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I have written a program to process some data written to disk in big-endian format, so the program needs to swap bytes in order to do anything else. After profiling the code I found that my byte swapping function was taking 30% of the execution time. So I thought to myself, how can I speed this up? So I decided to write a little piece inline assembly.

I would up replacing this:

void swapTwoByte(char* array, int numChunks)
    for(int i= (2*numChunks-1); i>=0; i-=2)
        char temp=array[i];

with this:

void swapTwoByte(int16* array, int numChunks)
    for(int i= (numChunks-1); i>=0; --i)
        asm("movw %1, %%ax;"
            "rorw %%ax;"
            "rorw %%ax;"
            "rorw %%ax;"
            "rorw %%ax;"
            "rorw %%ax;"
            "rorw %%ax;"
            "rorw %%ax;"
            "rorw %%ax;"
            "movw %%ax, %0;"
            : "=r" ( array[i] )
            : "r" (array[i])

Which does the intended job, but that is a lot of rotate operations.

So here is my question: According to this source rorw can take two operands, and in the gas sytax the source operand should be the number of bits to rotate by, but every time I try to replace that list of 8 rotate rights with something like

".set rotate, 0x0008"
"rorw rotate, %%ax"

I get an assembler error stating:

"Error: number of operands mismatch for `ror'"

Why is this? What am I missing?

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Have you tried a simpler optimization such as iterating forwards through the array to be byte-swapped? –  Charles Bailey Jun 8 '11 at 21:56
You might want to give bswap a try btw.. –  Mike Kwan Jun 8 '11 at 21:57
As I understand it iterating forwards can be slower. By stopping at zero I make it easier for look ahead logic to work. At least that is what I have been told. –  James Matta Jun 8 '11 at 22:38
What kind of processing are you doing? Is the overall thing really slow enough to justify a serious optimization effort? It seems to me like this would be fast enough that what you're really being told is "hey, you aren't really actually doing that much processing"... –  Karl Knechtel Jun 9 '11 at 1:17
Handling hundreds of gigs of data output by GRETINA. The code takes a 3 hours to execute so I am looking for anything to make it faster. –  James Matta Jun 9 '11 at 1:23

3 Answers 3

up vote 10 down vote accepted

First of all, use

#include <arpa/inet.h>
little_endian = ntohs(big_endian);

This will compile into optimal code on whatever system you are using, and it will even work if you happen to port your code to a big-endian platform.

However, this will not fix your performance problem because I believe you have misidentified the problem. Nemo's first rule of micro-optimization: "Math is fast; memory is slow".

Iterating through a large block of memory and swapping its bytes is extremely cache-unfriendly. A byte swap is one cycle; a memory read or write is hundreds of cycles unless it hits in the cache.

So do not swap the bytes until you use them. My personal favorite approach is this:

class be_uint16_t {
        be_uint16_t() : be_val_(0) {
        be_uint16_t(const uint16_t &val) : be_val_(htons(val)) {
        operator uint16_t() const {
                return ntohs(be_val_);
        uint16_t be_val_;
} __attribute__((packed));

This defines a two-byte class that represents a big-endian number in memory. It implicitly casts to and from uint16_t as needed. So cast your memory pointer to a be_uint16 * and just access it like an array; forget about the byte swapping because the class will do it for you:

const be_uint16_t *p = (be_uint16 *)my_block;
unsigned val = p[37];  // or whatever

Note that you can even do things like this:

be_uint16_t x = 12;
x = x + 1;
write(fd, &x, sizeof(x)); // writes 13 to file in big-endian form

The overhead of swapping a value immediately before use is, in my experience, undetectable. Locality is the name of the game...

share|improve this answer
This is an excellent answer. –  Puppy Jun 8 '11 at 23:11
@DeadMG- Thanks. Lost in the noise, I suspect, but I have been looking for a chance to share my "be_uint16_t" gadget :-) –  Nemo Jun 8 '11 at 23:42
I dunno about the gadget, but the "don't swap bytes until you need them makes sense". Toward that end I am rewriting things a little to add the swapping when I actually interpret the data into classes –  James Matta Jun 9 '11 at 0:40

Consider reorganizing that C++ code a little bit. As written, g++ 4.5.2 compiles it for me as a boring tight loop with four 8-bit movs and two pointer decrements.

    movzbl  (%rdi), %eax
    movzbl  -1(%rdi), %edx
    movb    %al, -1(%rdi)
    movb    %dl, (%rdi)
    subq    $2, %rdi
    subl    $2, %esi
    jns .L3

rewriting it as

void swapTwoByte(char* array, int numChunks)
    for(int i = 0; i<numChunks*2; i+=2)
        std::swap(array[i], array[i+1]);

lets the compiler realize what you're doing and turn on the full SIMD power, the core loop now processes 32 bytes at a time:

    movdqu  (%rdx), %xmm1
    movdqu  (%rax), %xmm2
    movdqa  %xmm1, %xmm0
    movdqa  %xmm2, %xmm3
    pshufb  %xmm7, %xmm0
    pshufb  %xmm4, %xmm2
    pshufb  %xmm6, %xmm3
    pshufb  %xmm5, %xmm1
    por %xmm3, %xmm0
    por %xmm2, %xmm1
    incl    %ecx
    movdqa  %xmm1, %xmm2
    punpckhbw   %xmm0, %xmm1
    punpcklbw   %xmm0, %xmm2
    movdqu  %xmm2, (%rdx)
    movdqu  %xmm1, (%rax)
    addq    $32, %rdx
    addq    $32, %rax
    cmpl    %ecx, %r8d
    ja  .L4

a rorw is not going to beat that.

share|improve this answer
tried this, using swap I only got a small improvement in performance, from the swap code taking 28.32% of the time to 26.11% –  James Matta Jun 9 '11 at 0:39

Swap instructions works with 32bit values. To swap two bytes in word use xchg al,ah instruction.

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Why do this when you could use bswap –  Mike Kwan Jun 9 '11 at 0:16
@Mike: agree bswap should be compiled under x86 to "xchg al,ah" instruction. –  GJ. Jun 9 '11 at 11:13

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