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I have a static class with a method in it that I run a few hundred times. Currently, everytime the method is run, it creates two different stack objects. If I were to make that class non-static so I can create the two stacks on construction and then reuse them by clearing them, would it be quicker? I guess the answer depends on creating a new stack object vs clearing an existing one (which is likely empty anyway) and if the performance gain (if any) from clearing it instead is greater than the performance loss from having a non-static method.

I've tried profiling the two and it never seems to work, but that's a different question.

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can you show the code (at least the relevant parts)? – assylias Mar 16 '13 at 14:19
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You have a class with a static method (not "static class") right? and you mean a Stack object not object on the call stack right? Java objects are always on the heap. – Sean Owen Mar 16 '13 at 15:43
    
If you only call the method a few hundred times (and not a few hundred times per second) it doesn't matter if the method is static or not. – Niels Mar 17 '13 at 8:04

It depends on how you use static variables and method in your code.

Instance variables and objects are stored on the heap. Local variables are stored on the stack.

Static variables are stored in a permanent area on heap. The garbage collector works by marking and sweeping objects. Static variables cannot be elected for garbage collection while the class is loaded. They can be collected when the respective class loader (that was responsible for loading this class) is itself collected for garbage.

If i have a value to be passed to another activity i would use intents instead of static variables.

In a custom list adapter we use a static viewholder. So using static variables or methods depends on different situation.

You can analyze memory usage by objects using a tool called MAT Analyzer. The video in the below talks about memory management and how to detect and solve memory leaks

http://www.youtube.com/watch?v=_CruQY55HOk.

   MemoryInfo mi = new MemoryInfo();// current memory usage
  ActivityManager activityManager = (ActivityManager) getSystemService(ACTIVITY_SERVICE);
  activityManager.getMemoryInfo(mi);
  long availableMegs = mi.availMem / 1048576L;

http://developer.android.com/training/articles/perf-tips.html. Have a look at this link for performance tips especially the topic under Prefer Static Over Virtual.

Memory availabilty is one of the criteria's to be considered using static variables and methods for performance and avoiding memory leaks.

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I read that link on android.com before I posted here. It still doesn't really answer my question because on one hand, it says to use static methods, but on the other hand, it says to avoid creating objects. If I make the method static, I must create the stack objects every time it's run. If the method is non-static, I can reuse the stack objects. – Joymo Mar 16 '13 at 22:58
    
Are you getting any memory leaks using static variables?? – Raghunandan Mar 17 '13 at 6:00

This is really a question about trying to reuse objects. You can reuse objects in a static method too if you declare a static member. Separately: yes it's probably better to design this without static anything.

In any event, the upside to reuse is avoiding object creation. You still pay some cost of "clearing" the object's state. Or else, you risk memory leaks in the case of something like a Stack.

There is an ongoing maintenance issue: you add new state to the object, and, did you remember to update the method that clears it?

You also need to now synchronize access to this method or otherwise prevent two threads from using it at once. That could introduce a bottleneck as threads can't execute the method concurrently.

You also always pay the memory cost of this object living in memory for the entire runtime.

In the olden days, people would create object pool abstractions to avoid recreating objects. This has its own complexity and runtime overhead, and are generally well out of favor, since the cost of creating an object and GCing it is so relatively small now.

Trying to reuse objects solely for performance is rarely a performance win. It would have to be in a tight loop and not suffer from several possible problems above to be worth it.

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