Computation of Conditional Coverage in Cobertura

I have 2 pieces of code that are giving me trouble. I test them with Unit-Tests, using cobertura to analyze the test coverage, and I don't understand how the conditional coverage is computed. This is the first piece:

``````if ((x.getInt() == a)
|| (x.getInt() == y.getInt()) { ...
``````

Cobertura reports me that 4 cases need to be covered, which seems fine when assumed that short-circuiting is ignored.

Then, in another method I have another (longer) conditional:

``````if ((x == null)
|| ObjectUtils.equals(x.getInt(), a)
|| ObjectUtils.equals(x.getInt(), y.getInt())) {
...
``````

Here comes the part I don't understand: Cobertura reports that 5/6 cases are covered. I would have expected 8 cases, I could explain 5 cases (considering the x == null), but

how does cobertura handle conditional coverage in these cases, and why does that lead to 6 cases?

• You're thinking of full path coverage and/or branch coverage. For conditional coverage, each boolean expression needs to be evaluated to true and false (two different test cases). If you have three boolean expressions, then you have 6 cases. It's explained well in the wikipedia article on code coverage. Commented Jul 1, 2014 at 2:41

Coverage is not measured by testing all possible combinations of boolean flag states, but only those combinations which are sufficient to cover all use cases.

Consider the following class:

``````public class MyClass {

public boolean allOr(boolean x, boolean y) {
return x || y;
}

public boolean allOr(boolean x, boolean y, boolean z) {
return x || y || z;
}

public boolean allOr(boolean w, boolean x, boolean y, boolean z) {
return w || x || y || z;
}

public boolean allAnd(boolean x, boolean y) {
return x && y;
}

public boolean allAnd(boolean x, boolean y, boolean z) {
return x && y && z;
}

public boolean andOr(boolean x, boolean y, boolean z) {
return x && y || z;
}

public boolean orAnd(boolean x, boolean y, boolean z) {
return (x || y) && z;
}

}
``````

The tests which provide complete coverage are as follows:

``````public class MyClassTest {

@Test
public void testAllOr2() {
MyClass instance = new MyClass();
// For OR clause, test that all false returns false
assertFalse(instance.allOr(false, false));
// For OR clause, test that any one true returns true
assertTrue(instance.allOr(false, true));
assertTrue(instance.allOr(true, false));
}

@Test
public void testAllOr3() {
MyClass instance = new MyClass();
// For OR clause, test that all false returns false
assertFalse(instance.allOr(false, false, false));
// For OR clause, test that any one true returns true
assertTrue(instance.allOr(false, false, true));
assertTrue(instance.allOr(false, true, false));
assertTrue(instance.allOr(true, false, false));

// These do not add to coverage
// assertTrue(instance.allOr(false, true, true));
// assertTrue(instance.allOr(true, false, true));
// assertTrue(instance.allOr(true, true, false));
// assertTrue(instance.allOr(true, true, true));
}

@Test
public void testAllOr4() {
MyClass instance = new MyClass();
// For OR clause, test that all false returns false
assertFalse(instance.allOr(false, false, false, false));
// For OR clause, test that any one true returns true
assertTrue(instance.allOr(false, false, false, true));
assertTrue(instance.allOr(false, false, true, false));
assertTrue(instance.allOr(false, true, false, false));
assertTrue(instance.allOr(true, false, false, false));
}

@Test
public void testAllAnd2() {
MyClass instance = new MyClass();
// For AND clause, test that all true returns true
assertTrue(instance.allAnd(true, true));
// For AND clause, test that any one false returns false
assertFalse(instance.allAnd(true, false));
assertFalse(instance.allAnd(false, true));
}

@Test
public void testAllAnd3() {
MyClass instance = new MyClass();
// For AND clause, test that all true returns true
assertTrue(instance.allAnd(true, true, true));
// For AND clause, test that any one false returns false
assertFalse(instance.allAnd(false, true, true));
assertFalse(instance.allAnd(true, false, true));
assertFalse(instance.allAnd(true, true, false));
}

@Test
public void testAndOr() {
MyClass instance = new MyClass();
// Since AND takes precedence,
// OR is the external operator, AND is the internal operator
// For the AND clause, false can be achieved in two ways
// Compare to testAllAnd2 # 2, 3
assertFalse(instance.andOr(true, false, false));
assertFalse(instance.andOr(false, true, false));
// This completes the first test case for the external operator
// Compare to testAllOr2 # 1

// Now irrespective of the arguments
// as long as the value returned by the internal operation is false
// we can perform the testAllOr2 # 2
assertTrue(instance.andOr(true, false, true));
// We do not need the case for false, true, true
// because we have tested that no matter what the first two args are
// it does not make a difference as long as one of them is false

// However, if both args are true
// the value returned by the internal operation is true
// we can perform the testAllOr2 # 3
// This is only possible in one way
// Compare testAllAnd2 # 1
assertTrue(instance.andOr(true, true, false));
}

@Test
public void testOrAnd() {
MyClass instance = new MyClass();
// Since OR takes precedence,
// AND is the external operator, OR is the internal operator
// For the OR clause, true can be achieved in two ways
// Compare to testAllOr2 # 2, 3
assertTrue(instance.orAnd(false, true, true));
assertTrue(instance.orAnd(true, false, true));
// This completes the first test case for the external operator
// Compare to testAllAnd2 # 1

// Now irrespective of the arguments
// as long as the value returned by the internal operation is true
// we can perform the testAllAnd2 # 2
assertFalse(instance.orAnd(false, true, false));
// We do not need the case for true, false, false
// because we have tested that no matter what the first two args are
// it does not make a difference as long as one of them is true

// However, if both args are false
// the value returned by the internal operation is false
// we can perform the testAllAnd2 # 3
// This is only possible in one way
// Compare testAllOr2 # 1
assertFalse(instance.orAnd(false, false, true));
}

}
``````