Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I have some (legacy embedded c) code which produces a .csv file by means of some sprintf calls. Occasionally I see values of 1.#QO. I've tried reproducing those values with conditions which should give negative infinity, positive infinity and NaN but none of them appear to give me the magical 1.#QO result. So what is it that produces that value?

...and yes, I know there's obviously something going wrong in the maths which produce that value, but understanding what it means would assist in the debugging effort.

[Edit 1] The actual line which does the conversion is:

sprintf_s(txt, CSV_HEADER_SIZE, "%.3f", value);


#define CSV_HEADER_SIZE (100)
char txt[CSV_HEADER_SIZE];

I'm compiling with MS Visual Studio 2008.

[Edit 2] A bit more digging shows 0xFFFFFFFF gives -1.#QO:

unsigned int i = 0xFFFFFFFF;
float* f = (float*)&i;
printf("%.3f", *f); // gives -1.#QO

..and looking at that in the Visual Studio debugger expands it to -1.#QNAN00 so it looks like this is probably a Microsoft-specific representation of NaN?

share|improve this question
What is the sprintf() line in question? – CanSpice May 9 '11 at 16:15
Can you identify one of the values that produced this result and format out the underlying float data in, say, hex? E.g., if it is a 4-byte float you could printf("%X", value), or for an 8-byte you might be able to do printf("%llX", value) depending on the platform. This information would be helpful. – Scott Moonen May 9 '11 at 16:17
Could you identify the compiler (and, if applicable, the runtime)? That particular sprintf output wasn't in the Standard last I looked, so it's probably very implementation-dependent. – David Thornley May 9 '11 at 16:24
I think 0xFFFFFFFF is the IEEE-754 standard representation of NaN--however the strange print out of that number seems Microsoft-specific. Also, makes sense that you'd get this from dividing by zero. IEEE 754 NaN is talked about here: – nielsbot May 10 '11 at 6:55
also, see the note in the wikipedia article about qNaN (quiet, non-signalling NaN) – nielsbot May 10 '11 at 6:56

4 Answers 4

up vote 9 down vote accepted

"-1.#QO" is "-1.#QNAN" after "rounding" for 3 places after the decimal. The N rounds to an O as 'A' >= '5' and 'N' + 1 == 'O'.

This is similarly why your debugger shows "-1.#QNAN00", as it prints with 7 places and adds padding zeros to the end.

QNaN is quiet NaN.

share|improve this answer
That was the conclusion I reached too. Strange that it added the O on the end though. – Jon Cage May 10 '11 at 14:57
@JonCage: MSVC uses trailing zeros to fill the required places, rather than handle QNAN differently from "regular"/non-NaN values. Default places after the decimal is 6, so combine "%f" with a NaN (as in your answer) and remember strlen("#QNAN") is 5... :) – Fred Nurk May 10 '11 at 15:01
That last character is a letter (O) though rather than a zero (0). I think it's rounding the N up to an O because if you use %.2f you get -1.#R :-) – Jon Cage May 10 '11 at 15:17
@JonCage: Ah, I crossed messages; in your answer you have "-1.#QNAN0". Yes, indeed, it "rounds" the N to O here. That's why I put rounding in quotes, but I see it might not be obvious. I'll expand the answer. – Fred Nurk May 10 '11 at 15:33

After a lot of fiddling around I can conclusively say that setting a 4-byte float to 0x7FFFFFFF and passing it into sprintf_s with a format specifier of %.3f is what gave me 1.#QO:

const int bufSize = 100;
char buf[bufSize];
unsigned int i;
float* f = (float*)&i;
int retval;

retval = sprintf_s(buf, bufSize, "%.3f\n", *f);
printf("sprintf_s returned %d, converted val = %s", retval, buf); // == sprintf_s returned 7, converted val = -1.#QO
retval = sprintf_s(buf, bufSize, "%f\n", *f);
printf("sprintf_s returned %d, converted val = %s", retval, buf); // == sprintf_s returned 10, converted val = -1.#QNAN0

i = 0x7FFFFFFF;
retval = sprintf_s(buf, bufSize, "%.3f\n", *f);
printf("sprintf_s returned %d, converted val = %s", retval, buf); // == sprintf_s returned 6, converted val = 1.#QO
retval = sprintf_s(buf, bufSize, "%f\n", *f);
printf("sprintf_s returned %d, converted val = %s", retval, buf); // == sprintf_s returned 9, converted val = 1.#QNAN0 seems that the %.3f format specifier was cropping the NAN result so what should have been 1.#QNAN0 was being chopped down to 1.#QO.

share|improve this answer

A little googling points to a divide by 0 error. Though I would expect something different if that were the case. That said, it appears to be specific to MS/Visual C.

share|improve this answer
Can I ask what it was that pointed you in that direction? – Jon Cage May 9 '11 at 16:35
Bottom of this blog post: – BMitch May 9 '11 at 17:23

Did you check whether sprintf_s() returned a failure? If it does, you should not use the result. Since the code doesn't look like you checked, I think you should do that checking. In fact, if you don't test the result from one of the *_s() functions, you are headed for trouble.

share|improve this answer
From the documentation I've seen [] it's only if it's returning <= 0 that there's a problem (an error or no characters written)? But since the value is being written out seemingly okay, I doubt that's where the problem lies. The actual code we're using is a little more involved. I just chopped it down to make it more concise (perhaps too much?). We do check return values in practice. – Jon Cage May 9 '11 at 22:38
If you test the result at all, then you are probably OK. It was not clear from your 'snippet' that you checked the return value. I got '404 not found' from your link; but this worked. – Jonathan Leffler May 9 '11 at 23:08
Fair point and worth checking that I'd not missed that point :-) – Jon Cage May 10 '11 at 13:53

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.