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I often have a problem with const correctness when wrapping algorithims in classes in c++. I feel that I want a mutable function, although this is not allowed. Can anyone advise me how to implement classes such as the one that follows?

The following is the code that I want to write.

  • The function run() should not be a const function because it changes the data.
  • The function get_result() should be a constant function (as far as the user is concerned) because it returns the data.

However, if the user requests the result without calling run(), I want the get_result() function to run the algorithm. This breaks the const correctness because I have a const function calling a non-const function.

class operate_on_data
  std::vector<double> m_data;  // the data to modify
  bool m_completed;  // check to see if the function run() has been called
  operate_on_data(std::vector<double> data)
    : m_data(data), m_completed(false) {}  //initialise
  void run() //I don't want this function to be const  
    //The algorithm goes here - it alters m_data.
    m_completed = true;  //the algorithm has been run
  std::vector<double> get_result() const //I want this function to be const
    /*The following breaks const correctness because 
      I am calling a non-const function from a const function
      - but this feels like the right thing to do ... */ 
    if (!m_completed) run();  //run the algorithm if it has not run already
    return m_data; //return

The only way I have been I have managed to compile the above class is to either

  • make run() const, and make m_data and m_completed mutable. This works but is conceptually wrong because run() demonstrably changes data.
  • make get_result() not a constant function. This seems wrong too, for the user would expect this function to be a simple return, and therefore constant.
  • Put the run() function into the get_result() const function and make the data variables mutable.

My understanding was that the mutable keyword was designed for the third of these options, where the implementation requires data to be changed but the user reasonably expects a simple return and therefore const function.

However, I don't want to do this final option because I want the user to be able to choose exactly when they change the data. There is a chance that they will forget to call run(), however, and so I want to force the algorithm if they request the result without calling run(). I feel like a want to make run() mutable - but I'm not allowed to.

What is the correct way to write such a class.

Many thanks,


share|improve this question
Is there a reason that you don't want to call run() from the constructor? –  TonyK Nov 22 '10 at 18:38
@TonyK Yes, run() can sometimes be expensive both in time and memory. I want the user to be construct the class and call the method later. In particular, I sometimes pass a small class over a cluster, and return small result. I want the expensive run() command to be independent of these two function calls. –  Tom Nov 22 '10 at 18:45
If run() can be expensive both in time and memory, then you shouldn't worry about forcing the user to call it explicitly. –  TonyK Nov 22 '10 at 18:52

7 Answers 7

up vote 6 down vote accepted

make run() const, and make m_data and m_completed mutable. This works but is conceptually wrong because run() demonstrably changes data.

Not true, actually. The variables within your class are, in fact, altered but you could never, ever demonstrate this. Calling run() does not change anything that the user is able to retrieve from your class's interface. If you can't retrieve any information about such a change then you can't possibly demonstrate that change. This is more than a semantic issue, it speaks directly to the whole point of the 'mutable' keyword.

The 'mutable' keyword is greatly misunderstood.

That said, though with the minimally given information I have I might do it the above way, I'm not recommending it. There's almost certainly a better method that would be apparent given a larger view of your problem.

The other method I might use is what you're apparently set on avoiding: force the user to call run() before using get_data(). To tell the truth though, this is a really suboptimal method too. Perhaps more so.


If you do decide to use the mutable method then I'd suggest some changes. Having a function called 'run()' that is const and returns nothing of interest would be quite confusing. This function should certainly be non-const. Thus, what I would do, given a decision to do it this way already, is have run() call a const and private function that has the behavior of the current 'run()' function, which is also referred to by get_data() under the specified conditions.

share|improve this answer
I think the consensus is to make it an exception but I do like your solution Noah. Thank you. –  Tom Nov 22 '10 at 18:40
Yeah. I certainly would not base my decisions on SO consensus. This case is no different. The 'correct' answer here is almost certainly to kill this object of yours; it's not doing anything interesting. My post is simply to explain why your, and others here, analysis of the const/mutable issue is flawed. –  Crazy Eddie Nov 22 '10 at 19:00
Yes, thank you Noah, I think I need a redesign taking on board kos' answer too. Your edit does solve what I was originally trying to do, though. –  Tom Nov 22 '10 at 19:29

Some abstract remarks which may help you clarify things:

  • const methods are those which don't modify the conceptual "state" of an objects,
  • non-const method are those which do.
  • Additionally, mutable fields are those which are per-object, but not considered a part of the object's conceptual state (like some cached values which are evaluated lazily and remembered).

The problem might be that operate_on_data may not really be a well-defined class. What is an object of class "operate_on_data"? What is the "state" of this object? What is not? This sounds awkward (at least to me) - and awkward-sounding description of some design may indicate counter-intuitive design.

My thought is that you're keeping the different concepts of an "operation" and an "operation result" in one strange class, which leads to confusion.

share|improve this answer
I think of operate_on_data is a functor. I often add a void operator()() {run();} function too. I want to be able to control when the functor is run, and when the data is returned. –  Tom Nov 22 '10 at 18:16
A "functor" - as I've always understood it - is an object which can be called to run an operation Doesn't matter if the "logical parameters" are passed as fields of functor instance or as parameters to operator(). But a functor is not responsible for keeping the calculation result - at least I've never stumbled upon a convention in which it would, which makes perfect sense. The "operation" is one thing, the "operation result" is another. –  Kos Nov 22 '10 at 18:20
Its a fair point, thank you Kos –  Tom Nov 22 '10 at 18:55

Just make it an error (part of the interface) to get the result prior to running the algorithm. Then you separate the work from the results, allowing both to properly indicate their constness. The get method can throw if you attempt to call it prior to running the algorithm to indicate to the client they're doing something wrong.

share|improve this answer
Many thanks, but is there no way to do it internally? It is clear what the user did wrong, I feel I should be able to correct this mistake myself. Crashing the users program seems a bit drastic. –  Tom Nov 22 '10 at 18:08
totally agreed. –  upriser Nov 22 '10 at 18:09
As far as I understand, the "error" must not lead to crash. –  upriser Nov 22 '10 at 18:11
Throwing an exception as documented in the API is very much different from "crashing the users program"! –  DevSolar Nov 22 '10 at 18:11
@DevSolar, this is true but forcing the user to write a try-catch for something so simple seems a bit sledgehammer approach. –  Tom Nov 22 '10 at 18:19

I think your problem is a semantic, not a syntactic one.

Requesting the result without calling run() first is an error, in my eyes, and should result in an exception.

If it is not an error and should indeed be possible, I see no sense in having run() in the first place, so just drop it and do all the work in the (non-const) get_result().

share|improve this answer
Thank you DevSolar. I take your point with dropping the run() function but for me Noah's edit works out best. –  Tom Nov 22 '10 at 19:13

If get_result() may actually change data, it is not const. If you want it to be const, don't call run() but rather throw an exception.

You should use mutable for cached data, i.e. things that do not change the state of your instance and are only stored for performance reasons.

share|improve this answer
Thank you Sven. For my particular case Noah's distinction and edit works best for me. All the best –  Tom Nov 22 '10 at 19:08

If I ever come into that position, I'd probably throw an exception.

However, you may get away with

if (!m_completed) (const_cast <operate_on_data *> (this))->run();

However, if get_result is then called on an instance of operate_on_data that has actually been defined to be const, you enter lala-land.

share|improve this answer
Yes. This is bad advice. –  Crazy Eddie Nov 22 '10 at 18:21
@downvoter: If I advised anything, then to throw an exception, i.e. fix the interface. Apart from that, I gave a minimally invasive code example to make what the OP wanted work and listed the condition where it breaks. How is that an unhelpful comment, bad advice even? –  dennycrane Nov 22 '10 at 18:26
Why it is bad advice has already been stated within your post. –  Crazy Eddie Nov 22 '10 at 18:30
Thank you dennycrane. I think you are with the consensus with throwing an exception. For the alternative, I like Noahs edit of putting a run() const as a private function and calling that. –  Tom Nov 22 '10 at 18:59

If the only thing that run() changes in the object is m_completed then it's fine to declare m_completed mutable and run() const. If run() changes other things, then calling get_result() will also change those other things, meaning get_result() should definitely not be const.

However, to round out the discussion, you will notice that the STL containers each have two begin() functions and two end() functions. One begin() and one end() function will return mutable iterators, while the other begin() and end() functions will return const_iterators.

It is in fact possible to overload run() with a const and non-const version. Then get_result() will call the const version of run() because it will be considered the only legal option:

class operate_on_data
    std::vector<double> m_data;
    bool m_completed;
    operate_on_data(std::vector<double> data)
        : m_data(data), m_completed(false) { }
    void run()
       //The algorithm goes here - it alters m_data.
       m_completed = true;

    void run() const
        // something that does not modify m_data or m_completed
    std::vector<double> get_result() const
        if (!m_completed)
        return m_data;

However, that only makes sense if the const version of run() doesn't change any state. Otherwise the non-const-ness of run() will leak into get_result() and make the const-ness of get_result() a blatant lie.

I assume that the example code is somewhat contrived. If not, you're essentially taking this:

std::vector<double> results = do_calculation(data);

And wrapping it in an object with a very thin interface (namely, a get_results() method that returns the std::vector<double>). I don't see much of an improvement in the object-ized version. If you want to cache the results of your calculation, it usually makes a lot of sense to do that by simply keeping the std::vector<double> around int the code that would have created and used this object.

share|improve this answer
Thank you Max, my feeling was that get_result() would normally not change anything. I was trying to silently handle an exception. The consensus is with you I think, with this being a bad idea. –  Tom Nov 22 '10 at 19:01

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