This question already has an answer here:

Look at this code:

#include <cmath>
#include <iostream>
using namespace std;
class Sphere
    double r;
    double V() const { return (4/3) * 3.14 * pow(r,3); }
    bool equal(const Sphere& s) const
        cout  << V() << " == " << s.V() << " : " << ( V() == s.V() );
        return ( V() == s.V() );


    explicit Sphere(double rr = 1): r(rr){}

    Sphere s(3);

The output is 84.78 == 84.78 : 0 which means the same method doesn't return the same value every time, even though all parameters are static?

But if I write 3.0 instead of 3.14 in the V() method definition, like this:

double V() const { return (4/3) * 3.0 * pow(r,3); }

Then, the output is: 84.78 == 84.78 : 1

What is going on here? I need this method, for my program, which will compare volumes of two objects, but it is impossible? I banged my head for so long to figure out what is the cause of the problem and luckily I found it, but now I don't understand why?? Does it have something to do with the compiler (GCC) or am I missing something important here?

marked as duplicate by Mooing Duck c++ Jul 10 '14 at 0:54

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

  • 2
    you simply don't test floating point number for equality like that. – yngccc Sep 24 '13 at 1:32
  • @yngum why? how should I? – tuks Sep 24 '13 at 1:36
  • 1
    Usually it's a bad idea to test floating point values for equality, since small rounding errors can give unexpected results. But, as you say, this does the same calculation twice with the same input, so the test should pass. It does with at least one version of GCC: ideone.com/FPjRVN. What version and platform are you using? – Mike Seymour Sep 24 '13 at 1:37
  • 1
    @tuks: Your professor might not have said anything, but another said rather a lot: cl.cam.ac.uk/teaching/1011/FPComp/floatingmath.pdf – Mike Seymour Sep 24 '13 at 1:46
  • 1
    @AdamBurry yeah I see... it's because of (4/3), it should be (4.0/3) – tuks Sep 24 '13 at 11:14

Comparing floating point values using the == operator is very error prone; two values that should be equal may not be due to arithmetic rounding errors. The common way to compare these is to use an epsilon:

bool double_equals(double a, double b, double epsilon = 0.001)
    return std::abs(a - b) < epsilon;
  • 1
    See for more detailed discussion: cygnus-software.com/papers/comparingfloats/… – Adam Burry Sep 24 '13 at 13:45
  • 2
    No. "Almost equals" is an advanced technique; it should not be used by beginners. One serious problem that it has it that a almost equals b and b almost equals c does not imply that a almost equals c. – Pete Becker Sep 24 '13 at 13:53
  • 2
    @PeteBecker Floating point arithmetics are not trivial, there is no "beginner's way" of doing this. – nijansen Sep 24 '13 at 14:02
  • @nijansen - true; but "almost equals" is almost always not the right solution. – Pete Becker Sep 24 '13 at 14:03
  • 1
    I wouldn't expect double_equals (1e-6, -1e-5) to return "true". – gnasher729 Jul 10 '14 at 0:42

There are two problems with floating point comparisons:

(1) Floating point operations usually involve at least tiny rounding errors which are hard to predict. Therefore two floating point operations that should mathematically give the same result (like 4.7 * (1.0 / 3.14) vs. 4.7 / 3.14) may give different results.

(2) The compiler is allowed to do floating point operations sometimes with higher precision than necessary. It is also allowed to do the exact same floating point operations with just the precision that was necessary at other times. Therefore the exact same operation may produce slightly different results, which is what you see here.

To solve the OP's problem, this looks like it is caused by (2). I'd try to find if there are any compiler options that can prevent the compiler from using higher precision than needed.

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