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I have a double value which I have to display at my UI. Now the condition is that the decimal value of double = 0 eg. - 14.0 In that case I have to show only 14 on my UI. Also, the max limit for characters is 5 here.

eg.- 12.34 the integer value can be no bigger than 2 digits and so is the decimal value for our double.

What could be the best way of doing this?

marked as duplicate by Makoto java May 31 '14 at 23:53

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up vote 149 down vote accepted

You could simply do this: d % 1 == 0 to see if some double d is whole.

  • 4
    this Double.MIN_VALUE % 1 == 0 gives false – Evgeniy Dorofeev Apr 12 '13 at 6:03
  • 8
    @Evgeniy After all, Double.MIN_VALUE isn't whole. – Lone nebula Apr 12 '13 at 6:06
  • 1
    +1 you are rigth – Evgeniy Dorofeev Apr 12 '13 at 6:30
double d = 14.4;
    System.out.println("decimal value is there");
    System.out.println("decimal value is not there");
  • 1
    You should probably use != rather than >, since it will return false for negative values d. – Lone nebula Apr 12 '13 at 5:59
  • it does not work with -11111111111111.1; – Evgeniy Dorofeev Apr 12 '13 at 6:05
  • ohh yes, I have updated my code. Thanks :) – Subhrajyoti Majumder Apr 12 '13 at 6:05

All Integers are modulo of 1. So below check must give you the answer.

if(d % 1 == 0)

either ceil and floor should give the same out out put

Math.ceil(x.y) == Math.floor(x.y)

or simply check for equality with double value

x.y == Math.ceil(x.y)
x.y == Math.floor(x.y)


Math.round(x.y) == x.y
  • 1
    What about Math.round(x) == x where x a double typed expression. – Valentin Ruano Jan 21 '16 at 20:19

Compare two values: the normal double, and the double after flooring it. If they are the same value, there is no decimal component.

Use number formatter to format the value, as required. Please check this.

You probably want to round the double to 5 decimals or so before comparing since a double can contain very small decimal parts if you have done some calculations with it.

double d = 10.0;
d /= 3.0; // d should be something like 3.3333333333333333333333...
d *= 3.0; // d is probably something like 9.9999999999999999999999...

// d should be 10.0 again but it is not, so you have to use rounding before comparing

d = myRound(d, 5); // d is something like 10.00000
if (fmod(d, 1.0) == 0)
  // No decimals
  // Decimals

If you are using C++ i don't think there is a round-function, so you have to implement it yourself like in:

Interesting little problem. It is a bit tricky, since real numbers, not always represent exact integers, even if they are meant to, so it's important to allow a tolerance.

For instance tolerance could be 1E-6, in the unit tests, I kept a rather coarse tolerance to have shorter numbers.

None of the answers that I can read now works in this way, so here is my solution:

public boolean isInteger(double n, double tolerance) {
    double absN = Math.abs(n);
    return Math.abs(absN - Math.round(absN)) <= tolerance;

And the unit test, to make sure it works:

public void checkIsInteger() {
    final double TOLERANCE = 1E-2;
    assertThat(solver.isInteger(1, TOLERANCE), is(true));

    assertThat(solver.isInteger(0.999, TOLERANCE), is(true));
    assertThat(solver.isInteger(0.9, TOLERANCE), is(false));

    assertThat(solver.isInteger(1.001, TOLERANCE), is(true));
    assertThat(solver.isInteger(1.1, TOLERANCE), is(false));

    assertThat(solver.isInteger(-1, TOLERANCE), is(true));

    assertThat(solver.isInteger(-0.999, TOLERANCE), is(true));
    assertThat(solver.isInteger(-0.9, TOLERANCE), is(false));

    assertThat(solver.isInteger(-1.001, TOLERANCE), is(true));        
    assertThat(solver.isInteger(-1.1, TOLERANCE), is(false));

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