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I have derived a class from std::exception:

class exc : public std::exception
    exc(const text::_char *) throw();
    exc(const exc &) throw();
    virtual ~exc() throw();

    text::_char *m_what;

I have two wrapper functions to throw my exception type:

PS: dbg_out refers to std::cout. text is a descendant of std::basic_string<< char >>.

void throw_exception(const text::_char *p_format, ...)
    va_list l_list;

    text l_message;

    va_start(l_list, p_format);
    l_message.format_va(p_format, l_list);
    throw exc((const text::_char *)l_message);

void throw_exception_va(const text::_char *p_format, va_list p_list)
    text l;
    exc l_exc((const text::_char *)l.format_va(p_format, p_list));

    dbg_out << l_exc.m_what;
    throw l_exc;

And the main function:

int main(int, char **)
        throw_exception("hello world!");
        return 0;
    catch(const std::exception &p)
        return 0;

My program crashes with this message:

hello world!
This application has requested the Runtime to terminate it in an unusual way.
Please contact the application's support team for more information.

I use gcc compiler (latest MinGW version)

My program does not enter the catch handler in the main function. It doesnot call the copy constructor of class exc. It looks like the code generated by gcc, does not recognize exc as a descendant of std::exception.

What am I doing wrong?

share|improve this question
Have you run it under a debugger? – Marcelo Cantos Dec 5 '11 at 21:41
Don't use va_list, it's horrible and not type-safe. Use variadic templates instead. – Cat Plus Plus Dec 5 '11 at 21:42
I believe not ending a variadic function with va_end is undefined behaviour. – Kerrek SB Dec 5 '11 at 21:42
text is a descendant of std::basic_string ?? ... and what's vlb? A class? A namespace? – Charles Bailey Dec 5 '11 at 21:54
There is not enough information to answer the question, my guess is that ‘text‘ is not convertible to ‘const text::_char*‘ and the C cast is forcing a ‘reinterpret_cast‘ and causing the problem. You need to define what ‘text‘ is – David Rodríguez - dribeas Dec 5 '11 at 22:13

2 Answers 2

I'd wager your problem is on this line:

throw exc((const text::_char *)l_message);

You mention text is derived from basic_string<char>. There is no supported cast from basic_string<char> to const char*. So unless you're providing your own conversion operator in the derived class, you're kind of off into undefined/unspecified behavior here. Try changing the above line to:

throw exc(l_message.c_str());
share|improve this answer
I have an operator const text::_char * that does just that (call basic_string::c_str()). I found the answer. The constructor is called after the memory it copies has been deleted. l_message is long gone before the exc object is constructed (l_message is a local variable) – bert-jan Dec 5 '11 at 22:27
-1 l_message goes out of scope upon throwing, so the pointer returned by c_str() will be garbage. – ildjarn Dec 6 '11 at 2:38
@bert-jan: "I have an operator const text::_char *..." - Isn't it great writing (const text::_char *)l_message instead of l_message.c_str()? :) @ildjarn: The exception class should make a copy, so no problem there (unless the derived class constructor is not implemented properly). – visitor Dec 6 '11 at 8:44
@visitor : The definition of exc in the question doesn't have a copy-assignment operator, which implies that it probably just stores the pointer it's given (i.e., the rule of three is not implemented as it should be if the object owns the string). In any case, you're correct that the exception class should make a deep copy, so -1 removed. – ildjarn Dec 6 '11 at 20:28

This is what I wrote on dec. 5th:

The memory copied by the constructor of exc has been deleted before it was copied. Access Violation guaranteed! I have learned one more thing about this wonderful programming language (what happens behind the scenes when you 'throw exc(some_deleted_memory)'.

<< end dec. 5th>>

This is not the real problem. The real problem is that gcc-compiler (with the options:)

    gcc -fexceptions -Wnoexcept -fno-use-cxa-get-exception-ptr -include .\pch.h -g3 *.cpp 
    -l libstdc++ -o vlb.exe

does not like exceptions to be thrown against the 'throw()' specifications of the function declarations. When 'throw_exception()' is declared as

    void throw_exception() throw(const std::exception &);

all is fine.

I have always thought that (at least software-) exceptions may occur at every call-statement, and the stack unwind procedure must be able to deal with that. I don't like the idear that I would have to specify what type of exceptions could possibly leave a function for every function I write.

Somehow, I should be able to specify that any type of software exception could leave any function I write, on gcc's commandline. But how? I will post a new question for this new topic.

Thanks to all who have thought along for me.

share|improve this answer
One more thing you need to learn - there are no guarantees. When you enter the realm of undefined behavior anything can happen, from crashing to appearing to work to having demons fly from your nose. – Mark Ransom Dec 5 '11 at 22:41
Instead of posting your own answer, you should have posted more relevant code and have people show you the light (e.g the constructor of your exc). Class exc seems to be particularly fishy. Normally you'd inherit from one of the standard exception classes that has the constructor taking const std::string&, and the implementation of your constructor would look like: exc::exc(const std::string& msg): std::runtime_error(msg) {}. – visitor Dec 6 '11 at 8:54
Don't bother with exception specifications (except perhaps throw() if you want to make sure no exception leaves the function). - It still looks like you are getting different results from undefined behavior: void throw_exception(); means the function is allowed to throw any exception. void throw_exception() throw (std::exception); means only those exceptions are allowed to leave the function, otherwise program will be terminated (after giving you a chance to rectify the situation). No idea what effect the const reference might have in the exception specifier. – visitor Dec 7 '11 at 11:19

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