Setting the precision of a double without using stream (ios_base::precision)

Is there a way to do this without using the stream? For example, something like this:

``````double a = 6.352356663353535;
double b = a.precision(5);
``````

``````double a = 6.352356663353535;
std::cout.precision(5);
std::cout << a << std::endl;
``````

I am new to C++ and I am curious. Thanks, in advance.

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To clarify, I assume that after the first example `std::cout << b << std::endl;` should produce the same output as the second example does? – MSalters Sep 10 '12 at 11:31
No, for the first example, double b was there to reduce a to 5 sig. fig, whereas in the second example there is no need for that variable. – programmingNoob Sep 10 '12 at 13:19
That was why I inquired about the output. You're confused about the internal representation, obviously, so I was wondering what you expected to see on the outside. – MSalters Sep 10 '12 at 14:25
Yes, I was wanting to get a number to 5.s.f. I am now wondering whether it is possible to get a string from the stream, and if so, how to do it with the second example. – programmingNoob Sep 10 '12 at 14:55

`double`s are almost universally implemented as IEEE floating point numbers. Their precision depends on the number size only (in the case of `double`, which is short for “double-precision floating point number”, it’s 53 bits). There is no way of manually setting the precision of a floating point number.

The display precision is always a property of the output formatting, never of the number. Don’t try to change the number via rounding, the operation makes no sense. You don’t need to reduce a number’s precision, except for display purposes.

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IEEE-754 is common, but not required. – MSalters Sep 10 '12 at 12:02
@MSalters But making this clear makes the answer more complex without adding significant value. Nevertheless, I’ve added a small caveat. – Konrad Rudolph Sep 10 '12 at 12:09
Well, there are real IBM machines which have hardware for decimal floating point. On those, you can in fact zero a number of trailing digits in the mantissa. – MSalters Sep 10 '12 at 12:29

I've revised the code taking into account @john, @Konrad and @KennyTM's suggestions. I've check that it works with negative numbers.

``````#include <cmath>
#include <cstdio>
using namespace std;
int main()
{
double a = 6.352356663353535;
double  intpart;
double fractpart = modf (a, &intpart);
fractpart  = roundf(fractpart * 100000.0)/100000.0; // Round to 5 decimal places
double b = intpart + fractpart;
printf("%.5lf", b);
}
``````

Outputs

``````6.35236
``````
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You should use function `floor` not a cast to long which might overflow. `double b = floor(a*10000.0)/10000.0;` (and probably use `ceil` for -ve numbers). – john Sep 10 '12 at 10:36
@ÖöTiib From C’s perspective it’s not legacy but we’re talking about C++ here, where it is, see C.2. (“their use is deprecated in C++”). Furthermore, `<math.h>` does provide the overloads in C++ (D.5). – Konrad Rudolph Sep 10 '12 at 12:00
A `double` always has the same internal precision (most probably 53 bits of binary precision), no matter what you do. It is only when writing out the double as text in decimal form where you can control the decimal precision of the output. So no, you cannot set the precision of a binary double precision number to anything else than it's native precision (let aside a decimal precision).