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In my previous question Comparing a double and int, without casting or conversion, I found out how the the difference between two doubles was tripping the comparison.

I came accross the method setprecision(), which will help display all the numbers after decimal.

So, the difference of 6.15 and 3.15 was found to be : 3.00000000000000044408920985006

Now, when it gets compared with 3, it returns a result saying it is greater than 3.

How do I force it to take only a limited number of digits?

When I used 6.1 and 3.1, the difference was : 2.99999999999999955591079014994

How should I make the precision so that we know that it is actually equal to 3, and not less than.

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4 Answers

up vote 4 down vote accepted

Hopefully you should be knowing that floating/double cannot be exactly represented in binary and truncation happens because of the recurring decimal. Your comparison with a float/double with an integer will always fail.

Even your using setprecision will not work because its a method of iomanip to set the precision of the display and not the value being stored.

The portable way of comparing doubles is not to use the '==' operator but to do something like

bool Compare(double a,double b) {
    std::fabs(a - b) < std::numeric_limits<double>::epsilon();
}

You can use this to compare double with float and or integer. You can also write a similar compare function for float

bool Compare(float a,float b) {
    std::fabs(a - b) < std::numeric_limits<float>::epsilon();
}
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The epsilon values are only appropriate if the values you're comparing are close to 1.0. –  Mark Ransom May 2 '12 at 19:43
    
I think it should be abs(a-b) <= epsilon. instead of < –  schwiz Nov 7 '12 at 19:37
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In a comment on your other question, you were already pointed towards this great paper on floating-point numbers. It's well worth a read.

With reference to your particular question, a standard way is to define a tolerance with which comparison between doubles is to be made. For example if you have two doubles a and b, and wish to determine whether a is larger than b within a tolerance of eps (another double), you might do something like:

if (a - b > eps) {
  // a is greater than b
} else {
  // a is not greater than b
}

Alternatively, if you want to know that a is equal to b within the tolerance specified by eps, you might do something of this sort:

if (std::abs(a - b) <= eps) {
  // a and b are equal within the set tolerance
} else {
  // a and b are not equal within the set tolerance
}

As pointed out by others, C++ comes with some helpful functions out of the box for performing these sorts of comparisons. Look at std::abs, std::numeric_limits, and this nice post on SO.

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You have to be careful defining the tolerance eps though. You might want to use relative error instead. –  eli May 2 '12 at 20:19
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setprecision lets you select how many digits you spit out to a stream. It does not decide the number of digits to be considered. For rounding purposes use one of the rounding functions from <cmath>.

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Here's a comparison function that determines if two numbers are within one LSB of each other.

bool Compare(double a, double b)
{
    return (a <= std::nextafter(b, abs(1.1*b))) && (b <= std::nextafter(a, abs(1.1*a)));
}

std::nextafter is new to C++11, but versions are available in earlier compilers. See Generate next largest or smallest representable floating point number without bit twiddling

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