The short answer
essentially does the following:
buf.reverse(); // buf is now "redrum"
This is why you get
buf.reverse() doesn't return a new
StringBuffer which is the reverse of
buf. It returns
buf, after it had reversed itself!
There are many ways to "fix" this, but the easiest would be to explicitly create a new
StringBuffer for the reversal, so something like this:
Deeper insight: comparing
String in Java is immutable. On the other hand,
StringBuffer is mutable (which is why you can, among other things,
append things to it).
This is why with
String, a transforming method really returns a new
String. This is why something like this is "wrong"
String str = "murder";
str.toUpperCase(); // this is "wrong"!!!
System.out.println(str); // still "murder"
Instead you want to do:
String str = "murder";
str = str.toUpperCase(); // YES!!!
System.out.println(str); // now "MURDER"!!!
However, the situation is far from analogous with
StringBuffer methods do return
StringBuffer, but they return the same instance that it was invoked on! They do NOT return a new
StringBuffer instance. In fact, you're free to discard the "result", because these methods have already accomplished what they do through various mutations (i.e. side effects) to the instance it's invoked upon.
These methods could've been declared as
void, but the reason why they essentially
return this; instead is because it facilitates method chaining, allowing you to write something like:
StringBuffer, you should generally prefer
StringBuilder, which is faster because it's not
synchronized. Most of the discussions above also applies to
From the documentation:
StringBuffer : A thread-safe, mutable sequence of characters. [...] As of JDK 5, this class has been supplemented with an equivalent class designed for use by a single thread,
StringBuilder, which should generally be preferred as it supports all of the same operations but faster, as it performs no synchronization.
StringBuilder : A mutable sequence of characters. [...] Instances of
StringBuilder are not safe for use by multiple threads. If such synchronization is required then it is recommended that
StringBuffer be used.
Bonus material! Alternative solution!
Here's an alternative "fix" to the problem that is perhaps more readable:
StringBuilder word = new StringBuilder("murder");
StringBuilder worddrow = new StringBuilder(); // starts empty
System.out.println(worddrow); // "murderredrum"
Note that while this should do fine for short strings, it does use an extra buffer which means that it's not the most efficient way to solve the problem.
Bonus material again! The last laugh!
StringBuilder sb = new StringBuilder("ha");
System.out.println(sb); // "hahahaha"