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I have a simple piece of code that extracts a float from a FORTRAN-generated REAL array, and then inserts it into a stream for logging. Although this works for the first 30 cases, on the 31st it crashes with a "Floating-point invalid operation".

The code is:

int FunctionDeclaration(float* mrSwap)
{
...
float swap_float;
stringstream message_stream;
...
swap_float = *(mrSwap+30-1);
...
message_stream.clear();
message_stream <<  30 << "\t" << swap_float << "\tblah blah blah \t";

When debugging, the value of swap_float the instance before the crash (on the last line, above) is 1711696.3 - other than this being much larger than most of the values up until this point, there is nothing particularly special about it.

I have also tried replacing message_stream with cerr, and got the same problem. I had hitherto believed cerr to be pretty much indestructable - how can a simple float destroy it?

Edit:

Thanks for the comments: I've added the declaration of mrSwap. mrSwap is approximately 200 long, so I'm a long way off the end. It is populated outside of my control, and individual entries may not be populated - but to the best of my understanding, this would just mean that swap_float would be set to a random float?

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Can you make this a small compilable example? What is mrSwap and how is it populated? –  hmjd May 9 '12 at 11:23
1  
Sounds like you've overrun the end. –  Flexo May 9 '12 at 11:24
    
If that's a pointer operation, I'd wonder if you just ran past the end of the array. There's no issue with cerr, I'm sure. –  duffymo May 9 '12 at 11:24
    
You refer to mrSwap but don't show what it is. –  phresnel May 9 '12 at 11:29
    
Have you tried using printf() instead of cout? –  zvrba May 9 '12 at 11:38

1 Answer 1

up vote 1 down vote accepted

individual entries may not be populated - but to the best of my understanding, this would just mean that swap_float would be set to a random float?

Emphatically not. Certain bit patterns in an IEEE floating-point number indicate an invalid number -- for instance, the result of an overflowing arithmetic operation, or an invalid one (such as 0.0/0.0). The puzzling thing here is that the debugger apparently accepts the number as valid, while cout doesn't.

Try getting the bit layout of swap_float. On a 32-bit system:

int i = *(int*)&swap_float;

Then print i in hexadecimal, and let us know what you see.

Updated to add: From Mike's comment, i=1238430338, which is 49D0F282 in hex. This is a valid floating-point number, equal to exactly 1711696.25. So I don't know what's going on, I'm afraid. The only thing I can suggest is that maybe the compiler is loading the invalid floating-point number directly from the mrSwap array into the floating-point register bank, without going through swapFloat. So the true value of swapFloat is simply not available to the debugger. To check this, try

int j = *(int*)(mrSwap+30-1);

and tell us what you see.

Updated again to add: Another possibility is a delayed floating-point trap. The floating-point co-processor (built into the CPU these days) generates a floating-point interrupt because of some illegal operation, but the interrupt doesn't get noticed until the next floating-point operation is attempted. So this crash might be a result of the previous floating-point operation, which could be anywhere. Good luck with that...

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Thanks Tony - worth knowing about the floats. When I do as you suggest, i=1238430338 in the debugger and when sent to cerr. I'll have a go printing it in hexadecimal... –  Mike Sadler May 9 '12 at 13:36
    
OK, in hexadecimal, i=49d0f282. I also tried using printf("%f", swap_float), and that bombs out with exactly the same error. –  Mike Sadler May 9 '12 at 13:42
    
Following the first edit, j=49d0f282 - so the same as before. On the second edit: this is sounding unpleasantly plausible, as the debugger seems to end up in a 'confused' state - the stack's second entry is: "[Frames below may be incorrect and/or missing, no symbols loaded for ntdll.dll]". Unfortunately, I am not that experienced using debuggers, so I may not be getting all the clues... –  Mike Sadler May 9 '12 at 14:11
    
I do, however, know what the previous floating point operation was. The last set of '...' in my snippet is actually a call to this function: bool IsSame(float swap_value, double function_value, double tolerance) { return (abs(swap_value - (float)function_value) < tolerance); } The compiler warns me of the loss of precision, but it seems to run happily and return the correct result, so I hadn't bothered mentioning it. –  Mike Sadler May 9 '12 at 14:15
    
GOT IT! You were absolutely correct, TonyK - in my comparison using IsSame, the other value was NaN (this is a valid value in this context), and although it happily subtracted it from swap_float, it put a flag in saying to report the next operation as an error. I have to say that I was completely unaware that that was possible - I thought that if it worked, it worked. –  Mike Sadler May 9 '12 at 14:22

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