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Having made the move to C++11, I am now systematically passing my strings by value in my constructors. But now, I realize that it makes it easier to introduce bugs when also using the value in the body of the constructor:

class A(std::string val):
  _val(std::move(val))
{
  std::cout << val << std::endl; // Bug!!!
}

What can I do to reduce the chances of getting it wrong?

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7  
"made the move to C++11" very nice –  Lightness Races in Orbit Jul 3 '13 at 13:21
3  
@Thorsten: He forgot. –  Lightness Races in Orbit Jul 3 '13 at 13:22
3  
I was in the process of writing an answer, but it all boiled down to simply, "don't screw up in the first place & write unit tests." –  John Dibling Jul 3 '13 at 13:28
1  
@JohnDibling So Unit tests won't necessarily catch such things. Meaning, your boiled-down answer is not a good answer. –  Arne Mertz Jul 3 '13 at 13:41
2  
C++ needs linear types! –  R. Martinho Fernandes Jul 3 '13 at 13:47

2 Answers 2

up vote 2 down vote accepted

Name arguments whose purpose is to be moved-from in some distinctive manner, at least within the implementation of the constructor

A::A(std::string val_moved_from):
 _val(std::move(val_moved_from))
{
  std::cout << val_moved_from << std::endl; // Bug, but obvious
}

then move from them as early as possible (in the construction list, say).

If you have such a long construction list you can miss two uses of val_moved_from in it, this doesn't help.

An alternative would be to write up a proposal to fix this problem. Say, extend C++ so that the types or scopes of local variables can be changed by operations on them, so std::safe_move(X) both moves from X and marks X as an expired variable, no longer valid to use, for the remainder of its scope. Working out what to do when a variable is half-expired (expired in one branch, but not in another) is an interesting question.

Because that is insane, we can instead attack it as a library problem. To a certain limited extent, we can fake those kind of tricks (a variable whose type changes) at run time. This is crude, but gives the idea:

template<typename T>
struct read_once : std::tr2::optional<T> {
  template<typename U, typename=typename std::enable_if<std::is_convertible<U&&, T>::value>::type>
  read_once( U&& u ):std::tr2::optional<T>(std::forward<U>(u)) {}
  T move() && {
    Assert( *this );
    T retval = std::move(**this);
    *this = std::tr2::none_t;
    return retval;
  }
  // block operator*?
};

ie, write a linear type that can only be read from via move, and after that time reading Asserts or throws.

Then modify your constructor:

A::A( read_once<std::string> val ):
  _val( val.move() )
{
  std::cout << val << std::endl; // does not compile
  std::cout << val.move() << std::endl; // compiles, but asserts or throws
}

with forwarding constructors, you can expose a less ridiculous interface with no read_once types, then forward your constructors to your "safe" (possibly private) versions with read_once<> wrappers around the arguments.

If your tests cover all code paths, you'll get nice Asserts instead of just empty std::strings, even if you go and move more than once from your read_once variables.

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2  
But you have to remember to do all of this. If you can remember that, then you likely wouldn't have made the mistake in the first place. –  Lightness Races in Orbit Jul 3 '13 at 14:37
    
@LightnessRacesinOrbit Sure: but if you had a robust read_once, and followed the rule "always take 'by value to be copied' as read_once", you'd get Assert instead of empty data when you read it. And the whistle does keep the tigers away, do you see any tigers? –  Yakk Jul 3 '13 at 15:11
    
And if you followed the rule "don't try to print the wrong variable" then it would all be moot –  Lightness Races in Orbit Jul 3 '13 at 16:12

"Having made the move to C++11, I am now systematically passing my strings by value in my constructors."

I'm sorry, I don't see why one would want to do this. What improvement does this provide in relation to the traditional method? (which is basically bug proof).

class A(const std::string & s):
  _val(s)
{
  std::cout << s << std::endl; // no Bug!!!
  std::cout << _val << std::endl; // no Bug either !!!
}

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To answer your question: yes, std::move is better than this because, well, less copies. What is more, your answer doesn't answer the question. –  milleniumbug Jul 3 '13 at 17:08
    
Suppose you s is a 100,000 character string. Your version always makes a copy of it, always, right here: _val(s). The above version will not make a copy of it if the caller does std::move into the constructor, or constructs A from a temporary std::string. See here for a deeper discussion. Note that having both a std::string&& s and std::string const& s constructor gives you 1 less move than taking std::string s, but doubles the amount of code you have to maintain. –  Yakk Jul 3 '13 at 17:17
    
In this case we're not making any copies at all as we're passing by reference. I'm very familiar with the cited discussion. It addresses an situation where there are copies which is not the case here. The question posed is "What can I do to reduce the chances of getting it wrong?". The answer is "Don't do that!". Your not reducing any copies by doing this and you're introducing a bug. –  Robert Ramey Jul 4 '13 at 6:33

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