# return value not as expected, MIN , compiler issue, numerical overflow?

the following line code is present (embedded programming, C language, Code Composer Studio compiler):

``````bs[Line] = (21.0F - ( (13.5F / 0.035F) * (MIN( abs_yaw, 0.06F) - 0.025F) ) );
``````

where

``````#define MIN(a,b) (((a) < (b)) ? (a) : (b))
``````

21.0F is the result in a local variable,

other values in the line above are really constants.

For an abs_yaw just above 0.025 (and we know it is) we should get a bs close to abs. However, we receive a bs equal to -341.9...

any ideas why this can happen?

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Please post more code. specifically, what value you are actually using for abs_yaw, and what data type bs[Line] is, such as float, double, etc. –  std''OrgnlDave Sep 13 '12 at 14:28
Possibility 1: the local variable does not in fact contain 21.0f. Possibility 2: `abs_yaw` is not a variable, but an expression with side effects. Possibility 3: You do not know that `abs_yaw` is just above 0.025, it's in fact larger. –  Daniel Fischer Sep 13 '12 at 14:29
@DanielFischer indeed, with more code we could help better. –  std''OrgnlDave Sep 13 '12 at 14:34
I agree with @DanielFischer, and add that the "wrong" value makes me suspicious. Instead of around 19-20 degrees (the correct value), it gives -341.9, which is one full circle minus those same 19-20 degrees, as if it was a yaw correction gone awry.... –  lserni Sep 13 '12 at 14:38

This code:

``````#include <stdio.h>

#define MIN(a,b) (((a) < (b)) ? (a) : (b))

int main(void)
{
for (int i = 0; i < 20; i++)
{
float abs_yaw = 0.022 + (i / 4000.0);
float result = (21.0F - ((13.5F / 0.035F) * (MIN(abs_yaw, 0.06F) - 0.025F)));
printf("%2d: %6.4f yields %10.6f\n", i, abs_yaw, result);
}
return 0;
}
``````

produces these results with GCC 4.7.1 on Mac OS X 10.7.4.

`````` 0: 0.0220 yields  22.157143
1: 0.0223 yields  22.060715
2: 0.0225 yields  21.964285
3: 0.0227 yields  21.867857
4: 0.0230 yields  21.771429
5: 0.0233 yields  21.674999
6: 0.0235 yields  21.578571
7: 0.0237 yields  21.482143
8: 0.0240 yields  21.385714
9: 0.0243 yields  21.289286
10: 0.0245 yields  21.192858
11: 0.0247 yields  21.096428
12: 0.0250 yields  21.000000
13: 0.0253 yields  20.903572
14: 0.0255 yields  20.807142
15: 0.0258 yields  20.710714
16: 0.0260 yields  20.614286
17: 0.0262 yields  20.517859
18: 0.0265 yields  20.421429
19: 0.0268 yields  20.325001
``````

You can adapt it to hone in on your values, but it doesn't look like there should be a problem, and you may, conceivably, have found a compiler bug. OTOH, your test code probably isn't as simple as this; if you try this, it will probably work. So, don't go claiming compiler bug yet. Assume there is a fault in your code until all else fails. Try a different compiler (get a second opinion on the same code).

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since he's programming embedded, and doesn't specify the processor type or precision of variables, for all we know it could be trapping denormals on 16-bit floats and flushing to 0, or substituting fixed-point math. A different compiler won't necessarily help this problem if it isn't available. OP doesn't really specify. –  std''OrgnlDave Sep 13 '12 at 14:43
All valid points, but this is indicative of a way to debug the problem. There might not be `printf()` either, and maybe no way to display on the embedded device. Maybe there's an emulator. But there'd have to be a lot of evidence to convince me that the problem is in the compiler and not in the code...and a test case like this would help a lot. –  Jonathan Leffler Sep 13 '12 at 14:50
@std''OrgnlDave Not to be politically correct, but the OP's name indicates it's a she. –  Daniel Fischer Sep 13 '12 at 14:51