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As far as I know, Hashtable synchronizes each and every method in the Map interface, but the latter is like a wrapper class containing synchronized methods delegating calls to the actual HashMap (correct me if I am wrong).

I have two questions :

  1. What difference does it make to synchronize each and every method and to have a wrapper class ? What are the scenarios to choose Hashtable over the other ?

  2. What happens when we say Collections.synchronizedMap(Hashtable) ? Will the behaviour of the Hashtable be altered ?

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possible duplicate of Differences between HashMap and Hashtable? –  MK. Jan 16 '12 at 4:20
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This is not a duplicate of that question. This is comparing the synchronized wrapper over a HashMap (or HashTable) with a HashTable. –  user166390 Jan 16 '12 at 4:38
    
I'd be interested to know if there are differences in performance, which none of the current answers address. Calling methods of a Collections.synchronizedMap via a variable of type Map means there are 2 interface virtual calls before you get to the implementation, whereas with Hashtable, there is at most 1 virtual call, and you could declare your variable as type Hashtable directly, and do it with 0 virtual calls. But perhaps HashMap differs in other ways that make it faster overall. –  Boann Aug 17 '13 at 18:50
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5 Answers 5

up vote 7 down vote accepted

Here are the answers I've gotten from a bit of (hopefully correct) research:

  1. Both provide the same degree of synchronization. If you were to wrap HashTable through Collections.synchronized, you would have the same degree of synchronization, with a redundant layer of synchronization.

  2. The main difference between HashTable and Collections.synchronizedMap(HashMap) exist more at the API level. Because HashTable is part of Java's legacy code, you'll see that the HashTable API is enhanced to implement the Map interface, to become part of Java's collections framework. So, which means, HashTable has an extended API. This implies that if you were to wrap HashTable through Collections.synchronizedMap(), the API of the wrapped HashTable would become limited to the Map API. So if the API of HashTable is encompassed in your definition of behavior, then it is obviously altered/limited.

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One more difference that I can find at the implementation of both the classes is as follows:

• The Hashtable class has all its methods synchronized i.e. the locking is done at the method level and hence one can say that the mutex is always at the Hashtable object (this) level.

• The method Collections.synchronizedMap(Map) returns an instance of SynchronizedMap which is an inner class to the Collections class. This class has all its methods in a Synchronized block with a mutex. The difference lies in the mutex here. The inner class SynchronizedMap has two constructors, one which takes only Map as an argument and another which takes a Map and an Object (mutex) as an argument. By default if one uses the first constructor of passing only a Map, this is used as a mutex. Though, the developer is allowed to pass another object of mutex as a second argument by which the lock on the Map methods would be only on that Object and hence less restrictive than Hashtable.

• Hence, Hashtable uses method level synchronization but Collections.synchronizedMap(Map) provides a flexibility to developer lock on provided mutex with Synchronized block.

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The first associative collection class to appear in the Java class library was Hashtable, which was part of JDK 1.0. Hashtable provided an easy-to-use, thread-safe, associative map capability, and it was certainly convenient. However, the thread-safety came at a price -- all methods of Hashtable were synchronized. At that time, uncontended synchronization had a measurable performance cost. The successor to Hashtable, HashMap, which appeared as part of the Collections framework in JDK 1.2, addressed thread-safety by providing an unsynchronized base class and a synchronized wrapper, Collections.synchronizedMap. Separating the base functionality from the thread-safety Collections.synchronizedMap allowed users who needed synchronization to have it, but users who didn't need it didn't have to pay for it.

The simple approach to synchronization taken by both Hashtable and synchronizedMap -- synchronizing each method on the Hashtable or the synchronized Map wrapper object -- has two principal deficiencies. It is an impediment to scalability, because only one thread can access the hash table at a time. At the same time, it is insufficient to provide true thread safety, in that many common compound operations still require additional synchronization. While simple operations such as get() and put() can complete safely without additional synchronization, there are several common sequences of operations, such as iteration or put-if-absent, which still require external synchronization to avoid data races.

The following link is the source and has more information: Concurrent Collections Classes

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The difference is not all at the obvious API level and there are many subtleties at the implementation level. For example, Hashtable doesn't sport HashMap's advanced recalculation of supplied keys' hashcodes that reduces hash collisions. On the other hand, Hashtable#hashCode() avoids infinite recursion for self-referential hashtables to allow "certain 1.1-era applets with self-referential hash tables to work".

In general, though, one shouldn't count on Hashtable receiving any further improvements or refinements beyond basic correctness and backward compatibility. It is considered a relic from the deep Java past.

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At the risk of stating the obvious (or being plain wrong) isn't the difference that

The synchronization wrappers add automatic synchronization (thread-safety) to an arbitrary collection

http://docs.oracle.com/javase/tutorial/collections/implementations/wrapper.html and continues to say

A collection created in this fashion is every bit as thread-safe as a normally synchronized collection, such as a Vector.

You may like to see this thread for issues regarding HashMaps and concurrency - Hashmap concurrency issue (or you are possibly very much aware of them already). A good example is:

The conditions you describe will not be satisfied by HashMap. Since the process of updating a map is not atomic you may encounter the map in an invalid state. Multiple writes might leave it in a corrupted state. ConcurrentHashMap (1.5 or later) does what you want.

http://stackoverflow.com/a/1003071/201648

I guess in terms of "when should I use this" I would tend to use the syncronised collection where concurrency is required, otherwise you may be creating more work for yourself (see below).

In terms of altering the behavior

If an explicit iterator is used, the iterator method must be called from within the synchronized block. Failure to follow this advice may result in nondeterministic behavior

There are more consequences of using synchronization given at the (Oracle) link provided.

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