This interface imposes a total ordering on the objects of each class that
implements it. This ordering is referred to as the class's natural
ordering, and the class's compareTo method is referred to as
its natural comparison method.
Lists (and arrays) of objects that implement this interface can be sorted
automatically by Collections.sort (and Arrays.sort).
Objects that implement this interface can be used as keys in a sorted map
or elements in a sorted set, without the need to specify a comparator.
A class's natural ordering is said to be consistent with equals if
and only if (e1.compareTo((Object)e2)==0) has the same boolean
value as e1.equals((Object)e2) for every e1 and
e2 of class C.
It is strongly recommended (though not required) that natural orderings be
consistent with equals. This is so because sorted sets (and sorted maps)
without explicit comparators behave "strangely" when they are used with
elements (or keys) whose natural ordering is inconsistent with equals. In
particular, such a sorted set (or sorted map) violates the general contract
for set (or map), which is defined in terms of the equals
operation.
For example, if one adds two keys a and b such that
(a.equals((Object)b) && a.compareTo((Object)b) != 0) to a sorted
set that does not use an explicit comparator, the second add
operation returns false (and the size of the sorted set does not increase)
because a and b are equivalent from the sorted set's
perspective.
Virtually all Java core classes that implement comparable have natural
orderings that are consistent with equals. One exception is
java.math.BigDecimal, whose natural ordering equates
BigDecimals with equal values and different precisions (such as
4.0 and 4.00).
For the mathematically inclined, the relation that defines
the natural ordering on a given class C is:
{(x, y) such that x.compareTo((Object)y) <= 0}.
The quotient for this total order is:
{(x, y) such that x.compareTo((Object)y) == 0}.
It follows immediately from the contract for compareTo that the
quotient is an equivalence relation on C, and that the
natural ordering is a total order on C. When we say that a
class's natural ordering is consistent with equals, we mean that the
quotient for the natural ordering is the equivalence relation defined by
the class's equals(Object) method:
Compares this object with the specified object for order. Returns a
negative integer, zero, or a positive integer as this object is less
than, equal to, or greater than the specified object.
The implementor must ensure sgn(x.compareTo(y)) ==
-sgn(y.compareTo(x)) for all x and y. (This
implies that x.compareTo(y) must throw an exception iff
y.compareTo(x) throws an exception.)
The implementor must also ensure that the relation is transitive:
(x.compareTo(y)>0 && y.compareTo(z)>0) implies
x.compareTo(z)>0.
Finally, the implementer must ensure that x.compareTo(y)==0
implies that sgn(x.compareTo(z)) == sgn(y.compareTo(z)), for
all z.
It is strongly recommended, but not strictly required that
(x.compareTo(y)==0) == (x.equals(y)). Generally speaking, any
class that implements the Comparable interface and violates
this condition should clearly indicate this fact. The recommended
language is "Note: this class has a natural ordering that is
inconsistent with equals."
Parameters:
o - the Object to be compared.
Returns:
a negative integer, zero, or a positive integer as this object
is less than, equal to, or greater than the specified object.
Throws:
ClassCastException - if the specified object's type prevents it
from being compared to this Object.
Submit a bug or feature For further API reference and developer documentation, see Java 2 SDK SE Developer Documentation. That documentation contains more detailed, developer-targeted descriptions, with conceptual overviews, definitions of terms, workarounds, and working code examples.
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