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Vector methods are synchronized. What does it mean programmatically and logically?

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8  
    
helpful discussion between hashmap and hashtable, and synchronization: stackoverflow.com/questions/40471/java-hashmap-vs-hashtable –  limc Jan 22 '11 at 18:42

14 Answers 14

up vote 226 down vote accepted

The synchronized keyword is all about different threads reading and writing to the same variables, objects and resources. This is not a trivial topic in Java, but here is a quote from Sun:

Synchronized methods enable a simple strategy for preventing thread interference and memory consistency errors: if an object is visible to more than one thread, all reads or writes to that object's variables are done through synchronized methods.

In a very, very small nutshell: When you have two threads that are reading and writing to the same 'resource', say a variable named foo, you need to ensure that these threads access the variable in an atomic way. Without the synchronized keyword, your thread 1 may not see the change thread 2 made to foo, or worse, it may only be half changed. This would not be what you logically expect.

Again, this is a non-trivial topic in Java. To learn more, explore topics here on SO and the Interwebs about:

Keep exploring these topics until the name "Brian Goetz" becomes permanently associated with the term "concurrency" in your brain.

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16  
So, basically this Synchronized keyword makes your methods thread-safe? –  Rigo Vides Jul 6 '09 at 7:12
20  
The synchronized keyword is one of the tools that make your code thread safe. Just using synchronized on a method or variable in itself may or may not do the trick. Having a basic understanding of the Java Memory Model is really important to getting concurrency correct. –  Stu Thompson Jul 6 '09 at 7:14
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Unless you are Brian Goetz (or maybe Jon Skeet), it is almost impossible to get Java concurrency correct with only the language primitives (synchronized, volatile). For starters, make use of the java.util.concurrent package and build on top of that. –  Thilo Jul 6 '09 at 7:30
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Some of us did code (presumably) thread-safe code with Java 1.4, thank you very much ;-). –  Robert Munteanu Jul 6 '09 at 7:42
6  
yes, presumably... :) –  Hans Westerbeek Oct 1 '12 at 9:32

The "Synchronized" keywords prevents concurrent access to a block of code or object by multiple Threads. By default, a Hashtable is synchronized, so only one thread can access the table at a time. For a HashMap, if you want to prevent thread-safety issues you must manually account for this in your coding.

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Synchronised means that in a multiple threaded environment, a synchronised object does not let two threads access a method/block of code at the same time. This means that one thread can't be reading while another updates it.

The second thread will instead wait until the first is done. The overhead is speed, but the advantage is guaranteed consistency of data.

If your application is single threaded though, synchronised has no benefit.

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The synchronized keyword causes a thread to obtain a lock when entering the method, so that only one thread can execute the method at the same time (for the given object instance, unless it is a static method).

This is frequently called making the class thread-safe, but I would say this is a euphemism. While it is true that synchronization protects the internal state of the Vector from getting corrupted, this does not usually help the user of Vector much.

Consider this:

 if (vector.isEmpty()){
     vector.add(data);
 }

Even though the methods involved are synchronized, because they are being locked and unlocked individually, two unfortunately timed threads can create a vector with two elements.

So in effect, you have to synchronize in your application code as well.

Because method-level synchronization is a) expensive when you don't need it and b) insufficient when you need synchronization, there are now un-synchronized replacements (ArrayList in the case of Vector).

More recently, the concurrency package has been released, with a number of clever utilities that take care of multi-threading issues.

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Consider this code

public class SOP {
    public static void print(String s)
    {
        System.out.println(s+"\n");
    }
}

public class TestThread extends Thread
{
    String name;
    Synchronised synchronised;
    public TestThread(String name,Synchronised synchronised)
    {
        this.synchronised = synchronised;
        this.name = name;
        start();
    }

    @Override
    public void run()
    {
        synchronised.test(name);
    }
}

public class Synchronised {
    public synchronized void test(String name)
    {
        for(int i=0;i<10;i++)
        {
            SOP.print(name + " :: "+i);
            try{
                Thread.sleep(500);
            }
            catch (Exception e)
            {
                SOP.print(e.getMessage());
            }
        }
    }

    public static void main(String[] args)
    {
        Synchronised synchronised = new Synchronised();
        new TestThread("THREAD 1",synchronised);
        new TestThread("THREAD 2",synchronised);
        new TestThread("THREAD 3",synchronised);
    }
}

Note: synchronized blocks the next thread's call to method test() as long as the previous thread's execution is not finished. Threads can access this method one at a time. Without synchronized all threads can access this method simultaneously.

When a thread calls the synchronized method 'test' of the object (here object is an instance of 'Synchronised' class) it acquires the lock of that object, any new thread cannot call ANY synchronized method of the same object as long as previous thread which had acquired the lock does not release the lock.

Similar thing happens when any static synchronized method of the Class is called.The thread acquires the lock associated with the class(in this case any non static synchronized method of an instance of that class can be called by any thread because that object level lock is still available).Any other thread will not be able to call any static synchronized method the class as long as class level lock is not released by the thread which currently holds the lock.

Output with synchronised

THREAD 1 :: 0
THREAD 1 :: 1
THREAD 1 :: 2
THREAD 1 :: 3
THREAD 1 :: 4
THREAD 1 :: 5
THREAD 1 :: 6
THREAD 1 :: 7
THREAD 1 :: 8
THREAD 1 :: 9
THREAD 3 :: 0
THREAD 3 :: 1
THREAD 3 :: 2
THREAD 3 :: 3
THREAD 3 :: 4
THREAD 3 :: 5
THREAD 3 :: 6
THREAD 3 :: 7
THREAD 3 :: 8
THREAD 3 :: 9
THREAD 2 :: 0
THREAD 2 :: 1
THREAD 2 :: 2
THREAD 2 :: 3
THREAD 2 :: 4
THREAD 2 :: 5
THREAD 2 :: 6
THREAD 2 :: 7
THREAD 2 :: 8
THREAD 2 :: 9

Output without synchronized

THREAD 1 :: 0
THREAD 2 :: 0
THREAD 3 :: 0
THREAD 1 :: 1
THREAD 2 :: 1
THREAD 3 :: 1
THREAD 1 :: 2
THREAD 2 :: 2
THREAD 3 :: 2
THREAD 1 :: 3
THREAD 2 :: 3
THREAD 3 :: 3
THREAD 1 :: 4
THREAD 2 :: 4
THREAD 3 :: 4
THREAD 1 :: 5
THREAD 2 :: 5
THREAD 3 :: 5
THREAD 1 :: 6
THREAD 2 :: 6
THREAD 3 :: 6
THREAD 1 :: 7
THREAD 2 :: 7
THREAD 3 :: 7
THREAD 1 :: 8
THREAD 2 :: 8
THREAD 3 :: 8
THREAD 1 :: 9
THREAD 2 :: 9
THREAD 3 :: 9
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Think of it as a kind of turnstile like you might find at a football ground. There are parallel steams of people wanting to get in but at the turnstile they are 'synchronised'. Only one person at a time can get through. All those wanting to get through will do, but they may have to wait until they can go through.

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To my understanding synchronized basically means that the compiler write a monitor.enter and monitor.exit around your method. As such it may be thread safe depending on how it is used (what I mean is you can write an object with synchronized methods that isn't threadsafe depending on what your class does).

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This link has helped me to learn more about synchronized keyword, apart from locking and mutual exclusion. There are subtle details like different locks used to enter into synchronized method, depending upon, whether it's static or not.

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synchronized simple means no two threads can access the block/method simultaneously. When we say any block/method of a class is synchronized it means only one thread can access them at a time. Internally the thread which tries to access it first take a lock on that object and as long as this lock is not available no other thread can access any of the synchronized methods/blocks of that instance of the class.

Note another thread can access a method of the same object which is not defined to be synchronized. A thread can release the lock by calling

Object.wait()
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int I = 0;
    outer:
    while (true) 
    {
        I++;
        inner:
        for (int j = 0; j < 10; j++) 
        {
            I += j;
            if (j == 3)
                continue inner;
            break outer;
        }
        continue outer;
    }
System.out.println(I);
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pls tell me answer with explnation –  sreenu May 11 at 7:29

Overview

Synchronized keyword in Java has to do with thread-safety when multiple threads access (read or write) the same variable.
(This can happen directly by accessing the same variable, or indirectly by using a class that uses another class that accesses the same variable.)

Deeper

Synchronized keyword obtains a lock on the specified object and proceed to the synchronized block when the lock has been acquired. The lock will be released when execution exits the synchronized block. Any variable accesses inside the synchronized block are guaranteed by the Java Memory Model to be visible to every other thread that runs code inside a synchronized block that has obtained a lock on the same object.

Synchronized methods:

As a side-note, a synchronized instance method (non-static method) obtains a lock on this (the class instance itself), whereas a synchronized class method (static method) obtains a lock on the object returned by TheClass.getClass().

Technical

Without synchronization it is not guaranteed in which order the reads and writes happen, possibly leaving the variable with garbage.
(For example a variable could end up with half of the bits from the write operation of thread #1 and half of the bits from thread #2.)

It is not enough to complete a write operation in thread #1 before (wall-clock time) thread #2 reads it, because hardware could have cached the previous result and could return that for thread #2.

Conclusion

Thus in Java's case you have to follow Java Memory Model to ensure threading errors do not happen. In other words: Use synchronization, atomic operations or classes that use them for you under the hoods.

Sources

http://docs.oracle.com/javase/specs/jls/se8/html/index.html
Java® Language Specification, 2015-02-13

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It is very simple suppose that you have multiple thread running in a code and all dealing with a method then you don't want the variable inside the method being screwed by multiple thread accessing it or giving some crash. So to avoid that you have to put synchronized in the method.

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synchronized is a keyword in Java which is used to make happens before relationship in multithreading environment to avoid memory inconsistency and thread interference error.

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public synchronized void start() {
    var = true;
    thread.start();
}

Keyword thread. Basically, this allows not threads to overlap and stuff. So no problems will occur.

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17  
best SO answer ever –  mangguo Jul 3 '14 at 21:49

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