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I'm writing a program that consists of a while loop that reads two doubles and prints them. The program also prints what the larger number is and what the smaller number is.

this is the code i have so far.

int main()

                                    // VARIABLE DECLARATIONS 

    double a;
    double b;

    while (a,b != '|')              //WHILE A & B DO NOT EQUAL '|'
        cin >>a >>b;
        cout << a << b << "\n" ;

        if (a<b)                    //IF A<B: SMALLER VALUE IS A
        cout << "The smaller value is:" << a << endl 
             << "The larger value is:" << b << endl ;

        else if (b<a)               //ELSE IF B<A 
            cout << "The smaller value is:" << b << endl 
                 << "The larger value is:" << a << endl ;
        else if (b==a)
            cout << "The two numbers you entered are equal." << "\n" ;


The next step is having the program write out "the numbers are almost equal" if the two numbers differ by less than 1.0/10000000. How would I do this?

share|improve this question
Smells homework, so please add the tag homework if that's the case. – Johann Gerell Oct 24 '10 at 20:20
Funny how far that smell can travel... – Michael Goldshteyn Oct 24 '10 at 20:30
@user484955: Do you really know what while (a,b != '|') means ? – Kiril Kirov Oct 24 '10 at 20:34
You need to do while (a != '|' && b != '|'). What you have uses the comma operator, which evaluates a, then evaluates b != '|', resulting in b != '|'. In other words, you have while (b != '|'), discarding a. Now, why you're comparing it to that, I still don't know. – GManNickG Oct 24 '10 at 21:05
@Capkutay: But if the user enters '|', the operator>>(std::istream&, double&) will fail, because | is not a valid double. You have to read a string, and convert to a double, instead. – Billy ONeal Oct 24 '10 at 23:37

Here is how I would test for equality, without a "fudge factor":

if (
    // Test 1: Very cheap, but can result in false negatives
    a==b || 
    // Test 2: More expensive, but comprehensive
  std::cout << "The numbers are equal\n";


The first test is a simple comparison. Of course we all know that comparing double precision values can result in them being deemed unequal, even when they are logically equivalent.

A double precision floating point value can hold the most significant fifteen digits of a number (actually ≈15.955 digits). Therefore, we want to call two values equal if (approximately) their first fifteen digits match. To phrase this another way, we want to call them equal if they are within one scaled epsilon of each other. This is exactly what the second test computes.

You can choose to add more leeway than a single scaled epsilon, due to more significant floating point errors creeping in as a result of iterative computation. To do this, add an error factor to the right hand side of the second test's comparison:

double error_factor=2.0;

if (a==b ||         
  std::cout << "The numbers are equal\n";

I cannot give you a fixed value for the error_factor, since it will depend on the amount of error that creeps into your computations. However, with some testing you should be able to find a reasonable value that suits your application. Do keep in mind that adding an (arbitrary) error factor based on speculation alone will put you right back into fudge factor territory.


You can wrap the following test into a(n inline) function:

inline bool logically_equal(double a, double b, double error_factor=1.0)
  return a==b || 
share|improve this answer
+1 for use of std::numeric_limits – Billy ONeal Oct 24 '10 at 20:27
I think you need to replace the "/1.e-15" to "/1.e15" otherwise the RHS of the comparison is huge. – regomodo Jan 14 '13 at 14:36
@regomodo, good catch! – Michael Goldshteyn Jan 14 '13 at 19:19
@MichaelGoldshteyn: can you please explain what's the reasoning behind std::abs(a-b)<std::min(a,b)/1.e15? – Mihai Bişog Feb 25 '13 at 17:26
@Mihai, it has to do with the maximum number of whole digits that a double can represent, namely fifteen. So, if the absolute value of the result of subtraction has less than the smallest value that a subtraction can produce due to imprecise representation, call the original numbers not equal. – Michael Goldshteyn Feb 25 '13 at 21:35

std::abs(a - b) < 0.000001

Of course, replace the constant with whatever you consider "almost".

share|improve this answer
@Peter: Fixed. Thanks. – Billy ONeal Oct 24 '10 at 20:22
Also, note that the "error" will scale up with the size of a and b. – Fredrik Oct 24 '10 at 20:23
@Fredrik: True, but the OP specified "two numbers differ by less than SOMECONSTANT". Of course, you could cobble together something checking if the exponents on the values were the same, and then using a similar constant on the mantissas only. – Billy ONeal Oct 24 '10 at 20:25
@Billy ONeil: Yes, I just wanted to add it as an extra piece of information. I see way too much code written by people without basic understanding of why the "less than 1e-10" is not always working to keep quiet about it :-). I didn't expect you to alter your answer, I just thought it was overkill to write a more complete one myself. Comparisons is just one side of the problem, you will see another side when adding, multiplying etc as well. Maybe incorrectly, I assumed the OP didn't have that knowledge/experience yet. – Fredrik Oct 24 '10 at 20:37
This answer is also wrong for very small a and b... – Michael Goldshteyn Oct 24 '10 at 20:39

Just test if they differ by less than that amount :)

if ( std::abs(a - b) < 1.0 / 10000000 )
  cout << "The numbers are almost equal.\n";
share|improve this answer
+1 because I forgot about the abs part. – Billy ONeal Oct 24 '10 at 20:22
I tried this but I'm getting an error that reads "Call of overloaded 'abs(double)' is ambiguous" – Capkutay Oct 24 '10 at 20:45
Capkutay: Did you #include <cmath> ? That's required for std::abs to work. It's also possible you've got a using namespace std; somewhere, which is bad practice, and could cause a conflict between std::abs and abs in the global namespace. (abs is allowed, but not required, to be put in the global namespace, because it is inherited from C) Fix that by removing the using namespace std; and qualifying your calls to the standard library as appropriate. – Billy ONeal Oct 24 '10 at 23:39
if (a * 1.0000001 > b  &&  a < b*1.0000001)

You can add an error value (your 1.0 / 10000000.0 ) but it is generally better to use a multiplier, so the comparison is to the same level of accuracy.

share|improve this answer
The other answers are going for the absolute error value. This might even be quicker, but is only accurate when you know the order of magnitude of the two values. – winwaed Oct 24 '10 at 20:23

If you want the test to scale with a and b, you could try testing abs(a/b-1) < e, where e is your favorite tiny number, like 0.001. But this condition is actually asymmetrical in a and b, so it can work out to say a is close to b, but b is not close to a. That would be bad. It's better to do abs(log(a/b)) < e, where e, again, is your favorite tiny number. But the logarithms present extra computation, not to mention terrifying undergraduates everywhere.

share|improve this answer
1. "favorite tiny number` should probably be std::numeric_limits<double>::epsilon(), 2. Log is probably not the best way to handle this anyway. If you want a comparison similar to this, you should be checking the sign and exponent for equality and then compare the significands allowing for some error value. (Use frexp to do that -- it should perform much better than log or log10) – Billy ONeal Oct 24 '10 at 23:44
One of the better answers in that it compares by relative to a and b, however it is better to multiply than divide. For one b might be zero. abs(a-b) < abs(epsilon*b) (or epsilon*(a+b)/2 for symmetry) – CashCow Aug 6 '14 at 11:31

I suggest the following article: new link
(obsolete link->Comparing floating point numbers)

share|improve this answer
abs(a - b) < 1.0 / 10000000
share|improve this answer

I'm also reading the book, since we didn't get to std::abs, i did something like that:

int main()
double i1,i2;
while(cin>> i1 >> i2){

if (i1<i2) {
        if ((i2-i1)<=0.0000001)  cout << "Almost equal!"<<endl;
        else  cout << "the smaller value is: "<< i1 <<  " the larger value is: " << i2 <<endl;
if (i1>i2) {
        if ((i1-i2)<=0.0000001)  cout << "Almost equal!"<<endl;
        else  cout << "the smaller value is: "<< i2 <<  " the larger value is: " << i1 <<endl;

else if (i1==i2) cout << "the value : "<< i1 <<  " And the value : " << i2 << "  are equal!"<<endl;

share|improve this answer

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