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Say I've written some function myFunc that can throw const char* exceptions:

void myFunc()
{
    int returnCode = whatever();
    if (!returnCode)
    {
        std::string msg;
        msg.append("whatever function failed");
        std::cerr << msg << std::endl; // print warning message
        throw msg.c_str(); // throw warning message as exception
    }
}

And later I'm using it like so:

void myProgram()
{
    try
    {
        myFunc();
    }
    catch(const char* str)
    {
        // is 'str' string memory valid here?
    }
}

I realize this isn't really a good strategy for exception usage: better to throw and catch exception classes, not strings. But I'm curious about the scoping involved here.

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1  
it is difficult to answer your question when you change it in response to the answers. –  Robᵩ May 4 '11 at 18:04
    
@Rob I see that now. I will avoid doing so in the future. Thanks for the feedback. –  Mike Clark May 4 '11 at 18:07

4 Answers 4

up vote 1 down vote accepted

msg.str() returns a temporary std::string. As temporaries are deleted at the end of a statement ;, the contents of the character string returned by c_str() become undefined when the throw ... ; statement terminates by leaving the scope via the exception mechanism.

(The lifetime of the const char* temporary is obviously extended to reach to the catch handler, but that does not help since the underlying buffer is gone).


Throwing std::string (i.e. throw msg.str();) would work, the lifetime of the temporary would be extended as intended.

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Sorry, my example program was not focused enough because it used ostringstream in addition to string. I modified it to use just string, so we can ignore the implications of using ostringstream. Thanks! –  Mike Clark May 4 '11 at 17:56
1  
The lifetime of the temporary would not be extended, but since throwing copies what's being thrown, that's not a problem. (When throwing a char const*, of course, what is copied is only the pointer, not what it points to.) –  James Kanze May 4 '11 at 17:56
2  
@Mike Clark The advice remains essentially the same - prefer to throw std::string. You can use const char* only safely if it points to a statically allocated memory area which is still valid at the catch-site. throw "whatever function failed" would therefore be fine. –  Alexander Gessler May 4 '11 at 17:58
    
What if the creation of the temporary std::string object threw an exception? See my answer (and suggested solution). –  Unsigned Jul 14 '12 at 23:40

Indeed the c_str() call is acting on a temporary (string) object and the pointer will be invalid when you catch it.

Not only that, but since the stringstream and stringcould do allocation, you need to make sure that you're not throwing because of heap problems. If you're at that point due to being out of memory you may bomb out even worse trying to create your exception. You generally want to avoid heap allocation during exceptional cases.

Are you unable to use say runtime_error or create your own exception type?

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Sorry, my example program was not focused enough because it used ostringstream in addition to string. I modified it to use just string, so we can ignore the implications of using ostringstream. We are indeed converting to use real exception classes, and will develop a pattern of using runtime_error in case of allocation problems. However, I still am curious about this. Thanks! –  Mike Clark May 4 '11 at 17:59

Note that if you had said:

throw "error";

you would be OK because the lifetime of the string literal is the lifetime of the program. But don't do it, anyway!

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Something Alexander Gessler did not mention in his answer, is the possibility of an exception being thrown by by std::string itself during the creation of the temporary string object.

std::exception is guaranteed not to throw an exception during construction, std::string has no such guarantee.

An alternative approach (for classes) is to declare a private std::string object in your class. Assemble the error message prior to the throw, and then throw the c_str(). This will throw a const char* exception, the error message being valid until the next exception is thrown from that class (which would presumably modify the error string again.)

A simple example can be found here: http://ideone.com/d9HhX

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