What all the answers given so far boil down to is this: avoid having to call
Any time the programmer has to call
delete, you have a potential memory leak.
Instead, make the
delete call happen automatically. C++ guarantees that local objects have their destructors called when they go out of scope. Use that guarantee to ensure your memory allocations are automatically deleted.
At its most general, this technique means that every memory allocation should be wrapped inside a simple class, whose constructor allocates the necessary memory, and destructor releases it.
Because this is such a commonly-used and widely applicable technique, smart pointer classes have been created that reduce the amount of boilerplate code. Rather than allocating memory, their constructors take a pointer to the memory allocation already made, and stores that. When the smart pointer goes out of scope, it is able to delete the allocation.
Of course, depending on usage, different semantics may be called for. Do you just need the simple case, where the allocation should last exactly as long as the wrapper class lives? Then use
boost::scoped_ptr or, if you can't use boost,
std::auto_ptr. Do you have an unknown number of objects referencing the allocation with no knowledge of how long each of them will live? Then the reference-counted
boost::shared_ptr is a good solution.
But you don't have to use smart pointers. The standard library containers do the trick too. They internally allocate the memory required to store copies of the objects you put into them, and they release the memory again when they're deleted. So the user doesn't have to call either
There are countless variations of this technique, changing whose responsibility it is to create the initial memory allocation, or when the deallocation should be performed.
But what they all have in common is the answer to your question: The RAII idiom: Resource Acquisition Is Initialization. Memory allocations are a kind of resource. Resources should be acquired when an object is initialized, and released by the object itslef, when it is destroyed.
Make the C++ scope and lifetime rules do your work for you. Never ever call
delete outside of a RAII object, whether it is a container class, a smart pointer or some ad-hoc wrapper for a single allocation. Let the object handle the resource assigned to it.
delete calls happen automatically, there's no way you can forget them. And then there's no way you can leak memory.