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How can I delete a pointer in a vector after std::unique is called?

For example:

struct Foo
    Foo(int bar) : mBar(bar) {}
    ~Foo() { std::cout << "~dtor\n"; }

    int mBar;

bool SortFunc(Foo * right, Foo * left) { return right->mBar < left->mBar; }

// Should I 'delete left;' in case of equality?
bool CompareFunc(Foo * right, Foo * left)
    return right->mBar == left->mBar;

// NOTE: In my code, vector is initialized in another class which I cannot modify.
void InitializeList(std::vector<Foo *> & fooList)
    Foo * firstFoo = new Foo(1);
    Foo * secondFoo = new Foo(2);
    // This pointer will not be in vector anymore after std::unique is called!
    Foo * thirdFoo = new Foo(1);
    Foo * forthFoo = new Foo(4);


int main()
    { // Block exists to see if Foo::dtor is called.
    std::vector<Foo *> fooList;

    std::sort(fooList.begin(), fooList.end(), SortFunc);

    std::vector<Foo *>::iterator itrResult = fooList.end();
    // Pointer to thirdFoo is dangling after std::unique is called.
    itrResult = std::unique(fooList.begin(), fooList.end(), CompareFunc);
    fooList.erase(itrResult, fooList.end());

    // ... Other operations and clean up code.
    return 0;
share|improve this question
Use smart pointers. –  chris Feb 4 '13 at 0:45
Iterate from itrResult to fooList.end() and call delete on each element before calling fooList.erase()? –  juanchopanza Feb 4 '13 at 0:47
In your example you can also just store Foo in vectors by value. –  dragonroot Feb 4 '13 at 0:48
chris, dragonroot: I cannot modify InitializeList section of the code. –  Murat Ender Feb 4 '13 at 0:48
juanchopanza: std::unique performs a different allocation on vector of pointers. Actually, itrResult++ points to forthFoo and if you erase it, forthFoo will be deleted. –  Murat Ender Feb 4 '13 at 0:51

2 Answers 2

You can insulate yourself from the poorly implemented InitializeList by immediately wrapping its result in smart pointers:

std::vector<std::unique_ptr<Foo>> foos;
  std::vector<Foo *> foo_ptrs;
  foos.assign(foo_ptrs.begin(), foo_ptrs.end());

Now you can call std::unique on foos and know that nothing will leak. If you're doing this often a wrapper function might be a good idea:

std::vector<std::unique_ptr<Foo>> get_foos() {
  std::vector<Foo *> foo_ptrs;
  return {foo_ptrs.begin(), foo_ptrs.end()};
share|improve this answer
C++11 is not used in our project. –  Murat Ender Feb 4 '13 at 1:18
@MuratEnder, There's still Boost and cough std::auto_ptr cough –  chris Feb 4 '13 at 1:25
Even if it is stated that "The function shall not modify any of its arguments." in std::unique documentation, what happens if I delete left pointer in CompareFunc when right and left are equal? When I try that option, it seems to perform well, but it looks like hackin :? –  Murat Ender Feb 4 '13 at 1:32
@MuratEnder I think that's a terrible hack. It would be much not to use unique() and write custom function for that. –  svick Feb 4 '13 at 1:34
That s the another point I am looking for. Why std::unique should not modify its arguments? I had no trouble in that modification for delete left; –  Murat Ender Feb 4 '13 at 1:41

As juanchopanza mentioned, you need to call delete explicitly on duplicate elements.

The leak is here:

   fooList.erase(itrResult, fooList.end());

The erase will simply remove the pointers between the two iterators. You have to call delete on them first.

share|improve this answer

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