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I have always been of the belief that if a method can throw an exception then it is reckless not to protect this call with a meaningful try block.

I just posted 'You should ALWAYS wrap calls that can throw in try, catch blocks.' to this question and was told that it was 'remarkably bad advice' - I'd like to understand why.

Thanks!

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146  
+1 for willing to understand and learn for your mistakes. –  ereOn Apr 29 '10 at 12:48
7  
And another +1 for doing it in this public forum, so that we can all avoid the same mistake. More of this, please! –  Lemur Apr 26 '13 at 15:07
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12 Answers

up vote 186 down vote accepted

A method should only catch an exception when it can handle it in some sensible way.

Otherwise, pass it on up, in the hope that a method higher up the call stack can make sense of it.

As others have noted, it is good practice to have an unhandled exception handler (with logging) at the highest level of the call stack to ensure that any fatal errors are logged.

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Agree completely, but I would add that it is usually a good idea to have a top-level exception handler in main() (or other high-level function) that will log or output some sort of error message before the program dies. –  Kristopher Johnson Apr 29 '10 at 12:56
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Actually try blocks are free in any modern C compiler, that information is dated Nick. I also disagree about having a top-level exception handler because you lose locality information (the actual place where the instruction failed). –  Blindy Apr 29 '10 at 13:16
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@Blindly: the top exception handler is not there to handle the exception, but in fact to shout out loud that there was an unhandled exception, give its message, and end the program in a graceful way (return 1 instead of a call to terminate). It's more of a safety mechanism. Also, try/catch are more or less free when there isn't any exception. When there is one propagating it does consumes time each times it's thrown and caught, so a chain of try/catch that only rethrow isn't costless. –  Matthieu M. Apr 29 '10 at 13:41
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I disagree you should always crash on an uncaught exception. Modern software design is very compartmentalized, so why should you punish the rest of the application (and more importantly, the user!) just because there was one error? Crashing the the absolutely last thing you want to do, at the very least try to give the user some small window of code that will let them save work even if the rest of the application cannot be accessed. –  Kendall Helmstetter Gelner Apr 29 '10 at 15:08
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Kendall: If an exception gets to a top-level handler, your application is by definition in an undefined state. Although in some specific cases there might be value to preserving the user's data (Word's document recovery comes to mind) the program shouldn't overwrite any files or commit to a database. –  Hugh Brackett Apr 29 '10 at 15:54
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As Mitch and others stated, you shouldn't catch an exception that you do not plan on handling in some way. You should consider how the application is going to systematically handle exceptions when you are designing it. This usually leads to having layers of error handling based on the abstractions - for example, you handle all SQL-related errors in your data access code so that the part of the application that is interacting with domain objects is not exposed to the fact that there is a DB under the hood somewhere.

There are a few related code smells that you definitely want to avoid in addition to the "catch everything everywhere" smell.

  1. "catch, log, rethrow": if you want scoped based logging, then write a class that emits a log statement in its destructor when the stack is unrolling due to an exception (ala std::uncaught_exception()). All that you need to do is declare a logging instance in the scope that you are interested in and, voila, you have logging and no unnecessary try/catch logic.

  2. "catch, throw translated": this usually points to an abstraction problem. Unless you are implementing a federated solution where you are translating several specific exceptions into one more generic one, you probably have an unnecessary layer of abstraction... and don't say that "I might need it tomorrow".

  3. "catch, cleanup, rethrow": this is one of my pet-peeves. If you see a lot of this, then you should apply Resource Acquisition is Initialization techniques and place the cleanup portion in the destructor of a janitor object instance.

I consider code that is littered with try/catch blocks to be a good target for code review and refactoring. It indicates that either exception handling is not well understood or the code has become an amœba and is in serious need of refactoring.

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#1 is new to me. +1 for that. Also, I'd like to note a common exception to #2, which is if you're designing a library often you'll want to translate internal exceptions into something specified by your library interface to reduce coupling (this may be what you mean by "federated solution", but I am not familiar with that term). –  rmeador Apr 29 '10 at 14:18
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Basically what you said: parashift.com/c++-faq-lite/exceptions.html#faq-17.13 –  Björn Pollex Apr 29 '10 at 14:28
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+1 I agree completely with all the answer. –  Vicente Botet Escriba Apr 29 '10 at 14:41
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Because the next question is "I've caught an exception, what do I do next?" What will you do? If you do nothing - that's error hiding and the program could "just not work" without any chance to find what happened. You need to understand what exactly you will do once you've caught the exception and only catch if you know.

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Herb Sutter wrote about this problem here. For sure worth reading.
A teaser:

"Writing exception-safe code is fundamentally about writing 'try' and 'catch' in the correct places." Discuss.

Put bluntly, that statement reflects a fundamental misunderstanding of exception safety. Exceptions are just another form of error reporting, and we certainly know that writing error-safe code is not just about where to check return codes and handle error conditions.

Actually, it turns out that exception safety is rarely about writing 'try' and 'catch' -- and the more rarely the better. Also, never forget that exception safety affects a piece of code's design; it is never just an afterthought that can be retrofitted with a few extra catch statements as if for seasoning.

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You don't need to cover every block with try-catches because a try-catch can still catch unhandled exceptions thrown in functions further down the call stack. So rather than have every function have a try-catch, you can have one at the top level logic of your application. For example, there might be a SaveDocument() top-level routine, which calls many methods which call other methods etc. These sub-methods don't need their own try-catches, because if they throw, it's still caught by SaveDocument()'s catch.

This is nice for three reasons: it's handy because you have one single place to report an error: the SaveDocument() catch block(s). There's no need to repeat this throughout all the sub-methods, and it's what you want anyway: one single place to give the user a useful diagnostic about something that went wrong.

Two, the save is cancelled whenever an exception is thrown. With every sub-method try-catching, if an exception is thrown, you get in to that method's catch block, execution leaves the function, and it carries on through SaveDocument(). If something's already gone wrong you likely want to stop right there.

Three, all your sub-methods can assume every call succeeds. If a call failed, execution will jump to the catch block and the subsequent code is never executed. This can make your code much cleaner. For example, here's with error codes:

int ret = SaveFirstSection();

if (ret == FAILED)
{
    /* some diagnostic */
    return;
}

ret = SaveSecondSection();

if (ret == FAILED)
{
    /* some diagnostic */
    return;
}

ret = SaveThirdSection();

if (ret == FAILED)
{
    /* some diagnostic */
    return;
}

Here's how that might be written with exceptions:

// these throw if failed, caught in SaveDocument's catch
SaveFirstSection();
SaveSecondSection();
SaveThirdSection();

Now it's much clearer what is happening.

Note exception safe code can be trickier to write in other ways: you don't want to leak any memory if an exception is thrown. Make sure you know about RAII, STL containers, smart pointers, and other objects which free their resources in destructors, since objects are always destructed before exceptions.

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As stated in other answers, you should only catch an exception if you can do some sort of sensible error handling for it.

For example, in the question that spawned your question, the questioner asks whether it is safe to ignore exceptions for a lexical_cast from an integer to a string. Such a cast should "never" fail. If it did fail, something has gone terribly wrong in the program. What could you possibly do to recover in that situation? It's probably best to just let the program die, as it is in a state that can't be trusted. So ignoring the exception may be the "safest" thing to do.

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The best advice I've heard is that you should only ever catch exceptions at points where you can sensibly do something about the exceptional condition, and that "catch, log and release" is not a good strategy (if occasionally unavoidable in libraries).

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However, catch, log, and rethrow can be a good stragegy. –  KeithB Apr 29 '10 at 14:03
    
@KeithB: I'd consider it a second-best strategy. It's better if you can get the log written in another way. –  David Thornley Apr 29 '10 at 14:53
    
@KeithB: It's a "better than nothing in a library" strategy. "Catch, log, deal with it properly" is better where possible. (Yeah, I know it's not always possible.) –  Donal Fellows Apr 29 '10 at 15:26
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The advice my computer science professor gave me once was: "Use Try and Catch blocks only when it's not possible to handle the error using standard means."

As an example, he told us that if a program ran into some serious issue in a place where it's not possible to do something like:

int f()
{
    // Do stuff

    if (condition == false)
        return -1;
    return 0;
}

int condition = f();

if (f != 0)
{
    // handle error
}

Then you should be using try, catch blocks. While you can use exceptions to handle this, it's generally not recommended because exceptions are expensive performance wise.

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That is one strategy, but many people recommend never returning error codes or failure/success statuses from functions, using exceptions instead. Exception-based error handling is often easier to read than error-code-based code. (See AshleysBrain's answer to this question for an example.) Also, always remember that many computer-science professors have very little experience writing real code. –  Kristopher Johnson Apr 29 '10 at 14:04
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-1 @Sagelika Your answer consists in avoiding exception, so no need of try-catch. –  Vicente Botet Escriba Apr 29 '10 at 14:39
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@Kristopher: Other big disadvantages to the return code is that it's real easy to forget to check a return code, and just after the call is not necessarily the best place to handle the problem. –  David Thornley Apr 29 '10 at 14:55
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If you always handle exceptions immediately in the caller of a method that can throw an exception, then exceptions become useless, and you'd better use error codes.

The whole point of exceptions is that they need not be handled in every method in the call chain.

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I agree with the basic direction of your question to handle as many exceptions as possible at the lowest level.

Some of the existing answer go like "You don't need to handle the exception. Someone else will do it up the stack." To my experience that is a bad excuse to not think about exception handling at the currently developed piece of code, making the exception handling the problem of someone else or later.

That problem grows dramatically in distributed development, where you may need to call a method implemented by a co-worker. And then you have to inspect a nested chain of method calls to find out why he/she is throwing some exception at you, which could have been handled much easier at the deepest nested method.

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If you want to test the outcome of every function, use return codes.

The purpose of Exceptions is so that you can test outcomes LESS often. The idea is to separate exceptional (unusual, rarer) conditions out of your more ordinary code. This keeps the ordinary code cleaner and simpler - but still able to handle those exceptional conditions.

In well-designed code deeper functions might throw and higher functions might catch. But the key is that many functions "in between" will be free from the burden of handling exceptional conditions at all. They only have to be "exception safe", which does not mean they must catch.

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Besides the above advice, personally I use some try+catch+throw; for the following reason:

  1. At boundary of different coder, I use try + catch + throw in the code written by myself, before the exception being thrown to the caller which is written by others, this gives me a chance to know some error condition occured in my code, and this place is much closer to the code which initially throw the exception, the closer, the easier to find the reason.
  2. At the boundary of modules, although different module may be written my same person.
  3. Learning + Debug purpose, in this case I use catch(...) in C++ and catch(Exception ex) in C#, for C++, the standard library does not throw too many exception, so this case is rare in C++. But common place in C#, C# has a huge library and an mature exception hierarchy, the C# library code throw tons of exception, in theory I(and you) should know every exceptions from the function you called, and know the reason/case why these exception being thrown, and know how to handle them(pass by or catch and handle it in-place)gracefully. Unfortunately in reality it's very hard to know everything about the potential exceptions before I write one line of code. So I catch all and let my code speak aloud by logging(in product environment)/assert dialog(in development environment) when any exception really occurs. By this way I add exception handling code progressively. I know it conflit with good advice but in reality it works for me and I don't know any better way for this problem.
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