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Can anyone help with converting the following inline assemly in a header file to corresponding x86-64 .asm file or c style function without assembly?

extern const char hexlu[];
void _inline hextoascii(char* a_src , char* a_dest ) {
_asm {

              mov esi, a_src;
    mov edi, a_dest;
    sub ebx,ebx

    mov edx,[esi+00]
    mov bl,dl
    mov ax,word ptr [ebx*2+hexlu]
    mov [edi+00],ax
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Do you want C or C++ ? They are different languages. – nrz Feb 27 '13 at 17:22
up vote 1 down vote accepted
void hextoascii(char* src, char* dest)
    dest[0] = hexlu[  2*(unsigned)src[0]];
    dest[1] = hexlu[1+2*(unsigned)src[0]];
share|improve this answer
No check on boundaries as in ASM version :) – fjardon Feb 27 '13 at 17:18
My ASM is rusty, but it looks to me like it's a 256-byte lookup table, and there is thus only one reference to it. (And one wonders what the point is of making it ASM.) – Hot Licks Feb 27 '13 at 17:29
Perfect, Thank you! – Somu Rajan Feb 27 '13 at 17:30
*(short*)dest = *(((short*)hexlu) + *src); or thereabouts. (Assuming short is 16 bits.) – Hot Licks Feb 27 '13 at 17:32
@HotLicks - We all know that writing code in assembly makes it amazingly FAST. Magic! That's why. – Bo Persson Feb 27 '13 at 18:21

Primarily, I'd suggest to simply use itoa(), like:

static inline void hextoasacii(char *a_src, char *a_dest)
    (void)itoa(*a_src, a_dest, 16);

but this has the disadvantage that a_dest will become NULL-terminated by this, i.e. it needs three (not two) bytes of space, so this isn't 100% equivalent.

The inline assembly code shown isn't particularly optimal regarding memory accesses in any case; a raw form (but it of course depends on the exact contents of your 255-entry sized hexlu[] array, I'm assuming it looks like char *hexlu[] = { "00", "01", "02", ... };) in C/C++ would be:

static inline void hextoascii(char *a_src, char *a_dest)
    static const char hexdigits[16] = "0123456789abcdef";
    int src = *a_src;
    a_dest[0] = hexdigits[src >> 4];
    a_dest[1] = hexdigits[src & 15];

    // make this:
    // *(unsigned short*)a_dest =
    //     ((unsigned short)hexdigits[src & 15]) << 8 |
    //     (unsigned short)hexdigits[src >> 4]
    // if it absolutely _must_ be a single store

Side note:

if you really want to go the assembly way for binary/hexadecimal conversion, there are ways to code the above using SSSE3 (pshufb) for the 16-character table lookup. With that, the equivalent of sprintf("%llx", tgt_string, val_uint64) can be done in essentially a single pshufb instruction.

Examples how to do this and explanations how it works are found here:

An SSSE3 solution, for doing it byte-by-byte, won't provide as big a speedup as converting multiple bytes in one go because only 1/8th of the XMM register would be used; your function cannot (efficiently) be converted to use SSSE3 as-is. In case you're calling it in a loop though (to print a hexdump of a memory region), then using a function like Wojciech's example code will provide a very significant speedup.

share|improve this answer

I think you just need to convert the 32-bit pointers to 64-bit pointers.

extern const char hexlu[];
void _inline hextoascii(char* a_src , char* a_dest ) {
_asm {
    mov rsi, a_src;
    mov rdi, a_dest;
    sub rbx, rbx;

    mov rdx, [rsi];
    mov bl, dl;
    mov ax, [2*rbx+hexlu];
    mov [rdi], ax;
share|improve this answer
Changing to 64 bit registers will not help me in my situation but thanks anyway. – Somu Rajan Feb 27 '13 at 17:35

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