# exp() function returns nan when it should not

I have the following piece of code in a while loop where I calculate some probability with the exp() function. No matter what the input to the program on the 7th iteration of the loop the exp returns nan.

``````  if(new<=old){
coloring[random_node]=random_color;
}else{
proba=exp((-(new-old))/temperature);
/*assert(!isnan(proba));*/
printf("proba == %.50f\n",proba);
if(random_percent(proba)){
coloring[random_node]=random_color;
}
}
``````

The following is the debugging information of the 6th and 7th iteration inside the loop.

``````Breakpoint 1, graph_coloring_local_search (objectiveValue=50, N=50, E=350, edge_list=0x804d170, node_list=0x804dc68, maxIterations=100,
initial_temperature=7) at coloring.c:391
391             proba=exp((-(new-old))/temperature);
(gdb) p new
\$21 = 1
(gdb) p old
\$22 = 0
(gdb) p temperature
\$23 = 6.9992999999999999
(gdb) p -(new-old)/temperature
\$24 = -0.14287143000014288
(gdb) p ((double(*)())exp)(-(new-old)/temperature)
\$25 = 0.8668655146301385
(gdb) c
Continuing.
proba == 0.86686551463013850060690401733154430985450744628906

Breakpoint 1, graph_coloring_local_search (objectiveValue=50, N=50, E=350, edge_list=0x804d170, node_list=0x804dc68, maxIterations=100,
initial_temperature=7) at coloring.c:391
391             proba=exp((-(new-old))/temperature);
(gdb) p new
\$26 = 1
(gdb) p old
\$27 = 0
(gdb) p temperature
\$28 = 6.9992999999999999
(gdb) p -(new-old)/temperature
\$29 = -0.14287143000014288
(gdb) p ((double(*)())exp)(-(new-old)/temperature)
\$30 = -nan(0x8000000000000)
(gdb) c
Continuing.
proba == -nan
``````

In both cases the variables used have exactly the same value.

-
Do things change if you type `p ((double(*)(double))exp)(-(new-old)/temperature)` at the GDB prompt? If so, did you `#include <math.h>`? (I smell an implicit declaration.) –  zwol Jul 16 '13 at 19:35
Oh, and if that doesn't reveal the problem, try `valgrind`. This isn't obvious memory corruption but it might be subtle memory corruption. –  zwol Jul 16 '13 at 19:36
No nothing has changed and I include the math library –  rex123 Jul 16 '13 at 19:41
@Zack thanks for the advice with the implicit declaration. In the `random_percent` function I used a round macro which wasn't declared. –  rex123 Jul 16 '13 at 20:01
@Zack How should I go about with solving this question? –  rex123 Jul 16 '13 at 20:02

Zack's intuition was right. My random_percent function looks as follows and the round() macro wasn't declared.

``````int random_percent(double probability){
int edge=round(100*probability);
return ((rand () % 100) < edge) ? 1 : 0;
}
``````
-
This is why you should disable implicit declarations. –  David Foerster Jul 16 '13 at 22:34