While compiling a larger project with clang I stumbled upon an irritating bug.

Consider the following small example:

unsigned long int * * fee();

void foo( unsigned long int q )
  unsigned long int i,j,k,e;
  unsigned long int pows[7];
  unsigned long int * * table;

  e = 0;
  for (i = 1; i <= 256; i *= q)
    pows[e++] = i;
  pows[e--] = i; 

  table = fee();  // need to set table to something unknown
                  // here, otherwise the compiler optimises
                  // parts of the loops below away
                  // (and no bug occurs)

  for (i = 0; i < q; i++)
    for (j = 0; j < e; j++)
      ((unsigned char*)(*table) + 5 )[i*e + j] = 0;   // bug here

To the best of my knowledge this code does not violate the C standard in any way, although the last line seems awkward (in the actual project, code like this appears due to excessive use of preprocessor macros).

Compiling this with clang (version 3.1 or higher) at optimisation level -O1 or higher results in code writing to the wrong position in memory.

The crucial parts of the assembly file produced by clang/LLVM read as follows: (This is GAS syntax, so to those of you who are used to Intel: Beware!)

    callq   _fee
    leaq    6(%rbx), %r8          ## at this point, %rbx == e-1
    xorl    %edx, %edx
    movq    %r8, %rsi
    imulq   %rdx, %rsi
    incq    %rdx
    movq    (%rax), %rcx          ## %rax == fee()
    movb    $0, (%rcx,%rsi)
    incq    %rsi
    [conditional jumps back to LBB0_6 resp. LBB0_4]

In other words, the instructions do

(*table)[i*(e+5) + j] = 0;

instead of the last line written above. The choice of + 5 is arbitrary, adding (or subtracting) other integers results in the same behaviour. So - is this a bug in LLVM's optimisation or is there undefined behaviour going on here?

Edit: Note also that the bug disappears if I leave out the cast (unsigned char*) in the last line. In general, the bug appears to be quite sensitive to any changes.

  • 1
    Can't see multiplication by 5 in the assembler code above (but then I am more used to ARM assembler than Intel, if it is Intel :-)), but, the last line of the C code translates to *((unsigned char*)(*table) + 5 + i*e + j), so ... are you sure you put those braces around "e+5" in your interpretation of the assembler output correctly? Mar 7, 2013 at 20:13
  • Yes, I am pretty sure. This is GAS syntax, not Intel, so the movq %r8, %rsi and imulq %rdx, %rsi mean that %rsi will hold (%rbx+6) * %rdx = (e+5) * %rdx.
    – m_l
    Mar 7, 2013 at 20:21
  • Yes, now I can see this. It does look like an optimizer bug since the code is kosher enough even if a bit strange (but then macros can generate weird output). Mar 7, 2013 at 20:38
  • @m_l: It's always hard to blame the compiler, but I think in this case you really did find a compiler bug. Congratulations!
    – nneonneo
    Mar 7, 2013 at 22:12

1 Answer 1


I am quite sure this is an optimizer bug. It repro's in LLVM-2.7 and LLVM-3.1, the only versions I have access to.

I posted a bug to the LLVM Bugzilla.

The bug is demonstrated by this SSCCE:

#include <stdio.h>

unsigned long int * table;

void foo( unsigned long int q )
  unsigned long int i,j,e;

  e = 0;
  for (i = 1; i <= 256; i *= q)

  for (i = 0; i < q; i++)
    for (j = 0; j < e; j++)
      ((unsigned char*)(table) + 13 )[i*e + j] = 0;   // bug here

int main() {
    unsigned long int v[8];
    int i;
    memset(v, 1, sizeof(v));

    table = v;

    for(i=0; i<sizeof(v); i++) {
        printf("%d", ((unsigned char*)v)[i]);
    return 0;

It should print


under GCC and "clang -O0". The incorrect output observed with LLVM is


Thanks for noticing this!

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