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I have a quick question:

* Method a1
* @param p1 A parameter
* @param p2 A parameter
* @return The return value

    public double a1(double p1, double p2) {
    return (p1 + p2) / 2;

    public void testa1() {
    assertEquals(0, a1(32.56, 45.90), 0.0 );

keeps giving me a value very long 39.23000000000000004. How can I reduce the accuracy of this in the assert test bit?

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What programming language is this ? Please tag appropriately. –  Paul R Feb 8 '12 at 17:08
@Hamid R: Did any of the answers provide a solution? –  Michel Keijzers Feb 6 '13 at 12:41

2 Answers 2

The first argument is the expected value, the second is the actual value, and the third parameter to assertEquals is the acceptable delta. You can make it .01 or whatever you need.

So your statement should be something like

assertEquals(39.23, a1(32.56, 45.90), 0.1 );

doubles and floats will almost always not be the exact number you think they are. That is because with 32/64 bits, only so many exact numbers can be represented. There is always an infinite number of numbers that cannot be represented exactly. That's why you need the delta.

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I mostly define an AssertAlmostEqual together with a parameter that defines the accuracy (or default argument).

e.g. def AssertAlmostEquals(value1, value2, accuracy = 0.000001): assertEquals(abs(value1 - value2) < accuracy)

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