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I discuss the Exception Safety Guaratees and devised an example that I think provides the Strong Guarantee:

template<typename E, typename LT>
void strongSort(vector<E*> &data, LT lt) // works on pointers
  vector<E*> temp { data };  // bad_alloc? but 'data' not changed. 
  sort(temp.begin(), temp.end(), lt); // 'lt' might throw!
  swap(temp, data); // considered safe.

Just an easy (C++0x)-example how this is used:

int main() {
  vector<int*> data { new int(3), new int(7), new int(2), new int(5) };
  strongSort( data, [](int *a, int *b){ return *a<*b;} );
  for(auto e : data) cout << *e << " ";

Assuming LT does not change the elments, but it may throw. Is it correct to assume thiat the code provides

  • the Strong Exception Safety guarantee
  • Is Exception Neutral, w.r.t to LT
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I would do away with using pointers within the vector, they make things awkward for no real benefit. std::vector<int> would illustrate your point as well, and save you from memory leaks. –  Matthieu M. Aug 7 '11 at 15:36
Well, yes. int is a bad example, I should have done this with Image. And then, I agree with jagansai below, I should use shared_ptr. –  towi Aug 8 '11 at 8:57
not necessarily (the resource is not shared) a unique_ptr would do well (if you have C++0x) –  Matthieu M. Aug 8 '11 at 9:47
This would break the point of my example, where I want to show the copy-work-swap-Idiom for the strong exception safe guarantee With the unique_ptr one can not copy, only move. Therefore, if anything goes wrong in the LT-oepration, the strong exception guarantee is broken. –  towi Aug 8 '11 at 9:50
right... the resource is shared because of an implementation detail. Perhaps that the right fix would be to use a std::vector<std::unique_ptr<Image>> to store the images, and supplement it by a std::vector<Image*>, that would serve as an index, and then sort the index, not the content holder. (I don't like shared_ptr much, shared ownership is usually an indication of a faulty design). –  Matthieu M. Aug 8 '11 at 9:57

2 Answers 2

up vote 1 down vote accepted

Yes. Strong exception guarantee means that the operation completes successfully or leaves the data unchanged.

Exception neutral means that you let the exceptions propagate.

share|improve this answer

It is exception safe. To be more safe, why not use vector<shared_ptr<int>>

template<typename Type, typename Func>
void StrongSort( vector<shared_ptr<Type>>& elems, Func fun)
    vector<shared_ptr<Type>> temp ( elems.begin(), elems.end());
    sort(temp.begin(), temp.end(), fun);
    swap(elems, temp);

vector<shared_ptr<int>> ints;
ints.push_back(shared_ptr<int>(new int(3)));
ints.push_back(shared_ptr<int>(new int(1)));
ints.push_back(shared_ptr<int>(new int(2)));
StrongSort(ints, [](shared_ptr<int> x, shared_ptr<int> y) -> bool { return *x < *y; });
share|improve this answer
two reasons: a) in my tutorial I have not covered shared_ptr at that point. b) shared_ptr comes with more runtime overhead. there is no real "share semantics" here, so no need for shared_ptr. But you could convince me to using unique_ptr -- they should come for free, but may render the example useless, because I can not make a copy of a vector of them ;-) –  towi Aug 7 '11 at 14:05
True. shared_ptr comes with an overhead. I was just trying to say, if you are using objects in place of primitive types, it's more safer to use "vector of shared_ptrs" instead of vector of pointers. –  Jagannath Aug 7 '11 at 15:07

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