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I have got some confused about shared_ptr.

Say, I have classes:

class foo {
     int _f;
typedef std::shared_ptr<foo> fooptr;

class bar {
    int _b;
typedef std::shared_ptr<bar> barptr;

class foobar : public foo, public bar {
    int _fb;

int main () {

    foobar *fb1 = new foobar();
    foobar *fb2 = new foobar();

    fooptr f((foo *)fb1);
    barptr b((bar *)fb2);

    return 0;

Because b.get() != fb2, so it should crash when the program exit? Or it is safe ?

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4 Answers 4

up vote 10 down vote accepted

A shared_ptr<base> can safely take ownership of a derived*, even if base does not have a virtual destructor.

However, this only works if shared_ptr knows what the most derived type of the object is when it takes ownership of it. If you were to remove the casts

fooptr f(fb1);
fooptr b(fb2);

then you'd definitely be okay. With the casts, the shared_ptr cannot know what the most-derived type of the object is when it takes ownership of it, so the behavior is undefined, just as if you had said:

foo* f = new foobar();
delete f;

The best thing to do is to follow the rule that "a base class destructor should be either public and virtual, or protected and nonvirtual."

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+1, you beat me to explaining the template constructor. –  Steve Jessop Nov 16 '10 at 15:32
thank you for your reply :) –  ddh Nov 16 '10 at 15:53

No, it's not safe. foo and bar need virtual destructors, otherwise it's undefined what happens when the destructor of shared_ptr deletes the pointer it's holding. Of course, saying that it's not safe isn't the same as saying it should crash.

Alternatively, there's some magic[*] built into shared_ptr which means that if you don't cast to foo*, your code becomes safe:

fooptr f(fb1);
barptr b(fb2);

Either with the virtual destructor, or if you take out the casts, when shared_ptr comes to delete the pointer, the compiler will "know" how to adjust the pointer back to its original type, in order to call the correct destructors and free the memory.

The magic only works because fb1 is type foobar*, though. Without the virtual destructor, the following is still unsafe:

foo *fb = new foobar();
fooptr f(fb);

If you use shared_ptr like this, then there's no risk of doing that:

fooptr f(new foobar());

You can also avoid the problem that in your code, that if the second call to new foobar() throws an exception, the first object is leaked. If you're going to use shared_ptr to manage memory for you, then you need to get the memory under management as quickly as possible:

fooptr f(new foobar());
barptr b(new foobar());

Now if the second line throws, f will be properly destructed and will delete the object.

[*] "magic" = a constructor template, which stores in the shared_ptr a pointer to a function which will cast the stored pointer back to the correct type, and then delete it.

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if foo and bar both has virtual destructor, than it is safe? –  ddh Nov 16 '10 at 15:29
Take the explicit cast off, though, and it is safe because shared_ptr has a templated constructor which ensures destruction through the type of the pointer originally passed to the constructor, not the template argument of the shared_ptr that eventually causes the final destruction. It's still highly advisable to have a virtual destructor in the base classes; but it's not technically dangerous. –  Charles Bailey Nov 16 '10 at 15:30
I think that in destructor of shared_ptr, there should be "delete ptr", and the operation of delete do: 1) call the desturctor of the object, and 2) free the memory. But if the memory allcoated is 0x10000, but what the shared_ptr get is 0x10004, there shoud be some problem? –  ddh Nov 16 '10 at 15:30
@Charles: yep, I'll get there. One thing at a time ;-) –  Steve Jessop Nov 16 '10 at 15:32
@Steve: Just thought I'd point it out :) . @doudehou: Having a virtual destructor is what the programmer uses to tell the compiler to insert any magic it needs to make it safe to delete a object via a pointer to base class. If the programmer doesn't do this the compiler is free to omit any checking and assume that the object pointed to is a base class instance, and only a base class isntance. What actually happens will vary from implementation to implementation as nothing is guaranteed (undefined behaviour). Typically, some destructor calls get omitted, but a memory error may also occur. –  Charles Bailey Nov 16 '10 at 15:40

foo and bar aren't polymorphic classes and therefore this code will most likely result in invalid pointer deallocation.

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It is not safe since you are using a C-Style cast in a C++ code.

Do NOT use C-Style cast, use casts such as static_cast, dynamic_cast, const_cast or reinterpret_cast. Plus, no crash does not mean safety.

In fact, just remove the casts in this case.

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