I come from a C++ background and I've been working with C# for about a year. Like many others I'm flummoxed as to why deterministic resource management is not built-in to the language.
The using
construct provides "deterministic" resource management and is built into the C# language. Note that by "deterministic" I mean Dispose
is guaranteed to have been called before the code after the using
block starts executing. Note also that this is not what the word "deterministic" means but everyone seems to abuse it in this context in that way, which sucks.
In my C++-biased brain it seems like using reference-counted smart pointers with deterministic destructors is a major step up from a garbage collector that requires you to implement IDisposable and call dispose to clean up your non-memory resources.
The garbage collector does not require you to implement IDisposable
. Indeed, the GC is completely oblivious to it.
Admittedly, I'm not very smart... so I'm asking this purely from a desire to better understand why things are the way they are.
Tracing garbage collection is a fast and reliable way to emulate an infinite memory machine, freeing the programmer from the burden of manual memory management. This eliminated several classes of bugs (dangling pointers, free too soon, double free, forgot to free).
What if C# were modified such that:
Objects are reference counted. When an object's reference count goes to zero, a resource cleanup method is called deterministically on the object,
Consider an object shared between two threads. The threads race to decrement the reference count to zero. One thread will win the race and the other will be responsible for cleanup. That is non-deterministic. The belief that reference counting is inherently deterministic is a myth.
Another common myth is that reference counting frees objects at the earliest possible point in the program. It doesn't. Decrements are always deferred, usually to the end of scope. This keeps objects alive for longer than necessary leaving what is called "floating garbage" lying around. Note that, in particular, some tracing garbage collectors can and do recycle objects earlier than scope-based reference counting implementations.
then the object is marked for garbage collection. Garbage collection occurs at some non-deterministic time in the future at which point memory is reclaimed. In this scenario you don't have to implement IDisposable or remember to call Dispose.
You don't have to implement IDisposable
for garbage collected objects anyway, so that is a non-benefit.
You just implement the resource cleanup function if you have non-memory resources to release.
Why is that a bad idea?
Naive reference counting is very slow and leaks cycles. For example, Boost's shared_ptr
in C++ is up to 10x slower than OCaml's tracing GC. Even naive scope-based reference counting is non-deterministic in the presence of multithreaded programs (which is almost all modern programs).
Would that defeat the purpose of the garbage collector?
Not at all, no. In fact it is a bad idea that was invented in the 1960s and subjected to intense academic study for the next 54 years concluding that reference counting sucks in the general case.
Would it be feasible to implement such a thing?
Absolutely. Early prototype .NET and JVM used reference counting. They also found it sucked and dropped it in favor of tracing GC.
EDIT: From the comments so far, this is a bad idea because
GC is faster without reference counting
Yes. Note that you can make reference counting much faster by deferring counter increments and decrements but that sacrifices the determinism that you crave so very much and it is still slower than tracing GC with today's heap sizes. However, reference counting is asymptotically faster so at some point in the future when heaps get really big maybe we will start using RC in production automated memory management solutions.
problem of dealing with cycles in the object graph
Trial deletion is an algorithm specifically designed to detect and collect cycles in reference counted systems. However, it is slow and non-deterministic.
I think number one is valid, but number two is easy to deal with using weak references.
Calling weak references "easy" is a triumph of hope over reality. They are a nightmare. Not only are they unpredictable and difficult to architect but they pollute APIs.
So does the speed optimization outweigh the cons that you:
may not free a non-memory resource in a timely manner
Doesn't using
free non-memory resource in a timely manner?
might free a non-memory resource too soon
If your resource cleanup mechanism is deterministic and built-in to the language you can eliminate those possibilities.
The using
construct is deterministic and built into the language.
I think the question you really want to ask is why doesn't IDisposable
use reference counting. My response is anecdotal: I've been using garbage collected languages for 18 years and I have never needed to resort to reference counting. Consequently, I much prefer simpler APIs that aren't polluted with incidental complexity like weak references.