# C++ significant figures

How can I do math involving significant figures in C++? I want this to work correct with measured data from chemistry and physics experiments. An example: 65 / 5 = 10. I would need to get rid of unneeded decimal places and replace some digits with 0s.

Thanks!

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5., 5.0, 5.00000000 are the same in the computer's representation. Are you talking about how to display the result with 2 significant figures? –  KennyTM Jan 5 '11 at 18:00
I assume he means in circumstances where its 3.5 * 1.00 * pi he wants it to calculate using 3.5 * 1.0 * 3.1 (unless I am confused) –  Zach L Jan 5 '11 at 18:02
Yes, Zach L. is correct –  joshim5 Jan 5 '11 at 18:03
@Kenny: I would guess he wants to keep track of the precision, using the number of digits. So 5 would mean an error of +-0.5, while 5.0 would mean an error of +-0.05. –  Thomas Padron-McCarthy Jan 5 '11 at 18:03
I really hope 6.00 1.20 and 5.00 do not represent money amounts ! –  Alexandre C. Jan 5 '11 at 18:04

Well there are good math libraries in math.h

Also storing your figures in floats, doubles or long doubles will allow for more precise operations.

Floats offer 7 significant digits while doubles offer 16 significant digits.

source

Also when printing out usually people use _snprintf or printf and you can format those doubles, floats to the precision you want like:

Float Precision

printf("Value %8.2f", floatVariable);

This says you require a total field of 8 characters, within the 8 characters the last 2 will hold the decimal part.

_snprintf(buffer, sizeof(buffer), "Value %.2f", floatVariable);

The example above requests the minimum field width and the last two characters are to hold the decimal part.

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This should get you what you need:

``````std::cout.precision(x); //x would be the number of significant figures to output
``````
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would I write: cout.precision(2) << 5.34343; if I wanted to display 5.3? –  joshim5 Jan 5 '11 at 18:03
Correct - here's there documentation on it: cplusplus.com/reference/iostream/ios_base/precision –  Rion Williams Jan 5 '11 at 18:05

This may not be the most efficient way, but you can create a custom sig fig data type.

``````class SigFigFloat
{
SigFigFloat(vector<short> digits, int decimalIndex, bool negative);
SigFigFloat operator+(const SigFigFloat &value);
SigFigFloat operator-(const SigFigFloat &value);
//etc...

}
``````

It can be a lot of work, but if you implement this right, it can be a really flexible way to represent and do calculations with sig figs.

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That depends on how you are displaying them. If you are using the printf-family, you set the precision (`sprintf(buffer, "%.2f", myfloat)`). If you are using ostreams, you call the precision function to set the number of decimal places. If you are looking for the more scientific method of sig figs, you'll have to write a custom function that determines the precision based on the current value of the float.