Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Assume I have a sample source file, test.c, which I am compiling like so:

$ gcc -03 -Wall

test.c looks something like this ..

/// CMP128(x, y)
// arguments
//  x - any pointer to an 128-bit int
//  y - any pointer to an 128-bit int
// returns -1, 0, or 1 if x is less than, equal to, or greater than y
#define CMP128(x, y) // magic goes here

// example usages

uint8_t  A[16];
uint16_t B[8];
uint32_t C[4];
uint64_t D[2];
struct in6_addr E;
uint8_t* F;

// use CMP128 on any combination of pointers to 128-bit ints, i.e.

CMP128(A, B);
CMP128(&C[0], &D[0]);
CMP128(&E, F);

// and so on

let's also say I accept the restriction that if you pass in two overlapping pointers, you get undefined results.

I've tried something like this (imagine these macros are properly formatted with backslash-escaped newlines at the end of each line)

#define CMP128(x, y) ({
  uint64_t* a = (void*)x;
    uint64_t* b = (void*)y;

  // compare a[0] with b[0], a[1] with b[1]

but when I dereference a in the macro (a[0] < b[0]) I get "dereferencing breaks strict-aliasing rules" errors from gcc

I had thought that you were supposed to use unions to properly refer to a single place in memory in two different ways, so next I tried something like

#define CMP128(x, y) ({
    union {
        typeof(x) a;
        typeof(y) b;
        uint64_t* c;
    }   d = { .a = (x) }
        , e = { .b = (y) };

    // compare d.c[0] with e.c[0], etc

Except that I get the exact same errors from the compiler about strict-aliasing rules.

So: is there some way to do this without breaking strict-aliasing, short of actually COPYING the memory?

(may_alias doesnt count, it just allows you to bypass the strict-aliasing rules)

EDIT: use memcmp to do this. I got caught up on the aliasing rules and didn't think of it.

share|improve this question
To use unions in a standard-conforming way, you are only allowed to read from the member that you last wrote to. – Kerrek SB Jun 26 '11 at 21:26
@Kerrek: not true - C99 allows type-punning through unions, a footnote which mentions this explicitly was added with TC3; however, Todd's code is still incorrect... – Christoph Jun 26 '11 at 21:32
@Christoph: C1x is even better, appendix J (UB) is fixed, to allow reading the bytes corresponding to the last written member (which obviously was the purpose in C99, but apparently appendix J was overlooked then). – ninjalj Jun 29 '11 at 1:20
up vote 4 down vote accepted

The compiler is correct as the aliasing rules are determined by the so-called 'effective type' of the object (ie memory location) you're accessing, regardless of any pointer magic. In this case, type-punning the pointers with a union is no different than an explicit cast - using the cast is actually preferable as the standard does not guarantee that arbitary pointer types have compatible representations, ie you're unnecessarily depending on implementation-defined behaviour.

If you want to conform to the standard, you need to copy the data to new variables or use a union during the declaration of the original variables.

If your 128-bit integers are either big-endian or little-endian (ie not mixed-endian), you could also use memcmp() (either directly or after negating the return value) or do a byte-wise comparison yourself: access through pointers of character type is an exception to the aliasing rule.

share|improve this answer
I should have thought of memcmp. That's basically exactly what I want to do. – Todd Freed Jun 26 '11 at 22:19

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.