Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Hi to all C coders.

Having looked first for similar questions like mine I couldn't find ones.

How to fetch/compare 4bytes in a portable way (without memcpy/memcmp of course)?

I have never learned C and because of that I am a living proof that without knowing the basics everything becomes a nasty mess afterwards. Anyway, writing words (already) is no time to say 'start with the alphabet'.

    ulHashPattern = *(unsigned long *)(pbPattern);
        for (a=0; a < ASIZE; a++) bm_bc[a]=cbPattern;
        for (j=0; j < cbPattern-1; j++) bm_bc[pbPattern[j]]=cbPattern-j-1;
        while (i <= cbTarget-cbPattern) {
            if ( *(unsigned long *)&pbTarget[i] == ulHashPattern ) {

The above fragment works as it must on Windows 32bit compiler. My desire is all such 4vs4 comparisons to work under 64bit Windows and Linux as well. Many times I need 2,4,8 bytes transfers, in above example I need explicitly 4bytes from some pbTarget offset. Here the actual question: what type should I use instead of unsigned long? (I guess something close to UINT16,UINT32,UINT64 will do). In other words, what 3 types I need in order to represent 2,4,8 bytes ALWAYS independently from the environment.

I believe this basic question causes a lot of troubles, so it should be clarified.

Add-on 2012-Jan-16:

@Richard J. Ross III
I am double-confused! Since I don't know whether Linux uses 1] or 2] i.e. is _STD_USING defined in Linux, in other words which group is portable the types uint8_t,...,uint64_t or the _CSTD uint8_t,...,_CSTD uint64_t?

1] An excerpt from MVS 10.0 stdint.h

typedef unsigned char uint8_t;
typedef unsigned short uint16_t;
typedef unsigned int uint32_t;
typedef _ULonglong uint64_t;

2] An excerpt from MVS 10.0 stdint.h

 #if defined(_STD_USING)
using _CSTD uint8_t; using _CSTD uint16_t;
using _CSTD uint32_t; using _CSTD uint64_t;

With Microsoft C 32bit there is no problem:

; 3401 :           if ( *(_CSTD uint32_t *)&pbTarget[i] == *(_CSTD uint32_t *)(pbPattern) )

  01360 8b 04 19     mov     eax, DWORD PTR [ecx+ebx]
  01363 8b 7c 24 14  mov     edi, DWORD PTR _pbPattern$GSCopy$[esp+1080]
  01367 3b 07        cmp     eax, DWORD PTR [edi]
  01369 75 2c        jne     SHORT $LN80@Railgun_Qu@6

But when 64bit is the targeted code, that is what happens:

D:\_KAZE_Simplicius_Simplicissimus_Septupleton_r2-_strstr_SHORT-SHOWDOWN_r7>cl /Ox /Tcstrstr_SHORT-SHOWDOWN.c /Fastrstr_SHORT-SHOWDOWN /w /FAcs
Microsoft (R) C/C++ Optimizing Compiler Version 15.00.30729.01 for x64
Copyright (C) Microsoft Corporation.  All rights reserved.

strstr_SHORT-SHOWDOWN.c(1925) : fatal error C1083: Cannot open include file: 'stdint.h': No such file or directory


How about Linux' stdint.h, is it always presented?

I didn't give up and commented it: //#include <stdint.h>, then compilation went ok:

; 3401 :           if ( !memcmp(&pbTarget[i], &ulHashPattern, 4) ) 
  01766 49 63 c4     movsxd  rax, r12d
  01769 42 39 2c 10  cmp     DWORD PTR [rax+r10], ebp
  0176d 75 38        jne     SHORT $LN1@Railgun_Qu@6

; 3401 :           if ( *(unsigned long *)&pbTarget[i] == ulHashPattern ) 
  01766 49 63 c4     movsxd  rax, r12d
  01769 42 39 2c 10  cmp     DWORD PTR [rax+r10], ebp
  0176d 75 38        jne     SHORT $LN1@Railgun_Qu@6

This very 'unsigned long *' troubles me since gcc -m64 will fetch a QWORD not DWORD, right?

Just wanted to show the three different translations done by Microsoft CL 32bit v16:

; 3400 :           if ( !memcmp(&pbTarget[i], pbPattern, 4) )
  01360 8b 04 19     mov     eax, DWORD PTR [ecx+ebx]
  01363 8b 7c 24 14  mov     edi, DWORD PTR _pbPattern$GSCopy$[esp+1080]
  01367 3b 07        cmp     eax, DWORD PTR [edi]
  01369 75 2c        jne     SHORT $LN84@Railgun_Qu@6


; 3400 :           if ( !memcmp(&pbTarget[i], &ulHashPattern, 4) )
  01350 8b 44 24 14  mov     eax, DWORD PTR _ulHashPattern$[esp+1076]
  01354 39 04 2a     cmp     DWORD PTR [edx+ebp], eax
  01357 75 2e        jne     SHORT $LN83@Railgun_Qu@6


; 3401 :           if ( *(uint32_t *)&pbTarget[i] == ulHashPattern )
  01350 8b 44 24 14  mov     eax, DWORD PTR _ulHashPattern$[esp+1076]
  01354 39 04 2a     cmp     DWORD PTR [edx+ebp], eax
  01357 75 2e        jne     SHORT $LN79@Railgun_Qu@6

The initial goal was to extract (with a single mov instruction respectively *(uint32_t *)&pbTarget[i]) and compare 4bytes versus a register variable 4bytes in length i.e. one RAM access one comparision in a single instruction. Nastily I managed only to reduce the memcmp()'s 3 RAM accesses (applied on pbPattern which points to 4 or more bytes) down to 2, thankfully to the inlining. Now if I want to use memcmp() on first 4bytes of pbPattern (as in 2]) ulHashPattern should be not of type register, whereas 3] needs not such a restriction.

; 3400 :           if ( !memcmp(&pbTarget[i], &ulHashPattern, 4) )

The line above gives an error (ulHashPattern is defined as: register unsigned long ulHashPattern; ):

strstr_SHORT-SHOWDOWN.c(3400) : error C2103: '&' on register variable

Yes, you are right: memcmp() saves the situation (but with a limitation) - the fragment 2] is identical to 3] mine dirty style. Obviously my inclination not to use a function when it might be manually coded is a thing of the past but I like it.

Still I am not fully happy from the compilers, I have defined ulHashPattern as a register variable but it is loaded each time from RAM?! Maybe I miss something but this very (mov eax, DWORD PTR _ulHashPattern$[esp+1076]) line degrades performance - an ugly code in my view.

share|improve this question
Check out uint64_t & its counterparts, defined in stdint.h –  Richard J. Ross III Jan 15 '12 at 18:53
Thanks Richard J. Ross III, I will look for (when I get home) the counterparts, maybe because they are in stdint.h will make them portable, right? –  Georgi Jan 15 '12 at 19:19

1 Answer 1

To be strictly pedantic, the only type you can use is char. This is because you are violating strict-aliasing with the following type-puns:

*(unsigned long *)(pbPattern);
*(unsigned long *)&pbTarget[i]

char* is the sole exception to this rule as you can alias any data-type with char*.

If you turn up your warnings on GCC, you should be getting strict-aliasing warning with your code-snippet. (AFAIK, MSVC doesn't warn about strict-aliasing.)

I can't quite tell exactly what you are trying to do in that code-snippet, but the idea still holds, you should not be using unsigned long or any other data-type to load and compare larger chunks of data that are of different types.

In all reality, you really should be using memcmp(), as it's straight-forward and will let you bypass the inefficiencies of forcing everything down to a char*.

Is there a reason you can't use memcmp()?

If you're OK with violating strict-aliasing, you can use the fixed integer types (such as uint32_t) defined in <stdint.h>. However, be aware that these are fixed to the # of bits rather than the # of bytes.

share|improve this answer
Thanks for your help, a pun ha-ha, if you only knew how many of them I produce - they should call me punman. I am afraid my style of coding is so violating (not only in regards with strict-aliasing). As for your question: memcmp() is out of question because I want speed, in fact this very 4vs4 comparison is the beginning of an inlined memcmp(). –  Georgi Jan 15 '12 at 19:16
Agree but in this case after many tries-and-errors (and many benchmarks) I came up with a faster than memcmp code: link –  Georgi Jan 15 '12 at 19:23
Ah, if you've benchmarked it (properly), then fine. It is certainly possible to do better than the compiler. Though it's usually safer and more readable just to issue the memcpy(). See my answer here. –  Mysticial Jan 15 '12 at 19:26
Also, a great handicap of mine: despite my good feelings toward open-source OSes and tools I am still using Windows, thus I have almost zero experience in Linux and with GCC, grumble. –  Georgi Jan 15 '12 at 19:28
Same, I still use Windows as primary. But I dual-boot Linux for when I need it. But yes, I've never seen any Windows compiler generate strict-aliasing warnings. So I can see how you got into this situation in the first place. Though to date, the only time I've seen strict-aliasing violation actually cause undesired behavior was when mixing with inline-assembly. –  Mysticial Jan 15 '12 at 19:33

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.