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I am trying to implement a read/write buffer class where it can be able to support multiple writers and readers, and the reader can read the buffer simultaneously while the writer is writing the buffer. Here's my code, and so far I haven't seen any issue, but I am not 100% sure if this is thread-safe or if there's any better approach.

public class Buffer{
       private StringBuilder sb = new StringBuilder();
       private final ReentrantReadWriteLock lock = new ReentrantReadWriteLock();
       private Random random = new Random();

       public void read(){
            } finally{
       public void write(){
            } finally{
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Maybe Code Review would be a better place for that kind of question... –  Alexis Pigeon Nov 27 '12 at 15:57
You should probably unlock in a finally block –  assylias Nov 27 '12 at 15:58
@assylias but what am i trying to catch in my try block ? –  peter Nov 27 '12 at 16:07
you don't need a catch: try {yourCode()} finally {unlock();} - cf the example in the javadoc. –  assylias Nov 27 '12 at 16:08
I am tempted to say, give it a try. Multiple concurrent writes cannot always succeed - refer concurrent hash map, for conflicting writes which one should be preserved? –  Scorpion Nov 27 '12 at 17:39

2 Answers 2

up vote 7 down vote accepted

No problem with multi-threading safety whatsoever! The read and write locks protect access to the StringBuilder and the code is clean and easy to read.

By using ReentrantReadWriteLock you are actually maximising you chance of achieving higher degrees of concurrency, because multiple readers can proceed together, so this is a better solution than using plain old synchronised methods. However, contrary to what is stated in the question, the code does not allow a writer to write while the readers are reading. This is not necessarily a problem in itself though.

The readers acquire a read lock before proceeding. The writers acquire a write lock before proceeding. The rules of read locks allow one to be acquired when there is no write lock (but it is OK if there are some read locks i.e. if there are more active readers). The rules of write locks allow one to be acquired if and only if there are no other locks (no readers, no writers). Thus multiple readers are allowed but only a single writer.

The only change that might be needed would be to change the lock initialisation code to this:

private final ReentrantReadWriteLock lock = new ReentrantReadWriteLock(true);

As is the original code given in the question does not require the lock to be fair. With the above change it is guaranteed that "threads contend for entry using an approximately arrival-order policy. When the write lock is released either the longest-waiting single writer will be assigned the write lock, or if there is a reader waiting longer than any writer, the set of readers will be assigned the read lock. When constructed as non-fair, the order of entry to the lock need not be in arrival order." (Taken from

See also the following (from the same source):

ReentrantReadWriteLocks can be used to improve concurrency in some uses of some kinds of Collections. This is typically worthwhile only when the collections are expected to be large, accessed by more reader threads than writer threads, and entail operations with overhead that outweighs synchronization overhead. For example, here is a class using a TreeMap that is expected to be large and concurrently accessed.

class RWDictionary {
    private final Map<String, Data>  m = new TreeMap<String, Data>();
    private final ReentrantReadWriteLock rwl = new ReentrantReadWriteLock();
    private final Lock r = rwl.readLock();
    private final Lock w = rwl.writeLock();

    public Data get(String key) {
        r.lock(); try { return m.get(key); } finally { r.unlock(); }
    public String[] allKeys() {
       r.lock(); try { return m.keySet().toArray(); } finally { r.unlock(); }
    public Data put(String key, Data value) {
        w.lock(); try { return m.put(key, value); } finally { w.unlock(); }
    public void clear() {
        w.lock(); try { m.clear(); } finally { w.unlock(); }

The excerpt from the API documentation is particularly performance conscious. In your specific case, I cannot comment on whether you meet the "large collection" criterion, but I can say that outputting to the console is much more time consuming than the thread-safety mechanism overhead. At any rate, you use of ReentrantReadWriteLocks makes perfect sense from a logical point of view and is perfectly thread safe. This is nice code to read :-)

Note 1 (answering question about exceptions found in the comments of the original question): Taken from lock() acquires the lock. If the lock is not available then the current thread becomes disabled for thread scheduling purposes and lies dormant until the lock has been acquired.

A Lock implementation may be able to detect erroneous use of the lock, such as an invocation that would cause deadlock, and may throw an (unchecked) exception in such circumstances. The circumstances and the exception type must be documented by that Lock implementation.

No indication of such exceptions is given in the relevant documentation for ReentrantReadWriteLock.ReadLock ( or ReentrantReadWriteLock.WriteLock (

Note 2: While access to the StringBuilder is protected by the locks, System.out is not. In particular, multiple readers may read the value concurrently and try to output it concurrently. That is also OK, because access to System.out.println() is synchronized.

Note 3: If you want to disallow multiple active writers, but allow a writer and one or more readers to be active at the same time, you can simple skip using read locks altogether i.e. delete lock.readLock().lock(); and lock.readLock().unlock(); in your code. However, in this particular case this would be wrong. You need to stop concurrent reading and writing to the StringBuilder.

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How will you not block writer acquiring write lock when there is at least one read lock is active ? –  peter Nov 27 '12 at 20:49
With your code as is, you are giving the writer a chance to access in a thread-safe manner a non-thread-safe resource, the StringBuilder. If you have a reader accessing your StringBuilder as you are modifying its contents, you are no longer thread safe, so I would not go there. I would leave your code as it stands, expect perhaps for adding the fairness bit if that is important to you :-) –  Miltos Kokkonidis Nov 27 '12 at 20:57
So my code allows the writer to acquire writer lock while there's at least a reader ? so how it work...i don't really get it....the reader won't see the most updating value, correct ? –  peter Nov 27 '12 at 21:19
two possibilities: N active readers (all writers inactive until readers finish) or 1 active writer (all readers and all other writers inactive until the active writer finishes). –  Miltos Kokkonidis Nov 27 '12 at 21:22
ok, so which means it can't write and read at the same time, correct ? my question is how would you make it non-blocked for the write while there's at least one reader lock ? –  peter Nov 27 '12 at 21:31

The description and the code seem to be two different things. You say in the description that you want to let the readers read while the writer (one at a time I assume) writes. However you have a lock in your read method too. So right now you have one, reader or writer at a time accessing your buffer.

If you want to have readers access while there is a writer, remove the lock from the read method.

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They use different locks. –  lynks Nov 27 '12 at 16:08 i am wondering if the code is equivalent if I remove all the lock and make the read and write method synchronized –  peter Nov 27 '12 at 16:09
Its only one reader and one writer at a time as is. The description says "support multiple writers and readers". –  jco.owens Nov 27 '12 at 16:10
The readers acquire a read lock before proceeding. The writers acquire a write lock before proceeding. The rules of read locks allow one to be acquired when there is no write lock (but it is OK if there are some read locks i.e. if there are more active readers). The rules of write locks allow one to be acquired if and only if there are no other locks (no readers, no writers). Thus multiple readers are allowed but only a single writer. –  Miltos Kokkonidis Nov 27 '12 at 16:56
@MiltiadisKokkonidis What about the reverse ? Can a write acquires write lock when there's a read lock ? and by saying read locks allow one to be acquired when there's no write lock...does that mean it's not possible to read while write is writing ? –  peter Nov 27 '12 at 18:14

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