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I have got a problem. I got this function in a class "invKin" to set some parameters before I ran a simulation:

void IK_mm4::set_timesetting(double *T_horiz_, double *delta_t_)
  T_horiz  = T_horiz_;
  delta_t  = delta_t_;

  k_end = (int)floor((*T_horiz)/(*delta_t));

  cout << "k_end = " << k_end <<endl;

It is invoked in my main-file with

double delta_t = 5e-3;
double *T_desired = new double(5.0);

The problem is now. At the PC at my university everything is fine and k_end has the value '1000' as it should have. At my home PC the system is somehow giving back the value '999'. If I change the value of *T_desired down to '0.05' cout is giving the right value of '10' at both PCs.

I have already checked to use a variable

double k_end_test = (*T_horiz)/(*delta_t);

that is giving the correct solution of '1000'. The error must be in the floor function or the int-conversion. If I do

int k_end_test2 = (int)(k_end_test);


double k_end_test2 = floor(k_end_test);

the result is always '999'.

Does somebody have an idea where this can come from?

I am thankful for any kind of hints! Thank You!

share|improve this question
Omg, your code is so confusing! Did you include the required header for floor()? You should single-step the code to dig deeper into what values are where. – unwind Jan 23 '13 at 10:37
If you require an exact answer and cannot tolerate rounding, don't use floating point! You must read this paper. – David Schwartz Jan 23 '13 at 10:40
What Every Computer Scientist Should Know About Floating-Point Arithmetic – sarat Jan 23 '13 at 10:52
Wow, allocating lone doubles on the heap. That does not sound like efficient way to do things. – Jan Hudec Jan 23 '13 at 10:56
What happens if you print 0.005 with precision of 20 digits after the decimal point? Is it wise to use floor after doing arithmetic with numbers like this? – n.m. Jan 23 '13 at 11:00
up vote 4 down vote accepted

This is the nature of limited-precision representations.

For example, consider six decimal digits of precision. This is not what double uses, of course, but the concept is precisely the same. 1/3 is .333333 with six digits of decimal precision. So 30 * (1/3) is 9.99999. If you round down to an integer, you get 9, not 10. This is the problem you are seeing.

If you don't want this behavior, don't use floating point.

It may suffice to add a small "delta" to the value you pass to floor.

share|improve this answer
Hm. Ok,I get the point. Can you specify "don't use floating point"? If i try to set 'delta_t = 0.005' instead of 'delta_t = 5e-3', that doesn't change anything. Second question: why is the code running on the system at university and on my system it is not? – xlabix Jan 23 '13 at 15:58
Likely on one system the value happens to stay in a floating point register and on the other system, it happens to get read out to memory and read back in. As for not using floating point, use integers or longs instead. For example, you can store delta_t in integer millionths -- 5,000 instead of .005. – David Schwartz Jan 23 '13 at 17:59
Ok. Thank you for help. I solved it by adding a small delta. – xlabix Jan 23 '13 at 21:33

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