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I'm currently working on a personal project that I've been doing for nearly a year now. I am trying to port it over to a Windows environment, which has succeeded. Because I am trying to get a Windows version out to people soon, I decided to continue to develop in Windows while I try to add new features and get bugs that have existed for months out. While recently attempting to add functionality which relied heavily on trigonometry, I found that all 3 trigonometric functions, oddly enough, returned the same value (1072693887) regardless of the parameter I passed. As you can imagine, this is leading to some rather strange bugs in the system.

I have math.h included, and to my knowledge no other files that would contain this function. (Perhaps there's a debugger command to find where a symbol is defined? I couldn't find any such thing, but perhaps I missed something.) I've tried asking elsewhere and searching around on Google, but to no avail...

Has anyone else heard of this problem before, or know how to fix it?

share|improve this question
How about showing code? – delnan Nov 20 '11 at 18:25
What does the number you are passing mean? – FailedDev Nov 20 '11 at 18:34
up vote 0 down vote accepted

All I know is that GDB is telling me the result of it is 1072693887, that it's occurring with all 3 of my trig functions (and that the arc versions of all three of them just return -1072693887) regardless of what parameter I pass.

Might be a GDB issue. What happens if you just manually print the values to the console?

share|improve this answer
I wish I could answer that... For some reason, even though Code::Blocks has it set up to run as a "Console Application", none of my calls to std::cout or printf are actually showing up... – LyonesGamer Nov 21 '11 at 1:18
Then you have far more serious problems that rounding issues. What happens if you insert a std::cin.peek(); line at the very end of main? – fredoverflow Nov 21 '11 at 7:05
Well, the console is opening, and I do get a "Press any key to continue" at the end of execution... But whether I run my code from within Code::Blocks or I just open up cmd.exe and run my program, either way I don't get any output, despite having calls to std::cout peppered in my code... And that's only happening on Windows... – LyonesGamer Nov 21 '11 at 15:03
Alright, well, I just tested it on Linux as well... Apparently it is just a problem with my debugger, because I did manage to get my std::cout calls to execute there, and it did in fact tell me the correct numbers... sigh Thanks for all the help, anyway... – LyonesGamer Nov 21 '11 at 15:14

EDIT : This answer is not relevant. See comments.

This is probably due to numerical instability.

When you pass such a large value into sin(), cos(), or any of the periodic trig functions, you have to remember that there's an implicit modulo by 2*pi.

If you are using float, then the uncertainty of 1072693887, is way more than 2*pi. Therefore, whatever result you get is garbage.

We'll need to see some code to be able to see exactly what's going on though.

EDIT : Here's an illustration:

sin(1072693886) =  0.6783204666
sin(1072693887) = -0.2517863119
sin(1072693888) = -0.9504019164

But if the datatype is float, then the uncertainty of 1072693887 is +/- ~64...

share|improve this answer
Perhaps I should have been more clear... If I put in a value, say PI/3 (for which the value should be the square root of 3, or approximately 0.866), I get 1072693886 as a return value from the trig function. – LyonesGamer Nov 20 '11 at 18:39
Then that sounds like a clear bug in your code. Post your code so we can take a look at it. Otherwise, we won't be able to help. – Mysticial Nov 20 '11 at 18:40

1072693887 is 3FF207FF in hexadecimal, which represents 1.8908690 in IEEE single precision floating point. Are you sure your problem isn't just a representation one, ie you are casting or view the result as a integer?

share|improve this answer
All I know is that GDB is telling me the result of it is 1072693887, that it's occurring with all 3 of my trig functions (and that the arc versions of all three of them just return -1072693887) regardless of what parameter I pass. Even if what you say is true, it still appears to be a clear-cut error. – LyonesGamer Nov 20 '11 at 18:49
So post a repro case showing what you are doing, otherwise all you will get is wild guesses. The gnu math library is extremely well tested and used in literally millions of applications where results are put under the highest scrutiny, the likelihood you have found a bug is vanishingly small – talonmies Nov 20 '11 at 18:59

Math library is fine.

You realize that the functions expect radians as input right?

E.g. :

double param = 90.0;
double rads = param * M_PI/180;
std::cout << std::fixed << "Angle : " << param << " sin : " << sin (rads) << " cos " << cos(rads);

Output :

Angle : 90.000000 sin : 1.000000 cos 0.000000-0.304811
share|improve this answer
This is true, and is the cause of many (most?) "math.h doesn't work" complaints, but the "symptom" is random seeming results, not one consistent value. – dmckee Nov 20 '11 at 18:53
First of all, I am inputting radians. Secondly, even if I were mistakenly inputting degrees, the range of sin and cos are 1 (even if tan has an infinite range). sin of any number and cos of any number should still not return 1072683887. – LyonesGamer Nov 20 '11 at 18:53
@drummerp Post a minimal sample of code which reproduces this. Otherwise we can just guess. – FailedDev Nov 20 '11 at 18:56
Hm... This is interesting. I tried creating a new project to test it with a single file looking like this: #include <iostream> #include <math.h> using namespace std; int main() { cout << "The sin of 30 degrees is: " << sin(30 * (M_PI / 180)) << endl; return 0; } It did, in fact, return 0.5. – LyonesGamer Nov 20 '11 at 18:58
@drummerp So the bug lies somewhere else :) – FailedDev Nov 20 '11 at 19:01

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