There are many different schemes that people have used over the years, some better or worse. Good strategies define a rigid and consistent pattern that establishes rules for 'ownership' of a resource, i.e. responsibility for cleaning up and ensuring nothing accesses the resource illegally. The rules of successful strategies are also such that only a local view of the resource and how it's used is necessary for safe access to the resource.
The strategy you should be using in modern C++ is called RAII or 'resource acquisition is initialization'. What that name means is that any resource that's acquired should be an initialization. For example:
std::string s = "Hello, World";
This code acquires some memory as a resource for storing the string data, but all you see is that the string is initialized. The object that is initialized owns the memory. That means it's responsible for managing the memory's lifetime and restricting access to it. Code using the object doesn't need to consider the resource at all. It only has to be sure it's using the object itself correctly, and the hidden resource's lifetime will be managed correctly in turn.
Using RAII is not only convenient for keeping normal management of a resource localized, it also greatly simplifies correctly cleaning up resources in the presence of exceptions. When a scope is exited due to an exception, C++ guarantees to destroy all completely constructed objects in that scope. If the necessary tasks for cleaning up resources is done by object destructors, then the resources will not leak, and there's no need to add explicit exception handling to every scope in which a resource is used.
C++ already includes resource owning classes for many types of resources. For a dynamically sized array use a
// or C++03
void main(int argc, char **argv)
std::vector<CString> tmp = xyz();
// now we have the CString array defined in xyz
// the array gets automatically cleaned up by std::vector's destructor