How can we use an overloaded operator to prevent memory leaks in C++?
Any complete example..
If you want to avoid memory leaks, don't use
It may seem paradoxical, but the truth is that manual memory management is error prone, it is best to use automatic (or library) technics.
In C++, for each object that you create, there should be a clear ownership. That is, you should be able to identify the object lifetime, possibly depending on some others.
The first step is to avoid dynamic memory allocation: if you do not use
Many use of
The second step is to use
A single owner is easy to track down, and since the object's lifetime is tied to its owner, therefore the object's lifetime is easy to track down too.
The third step is the delicate one, the introduction of shared ownership. It really complicates all reasoning around the object's lifetime, and introduces the risk of cycles of references, which effectively mean memory leaks. They are required in some situations, but best avoided whenever possible.
The latter is used to "break" cycles. However it can quickly become difficult to understand where to introduce the
As noted by Tobias, this idiom is known as Resources Acquisition Is Initialization (RAII), which is awkwardly named. A newer term is emerging: Scoped Bound Resources Management (SBRM) to describe a subset of it --> binding the resources to a scope.
Just to add some more generality to Matthieus answer:
Whenever you use a resource that needs to be freed (memory, network connections, file handles, windows handles, ...) use Resource Acquisition Is Initialization (RAII).
One manifestation of this idiom are the std::unique_ptr and boost::scoped_ptr mentioned above. If you do not have a RAII container for the needed resource available - build one. It's always worth it.
Most people recommend using Boost or STL but there are cases where this is not possible (on operating system development, embedded systems with limited resources, etc.). In that case make sure that you use the stack whenever possible and that you only use
If you want to avoid memory leaks don't roll your own solution use boost.shared_ptr. If you really want to do it manually then put your clean up code in the destructor.