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I'm converting a C# project to C++ and have a question about deleting objects after use. In C# the GC of course takes care of deleting objects, but in C++ it has to be done explicitly using the delete keyword.

My question is, is it ok to just follow each object's usage throughout a method and then delete it as soon as it goes out of scope (ie method end/re-assignment)?

I know though that the GC waits for a certain size of garbage (~1MB) before deleting; does it do this because there is an overhead when using delete?

As this is a game I am creating there will potentially be lots of objects being created and deleted every second, so would it be better to keep track of pointers that go out of scope, and once that size reachs 1MB to then delete the pointers?

(as a side note: later when the game is optimised, objects will be loaded once at startup so there is not much to delete during gameplay)

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7 Answers 7

up vote 9 down vote accepted

Your problem is that you are using pointers in C++.

This is a fundamental problem that you must fix, then all your problems go away. As chance would have it, I got so fed up with this general trend that I created a set of presentation slides on this issue. – (CC BY, so feel free to use them).

Have a look at the slides. While they are certainly not entirely serious, the fundamental message is still true: Don’t use pointers. But more accurately, the message should read: Don’t use delete.

In your particular situation you might find yourself with a lot of long-lived small objects. This is indeed a situation which a modern GC handles quite well, and which reference-counting smart pointers (shared_ptr) handle less efficiently. If (and only if!) this becomes a performance problem, consider switching to a small object allocator library.

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Well, I don't think you can do without pointers entirely, since you have to navigate between objects. And entity objects will have a concrete lifetime determined by program logic, and not scope, so you need dynamic allocation and delete for those. But people coming from Java or C# certainly do tend to overuse these features. –  James Kanze Mar 7 '12 at 10:11
@James You’d be surprised how far you can come without pointers. I have used raw pointers exact once in recent years, in a library which for some good and some bad reasons didn’t allow smart pointers, and even there only at a single place (all the rest didn’t use pointers at all). – And I’ve written performance-critical and quite low level code. –  Konrad Rudolph Mar 7 '12 at 10:14
I don't use pointers that much myself. But generally, raw pointers largely outnumber smart pointers (which are only used in special cases). And almost all pointers are at the application level (or very, very low level, e.g. an implementation of std::vector, or a user defined operator new). –  James Kanze Mar 7 '12 at 11:18
@KonradRudolph I can't follow you, since about half of what you say supports my position. Business objects are represented by objects in code. Dynamically allocated objects, which have behavior, and react to external events. And at some point in time, an event says that their time has come, so we delete them. Regardless of any pointers to them which might exist: the problem of finding and removing such pointers is not solved by things like shared_ptr. (But it depends on the application: if the object represents a record in a database, shared_ptr might make sense.) –  James Kanze Mar 7 '12 at 13:55
@DeadMG They can't be managed by being values because they don't support copy and assignment---they are polymorphic and they have identity and behavior. They often are managed by auto_ptr during the creation phase, but they must outlive the transaction in which they were created, so at the latest, they are released from the auto_ptr in the commit phase---often they are released earlier as they are passed to the transaction maanger. (Or the single operations are so simple that no transaction management is necessary.) –  James Kanze Mar 7 '12 at 13:58

You should be using RAII as much as possible in C++ so you do not have to explicitly deleteanything anytime.
Once you use RAII through smart pointers and your own resource managing classes every dynamic allocation you make will exist only till there are any possible references to it, You do not have to manage any resources explicitly.

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And how do you implement those fancy RAII objects without ever explicitly calling delete? Someone has to explicitly call delete sometime. RAII just makes it cleaner and more aligned with object scope. –  Eric Mar 7 '12 at 9:57
@Eric Implementation detail. You’re also not generally concerned with the fact that the operating system is managing memory pages for you, are you? What goes on in the class stays in the class. –  Konrad Rudolph Mar 7 '12 at 10:03
@Eric it is my understanding that RAII includes smart pointers. IT would be good to mention them explicitely though. –  J.N. Mar 7 '12 at 10:10
This is a bad response: RAII is applicable for many things, but not for managing entity objects. In his case, he should drop all dynamic allocate completely for value types, and delete entity objects when the program logic requires it. RAII doesn't apply in either case. –  James Kanze Mar 7 '12 at 10:13
@Eric: then all well written C++ is nonsense. Of course, at some level, buried in a library somewhere, a few calls to delete are unavoidable. But if you ever do it in your application code, you are Doing It Wrong(tm) –  jalf Mar 7 '12 at 12:45

Memory management in C# and C++ is completely different. You shouldn't try to mimic the behavior of .NET's GC in C++. In .NET allocating memory is super fast (basically moving a pointer) whereas freeing it is the heavy task. In C++ allocating memory isn't that lightweight for several reasons, mainly because a large enough chunk of memory has to be found. When memory chunks of different sizes are allocated and freed many times during the execution of the program the heap can get fragmented, containing many small "holes" of free memory. In .NET this won't happen because the GC will compact the heap. Freeing memory in C++ is quite fast, though.

Best practices in .NET don't necessarily work in C++. For example, pooling and reusing objects in .NET isn't recommended most of the time, because the objects get promoted to higher generations by the GC. The GC works best for short lived objects. On the other hand, pooling objects in C++ can be very useful to avoid heap fragmentation. Also, allocating a larger chunk of memory and using placement new can work great for many smaller objects that need to be allocated and freed frequently, as it can occur in games. Read up on general memory management techniques in C++ such as RAII or placement new.

Also, I'd recommend getting the books "Effective C++" and "More effective C++".

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Well, the simplest solution might be to just use garbage collection in C++. The Boehm collector works well, for example. Still, there are pros and cons (but porting code originally written in C# would be a likely candidate for a case where the pros largely outweigh the cons.)

Otherwise, if you convert the code to idiomatic C++, there shouldn't be that many dynamically allocated objects to worry about. Unlike C#, C++ has value semantics by default, and most of your short lived objects should be simply local variables, possibly copied if they are returned, but not allocated dynamically. In C++, dynamic allocation is normally only used for entity objects, whose lifetime depends on external events; e.g. a Monster is created at some random time, with a probability depending on the game state, and is deleted at some later time, in reaction to events which change the game state. In this case, you delete the object when the monster ceases to be part of the game. In C#, you probably have a dispose function, or something similar, for such objects, since they typically have concrete actions which must be carried out when they cease to exist—things like deregistering as an Observer, if that's one of the patterns you're using. In C++, this sort of thing is typically handled by the destructor, and instead of calling dispose, you call delete the object.

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+1 using GC in C++ is by far the less painful solution. –  J.N. Mar 7 '12 at 10:11
@J.N. I obviously agree, or I wouldn't have mentioned it. But garbage collection isn't appropriate in all contexts either. I've used it effectively in some applications, but it probably wouldn't work with what I'm doing presently. –  James Kanze Mar 7 '12 at 11:56
I, of course, meant in the context of the question. –  J.N. Mar 7 '12 at 12:05

Substituting a shared_ptr in every instance that you use a reference in C# would get you the closest approximation at probably the lowest effort input when converting the code.

However you specifically mention following an objects use through a method and deleteing at the end - a better approach is not to new up the object at all but simply instantiate it inline/on the stack. In fact if you take this approach even for returned objects with the new copy semantics being introduced this becomes an efficient way to deal with returned objects also - so there is no need to use pointers in almost every scenario.

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Substituting a shared_ptr where ever you use a reference in C# will result in a lot of memory leaks (because of cyclic references), and will result in very poor and almost unmaintainable C++ (because dynamic allocation is being used where value semantics are more appropriate). –  James Kanze Mar 7 '12 at 11:54

There are a lot more things to take into considerations when deallocating objects than just calling delete whenever it goes out of scope. You have to make sure that you only call delete once and only call it once all pointers to that object have gone out of scope. The garbage collector in .NET handles all of that for you.

The construct that is mostly corresponding to that in C++ is tr1::shared_ptr<> which keeps a reference counter to the object and deallocates when it drops to zero. A first approach to get things running would be to make all C# references in to C++ tr1::shared_ptr<>. Then you can go into those places where it is a performance bottleneck (only after you've verified with a profile that it is an actual bottleneck) and change to more efficient memory handling.

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For entity objects, you've got it backwards: you don't call delete once all pointers to it have disappeared, you arrange for the destructor to ensure that there are no more pointers to it (by notifying anyone who might hold a pointer). When you delete an object is determined by external program logic, not whether someone happens to hold a pointer or not. (Note that this is similar to C#, where you need some sort of dispose function to tell the world you're no longer there.) And you don't dynamically allocate other types, so the issue doesn't come up. –  James Kanze Mar 7 '12 at 10:08
I might add that systematic use of std::shared_ptr<> is a guaranteed memory leak, because there will be cycles. –  James Kanze Mar 7 '12 at 10:09

GC feature of c++ has been discussed a lot in SO.

Try Reading through this!!

Garbage Collection in C++

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Except that the answer (with +45, no less) is from someone who doesn't know how garbage collection works in C++, and so makes a number of false statements (although nowhere near as many as some). –  James Kanze Mar 7 '12 at 11:52
You can always post a better answer anywhere!! –  Rohit Mar 7 '12 at 11:54

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