# Limit floating point precision?

Is there a way to round floating points to 2 points? E.g.: `3576.7675745342556` becomes `3576.76`.

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Do you mean for display or calculation? –  anon Aug 1 '10 at 21:30
3576.7675745342556 becomes 3576.77, doesn't it? –  Vladimir Aug 1 '10 at 21:43
@Vladimir: Not nesacerily. rounding is a vague term that encapsulates several different operations that have more exact meaning. Round Up/Down/Towards Zero/Towards Infinity/Towards nearest int etc. –  Loki Astari Aug 1 '10 at 21:51

``````round(x * 100) / 100.0
``````

If you must keep things floats:

``````roundf(x * 100) / 100.0
``````

Flexible version using standard library functions:

``````double GetFloatPrecision(double value, double precision)
{
return (floor((value * pow(10, precision) + 0.5)) / pow(10, precision));
}
``````
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Note that because binary floating point can't represent most decimal values exactly, this answer won't work when you start examining the lower digits closely. But then again neither can any other answer. –  Mark Ransom May 18 '13 at 1:28

If you are printing it out, instead use whatever print formatting function available to you.

In c++

``````cout << setprecision(2) << f;
``````

For rounding to render to GUI, use std::ostringstream

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Never refer to another answer with "as mentioned above". The order in which answers are displayed varies over time and according to user-configurable preferences (sort by time or number of votes). To address your particular point, `floor` or `ceil` can be used instead of an integer cast. –  Ben Voigt Aug 1 '10 at 23:49
Why not use `printf`? –  Svante Aug 2 '10 at 1:25
@Svante , because we are using C++? –  Craig Aug 2 '10 at 1:48
I apologise, i didn't see he marked C and C++ –  Craig Aug 2 '10 at 1:53
While cout might be preferred in C++, you can use printf in C or C++. E.g. std::printf("Printf C++\n"); –  bn. Aug 2 '10 at 2:48

Multiply by 100, round to integer (anyway you want), divide by 100. Note that since 1/100 cannot be represented precisely in floating point, consider keeping fixed-precision integers.

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Decimal fixed-point integers are quite possibly the real right answer here. –  caf Aug 2 '10 at 2:20

Don't use floats. Use integers storing the number of cents and print a decimal point before the last 2 places if you want to print dollars. Floats are almost always wrong for money unless you're doing simplistic calculations (like naive economic mathematical models) where only the magnitude of the numbers really matters and you never subtract nearby numbers.

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To limit the precision:
If x is a float, no rounding:
(shift up by 2 decimal digits, strip the fraction, shift down by 2 decimal digits)

``````((int)(x*100.0)) / 100.0F
``````

Float w/ rounding:

``````((int)(x*100.0 + 0.5F)) / 100.0F
``````

Double w/o rounding:

``````((long int)(x*100.0)) / 100.0
``````

Double w/ rounding:

``````((long int)(x*100.0 + 0.5)) / 100.0
``````

Note: Because x is either a `float` or a `double`, the fractional part will always be there. It is the difference between how a # is represented (IEEE 754) and the #'s precision.
C99 supports round()

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``````yourFloatNumber= Float.Round(yourFloatNumber,2); // In C#
``````
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That does work in Java. If you look carefully, the poster has tagged it with c/c++. –  carlsborg Aug 1 '10 at 21:55