Firstly, the line
is causing a memory leak. The value returned from
new string("1") is a pointer to a newly allocated string object. But when you dereference it and insert it into the vector, a copy of the heap-allocated object is created and inserted. However, the actual string object you originally allocated on the heap is leaked.
Essentially, your vector is storing string objects by value, not pointers to string objects. The copy of the string object that is inserted into the vector is NOT a heap allocated object (not an object allocated with
new). And of course, you cannot
delete something that wasn't allocated with
new. So when you call
delete(ptr) you are causing undefined behavior.
What you seem to want here is a:
vector<string*>* vec = new vector<string*>;
However, in general I don't see any compelling reason why you are allocating everything on the heap. In C++ it is preferable to use stack allocation and containers with value semantics whenever feasible, unless you have some reason why you need heap allocation (e.g. a container of polymorphic objects, in which case you should use smart pointers anyway). Generally, when new C++ programmers use heap-allocated objects and the
new keyword all over the place, it is a sign that they are poorly transliterating a programming style imported from a managed language like Java or C#.