Java hashCode()
In the Java programming language, every class implicitly or explicitly provides a hashCode()
method, which digests the data stored in an instance of the class into a single hash value (a 32-bit signed integer). This hash is used by other code when storing or manipulating the instance – the values are intended to be evenly distributed for varied inputs in order to use in clustering. This property is important to the performance of hash tables and other data structures that store objects in groups ("buckets") based on their computed hash values. Technically, in Java, hashCode() by default is a native method, meaning, it has the modifier 'native', as it is implemented directly in the native code in the JVM.
hashCode() in general
All the classes inherit a basic hash scheme from the fundamental base class java.lang.Object, but instead many override this to provide a hash function that better handles their specific data. Classes which provide their own implementation must override the object method public int hashCode().
The general contract for overridden implementations of this method is that they behave in a way consistent with the same object's equals() method: that a given object must consistently report the same hash value (unless it is changed so that the new version is no longer considered "equal" to the old), and that two objects which equals() says are equal must report the same hash value. There's no requirement that hash values be consistent between different Java implementations, or even between different execution runs of the same program, and while two unequal objects having different hashes is very desirable, this is not mandatory (that is, the hash function implemented doesn't need to be a perfect hash).[1]
For example, the class Employee might implement its hash function by composing the hashes of its members:
public class Employee {
int employeeId;
String name;
Department dept;
// other methods would be in here
@Override
public int hashCode() {
int hash = 1;
hash = hash * 17 + employeeId;
hash = hash * 31 + name.hashCode();
hash = hash * 13 + (dept == null ? 0 : dept.hashCode());
return hash;
}
}
The java.lang.String hash function
In an attempt to provide a fast implementation, early versions of the Java String class provided a hashCode() implementation that considered at most 16 characters picked from the string. For some common data this worked very poorly, delivering unacceptably clustered results and consequently slow hashtable performance.[2]
From Java 1.2, java.lang.String class implements its hashCode() using a product sum algorithm over the entire text of the string.[2] An instance s
of the java.lang.String
class, for example, would have a hash code defined by
where terms are summed using Java 32-bit int
addition, denotes the th character of the string, and is the length of s
.[3]
[4]
References
- "Always override hashCode when you override equals" in Bloch, Joshua (2008), Effective Java (2nd ed.), Addison-Wesley, ISBN 978-0-321-35668-0
- ↑ java.lang.Object.hashCode() documentation, Java SE 1.5.0 documentation, Oracle Inc.
- 1 2 Suggested Fix by Bloch for Java 1.2, JDK-4045622, Oracle Inc.
- ↑ java.lang.String.hashCode() documentation, Java SE 1.5.0 documentation, Oracle Inc.
- ↑ Choice of hash function -> The String hash function", Data Structures course notes (2006), Peter M Williams, University of Sussex School of Information
External links
- "Java theory and practice: Hashing it out", Brian Goetz, IBM Developer Works article, 27 May 2003
- "How the String hash function works (and implications for other hash functions)", Neil Coffey, Javamex