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Why did the C++ standard bother inventing the std::exception classes? What's their benefit? My reason for asking is this:

  throw std::string("boom");
catch (std::string str)
  std::cout << str << std::endl;

Works fine. Later, if I need, I can just make my own lightweight "exception" types. So why should I bother with std::exception?

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please notice, that it is a good programming practice to capture exceptions by reference rather than by value –  Andy Prowl Jan 19 '13 at 13:45

6 Answers 6

up vote 10 down vote accepted

Why did the C++ standard bother inventing the std::exception classes? What's their benefit?

It provides a generic and consistent interface to handle exceptions thrown by the standard library. All the exceptions generated by the standard library are inherited from std::exception.

Note that standard library api's can throw a number of different kinds of exceptions, To quote a few examples:

  • std::bad_alloc
  • std::bad_cast
  • std::bad_exception
  • std::bad_typeid
  • std::logic_error
  • std::runtime_error

and so on...
std::exception is the base class for all these exceptions:

exceptions hierarchy

providing a base class for all these exceptions, allows you to handle multiple exceptions with a common exception handler.

If I need, I can just make my own lightweight "exception" types. So why should I bother with std::exception?

If you need your custom exception class go ahead and make one. But std::exception makes your job easier because it already provides a lot of functionality which a good exception class should have. It provides you the ease of deriving from it and overidding necessary functions(in particular std::exception::what()) for your class functionality.
This gives you 2 advantages the std::exception handler,

  • can catch standard library exceptions as well as
  • exceptions of the type of your custom exception class

Image courtesy: http://www.tutorialspoint.com

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I would argue that what is not an example of a good function though. I take exception (!) at the fact it returns a C-string. For god's sake, it's 2013! –  Matthieu M. Jan 19 '13 at 17:25

Why did the C++ standard bother inventing the std::exception classes? What's their benefit?

Having different kinds of exceptions allows you to catch specific types of errors. Deriving exceptions from a common base allows for granularity in catching more generic or specific errors depending on circumstance.

In C++ an existing type system is already in place, so standardizing error strings was unnecessary when you can explicitly create an exception of a desired type in the language.

std::exception and its derived classes exist for two main reasons:

  1. The standard library has to have some kind of exception hierarchy to throw in exceptional circumstances. It would be inappropriate to always throw an std::string because you would have no clean way to target specific kinds of errors.

  2. To provide an extensible class based interface for library vendors to throw the most basic error types and provide a common fallback for users. You may want to provide more error metadata than a simple what() string so that the person catching your error can more intelligently recover from it.

    At the same time std::exception as a common base allows a general catchall less all-encompassing than ... if the user only cares about that error message.

If all you ever do is print and quit then it doesn't really matter, but you may as well use std::runtime_error which inherits from std::exception for catch convenience.

Later, if I need, I can just make my own lightweight "exception" types. So why should I bother with std::exception?

If you inherit from std::runtime_error and use your own custom error type then you can retroactively add error metadata without having to rewrite catch blocks! In contrast, if you ever changed your error handling design then you would be forced to rewrite all your std::string catches because you cannot safely inherit from std::string. It is not a forward-looking design decision.

If that doesn't seem so bad right now, imagine if your code were to become shared across multiple projects as a shared library with various programmers working on it. Migrating to the new version of your library would become a pain.

This isn't even mentioning that std::string can throw its own exceptions during copy, construction, or access of characters!

Boost's website has some good guidelines in exception handling and class construction here.

User Story

I am writing some network code and using a third party vendor's library. On an invalid ip address being entered by the user this library throws a custom exception nw::invalid_ip derived from std::runtime_error. nw::invalid_ip contains a what() describing the error message, but also the incorrect_ip() address supplied.

I also use std::vector to store sockets, and am making use of the checked at() call to safely access indices. I know that if I call at() on a value out of bounds std::out_of_range is thrown.

I know other things may be thrown as well, but I do not know how to handle them, or what exactly they might be.

When I get an nw::invalid_ip error I pop up a modal with an input box for the user populated with the invalid ip address so they can edit it and try again.

For std::out_of_range issues, I respond by running an integrity check on the sockets and fixing the vector/socket relationship that has fallen out of synch.

For any other std::exception issues I terminate the program with an error log. Finally I have a catch(...) which logs "unknown error!" and terminates.

It would be difficult to robustly do this with only std::string being thrown.

Here's a basic example of a few things being thrown in different cases so you can play with catching exceptions.


#include <vector>
#include <iostream>
#include <functional>
#include <stdexcept>
#include <bitset>
#include <string>

struct Base1 {
    virtual ~Base1(){}
struct Base2 {
    virtual ~Base2(){}

class Class1 : public Base1 {};
class Class2 : public Base2 {};

class CustomException : public std::runtime_error {
    explicit CustomException(const std::string& what_arg, int errorCode):
    int whatErrorCode() const {
        return errorCode;
    int errorCode;

void tryWrap(typename std::function<void()> f){
    try {
    } catch(CustomException &e) {
        std::cout << "Custom Exception: " << e.what() << " Error Code: " << e.whatErrorCode() << std::endl;
    } catch(std::out_of_range &e) {
        std::cout << "Range exception: " << e.what() << std::endl;
    } catch(std::bad_cast &e) {
        std::cout << "Cast exception: " << e.what() << std::endl;
    } catch(std::exception &e) {
        std::cout << "General exception: " << e.what() << std::endl;
    } catch(...) {
        std::cout << "What just happened?" << std::endl;

int main(){
    Class1 a;
    Class2 b;

    std::vector<Class2> values;

        throw CustomException("My exception with an additional error code!", 42);


        Class2 c = dynamic_cast<Class2&>(a);


        std::bitset<5> mybitset (std::string("01234"));

        throw 5;


Custom Exception: My exception with an additional error code! Error Code: 42
Range exception: vector::_M_range_check
Cast exception: std::bad_cast
Cast exception: std::bad_cast
General exception: bitset::_M_copy_from_ptr
What just happened?
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nice observation... –  Anirudha Jan 19 '13 at 15:50

It's a legitimate question because std::exception only really contains a single property: what(), a string. So it's tempting to just use string instead of exception. But the fact is that an exception is not a string. If you treat an exception like it's merely a string, you lose the ability to derive from it in specialized exception classes that would provide more properties.

For example today you throw strings in your own code. Tomorrow you decide to add more properties to certain cases like a database connection exception. You can't just derive from string to make this change; you will need to write a new exception class and change all the exception handlers for string. Using exception is a way for exception handlers to use only the data they care about, to pick and choose exceptions as they need to handle them.

Also if you throw and handle only string-typed exceptions, you will miss all exceptions thrown from any code that's not your own. If this distinction is intentional, it would be best described by using a common exception class to signify this, not the generic type of string.

exception is also more specific than string. This means library developers can write functions that accept exceptions as parameters, which is clearer than accepting a string.

All of this is essentially free, just use exception instead of string.

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Just because something "works fine" in a 6 line toy example doesn't mean it is scalable or maintainable in real code.

Consider this function:

template<typename T>
std::string convert(const T& t)
    return boost:lexical_cast<std::string>(t);

This could throw bad_alloc if memory for the string cannot be allocated, or could throw bad_cast if the conversion fails.

A caller of this function might want to handle the failed conversion case which indicates bad input but isn't a fatal error, but not want to handle the out-of-memory case, because they can't do anything about it so let the exception propagate up the stack. This is very easy to do in C++, for example:

std::string s;
try {
  s = convert(val);
} catch (const std::bad_cast& e) {
  s = "failed";

If exceptions were just thrown as std::string the code would have to be:

std::string s;
try {
  s = convert(val);
} catch (const std::string& e) {
  if (e.find("bad_cast") != std::string::npos)
    s = "failed";

This takes more code to implement and relies on the exact wording of the exception string, which might depend on the compiler implementation and the definition of boost::lexical_cast. If every piece of exception handling in the system had to do string comparisons to decide if the error can be handled at that point it would be messy and unmaintainable. A small change to the spelling of an exception message in one part of the system that throws exceptions might cause the exception handling code in another part of the system to stop working. This creates tight coupling between the location of an error and every bit of error handling code in the system. One of the advantages of using exceptions is to allow error handling to be separated from the main logic, you lose that advantage if you create dependencies based on string comparisons across the whole system.

Exception handling in C++ catches things by matching on the exception's type, it doesn't catch by matching on an exception's value, so it makes sense to throw things of different types to allow fine-grained handling. Throwing things of a single string type and handling them based on the string's value is messy, non-portable and more difficult.

Later, if I need, I can just make my own lightweight "exception" types. So why should I bother with std::exception?

If your code is useful and reusable and I want to use it in part of my system, do I have to add exception handling that catches all your lightweight types? Why should the whole of my system care about the internal details of a library that one bit of the system relies on? If your custom exception types are derived from std::exception then I can catch them by const std::exception& without knowing (or caring) about the specific types.

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If you are the only user of the class,you can avoid std::exception(if you want to avoid the standard library exceptions)

But if your class is going to be used by others (programmers),how would they handle the exception.

If your class throws a string that describes the error,that would not help since the consumers of your class would prefer a more standard way(catch an exception object and query it's what method) to handle the exception rather than catching a string..

Also you can catch exceptions thrown by the standard library by catching an exception object

You can override the what method of exception class to give more information about the error.

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Wow, I'm surprised no one mentioned this:

  1. You need multiple types of exceptions in order to be able to distinguish them -- some kinds of exceptions should be handled, while others shouldn't.

  2. They need to have a common base class to allow you to have a means for displaying a sane message to the user without having to know all the types of exceptions that your program could possibly throw (which is impossible when using external closed source libraries).

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