The String assignments won't cause a memory leak.
Whether there the strings leak elsewhere in that code depends on a couple of things that can't be discerned from this code:
- How the JSON implementation is creating the key and value strings. (If it is using
String.substring() on a much larger String, you may leak storage via a shared string backing array.)
- Whether the
someOtherJson is being leaked.
The normal approach (in Java SE) is to not worry about it ... until you've got evidence from memory profiling that there is a leak. In Java ME implementations, memory is typically more constrained, and GC implementations can be relatively slow. So it can be necessary to reduce the number and size of objects (including strings). But that's not a memory leak issue ... and I'd still advise profiling first instead of leaping into a memory efficiency campaign that could be a waste of effort.
Is that the right approach to use a pool of Strings instead of instantiating new Objects or what are the other approaches to assign the strings which will avoid memory leaks?
As I said there is no leak in the above code.
String pools don't eliminate leaks, and they don't necessarily reduce the rate of garbage object creation. They can reduce the number of live String objects at any given time, but this comes at a cost.
If you want to try this approach, it is simplest to use
String.intern() to manage your String pool. But it won't necessarily help. And can actually make things worse. (If there isn't enough potential for sharing, the space overheads of the interned string pool can exceed the saving. In addition, the interned string pool creates more work for the GC - more tracing, and more effectively weak references to deal with.)