(Here's the same thing in a minimal-ish testcase.)
runtime_error::runtime_error(string const&) doesn't need to meet
It doesn't inherit from or override
exception::exception(), and by the time
string's copy constructor is invoked,
exception::exception() has completed.
If copying the
string were to throw an exception, this would unwind
runtime_error::runtime_error(string const&) and then, I suppose, invoke
It's hard to directly show that there is no requirement of a derived ctor to meet a base ctor's exception specifier, but it is strongly implied by the following passage (which describes how the base's destructor is invoked, rather than passing the exception into the base constructor):
[2003: 15.2/2] An object that is partially constructed or
partially destroyed will have destructors executed for all of its
fully constructed subobjects, that is, for subobjects for which the
constructor has completed execution and the destructor has not yet
begun execution. Should a constructor for an element of an automatic
array throw an exception, only the constructed elements of that array
will be destroyed. If the object or array was allocated in a
new-expression, the matching deallocation function (220.127.116.11, 5.3.4,
12.5), if any, is called to free the storage occupied by the object.
The only passage which comes even close to the scenario you presumed (and which I initially presumed) is the following.
[2003: 15.4/3] If a virtual function has an exception-specification,
all declarations, including the definition, of any function that
overrides that virtual function in any derived class shall only allow
exceptions that are allowed by the exception-specification of the base
class virtual function.
exception::exception() is not a virtual function, and clearly
runtime_error::runtime_error(string const&) does not override it.
(Note that this scenario would apply for a virtual destructor; accordingly, you can see that, in libstdc++,