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I am debugging a production code written in C and its simplest form can be shown as -

void
test_fun(int sr)
{   
    int hr = 0;
    #define ME 65535
    #define SE 256

    sr = sr/SE;             <--  This should yield 0
    if(sr == 1)
        hr = ME;
    else
        hr = (ME+1)/sr;     <-- We should crash here.
}

We are passing sr as 128, which ideally should yield in divide by zero error in processor. I see that this division happens successfully with quotient as 0x7ffffffff (hr is this value). This does not happens (it crashes when attempts the division by zero) when I compile and run the same on Intel platform with gcc.

Want to to know principle behind this big quotient. Not sure if it is just some other bug I still need to uncover. Can someone help me with another program that does the same?

11
  • 3
    Integer division-by-zero yields undefined behaviour. You should perform an explicit check for sr == 0. – Oliver Charlesworth Jun 7 '15 at 16:24
  • I believe, on PowerPC it would yield some kind of exception. Is it running on some OS or bare-metal? – Eugene Sh. Jun 7 '15 at 16:26
  • @Eugene : It has NetBSD 5.1 as Operating System – ultimate cause Jun 7 '15 at 16:27
  • @EugeneSh. according to this it just sets a bunch of flags (which the compiler may ignore) – harold Jun 7 '15 at 16:27
  • @harold It is a run-time error, so compiler is out of the loop. I believe on *nix-like systems the SIGFPE should be signalled. – Eugene Sh. Jun 7 '15 at 16:29
3

Division by zero is undefined behaviour, see C11 standard 6.5.5#5 (final draft).

Getting a trap or SIGFPE is just a courtesy of the CPU/OS. PowerPC as typical RISC CPU does not catch it, as it can safely be detected by a simple check of the divisor right before doing the actual division. x86 OTOH does catch this - typical CISC behaviour.

If required by a higher layer standard, you probably have missed a compiler option which emits this check automatically. POSIX for instance does not enforce SIGFPE, this is optional.

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  • Thanks. However I think that this big value as quotient is result of some digital algorithm. Want some pointers on that as well. – ultimate cause Jun 7 '15 at 17:15
  • 1
    @RIPUNJAYTRIPATHI: Long division. – Oliver Charlesworth Jun 7 '15 at 17:17
  • @Oliver Charlesworth : I am still searching for this long division algorithm. From your instinct is it that algorithm generates that kind of quotient or does it just puts a distinct/unique value a result of validation of divisor at processor level to denote the error. In other words, Is it possible for a different numerator with divisor 0, to generate a different value of quotient? – ultimate cause Jun 7 '15 at 18:35
  • @RIPUNJAYTRIPATHI: YOu have to ask IBM for that about how they actually implemented the division in their chip. No one except the chip designers can help you with that. Please read about the definition on undefined behaviour. That means actually: anything can happen. You PC might grow feet and run away. – too honest for this site Jun 7 '15 at 20:10
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    @Adam.at.Epsilon: Actually, on x86 there is no guarantee to get SIGFPE either. Taht depends on the OS, etc. If you run the code bare-metal on x86 you need to setup an interrupt handler for the divide-by-zero exception. What that does is completely at your discretion. – too honest for this site Apr 27 '17 at 20:55
3

Per the PPC architecture manual (which you can get from IBM), divide by 0 on a PPC does not result in any kind of signal or trap; instead, you just get some undefined value that varies from processor to processor. In your case, it looks the particular PPC variant you have generates MAXINT (largest positive integer) when dividing a positive number by 0.

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