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I have a Java code which searches for values in the hash table in following way:

class HTDemo {
    public static void main(String args[]) {
        Hashtable balance = new Hashtable();
        double bal;
        balance.put("John Doe", new Double(3434.34));
        balance.put("Tom Smith", new Double(123.22));
        balance.put("Jane Baker", new Double(1378.00));
        balance.put("Todd Hall", new Double(99.22));
        balance.put("Ralph Smith", new Double(-19.08));

        **System.out.println("John Doe's balance: " + balance.get("John Doe"));**
        **System.out.println("Tom Smith's balance: " + balance.get("Tom Smith"));**
        **System.out.println("Jane Baker's balance: " + balance.get("Jane Baker"));**

Now, I want to run it on multiple thread i.e. I want to modify the code in such a way thus the get methods (inside **) works concurrently. Can anybody help me how to do that. Actually, I am facing issue with passing hash tables and making it concurrent while running.

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Is your question - "how to create new threads?" or "How to handle multithreaded access to shared data safely?" –  DNA Jul 29 '12 at 16:18
@DNA, second one. I want to know how to modify that code to handle it safely. –  Arpssss Jul 29 '12 at 16:19
Your question is not precise enough. If you populate the map in a thread, and then start threads that only read from the map, you don't need to do anything. If you access it in read-write and are only interested in single entries at once, since Hashtable is synchonized, you don't need to do anything. In other scenarios (like adding or getting two entries atomically, then you need special synchronization. Your question is too vague to be answered. –  JB Nizet Jul 29 '12 at 16:36

4 Answers 4

up vote 6 down vote accepted

Hashtable is synchronized and therefore already thread safe. You don't need anything else to access your code safely in a multi threaded environment.

However, HashTable is obsolete and its performance will be quite poor in a highly concurrent environment due to the thread-safety mechanism that is implemented (all methods are synchronized) and the provided iterators are not thread safe and will fail if you modify the table while iterating.

Bottom line: use a ConcurrentHashMap, and use generics if you can:

Map<String, Double> balance = new ConcurrentHashMap<String, Double> ();

The rest of your code should remain unchanged.

One thing you also need to keep in mind, is that even with a thread safe data structue (be it a HashTable or a ConcurrentMap), you still need to deal with concurrency issues such as atiomcity.

For example, if you check the balance to authorise a payment like this:

double johnBalance = balance.get("John");
if(johnBalance > paymentAmount) 

There is an atomicity issue: the balance on John's account might have changed between the call to balance.get(...) and the payment authorization.

If this is one of your use cases, you will need to introduce an additional layer of synchronization.

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Even a ConcurrentHashMap doesn't necessarily make everything safe and correct magically. For example, if two entries in the map must be stored or retrieved atomically, external synchronization is still needed. –  JB Nizet Jul 29 '12 at 16:38
@JBNizet Of course - reading the question, I thought atomicity was not required but I'll edit accordingly. –  assylias Jul 29 '12 at 16:40
@JBNizet And hopefully this is an exercise - if not I'd like to know the name of the bank ;-) –  assylias Jul 29 '12 at 16:42
I had the same impression, but wasn't 100% sure. The conclusion of your answer made me a little bit frightened. Maybe it's me, but I read it as: use a ConcurrentHashMap, and whatever you might do in the rest of the code, it will be correct. +1, though. –  JB Nizet Jul 29 '12 at 16:43
@JBNizet That was a fair comment. –  assylias Jul 29 '12 at 16:45

You can't. All the methods of HashTable are synchronized. See the Javadoc. Use a HashMap, or, if you need thread safety, which you didn't mention, ConcurrentHashMap.

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Have a look at ConcurrentHashMap.


A hash table supporting full concurrency of retrievals and adjustable expected concurrency for updates.


To parallelize those three lines, you could simply do

String[] users = { "John Doe", "Tom Smith", "Jane Baker" };
for (final String user : users) {
    new Thread() {
        public void run() {
            System.out.println(user + "'s balance: " + balance.get(user));

If you in fact have a slightly more complex scenario, I suggest you look into ExecutorService and related classes.

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Perhaps you are using Hashtable over hashmap is because you want to acceas your multithreaded environment. well these synchronized collections are now obsolete because they indeed cant' solve synchronization issues . They had actually atomized adding or rmoving . But they dont adress a simple scenario that in map you will want firstt check whther the key exists before adding.

Collection.synchronozimap() was a step ahead to address concurrency issues.But they too failed in intensive multithreaded environmentt.

ultimately the preferred way is to use concurrent API .They adress some issues like I described above by a method ConcurrentMap.putIfAbsent.

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Collections.synchronizedMap() wasn't a 'step ahead'. It is a way of getting exactly the same behaviour as HashSet from a HashMap. It adds nothing. No progress: no step ahead. –  EJP Jul 29 '12 at 17:08
whhhhhhhhhaaatt..!!!! exactly the same behaviour as HashSet from a HashMap. ????//.....can you quote some referance..?. –  Ahmad Jul 29 '12 at 18:24
Err, the Javadoc? Can you quote some reference for 'a step ahead'? And given an example 'step'? –  EJP Jul 29 '12 at 23:38

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