What issues / pitfalls must be considered when overriding
locked by Robert Harvey♦ Aug 11 '14 at 17:51
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The theory (for the language lawyers and the mathematically inclined):
The relation between the two methods is:
If you override one, then you should override the other.
Use the same set of fields that you use to compute
When using a hash-based Collection or Map such as HashSet, LinkedHashSet, HashMap, Hashtable, or WeakHashMap, make sure that the hashCode() of the key objects that you put into the collection never changes while the object is in the collection. The bulletproof way to ensure this is to make your keys immutable, which has also other benefits.
There are some issues worth noticing if you're dealing with classes that are persisted using an Object-Relationship Mapper (ORM) like Hibernate, if you didn't think this was unreasonably complicated already!
Lazy loaded objects are subclasses
If your objects are persisted using an ORM, in many cases you will be dealing with dynamic proxies to avoid loading object too early from the data store. These proxies are implemented as subclasses of your own class. This means that
If you're dealing with an ORM, using
Lazy loaded objects have null-fields
ORMs usually use the getters to force loading of lazy loaded objects. This means that
If you're dealing with an ORM, make sure to always use getters, and never field references in
Saving an object will change its state
Persistent objects often use a
A pattern I often use is
But: you cannot include
A clarification about the
This statement is the result of
Consider the following example of what happens when the statement is omitted:
This looks all very good, but look what happens if we try to use both classes:
Obviously, this is wrong.
If you want to ensure the symmetric condition. a=b if b=a and the Liskov substitution principle call
Which will output:
There are two methods in super class as java.lang.Object. We need to override them to custom object.
Equal objects must produce the same hash code as long as they are equal, however unequal objects need not produce distinct hash codes.
If you want get more, please check this link as http://www.javaranch.com/journal/2002/10/equalhash.html
This is another example, http://java67.blogspot.com/2013/04/example-of-overriding-equals-hashcode-compareTo-java-method.html
Have Fun! @.@
Still amazed that none recommended the guava library for this.
equals() method is used to determine the equality of two objects.
as int value of 10 is always equal to 10. But this equals() method is about equality of two objects. When we say object, it will have properties. To decide about equality those properties are considered. It is not necessary that all properties must be taken into account to determine the equality and with respect to the class definition and context it can be decided. Then the equals() method can be overridden.
we should always override hashCode() method whenever we override equals() method. If not, what will happen? If we use hashtables in our application, it will not behave as expected. As the hashCode is used in determining the equality of values stored, it will not return the right corresponding value for a key.
Default implementation given is hashCode() method in Object class uses the internal address of the object and converts it into integer and returns it.
Example Code Output:
Logically we have:
But not vice-versa!
For an inheritance-friendly implementation, check out Tal Cohen's solution, How Do I Correctly Implement the equals() Method?
In his book Effective Java Programming Language Guide (Addison-Wesley, 2001), Joshua Bloch claims that "There is simply no way to extend an instantiable class and add an aspect while preserving the equals contract." Tal disagrees.
His solution is to implement equals() by calling another nonsymmetric blindlyEquals() both ways. blindlyEquals() is overridden by subclasses, equals() is inherited, and never overridden.
Note that equals() must work across inheritance hierarchies if the Liskov Substitution Principle is to be satisfied.
For equals, look into Secrets of Equals by Angelika Langer. I love it very much. She's also a great FAQ about Generics in Java. View her other articles here (scroll down to "Core Java"), where she also goes on with Part-2 and "mixed type comparison". Have fun reading them!
One gotcha I have found is where two objects contain references to each other (one example being a parent/child relationship with a convenience method on the parent to get all children).
If you include both ends of the relationship in your hashCode or equals tests it's possible to get into a recursive loop which ends in a StackOverflowException.
There are a couple of ways to do your check for class equality before checking member equality, and I think both are useful in the right circumstances.
I use #1 in a
Option #2 allows the class to be safely extended without overriding equals or breaking symmetry.
If your class is also
protected by Pshemo Jan 12 '14 at 19:30
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