# Display 0.999 as 0.99

How can I display a `float number = 0.999` as `0.99`?

The code below keeps printing out `1.00` ? I thought using `setprecision(2)` specifies the number of digits after the decimal point?

``````#include <iostream>
#include <iomanip>

using namespace std;

int main(int argc, char** argv)
{
const float numberToDisplay = 0.999;
cout << setprecision(2) << fixed << numberToDisplay << endl;

return 0;
}
``````
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It's printing two digits after the decimal, as you're requesting. By all normal conventions, 0.999 rounds to 1.00. Why do you want it to be 0.99? – Russell Borogove Oct 20 '10 at 1:00
Because 0.999 is closer to 1.00 than 0.99 – Loki Astari Oct 20 '10 at 1:00
It's just required for me to print 0.99. Is there anyway to print 0.99? – sivabudh Oct 20 '10 at 1:03
These kinds of things make me miss printf – GWW Oct 20 '10 at 1:23
printf will still round – Mr.Ree Oct 20 '10 at 4:27

`setprecision(2)` will round to the nearest two-digit floating point number, in this case 1.0. If you wanted to truncate (i.e. get 0.99) you could always multiply the number by 100 (i.e. 10^[num-digits]), cast to an int, and then divide it back into a float. A little messy but it gets the job done.

``````const float numberToDisplay = 0.999;
const float numberTruncated = (int)(numberToDisplay * 100) / 100.0;
// float numberTruncated is 0.99
``````
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Right, in effect this removes the third digit after decimal point. – sivabudh Oct 20 '10 at 1:12

I'd use floorf, as I feel it expresses your intent better than some of the other solutions.

``````cout << setprecision(2) << fixed << floorf(numberToDisplay*100)/100 << endl;
``````
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Simple: 0.999 rounded to two decimal places is 1.00.

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Is there something else provided by STL that will just retain 0.99 without rounding up or down? – sivabudh Oct 20 '10 at 1:05

Okay, just wanted to share a solution that I came up with:

Here's how I solved the problem:

``````float const number = value / 1000.0f;
QString string     = QString::number(number, 'f', 3);
string.chop(1);
``````

Basically, the algorithm is:

• Convert the floating point number to be a string retaining 3 digits after decimal points
• Chop the last character from the string

The flaw with this approach is the chopping and having to specify 3.

I use the same logic for one million and one giga (10^9) as well, and I have to change precision value to be 6 and 9, and chop value to be 4 and 7 respectively.

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Because I dont like this solution, so I'm asking people for advice. – sivabudh Oct 20 '10 at 1:11
Does QString::number round? If so, what if value is 0.9999? If not, why not use 2 as the precision? – R. Martinho Fernandes Oct 20 '10 at 1:34
Great question, Martinho. QString does round if you dont specify enough precision. For example, if I did `QString::number(number, 'f', 2), and `number` is 0.9999, it would round to 1.0. – sivabudh Oct 20 '10 at 21:01
Do you mean if the `value` variable was 0.9999 or if the `number` variable was 0.9999? I will just assume you meant `number`. If `number` was .9999, after `chop(1)`, the string would be `9.99` which is what I want (2 digits after decimal). – sivabudh Oct 20 '10 at 21:06
I used 3 as the precision to prevent it from rounding up when `value` is 999.9f, and then the `chop(1)` chops the 3rd digit so that I would only have 2 digits after the decimal. – sivabudh Oct 20 '10 at 21:07

One way to do this is to split the original value into its integer and decimal parts, multiply the decimal part by 100 (since you want only 2 digits) and then split that again to get only the 'integer' portion of that number. Its not terribly elegant, but it does work:

``````#include <iostream>
#include <iomanip>
#include <math.h>

using namespace std;

int main(int argc, char** argv)
{
const double numberToDisplay = 0.999;

double origInteger;
double origDecimal;

modf(numberToDisplay, &origInteger);

double decimal = numberToDisplay - origInteger;

//prints .999 even if the number is 12.999
cout << decimal << endl;

//results in 99 in origDecimal
modf(decimal * 100, &origDecimal);
//integer + .99
double final = origInteger + (origDecimal / 100);

cout << final << endl;

return 0;
}
``````

Edit: casting to (int) is far simpler as described in another answer.

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Why split the integral and fractional parts? Why not just multiply-truncate-divide the entire thing at once? – R. Martinho Fernandes Oct 20 '10 at 1:38
Multiplying by 100 might cause an overflow if the float is large. (Yeah... not a terribly compelling argument I know) – kkress Oct 20 '10 at 1:40
If the number is large enough to overflow when multiplied by 100, getting the fractional part is meaningless, as you don't have that much precision. – R. Martinho Fernandes Oct 20 '10 at 1:54

Just another one to throw out there:

``````#include <cmath>

std::cout << numberToDisplay - std::fmod(numberToDisplay, 0.01f) << std::endl;
``````
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You should keep the `setprecision(2)` part. Say, you're trying to display `0.019` as `0.01`. It happens that `0.01` is not representable by IEEE754 floating point values, so the result of your subtraction will never be `0.01`. It is likely you will see some gibberish like 0.009999999776482582092285156250. – R. Martinho Fernandes Oct 20 '10 at 2:01
@Martinho: Your example works for me without the `setprecision(2)`, but +1 for the advice. – dreamlax Oct 20 '10 at 2:04
@Martinho: cout has some default precision, so you shouldn't see the gibberish part by default. – visitor Oct 20 '10 at 9:13