# C++ rounding issue

I am trying to create a histogram using GSL. I get a problem when I try to add to the histogram the value of the division 1470/100. This results in 14.69999999 and when added to the histogram it gets rounded to the lower bin. My question is how can i make 1470/100 result in 14.7 and not 14.69999? Thank you

Edit:

``````int minRange = 14;
double val;

val = minRange + j*0.05;

gsl_histogram_increment(hist, val);
``````

When val is added to the histogram it is considered to be 14.65 instead of 14.7. (j is 14 in this case).

I solved the issue by adding 1e-6 to val. Thank you for the help

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floating-point-gui.de –  JBL Jun 25 at 12:19
Maybe I'm wrong here, but if you want all histogram points rounded, can't you do something like round(number*100)/10.0 ? Can we have a code extract please? Not sure what data types are you using. –  Avner Solomon Jun 25 at 12:28
Just for info: `14.7` representation in IEEE 754 floating-point: 32-bit float and 64-bit double –  gx_ Jun 25 at 12:29
thank you for the explanation. now i understand –  DCuser Jun 25 at 14:37

This is a floating point precision issue. A good way to solve is to set the histrogram points just off the integral values, e.g. `15 - e` where `e` is of the order 10-6.

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Yes,

Adding 1e-6 usually works, but in general you have to be more careful when truncating float.

This blog explain all the problems you can face if you want to round float numbers (and also the pitfalls of naive solutions). It also suggest the following more robust implementation of "adding 1e-6"

`````` float myround(float f)
{
if (f >= 0x1.0p23) return f;
return (float) (unsigned int) (f + 0.49999997f);
}
``````

You can test that myround(0.49999997) = 0 and myround(0.49999999) = 1 .

So I would read this blog first before calling this question completely solved!

Another point is that c++11 has a new function called std::round which returns the nearest integer so you can also implement rounding by comparing `std::abs(x - std::round(x)) < epsilon`, where `epsilon` is your target. Again this is a naive implementation that is not as robust as myround (which you need to adapt to double).

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