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I'm new to the programming world and C++ is already losing me. I had these lines in my program

pennies=(amount-nickels*.05)/.01;

amount is a double, while and nickels are int.

The program returns the right value when pennies is a double but things are a little off (off by 1 most of the time) whenever pennies is an int.

Why is this happening?

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  • 3
    floating-point-gui.de
    – user529758
    Aug 6, 2013 at 7:42
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    When you store the result in pennies, the value get's truncated instead of rounded. Try int pennies = 1.9; std::cout << pennies; to see for yourself.
    – jrok
    Aug 6, 2013 at 7:43
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    I'm sure people can help with an issue like this, but in the future you should include example data so that we know what you mean by "off" (for example "When amount is 10 and nickels is 5 I expect the result to be 12 but it is 13.")
    – JJJ
    Aug 6, 2013 at 7:44
  • I'd recommend representing money as integer numbers of pennies to avoid rounding errors and numerical imprecision, at least to start with. Leave tackling those hard problems until you need sub-penny amounts :)
    – Ben Hymers
    Aug 6, 2013 at 7:57
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    Oh, also it's not just a C++ problem; this is the kind of problem you'll face with floating point numbers in any language.
    – Ben Hymers
    Aug 6, 2013 at 7:58

4 Answers 4

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This is happening because the value is truncated thus losing the decimal precision.

For integers:

int i;
i = 1.1  //stores 1 in i
i = 1.2  //stores 1 in i
i = 1.3  //stores 1 in i
i = 1.4  //stores 1 in i
i = 1.5  //stores 1 in i
i = 1.6  //stores 1 in i
i = 1.7  //stores 1 in i
i = 1.8  //stores 1 in i
i = 1.9  //stores 1 in i
i = 1.999999 //stores 1 in i

I would suggest you to change your expression to:

pennies=amount*100-nickels*5;
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    No, this is happening because the value isn't rounded. As jrok mentioned in the comments on the question, the value gets truncated.
    – user743382
    Aug 6, 2013 at 7:45
  • It could also be because of numerical imprecision in the intermediate calculations, not just rounding of the final result.
    – Ben Hymers
    Aug 6, 2013 at 7:57
  • @BenHymers It could be because amount and nickels are already imprecise, although I would imagine (hope) that nickels has an integral value, which can be represented exactly (assuming the number of nickels is less than around 9e15---probably a safe assumption, since that many nickels would weigh something like 45 billion tons, making it unlikely that anyone would be carrying them around in their pocket). Aug 6, 2013 at 9:15
  • Well now you're just being silly :) (also nickels is an int)
    – Ben Hymers
    Aug 6, 2013 at 9:38
3

As others have pointed out, the problem is because 0.1 and 0.05 don't have an exact representations in machine floating point. The simplest solution here is to simply round the results, instead of truncating:

pennies = round( (amount - nickels * 0.05) / 0.01 );

A better solution in this particular case (where you are dealing with coins) is simply to use integers everywhere, and do everything in terms of cents, rather than dollars. This stops working (or requires some very complex programming) very quickly however: even things like calculating VAT or sales tax cause problems. For such cases, there are two possible solutions:

  • Continue using double, rounding as necessary. This is the simplest and most general solution. Be aware, however, that when using it, rounding is done on binary values, and it may in some cases differ from what you would get with rounding decimal values. The difference should be small enough that it won't matter for every day use, but most countries have laws specifying how such values must be rounded, and those rounding rules are always specified in decimal. Which means that this solution cannot be used in cases where legal requirements hold (e.g calculating sales tax, corporate bookkeeping, etc.).

  • Use some sort of decimal class. There are a number available on the network. This will result in slower execution times. (Typically, who cares. You'll get the results in 100 microseconds, rather than 10. But there are exceptions; e.g. when doing Monte Carlo simulations.)

Also, you must be aware when large values are involved. For your personal finances, it's almost certainly irrelevant, but int does have a maximum value, and there is a point where double can no longer represent integer values correctly.

Of course, if this is just an exercise to help in learning C++, just use round or integers, and don't worry too much about the rest.

And as for your comment "C++ is already losing me": this has nothing to do with C++ per se. You'd encounter exactly the same issues in (almost) any programming language.

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You compute a float number on the right part of the expression, but then you try to store a double in an int value. When you do this, the fractional part is lost.

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                   pennies=(amount-nickels*.05)/.01; 

In the above expression, the numerator and denominator arithmetic occurs in double because of the variable amount(which is double)-Implicit Conversion happens here. At the end if pennies is double the computed result will get stored in pennies, if it is int, fractional part of the computed result will be lost. The intermediate compution will always happens in double, and it doesn't depends upon pennies type anyway.

Example

#include <stdio.h>

int main()
{

   int a ;

   double c,d=10.55555;

   a =  c=  (d+ 10*.5)/0.5 ;
   printf("%f : %d/n",c,a);
   return 0;
}

The output is:

31.111100 : 31

Here first 10 is promoted to float then 10*.5 will get evaluated, which will get promoted to double because of addition with a double value, then the denominator also converted to double as numerator is double, hence the compution occurs in double format only.

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