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I'm using the following code for rounding to 2dp:

sprintf(temp,"%.2f",coef[i]); //coef[i] returns a double

It successfully rounds 6.666 to 6.67, but it doesn't work properly when rounding 5.555. It returns 5.55, whereas it should (at least in my opinion) return 5.56.

How can I get it to round up when the next digit is 5? i.e. return 5.56.

edit: I now realise that this is happening because when I enter 5.555 with cin it gets saved as 5.554999997.

I'm going to try rounding in two stages- first to 3dp and then to 2dp. any other (more elegant) ideas?

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5 Answers

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It seems you have to use math round function for correct rounding.

printf("%.2lf %.2lf\n", 5.555, round(5.555 * 100.)/100.);

This gives the following output on my machine:

5.55 5.56

Note that you also need %lf for printing a double, not only %f.

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This seems a bit more reliable than the idea of adding 0.0005, but both would work I guess. Thanks for your help! – Meir Davis Jun 15 at 7:05
It seems to be a bug, really. 5.5551 gets rounded correctly! – ypnos Jun 15 at 7:08
3  
It's not buggy, @ypnos, you just don't yet grok the limits of floating point. 5.5551 is represented as 5.555100000000000370... which will round up, 5.555 is repesented as 5.5549999999... which will round down. You can see it's a representation issue by trying your code with 5.5500000000000000001 - both outputs are the incorrect 5.55 in that case because the number ISN'T 5.55000...1 when it's stored. It's 5.549999... – paxdiablo Jun 15 at 7:34
I grok the limits of floating point quite well. The bug I see here is the discrepancy, while you may argue that it is an expected one (due to limitations of the format). And thank you for downvoting a CORRECT answer! – ypnos Jun 15 at 10:17
1  
In fact, here's an upvote for being so gracious (and because I couldn't fault your method, integers are much easier to play with than floats). – paxdiablo Jun 16 at 4:02
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The number 5.555 cannot be represented as an exact number in IEEE754. Printing out the constant 5.555 with "%.50f" results in:

5.55499999999999971578290569595992565155029300000000

so it will be rounded down. Try using this instead:

printf ("%.2f\n",x+0.0005);

although you need to be careful of numbers that can be represented exactly, since they'll be rounded up wrongly by this expression.

You need to understand the limitations of floating point representations. If it's important that you get accuracy, you can use (or code) a BCD or other decimal class that doesn't have the shortcoming of IEEE754 representation.

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vote up -2 vote down

You could also do this (saves multiply/divide):

printf("%.2f\n", coef[i] + 0.00049999);
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This will round 5.549999 to 5.56 ;-) – ypnos Jun 15 at 7:06
@ypnos, you really need to check things before you post - it does NOT give you 5.56 at all. – paxdiablo Jun 15 at 7:26
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Sorry misconception. You should still see my point. 5.544999 + 0.0005 is rounded to 5.55. It should be clearly rounded to 5.54. Doesn't take rocket science to realize that adding a bias will not mysterically fix a rounding problem without introducing new ones. – ypnos Jun 15 at 10:23
One of the few answers I'll downvote. This is completely wrong. – John Dibling Jun 15 at 18:10
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This question is tagged C++, so I'll proceed under that assumption. Note that the C++ streams will round, unlike the C printf family. All you have to do is provide the precision you want and the streams library will round for you. I'm just throwing that out there in case you don't already have a reason not to use streams.

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vote up 1 vote down

How about this for another possible solution:

printf("%.2f", _nextafter(n, n*2));

The idea is to increase the number away from zero (the n*2 gets the sign right) by the smallest possible amount representable by floating point math.

Eg:

double n=5.555;
printf("%.2f\n", n);
printf("%.2f\n", _nextafter(n, n*2));
printf("%.20f\n", n);
printf("%.20f\n", _nextafter(n, n*2));

With MSVC yields:

5.55
5.56
5.55499999999999970000
5.55500000000000060000
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