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While playing with C++, I noticed that the standard compiler behaviour for assignment operator/object copying is a pain in the butt. While I can understand the default code generation when every member of a class has a defined/default copy/assignment behaviour, I have no idea why the compiler risks generating the code that copies the pointers in a dumb fashion WITHOUT A SINGLE WARNING... Why do the compilers decide for the user in this case? Are there really any situations in which default pointer rewriting makes sense at all?


Before this gets closed as flamebait, I'd like to point out I didn't mean to rant. As I stated in the comments, I'd also like to ask if there are exceptions to the rule of three.

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closed as not constructive by dmckee, Useless, Nicol Bolas, Mark B, K-ballo Jan 12 '13 at 6:18

As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance.If this question can be reworded to fit the rules in the help center, please edit the question.

Welcome to C++? –  Mehrdad Jan 11 '13 at 23:31
As a practical example of a class that has a single pointer, see std::reference_wrapper. It's a copyable reference, and it's implemented as a single pointer to the thing you're referencing. When you copy of of these, it would be an error to do anything but copy the pointer directly. –  GManNickG Jan 11 '13 at 23:43
@GManNickG: The fine point here is that that class does nothing but hold one pointer. Yes, pointers are useful, but they should be constrained to library building blocks. In other words, the user should have a std::reference_wrapper in their class, and voila, rule of zero etc. etc. –  Kerrek SB Jan 11 '13 at 23:45
@Mehrdad: The reference wrapper costs you nothing, and it buys you semantic power: It's self-documenting, and it says unmistakably, "someone else owns this". C++ is an expressive language, and there's no reason not to make your code unambiguous like that. Someone else who reads this (maybe yourself in a year) will not have to look up what this naked pointer means. –  Kerrek SB Jan 12 '13 at 0:15
@KerrekSB: That's exactly what a raw pointer tells me, I don't know about you. Also I don't see operator-> declared for a reference wrapper here... which kind of defeats its purpose. –  Mehrdad Jan 12 '13 at 0:16

6 Answers 6

I have no idea why the compiler risks generating the code that copies the pointers in a dumb fashion

There's nothing wrong with classes that have pointers as members, and there's nothing wrong with shallow copying these classes.

Where it gets messy is resource ownership.

Dynamic memory allocation is the real culprit here, not having pointer members. And this is just a single, specific case. Others can include locks, streams, connections...

If the memory that's being pointed to isn't owned by the class, it makes no difference. Same with, say, a file stream - you could copy the class and both copies refer to the same stream - but when do you close the stream? Which of the copies closes it? ("which of the copies deletes the memory?")

Having the rule of three in effect makes you think this stuff thoroughly.

All in all - I think it's unrealistic to have warnings everywhere you have a member that's a pointer or stream or whatever other resource you have - there'd be a lot of them, and most are useless.

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If the thing being pointed to is not owned by the class in question (not at all uncommon) then a shallow copy is exactly what you want. The compiler can't tell from the class definition what the ownership semantics are so it makes one reasonable guess: Everything is shallow-copied.

If your class has ownership semantics for a pointer then you should use the appropriate smart pointer (unique_ptr, shared_ptr, etc) to document the ownership.

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A plain (or dumb) pointer does have defined copy and assignment behaviour.

If your pointers always indicate ownership, you should be using smart pointers. Then, the copy and assignment behaviour is more likely to be (or at least can be made to be) what you wanted.

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Just one example:
If you have a tree data structure where each node owns its children, those child pointers would be smart pointers -- but then if you want to hold a pointer to your parent, it'd be a raw pointer, because it's not managing the lifetime of what it points to.

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For speed and power.

A non-naive copy can take a long time. If this is a problem for your program, then it is very realistic that you would opt out of the rule of three.

Welcome to C++. You're expected to know what you're doing.

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Why do the compilers decide for the user in this case?

The key is that compilers don't decide. They make the programmer decide. What do you expect, anyway? A deep copy to be made? That's not exactly possible. Consider the following:

// This isn't necessarily "good" code, but it's legal
struct MyStruct
    void* p;
    const char* str;

MyStruct m1, m2;

m1.p = (void*)&m2;
m1.array = "Hello world!";
m2 = m1; // Now what do you expect to happen?

C++ doesn't force you to write good code, so the above is entirely legal. While the above isn't good code, it does show some common use cases of pointers in structures. You can't make a deep copy of m1 when assigning it to m2. It would suck if deep copies were the default behavior, because the above would then fail to compile.

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