I am designing an exception hierarchy in C++ for my library. The "hierarchy" is 4 classes derived from std::runtime_error. I would like to avoid the slicing problem for the exception classes so made the copy constructors protected. But apparently gcc requires to call the copy constructor when throwing instances of them, so complains about the protected copy constructors. Visual C++ 8.0 compiles the same code fine. Are there any portable way to defuse the slicing problem for exception classes? Does the standard say anything about whether an implementation could/should require copy constructor of a class which is to be thrown?
Edit: Answering my own questions
Thanks for the answers. The two portable ways I have found to stop clients of my library from catching exceptions incorrectly by value are
- Throw exceptions from inside virtual raise methods of the exception classes, and make copy constructors protected. (Thanks D.Shawley)
- Throw derived exceptions from the library and publish exception base classes for clients to catch. The base classes could have protected copy constructors, which only allows the good way of catching them. (mentioned here for a simmilar question)
The C++ standard does state that copy constructor needs to be accessible at the point of throw. Visual C++ 8.0 in my configuration violated this part of the standard by not enforcing the presence of the copy constructor. In section 15.1.3:
A throw-expression initializes a temporary object, the type of which is determined by removing any top-level cv-qualifiers from the static type of the operand of throw and adjusting the type from “array of T” or “function returning T” to “pointer to T” or “pointer to function returning T”, respectively.
If the use of the temporary object can be eliminated without changing the meaning of the program except for the execution of constructors and destructors associated with the use of the temporary object (12.2), then the exception in the handler can be initialized directly with the argument of the throw expression. When the thrown object is a class object, and the copy constructor used to initialize the temporary copy is not accessible, the program is ill-formed (even when the temporary object could otherwise be eliminated)