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What is the quickest way to reverse the endianness of a 16 bit and 32 bit integer. I usually do something like (this coding was done in Visual Studio in C++):

union bytes4
    __int32 value;
    char ch[4];

union bytes2
    __int16 value;
    char ch[2];

__int16 changeEndianness16(__int16 val)
    bytes2 temp;

    char x= temp.ch[0];
    return temp.value;

__int32 changeEndianness32(__int32 val)
    bytes4 temp;
    char x;

    x= temp.ch[0];

    x= temp.ch[2];
    return temp.value;

Is there any faster way to do the same, in which I don't have to do so many calculations?

share|improve this question
See [this topic][1], it mentions using intrin.h. [1]: stackoverflow.com/questions/105252/… –  Sebastiaan Megens Sep 2 '11 at 5:07
@Ben what was that? –  c0da Sep 2 '11 at 5:12
@Sebastiaan That link contained all that I wanted! –  c0da Sep 2 '11 at 5:21

4 Answers 4

up vote 6 down vote accepted

Why aren't you using the built-in swab function, which is likely optimized better than your code?

Beyond that, the usual bit-shift operations should be fast to begin with, and are so widely used they may be recognized by the optimizer and replaced by even better code.

Because other answers have serious bugs, I'll post a better implementation:

int16_t changeEndianness16(int16_t val)
    return (val << 8) |          // left-shift always fills with zeros
          ((val >> 8) & 0x00ff); // right-shift sign-extends, so force to zero

None of the compilers I tested generate rolw for this code, I think a slightly longer sequence (in terms of instruction count) is actually faster. Benchmarks would be interesting.

For 32-bit, there are a few possible orders for the operations:

//version 1
int32_t changeEndianness32(int32_t val)
    return (tmp << 24) |
          ((tmp <<  8) & 0x00ff0000) |
          ((tmp >>  8) & 0x0000ff00) |
          ((tmp >> 24) & 0x000000ff);

//version 2, one less OR, but has data dependencies
int32_t changeEndianness32(int32_t val)
    int32_t tmp = (val << 16) |
                 ((val >> 16) & 0x00ffff);
    return ((tmp >> 8) & 0x00ff00ff) | ((tmp & 0x00ff00ff) << 8);
share|improve this answer
Never used the function previously... Looking at MSDN library for it... –  c0da Sep 2 '11 at 5:06
@James: I typed swab because I meant it: msdn.microsoft.com/en-us/library/e8cxb8tk –  Ben Voigt Sep 2 '11 at 14:30
Oh; my sincerest apologies. –  James McNellis Sep 2 '11 at 15:51
By casting to an unsigned type you can totally avoid sign extension, so you don't need the bit masks. (val >> 8) & 0x00ff gets ((uint16_t)val) >> 8. Furthermore I would place this in a define or inline function due to the performance hit. –  Max Truxa Mar 7 '13 at 7:44
@yourmt: Of course you want to have these inlined, but throwing in extra keywords doesn't make the answer clearer. Also, you can avoid that one bitmask, but not the others. I think consistency is clearer (and the compiler should do the same thing anyway). –  Ben Voigt Mar 7 '13 at 16:44

At least in Visual C++, you can use _byteswap_ulong() and friends: http://msdn.microsoft.com/en-us/library/a3140177.aspx

These functions are treated as intrinsics by the VC++ compiler, and will result in generated code that takes advantage of hardware support when available. With VC++ 10.0 SP1, I see the following generated code for x86:

return _byteswap_ulong(val);

mov     eax, DWORD PTR _val$[esp-4]
bswap   eax
ret     0

return _byteswap_ushort(val);

mov     ax, WORD PTR _val$[esp-4]
mov     ch, al
mov     cl, ah
mov     ax, cx
ret     0
share|improve this answer
+1. I've used these with good results, as well. –  Void Sep 2 '11 at 19:58

Who says it does too many calculations?

out = changeEndianness16(in);

gcc 4.6.0

movzwl  -4(%rsp), %edx
movl    %edx, %eax
movsbl  %dh, %ecx
movb    %cl, %al
movb    %dl, %ah
movw    %ax, -2(%rsp)

clang++ 2.9

movw    -2(%rsp), %ax
rolw    $8, %ax
movw    %ax, -4(%rsp)

Intel C/C++ 11.1

movzwl    4(%rsp), %ecx
rolw      $8, %cx
xorl      %eax, %eax
movw      %cx, 6(%rsp)

What does your compiler produce?

share|improve this answer
haven't checked the assembly code... Don't have the tools right now at office... :( –  c0da Sep 2 '11 at 5:13
Please note: the rolw instruction is slower than might be expected for a single simple instruction. lists.gnu.org/archive/html/qemu-devel/2010-04/msg01234.html –  Ben Voigt Sep 2 '11 at 18:01
@Ben Voigt quite possible, I was mainly responding to the "many calculations" assumption and inviting to look at the actual compiler output before discussing microoptimizations. Nice answer, by the way. –  Cubbi Sep 2 '11 at 18:54

I used the following code for the 16bit version swap function:

_int16 changeEndianness16(__int16 val)
    return ((val & 0x00ff) << 8) | ((val & 0xff00) >> 8);

With g++ (Ubuntu/Linaro 4.4.4-14ubuntu5) 4.4.5 the above code when compiled with g++ -O3 -S -fomit-frame-pointer test.cpp results in the following (non-inlined) assembler code:

movzwl  4(%esp), %eax
rolw    $8, %ax

The next code is equivalent but g++ is not as good at optimizing it.

__int16 changeEndianness16_2(__int16 val)
    return ((val & 0xff) << 8) | (val >> 8);

Compiling it gives more asm code:

movzwl  4(%esp), %edx
movl    %edx, %eax
sarl    $8, %eax
sall    $8, %edx
orl     %edx, %eax
share|improve this answer
You don't get the same code, because it isn't actually equivalent. Sign extension will give wrong results with the second (the first version isn't correct either, whether or not it works depends on the platform, and specifically on sizeof(int)). –  Ben Voigt Sep 2 '11 at 17:45

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