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I'm wondering if there really is no 128-bit division intrinsic function in Visual C++?

There is a 64x64=128 bit multiplication intrinsic function called _umul128(), which nicely matches the MUL x64 assembler instruction.

Naturally, I assumed there would be a 128/64=64 bit division intrinsic as well (modelling the DIV instruction), but to my amazement neither Visual C++ nor Intel C++ seem to have it, at least it's not listed in intrin.h.

Can someone confirm that? I tried grep'ing for the function names in the compiler execuable files, but couldn't find _umul128 in the first place, so I guess I looked in the wrong spot.

Update: at least I have now found the pattern "umul128" (without the leading underscore) in c1.dll of Visual C++ 2010. All the other intrinsics are listed around it, but unfortunately no "udiv128" or the like :( So it seems they really have "forgotten" to implement it.

To clarify: I'm not only looking for a 128 bit data type, but a way to divide a 128 bit scalar int by a 64-bit int in C++. Either an intrinsic function or native 128-bit integer support would solve my problem.

Edit: The answer is no, there is no _udiv128 intrinsic in Visual Studio 2010 or 2012.

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It isn't part of the CRT. It is an intrinsic, comes for free with the processor. But only in 64-bit mode. No freebie for the div until you get a 128-bit processor. Given the ridiculously vast range of pow(2, 128), you should be looking for arbitrary precision library. Plenty of those around. – Hans Passant Dec 10 '11 at 0:17
@TreeMonkie: __int18 is not supported by VS, see… – cxxl Dec 10 '11 at 0:17
@Hans: sorry, I don't understand. It's just NOT an intrinsic, not even in 64 bit mode. And I need it to write an arbitrary precision lib :) – cxxl Dec 10 '11 at 0:20
Well, no point in looking for a boxed solution then. You know how to do arbitrary precision math with paper and pencil from elementary school. 128 bits takes a lot of paper but computers have plenty. – Hans Passant Dec 10 '11 at 0:23
@cxxl: I believe that 128 bit int's are not supported directly... however you can use them when using SSE intrinsics. I believe -- but don't quote me on this -- that it is __m128. It's not entirely clear to me from the question whether SSE would be of use in this scenario or not... – TreeMonkie Dec 10 '11 at 9:24

3 Answers 3

up vote 1 down vote accepted

I am no expert, but I dug this up:

Interesting stuff. Hope it helps.

EDIT: This is insightful too:

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If you don't mind little hacks, this may help (64-bit mode only, not tested):

#include <windows.h>
#include <stdio.h>

unsigned char udiv128Data[] =
  0x48, 0x89, 0xD0, // mov rax,rdx
  0x48, 0x89, 0xCA, // mov rdx,rcx
  0x49, 0xF7, 0xF0, // div r8
  0x49, 0x89, 0x11, // mov [r9],rdx
  0xC3              // ret

unsigned char sdiv128Data[] =
  0x48, 0x89, 0xD0, // mov rax,rdx
  0x48, 0x89, 0xCA, // mov rdx,rcx
  0x49, 0xF7, 0xF8, // idiv r8
  0x49, 0x89, 0x11, // mov [r9],rdx
  0xC3              // ret

unsigned __int64 (__fastcall *udiv128)(unsigned __int64 numhi,
                                       unsigned __int64 numlo,
                                       unsigned __int64 den,
                                       unsigned __int64* rem) =
  (unsigned __int64 (__fastcall *)(unsigned __int64,
                                   unsigned __int64,
                                   unsigned __int64,
                                   unsigned __int64*))udiv128Data;

__int64 (__fastcall *sdiv128)(__int64 numhi,
                              __int64 numlo,
                              __int64 den,
                              __int64* rem) =
  (__int64 (__fastcall *)(__int64,

int main(void)
  DWORD dummy;
  unsigned __int64 ur;
  __int64 sr;
  VirtualProtect(udiv128Data, sizeof(udiv128Data), PAGE_EXECUTE_READWRITE, &dummy);
  VirtualProtect(sdiv128Data, sizeof(sdiv128Data), PAGE_EXECUTE_READWRITE, &dummy);
  printf("0x00000123456789ABCDEF000000000000 / 0x0001000000000000 = 0x%llX\n",
         udiv128(0x00000123456789AB, 0xCDEF000000000000, 0x0001000000000000, &ur));
  printf("-6 / -2 = %lld\n",
         sdiv128(-1, -6, -2, &sr));
  return 0;
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For MSVC one might use #pragma section to put these functions to code segment during compilation – Marat Dukhan Dec 18 '11 at 6:31
@Maratyszcza: you're right. – Alexey Frunze Dec 18 '11 at 7:08

A small improvement - one less instruction

extern "C" digit64 udiv128(digit64 low, digit64 hi, digit64 divisor, digit64 *remainder);

; Arguments
; RCX       Low Digit
; RDX       High Digit
; R8        Divisor
; R9        *Remainder

; RAX       Quotient upon return

udiv128 proc
    mov rax, rcx    ; Put the low digit in place (hi is already there)
    div r8      ; 128 bit divide rdx-rax/r8 = rdx remainder, rax quotient
    mov [r9], rdx   ; Save the reminder
    ret     ; Return the quotient
udiv128 endp
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