Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

In my code I have two vectors:

vector<lipid*> lipids;
vector<shared_ptr<bead> > ions;

The lipid class:

class lipid{
 public:
  lipid();
  lipid(double x, double y, bool up, int LID);
  ~lipid();
  void makeMe(int LID);
  std::tr1::shared_ptr<bead> head;
  std::tr1::shared_ptr<bead> body;
  std::tr1::shared_ptr<bead> tail;
  int LID;
  vec direction;
};

And I generate the head, body, tail beads in the constructor of the lipid.

std::tr1::shared_ptr<bead> he(new bead);
std::tr1::shared_ptr<bead> bo(new bead);
std::tr1::shared_ptr<bead> ta(new bead);
this->head = he;
this->body = bo;
this->tail = ta;

Some of the lipids heads are inserted to the ions vector by:

vector<lipid*>::iterator lit = lipids.begin();
while (lit != lipids.end()){
  lipid * l = *lit++;
  if (l->head->charge != 0) this->ions.push_back(l->head);
}

where charge is an integer property of the bead. I also have a map<vector<int>, set<shared_ptr<bead> > > to store some of the beads named boxes. To add a bead into any of the map values I use:

bead b = l->head; //b white also be accessed through a beads vector that holds a shared pointer to all beads in the simulation
vector<int> t = b->getBox(); //a function that returns a valid box
boxes[t].insert(b);

In a specific part I have a set of shared pointer named cBeads and I insert to it beads in two, separate loops; the first goes over some of the boxes and insert into the cBeads set any bead that has bean changed and the other goes over all the ions and insert them.

I know that that a shared pointer is supposed to be the owner of the pointer or something, does this mean that I can place two shared pointer, pointing to the same object in a set?

I hope any of this make sense to you.

share|improve this question
1  
A shared pointer is a shared owner of a resource. Any number of shared pointers can share the same resource. Only when none are left will the resource be freed. (Did the question really have to be that long for that simple punchline?) –  Kerrek SB Oct 5 '11 at 10:14
    
The question isn't whether multiple shared pointers can refer to the same resource, it's whether multiple shared pointers refering to the same resource can be stored in a std::set. –  Joe Gauterin Oct 5 '11 at 10:25

4 Answers 4

up vote 3 down vote accepted

No, it isn't possible.

std::set guarantees that it containes no duplicates. Whether an instance is a duplicate of another is decided by applying the second template argument, which defaults to std::less.

The standard library provides an operator < that operates on std::shared_ptr, performing a less than comparrison on the underlying pointers.

share|improve this answer

What is the comparison function you are using? If it is the default (std::less), then you cannot have two pointers to the same object in the std::set; for that matter, I can't think of a possible comparison function which meets the requirements, and would allow it.

share|improve this answer
    
I suppose we can imagine that the comparison could somehow include the deleter. It would be broken to create two shared_ptr to the same resource with different deleters, but that's the user's problem rather than the set's. –  Steve Jessop Oct 5 '11 at 10:34

Consult http://www.boost.org/doc/libs/1_47_0/libs/smart_ptr/shared_ptr.htm#comparison (or TR1, or the C++11 standard).

If two shared_ptr point to the same object, then they compare as equivalent under operator<, so they're duplicates as far as std::set<shared_ptr<bead> > is concerned.

share|improve this answer

In general, think of a shared pointer as if it was a standard pointer as this is usually (I say usually to be conservative) the goal behind the shared pointer class.

Also, the notion behind shared pointer is definitely not about being the “owner” of a standard pointer but the opposite, ie: sharing the ownership amongst multiple participants.

Two different shared pointer instances (with the same pointee inside) should (will) compare equal, any other behaviour would be extremely counter intuitive.

If the use of the std::set was to restrict to unique entries, then it should perform as expected, however if you expect duplicates, you will need another container like a std::vector.

Hope this help

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.