I'm running into a downright bizarre issue with sprintf in C that seems beyond my basic abilities to debug. Basically, I'm using a simple unit test framework (CuTest) to add some tests to an ugly (undocumented, no unit tests) code base. I added a new type of unit test, which basically duplicates the ones that are already present- but for the 64 bit integers used in the code.

This test works in general (correctly evaluates equality comparisons), but when it fails it does not produce the correct error message due to the sprintf issue. The function looks like this:

/* Comparison Function for U64 Numbers */
void CuAssertU64Equals_LineMsg(CuTest* tc, const char* file, int line, const char* message, u64 expected, u64 actual) {
    char buf[STRING_MAX];
    if (expected == actual) return;
    sprintf(buf, "expected <%lld> but was <%lld>", expected, actual);
    CuFail_Line(tc, file, line, message, buf);

(Note: STRING_MAX is 512, so it should be plenty large). (Note 2: On the Cygwin system I'm currently working with, a u64 is a "long long int" variable)

When this tests fails, the error message produced is the weird part. Regardless of what the value of "actual" is, it prints 0 in that spot. So given expected = 1 and actual = 2, the message would be:

"expected <1> but was <0>"

If you switch the positions of the arguments, and make it state something like:

sprintf(buf, "actually <%lld> but expected <%lld>", actual, expected);

You'd get the output:

"actually <2> but expected <0>"

Needless to say, this makes very little sense and seems to indicate some sort of weird stack error maybe? To be quite honest, I am just entirely unclear on how such an error could occur- even in principle. I made a small working example with the CuTest code and it worked properly (did not set the second one to zero). This indicates that the neither CuTest, nor the function itself is the issue.

However, when used with the actual code base it encounters this issue. Something related to the environment (stack, memory, or variables) is the issue.

Does anyone have a clue as to why this would happen? My current candidate theories are: 1. Underflow/overflow in the sprintf function when trying to read the data. I'm not sure how this would occur though, since any data passed into the function is by value. Moreover, the data itself clearly exists- I can see each value if I switch the order.

  1. I'm using the incorrect formatting somehow. I was pretty sure lld was correct for a long long int (and works in my minimal working example) but maybe it's fragile.

  2. Full on stack corruption of some sort. Sure hope its not this, because I'm only on this project 20 hours a week. I doubt I could debug the whole code base to figure out something of this magnitude.

I'm currently compiling using gcc-3 in a cygwin environment, for what it's worth. Any guesses would be great, I know it's basically impossible to diagnose it specifically without seeing the whole code base, but even some leads about debugging this sort of issue would be great.

  • That is bizarre. I'd recommend running the program under valgrind to see if that turns up any memory errors. – Brian L Apr 15 '11 at 4:33
  • What does gcc -v display? – Michael Burr Apr 15 '11 at 5:59
  • I should note that I have found where the u64 data type is defined and it's definitely a long long int, at least when compiling under Cygwin (the code has a set of compiler ifdefs to adjust it for different OS's). One would think that it would be an unsigned value, but it's actually signed (not all that surprising given some really weird naming choices in the code). – Namey Apr 15 '11 at 16:17
  • Also, is there anything in particular one is looking for with gcc -v? As stated, this issue is only seen when working with a significant size code base and I don't think anyone wants a 10 page long compiler log? The relevant files don't display anything of note that I can see, no warnings or the like. – Namey Apr 15 '11 at 19:03

Try "%I64d" as a format string instead. I'm not certain of Cygwin but I know MinGW links in the printf function from Visual Studio's standard library, causing all sorts of havoc. Beware of any new C99 features and types such as long doubles or size_t formats.

For what it's worth here's a replacement for printf in this context:

static char *CuPrintU64(char* buffer, u64 value) {
        *--buffer = value % 10 + '0';
    while(value /= 10);
    return buffer;

/* Comparison Function for U64 Numbers */
void CuAssertU64Equals_LineMsg(CuTest* tc, const char* file, int line, const char* message, u64 expected, u64 actual) {
    static const char first[] = "expected ";
    static const char second[] = " but was ";

    char buf[STRING_MAX], *ptr = &buf[sizeof buf];

    if(expected == actual) return;

    /* sprintf(buf, "expected <%llu> but was <%llu>", expected, actual); */
    *--ptr = '\0';
    ptr = CuPrintU64(ptr, actual);
    ptr = memcpy(ptr - second, sizeof second - 1);
    ptr = CuPrintU64(ptr, expected);
    ptr = memcpy(ptr - first, sizeof first - 1);

    CuFail_Line(tc, file, line, message, ptr);
  • Tried to explicitly do that one, but it doesn't recognize the format at all under this compiler mode (literally writes "I64d"). Thanks for throwing something out here though. – Namey Apr 15 '11 at 16:35
  • An interesting solution, at least. Right now my workaround is actually to do two separate sprintf statements to separate buffers, then combine the buffers (which works fine). This is definitely a useful approach though in case the first part starts failing though. – Namey Apr 15 '11 at 19:06
  • @Namey I suspect you'll find that %lld was actually being treated as %ld and only reading half of your 64-bit integer, so this isn't really a good workaround (especially if you were expecting to print any numbers greater than LONG_MAX). If you are not expecting any such large values, a better solution might be to use %lu and cast the values to unsigned long. – M.M Mar 8 '15 at 5:28

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