I've read some articles about Strings and StringBuilders benefits and downsides in Java Programmming language, In one of the articles, the author wrote : StringBuilders are not Thread safe so in multiple threads use StringBuffer.

Now I can't understand the meaning of that. Could you please show me the difference of Stirng, StirngBuilder and StringBuffer especially in the context of "Thread safety". (describing with code can be very good but if it is not possible, any hint will be appreciated).

up vote 10 down vote accepted

If multiple threads are modifying the same instance of a StringBuilder, the result can be unexpected - i.e. some of the modifications may be lost. That's why you should use StringBuffer in such situations. If, however, each thread StringBuilder instance can be modified by only one thread, it is better to use StringBuilder, since it would be more efficient (thread safety comes with a performance cost).

  • And the major use-case is to build a string sequentially, well-formed, a StringBuilder/StringBuffer is used as local variable, without multiple thread sharing. So StringBuilder is the primary choice in most cases. – Joop Eggen Nov 11 '14 at 8:18
  • @JoopEggen: hmmm now I cant understand, thank you. – Elyas Hadizadeh Nov 11 '14 at 8:23

If multiple thread tries to change the StringBuilder object value then the result will be strange. See the below example,

private StringBuilder sb = new StringBuilder("1=2");

public void addProperty(String name, String value) {
    if (value != null && value.length() > 0) {
        if (sb.length() > 0) {

If many thread calls addProperty method then the result will be strange (unpredictable result).

Thread1: addProperty("a", "b");
Thread2: addProperty("c", "d");
Thread3: addProperty("e", "f");

Finally when you call sb.toString() the result will be unpredictable. For example, it may bring output like 1=2,ac=d=b,e=f, but your expectation would be 1=2,a=b,c=d,e=f

The thread-safety issue with StringBuilder is that method calls on a StringBuilder do not synchronize.

Consider the implementation of the StringBuilder.append(char) method:

public StringBuilder append(boolean b) {
    return this;

// from the superclass
public AbstractStringBuilder append(char c) {
     int newCount = count + 1;
     if (newCount > value.length)
     value[count++] = c;
     return this;

Now suppose that you have two thread that are sharing a StringBuilder instance, and both attempt to append a character at the same time. Suppose that they both get to the value[count++] = c; statement at the same time, and that count is 1. Each one will write its character into the buffer at value[1], and then update count. Obviously only one character can be stored there ... so the other one will be lost. In addition, one of the increments to count will probably be lost.

Worse than that, the value[count++] = c; statement can fail even if the two threads don't arrive there at the same time. The reason is that the Java memory model says that unless there is proper synchronization (a "happens before" relationship), it is not guaranteed that the second thread will see the memory updates made by the first thread. What actually happens depends on whether and when the first thread's updates are written through to main memory.

Now lets look at StringBuffer.append(char):

public synchronized StringBuffer append(char c) {
    super.append(c);  // calls the "AbstractStringBuilder.append" method above.
    return this;

Here we see that the append method is synchronized. This means two things:

  • Two threads cannot execute the superclass append method on the same StringBuffer object at the same time. Thus the first scenario cannot happen.

  • The synchronize means that there is a happens before between successive calls to StringBuffer.append made by different threads. That means that the later thread is guaranteed to see the updates made in the earlier one.

The String case is different again. If we examine the code, we will see that there is no overt synchronization. But that's OK, because a String object is effectively immutable; i.e are no methods in the String API that will result in an externally observable change in the String object's state. In addition:

  • The special behaviour of final instance variables and constructors means that the all threads will see the correct initial state for any String.

  • In the one place where the String is mutable behind the scenes, the hashCode() method will work correctly whether or not a thread sees the most recent changes to the hash variable.


Because StringBuilder is not a synchronized one whereas StringBuffer is a synchronized one.When using StringBuilder in a multithreaded environment multiple threads can acess the StringBuilder object simultaneously and the output it produces can't be predicted hence StringBuilder is not a thread safe...

Using StringBuffer we can overcome the problem of Threads safety where the StringBuffer is a thread safety because it is synchronized where only one thread can access at a time so the output it produces can be expected and predicted.

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