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I'm working in C++ enviroment and:
a) We are forbidden to use exceptions
b) It is application/data server code that evaluates lot of requests of different kinds

I have simple class encapsulating result of server operation that is also used internally for lot of functions there.

class OpResult
{
  .....
  bool succeeded();
  bool failed(); ....
  ... data error/result message ...
};

As I try to have all functions small and simple, lot of blocks like this are arising:

....
OpResult result = some_(mostly check)function(....);
if (result.failed())
  return result;
...

The question is, is it bad practise to make macro looking like this and use it everywhere?

#define RETURN_IF_FAILED(call) \
  {                            \
    OpResult result = call;    \
    if (result.failed())       \
      return result;           \
  }

I understand that someone can call it nasty, but is there a better way? What other way of handling results and avoiding lot of bloat code would you suggest?

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What if some cleanup is required? –  Cheers and hth. - Alf Nov 13 '10 at 15:21
    
Well, my accepted answer got unilaterally deleted by a random moderator who just didn't like it. –  Rob K May 28 '14 at 17:11

7 Answers 7

It's a trade off. You are trading code size for obfuscation of the logic. I prefer to preserve the logic as visible.

I dislike macros of this type because they break Intellisense (on Windows), and debugging of the program logic. Try putting a breakpoint on all 10 return statements in your function - not the check, just the return. Try stepping through the code that's in the macro.

The worst thing about this is that once you accept this it's hard to argue against the 30-line monster macros that some programmers LOVE to use for commonly-seen mini-tasks because they 'clarify things'. I've seen code where different exception types were handled this way by four cascading macros, resulting in 4 lines in the source file, with the macros actually expanding to > 100 real lines. Now, are you reducing code bloat? No. It's impossible to tell easily with macros.

Another general argument against macros, even if not obviously applicable here, is the ability to nest them with hard to decipher results, or to pass in arguments that result in weird but compilable arguments e.g. the use of ++x in a macros that uses the argument twice. I always know where I stand with the code, and I can't say that about a macro.

EDIT: One comment I should add is that if you really do repeat this error check logic over and over, perhaps there are refactoring opportunities in the code. Not a guarantee but a better way of code bloat reduction if it does apply. Look for repeated sequences of calls and encapsulate common sequences in their own function, rather than addressing how each call is handled in isolation.

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I agree that the macro should be always the last thing to use, when all other ways to 'clarify things' were tried, and it should be simple, but is it really better to copypasta the macro everywher instead of it's usage? –  kovarex Nov 13 '10 at 13:09
2  
Whether it increases code bloat or not depends on whether or not there is an alternative to those macros. If the alternative to the macros is to write the 100 lines manually then the macros are not increasing code bloat. If there is an alternative then yes, the macros are questionable. –  Peter Alexander Nov 13 '10 at 13:15
1  
@Peter - respectfully disagree. I would NEVER put that many lines of code in a macro for production code. Test code is another thing. It's literally impossible to debug such code, and when the true nature of the code is hidden to such a degree, that's a code smell whatever the obfuscatory mechanism. –  Steve Townsend Nov 13 '10 at 13:18

Actually, I prefer slightly other solution. The thing is that the result of inner call is not necessarily a valid result of an outer call. For example, inner failure may be "file not found", but the outer one "configuration not available". Therefore my suggestion is to recreate the OpResult (potentially packing the "inner" OpResult into it for better debugging). This all goes to the direction of "InnerException" in .NET.

technically, in my case the macro looks like

#define RETURN_IF_FAILED(call, outerresult) \
  {                                         \
    OpResult innerresult = call;            \
    if (innerresult.failed())               \
    {                                       \
        outerresult.setInner(innerresult);  \
        return outerresult;                 \
    }                                       \
  }

This solution requires however some memory management etc.

Some purist argue that having no explicit returns hinders the readability of the code. In my opinion however having explicit RETURN as a part of the macro name is enough to prevent confusion for any skilled and attentive developer.


My opinion is that such macros don't obfuscate the program logic, but on the contrary make it cleaner. With such a macro, you declare your intent in a clear and concise way, while the other way seems to be overly verbose and therefore error-prone. Making the maintainers parse in mind the same construct OpResult r = call(); if (r.failed) return r is wasting of their time.

An alternative approach without early returns is applying to each code line the pattern like CHECKEDCALL(r, call) with #define CHECKEDCALL(r, call) do { if (r.succeeded) r = call; } while(false). This is in my eyes much much worse and definitely error-prone, as people tend to forget about adding CHECKEDCALL() when adding more code.

Having a popular need to do checked returns (or everything) with macros seems to be a slight sign of missing language feature for me.

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Something similar could be also useful. –  kovarex Nov 13 '10 at 13:05
1  
If you need this, then put those inner calls into their own (inlined) functions with an outer function interpreting their results. Then there's no need for this macro hacking. –  sbi Nov 13 '10 at 13:11
    
@sbi: my code in the answer is just a hint. the actual production code uses some appropriate helper functions. –  Vlad Nov 13 '10 at 13:15

As long as the macro definition sits in an implementation file and is undefined as soon as unnecessary, I wouldn't be horrified.

// something.cpp

#define RETURN_IF_FAILED() /* ... */

void f1 () { /* ... */ }
void f2 () { /* ... */ }

#undef RETURN_IF_FAILED

However, I would only use this after having ruled out all non-macro solutions.

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I agree with Steve's POV.

I first thought, at least reduce the macro to

#define RETURN_IF_FAILED(result) if(result.failed()) return result;

but then it occurred to me this already is a one-liner, so there really is little benefit in the macro.


I think, basically, you have to make a trade off between write-ability and readability. The macro is definitely easier to write. It is, however, an open question whether it is also is easier to read. The latter is quite a subjective judgment to make. Still, using macros objectively does obfuscate code.


Ultimately, the underlying problem is that you must not use exceptions. You haven't said what the reasons for that decision are, but I surely hope they are worth the problems this causes.

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This way, you have to call the function and then the macro, and also you have to either use block everywhere, or be cautious to not make duplicate result variables. –  kovarex Nov 13 '10 at 13:14
    
the macro in your example is not optimal, as it would bring an error in the code like if (cond) RETURN_IF_FAILED(...) else do_something_else;. You would perhaps like to add the usual do { ... } while(0) around. –  Vlad Nov 13 '10 at 13:18
1  
@Vlad: I was arguing against that macro, which is why I didn't put any thought into it. –  sbi Nov 13 '10 at 13:23
    
@Marwin: You don't have to be cautions, because the compiler will catch it if you fail. –  sbi Nov 13 '10 at 13:25

Could be done with C++0x lambdas.

template<typename F> inline OpResult if_failed(OpResult a, F f) {
    if (a.failed())
        return a;
    else
        return f();
};

OpResult something() {
    int mah_var = 0;
    OpResult x = do_something();
    return if_failed(x, [&]() -> OpResult {
        std::cout << mah_var;
        return f;
    });
};

If you're clever and desperate, you could make the same kind of trick work with regular objects.

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In my opinion, hiding a return statement in a macro is a bad idea. The 'code obfucation' (I like that term..! ) reaches the highest possible level. My usual solution to such problems is to aggregate the function execution at one place and control the result in the following manner (assuming you have 5 nullary functions):

std::array<std::function<OpResult ()>, 5>  tFunctions = {
 f1, f2, f3, f4, f5
};

auto tFirstFailed = std::find_if(tFunctions.begin(), tFunctions.end(), 
    [] (std::function<OpResult ()>& pFunc) -> bool {
        return pFunc().failed();
    });

if (tFirstFailed != tFunctions.end()) {
 // tFirstFailed is the first function which failed...
}
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It's hard to call this hiding a return statement, when the macro name starts with RETURN_IF_... –  slacker Nov 13 '10 at 17:06

Is there any information in result which is actually useful if the call fails?

If not, then

static const error_result = something;

if ( call().failed() ) return error_result; 

would suffice.

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