Moving a shared_ptr will set the moved shared_ptr to nullptr so why it is allowed to do this in a const_iterator ?
std::vector<std::shared_ptr<std::string>> sharedPtrVector;
sharedPtrVector.push_back(std::shared_ptr<std::string>(new std::string("test")));
for (std::vector<std::shared_ptr<std::string>>::const_iterator it = sharedPtrVector.begin(); it != sharedPtrVector.end(); ++it) {
// Not allowed if const_iterator
//*it = nullptr;
// Not allowed if const_iterator
//*static_cast<std::shared_ptr<std::string> *>(&*it) = nullptr;
// Allowed even if const_iterator
std::shared_ptr<std::string> test(std::move(*it));
}
sharedPtrVector is in an undefined state after that.
std::move
does not move, nor does it enforce moving. It rather allows moving from an lvalue. Whether or not an actual move operation occurs depends on the cv-qualification (type) of the operand, the the constructors of the destination type. In this case, I think the construction oftest
copies theshared_ptr
.std::move
returnsconst std::shared_ptr<> &&
. There is no such constructor ofstd::shared_ptr
, so closest match isshared_ptr( const shared_ptr& r );
- usual copy constructor.for(auto it=sharedPtrVector.cbegin(); it!=sharedPtrVector.cend(); ++it)
for(auto const& e : sharedPtrVector)
?