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Ok, I've been trying to wrap my head around this for some time now , but I dont get it can someone please tell me why case#1 throws an assert (BLOCK TYPE IS INVALID)?

case #1

    // Get all dependents for this resource
    boost::shared_ptr<std::set<std::string>> dependents = deactivatedResource->getDependendents();
    // Do some stuff 
} // Assertion thrown here (heap gets corrupted)

Here's the getDependents in this case :

boost::shared_ptr<std::set<std::string>> Resource::getDependendents()
    return boost::shared_ptr<std::set<std::string>>(&dependents);

case #2

// Get all dependents for this resource
std::set<std::string>* dependents = deactivatedResource->getDependendents();
} // No problem !! (but an obvious leak , if I try to use delete ,then the same assertion as in case 1)

Here's the getDependents in this case :

   std::set<std::string>* Resource::getDependendents()
    return &dependents;

For both cases :

std::set<std::string> dependents;
share|improve this question
What does getDependents actually return (i.e., what does the definition of that function do)? Why are you not using smart pointers consistently? – James McNellis Mar 10 '12 at 22:49
The corruption happens before your shared_ptr goes out of scope. Use some memory checked like valgrind – BЈовић Mar 10 '12 at 22:49
Probably you are misunderstanding the ownership semantics of getDependents. Check the documentation and/or the code. – Kerrek SB Mar 10 '12 at 22:55
@JamesMcNellis Edited question , I am using it consistently , used the naked pointer because the shared_ptr was giving the assertion failure. – angryInsomniac Mar 10 '12 at 22:56
@KerrekSB I wrote that method – angryInsomniac Mar 10 '12 at 22:56
up vote 2 down vote accepted
  1. is it dependents an attribute of Resource?, it seems that boost is trying to deallocate non-dynamic memory when the reference gets to zero. You could return a reference in that case.
  2. is it dependents a local variable? if so you should use dynamic memory.


Then in your case it doesn't make sense returning a shared pointer as the object dependents has not been created dynamically.

In any case, if you would need to create it dynamically, you should do the following:

In the class declaration:

boost::shared_ptr<std::set<std::string> > dependents;

In the constructor:

Constructor (...) : dependents (new std::set<std::string> ()) { ... }

But in your case there is no need to use dynamic memory. I would recommend you to return a reference rather than a pointer.

share|improve this answer

shared_ptr manages resource ownership. When you pass it a pointer you’re effectively saying “this is yours. Make sure you dispose of it when you go out of scope.”1

But then you pass it a pointer that mustn’t be disposed since it’s pointing to an object with automatic storage. This doesn’t work. Only use shared_ptr on pointers that have been created using new.2

As a consequence, the shared_ptr is trying to delete a resource that hasn’t been newed. This causes the error you observe.

1 That’s a simplification. Actually, shared_ptr manages shared ownership (= shared with other shared_ptr instances); this means that the resource will only be disposed of once all owning shared_ptrs have gone out of scope.

2 Also a simplification: there are other ways than new of obtaining resources that need to be managed, but then you need to tell shared_ptr how to manage the resource. The default disposing action is delete, which only works on newed resources.

share|improve this answer
The guys in the c++ chat seem to think otherwise ! and as the name says , one stands to reason that the pointer is shared ! – angryInsomniac Mar 10 '12 at 23:02
@angryInsomniac See update. I was (intentionally) oversimplifying but then I realised that a clarification was needed. – Konrad Rudolph Mar 10 '12 at 23:04
Ref#1 If it manages shared ownership and this object is owned elsewhere as well , then why is this context trying to delete it ? – angryInsomniac Mar 10 '12 at 23:05
@angryInsomniac Good comment. shared_ptrs only track shared ownership among other instances of shared_ptr, not across the whole type system (the latter would require “magic” in C++ since C++ has no way of knowing where a pointer comes from). – Konrad Rudolph Mar 10 '12 at 23:06
Hmm , so basically that means that the problem stems from dependents being a member variable and not a shared pointer in its own right. – angryInsomniac Mar 10 '12 at 23:08

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