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In C++ you have to manually destroy objects that are no longer needed, which causes a lot of problems. To overcome this Java uses a Garbage Collector that runs from time to time and removes objects that are no longer referenced. This has performance disadvantages though, since garbage collection takes some time to find all unreferenced objects.

Are there any garbage collection algorithms that don't impact productivity? Mark-and-sweep algorithms are naturally slow because they have to go through all objects and mark them as either reachable or unreachable, but isn't it possible to build some reference counting algorithm that would determine very quickly which objects are unreachable, which at the same time would be smart enough to overcome problems like when you have two unreachable objects referencing each other? Can you combine it with some static code analysis to produce and efficient system that would free you from memory management? Is it at least theoretically possible?

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closed as off topic by Joachim Pileborg, oers, Kjuly, Toto, fancyPants Nov 7 '12 at 12:30

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This question seems to be a better fit at – Joachim Pileborg Nov 7 '12 at 6:32
"This has performance disadvantages though". GCs also have several important performance advantages. – Jon Harrop Dec 29 '12 at 17:44

In C++, it is idiomatic to use RAII and reference counting. It's even in the standard library now (std::shared_ptr). Assuming you create and use your pointers correctly, the only thing you have to worry about is managing cycles (weak_ptr can help here).

It's very hard to do a drop-in gc due to the existence of pointers and pointer arithmetic. If you need special memory allocation, you can use a custom allocator thank to C++'s flexibility.

As for your question about making a better memory management system, Java's GC is actually highly optimized and does all of those things except reference counting (since arena allocation is actually faster in many common cases). Anyway, the key optimization is generational gc. The GC uses different algorithms optimized for short lived objects, medium lived objects, 'permanant' objects, etc. The Hotspot JVM also does static analysis which lets it optimize away some allocations.

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