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Consider the following code:


class A
{
public:
    virtual void f() throw ( int ) { }
};

class B: public A
{
public:
    void f() throw ( int, double ) { }
};

When compiled, it says that derived class B has a looser throw specifier compared to A. What is the importance of this? If we try to exchange their exception specification, such that A::f() throws int and double while B::f() throws only int, the error does not appear.

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2  
I sincerely hope you never throw instances of classes that are not meant to be used as exceptions and this is merely for a quick and dirty illustration of your question :) –  Matthieu M. Mar 5 '10 at 18:00
    
Matthieu: Ah, yes of course. I understand. –  jasonline Mar 6 '10 at 1:25

2 Answers 2

up vote 13 down vote accepted
  1. Don't use exception specifications in C++. It's very counter-intuitive compared to, say, Java's ones.
  2. Having a wider specification in the derived class breaks LSP (Liskov Substitution Principle).

To expand on point 2: A's callers expect that only int comes out, but if you use a B (which, because it's publicly derived from A, also means it's usable as an A), suddenly double can come out too, and that would break A's contract (that only int gets thrown).

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1  
For Herb Sutter's take on this (which agrees with Chris's), see gotw.ca/publications/mill22.htm –  anon Mar 5 '10 at 15:12
1  
In fact, C++ even checks for this in implicit function declarations (for functions it directly calls from those, their exception spec includes the called function's specs): struct A { virtual ~A() throw(); }; struct B { ~B() throw(int); }; struct C : A, B { }; /* error: ~C() has throw(int), but ~A() has throw()! */ –  Johannes Schaub - litb Mar 5 '10 at 15:12
    
@Neil: Thanks for the link; I've changed my link (originally a GotW one) to use it. :-) –  Chris Jester-Young Mar 5 '10 at 15:15

Your B violates the Liskov Substitution Principle - eg:

void foo(A* a) throw() // ie I will not throw
{
  try
  {
     a->f();
  }
  catch(int)
  {}
}

This is valid according to the interface for A; in particular, we do not expect a double to be thrown. But consider if we were to call

foo(new B)

with the interface you describe, and

B::f()
were to throw a double.

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