Quick answer : smart pointers are useful for (notably)
- Enforcing RAII
- Managing pointers ownership
One problem that comes with pointers and cause (in many way, some obvious, some twisted) crashes in your program is that you are responsible for the memory underneath them. That means that when you allocate memory dynamically (through
new), you are responsible for this memory, and must not forget to call
delete. That means it will happen, and worse, there are case where even if you didn't forget, the delete statement will never be reached.
Consider this code :
MyClass* var = new MyClass;
Now, if this function throw an exception before the delete statement is reached, the pointer will not be deleted... Memory leak !
RAII is a way to avoid this :
std::shared_ptr<MyClass> var(new MyClass);
//No need to delete anything
The pointer is held by an object, and deleted in its destructor. The difference with the previous code is that, if the function throw an exception, the destructor of the shared pointer will be called and the pointers will thus be deleted, avoiding a memory leak.
RAII takes advantages of the fact that when a local variable goes out of scope, its dtor is called.
Managing pointers ownership
Note which smart pointer I used in the previous example. The
std::shared_ptr is a smart pointer that is useful when you pass pointers around. If many part of your code need a pointer to the same object, it can be tricky to decide where it should be deleted. You might want to delete the pointer somewhere, but what if another part of your code is using it ? It results in an access to a deleted pointer, which is not desirable at all !
std::shared_ptr helps prevent this. When you pass a shared_ptr around, it keeps track of how many part of the code have a reference to it. When there isn't any reference to the pointer anymore, this pointer deletes the memory. In other terms when nobody uses the pointer anymore, it is safely deleted.
There are other kind of smart pointers that address other issue, like
std::unique_ptr which provide a pointer that is the only owner of the pointer underneath it.
Note - Small explanation on polymorphism
You need pointers to use polymorphism. If you have an abstract class
MyAbstract (that means, it have at least one virtual, say
doVirtual()), it cannot be instantiated. The following code :
won't compile, you'll get something along the line of
Can't instantiate abstract class from your compiler.
But this is legal (with both
ImplB inheriting publicly from
MyAbstract* varA = new ImplA;
MyAbstract* varB = new ImplB;
varA->doVirtual(); //Will call ImplA implementation
varB->doVirtual(); //Will call ImplB implementation