not be the same when you pop them, well, this missed optimization is likely the least of your troubles.

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+1 for exquisite detail and for using the intel compiler :) – Jamie Cook Jun 12 '09 at 0:16

According to K&R "The result is undefined if the right operand is negative, or greater than or equal to the number of bits in the left expression's type." (A.7.8) Therefore >> 0 is the identity right shift and perfectly legal.

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It will work correctly on any widely used architecture (I can vouch for x86, PPC, ARM). The compiler will not be able to reduce it to a noop unless the function is inlined.

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That would be compiler-specific, I don't believe the standard requires the function call to be created. Global optimization could quite easily cull the function call if bitCount were passed in as a constant 0 and possibly even a variable containing zero (although there'd be code to examine the variable at least, so it wouldn't be a no-op). It depends entirely on the compiler. – paxdiablo Jun 11 '09 at 11:36
Of course, having said that, I've never seen a compiler in the wild do that level of optimization - I suspect the return on investment wouldn't be enough to warrant it. – paxdiablo Jun 11 '09 at 11:37
Pax, VC9 does "out of the box" (default release settings) for: ---- int Adjust(int x, int shift) { if (shift > 0) { /* large block that prevents inlining */ } return x << shift; } ---- Even when calling from a different translation unit, when passing shift=0, the call and the >> will be culled. Quite impressive! – peterchen Jun 11 '09 at 12:00
I should have been clearer and said "inlined, explicity or implicitly." What you're seeing there is the compiler pushing something to inline even though it's not been marked. If the function isn't inline then by definition it's called by stack convention and can't be elided (unless inlined later in LTCG). – Crashworks Jun 11 '09 at 18:01

The compiler could only perform this optimisation do that if it knew at compile time that the bitCount value was zero. That would mean that the passed parameter would have to be a constant:

const int N = 0;
int x = shift( 123, N );

C++ certainly allows such an optimisation to be performed, but I'm not aware of any compilers that do so. The alternative approach the compiler could take:

int x = n == 0 ? 123 : shift( 123, n );

would be a pessimisation in the majority of cases and I can't imagine compiler writer implementing such a thing.

Edit: AA shift of zero bits is guaranteed to have no effect on the thing being shifted.

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That's nice, but is shift by zero guaranteed to have the same effect as no-op (not necessarily emit no code)? – sharptooth Jun 11 '09 at 11:59
C++ makes no guarntees about emitted object code, and has no concept of a no-op. However, a shift of zero bits can have no effect on any C++ objects. Perhaps you could expand in your question why you are asking about this? – anon Jun 11 '09 at 12:09
Expanded - I will call it many times, sometimes bitCount may be zero. If it's guaranteed to have no effect on the variable will you please add it to the answer? – sharptooth Jun 11 '09 at 12:24
@Neil: unless of course you override the shift operator... – kibibu Aug 14 '09 at 2:26
@kibibu You can't override the shift operator (or any other operator) for built-in types. – anon Aug 14 '09 at 7:02

About the correctness of arg << 0 or arg >> 0, no problem, absolutely fine.

About the eventual optimizations: This will not be reduced to a >nop< when called with a constant what=0 and/or bitcount=0, unless you declare it as inline and choose optimizations (and your compiler of choice understands what inline is).

So, bottom line, optimize this code by conditionally calling the function only if the OR of arguments is non zero (about the fastest way I figure to test that both args are non-zero).

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@jpinto3912, I think question is asking what happens when the shift is zero, not the value (as your answer seems to assume). – paxdiablo Jun 11 '09 at 11:38
He is not shifting zero, he is shifting something zero times. – anon Jun 11 '09 at 11:39
@Pax, @Neil: if you're shifting zero, you'll also effectively get a no-op. The question asks about one case, the answer notes both cases. – Stobor Aug 14 '09 at 1:37
Surely the shift by zero would be faster than a potential branch with an OR? – kibibu Aug 14 '09 at 2:27
@kibibu, likely, but that's not the scenario. It's pushing args, calling a function, shifting by zero, and pop stack for return. If the situation is often a zero-shift, that is a lot slower than OR and IFNZ prior to calling. Anyway, this is just in case your compiler don't know what's "inline" (or you have a tiny code space req). – jpinto3912 Dec 3 '09 at 16:48

To make the function somewhat self documenting, you may want to change bitCount to unsigned to signify to callers that a negative value is not valid.

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