Just what the topic asks. Also want to know why non of the usual examples of CRTP do not mention a
EDIT: Guys, Please post about the CRTP prob as well, thanks.
Only virtual functions require dynamic dispatch (and hence vtable lookups) and not even in all cases. If the compiler is able to determine at compile time what is the final overrider for a method call, it can elide performing the dispatch at runtime. User code can also disable the dynamic dispatch if it so desires:
On whether you should provide virtual destructors in all cases of inheritance, the answer is no, not necessarily. The virtual destructor is required only if code
The second part of the rule ensures that user code cannot delete your object through a pointer to the base, and this implies that the destructor need not be virtual. The advantage is that if your class does not contain any virtual method, this will not change any of the properties of your class --the memory layout of the class changes when the first virtual method is added-- and you will save the vtable pointer in each instance. From the two reasons, the first being the important one.
The problem in the last line of main can be resolved in two different ways. If the
In the particular case of the CRTP pattern (excuse the redundant pattern), most authors do not even care to make the destructor protected, as the intention is not to hold objects of the derived type by references to the base (templated) type. To be in the safe side, they should mark the destructor as protected, but that is rarely an issue.
The answer to your first question: No. Only calls to virtual functions will cause an indirection via the virtual table at runtime.
The answer to your second question: The Curiously recurring template pattern is commonly implemented using private inheritance. You don't model an 'IS-A' relationship and hence you don't pass around pointers to the base class.
For instance, in
You don't have code which takes a
Very unlikely indeed. There's nothing in the standard to stop compilers doing whole classes of stupidly inefficient things, but a non-virtual call is still a non-virtual call, regardless of whether the class has virtual functions too. It has to call the version of the function corresponding to the static type, not the dynamic type:
So there's absolutely no need for the implementation to put non-virtual functions in the vtable, and indeed in the vtable for
CRTP base classes really ought to have destructors that are non-virtual and protected.
A virtual destructor is required if the user of the class might take a pointer to the object, cast it to the base class pointer type, then delete it. A virtual destructor means this will work. A protected destructor in the base class stops them trying it (the
See guideline #4 here, and note that "recently" in this article means nearly 10 years ago:
No user will create a
The reason it's undesirable for it to be virtual, given that it doesn't need to be, is just that there's no point giving a class virtual functions if it doesn't need them. Some day it might cost something, in terms of object size, code complexity or even (unlikely) speed, so it's a premature pessimization to make things virtual always. The preferred approach among the kind of C++ programmer who uses CRTP, is to be absolutely clear what classes are for, whether they are designed to be base classes at all, and if so whether they are designed to be used as polymorphic bases. CRTP base classes aren't.
The reason that the user has no business casting to the CRTP base class, even if it's public, is that it doesn't really provide a "better" interface. The CRTP base class depends on the derived class, so it's not as if you're switching to a more general interface if you cast
Firstly, I think the answer to the OP's question has been answered quite well - that's a solid NO.
But, is it just me going insane or is something going seriously wrong in the community? I felt a bit scared to see so many people suggesting that it's useless/rare to hold a pointer/reference to Base. Some of the popular answers above suggest that we don't model IS-A relationship with CRTP, and I completely disagree with those opinions.
It's widely known that there's no such thing as interface in C++. So to write testable/mockable code, a lot of people use ABC as an "interface". For example, you have a function
In some domain where performance is critical, there exists another way(pattern two) to model IS-A relationship in a testable/mockable manner - via CRTP. And really, performance boost can be impressive(600% in the article) in some cases, see this link. So MyFunc will look like this
Now, can someone please tell me either I am talking insane nonsense or the answers above simply did not consider the second pattern to model IS-A relationship with CRTP?