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What is the correct way to deal with (otherwise) constant functions that include a random generator call of C++11's random-class? Should you prefer giving up the constant flag of the function or would it be better to declare generator and distribution as mutable elements of your class? A minimal example (not compiling) might be:

#include <random>

class foo 
{
  std::mt19937 MyGenerator;
  std::normal_distribution<precision_type> gauss;
  double get_rnd() const {return gauss(MyGenerator);}
};
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  • Could you post a small example? If the random instance is not attempting to mutate any of the class's members, and is not itself a member, then the function can still remain const. Sep 26, 2014 at 12:32
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    @Cyber: Based on the question it seems clear that the random instance IS a member (question said "element").
    – Ben Voigt
    Sep 26, 2014 at 12:34
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    One consideration may be thread safety. Const method usualy treated as thread-safe. so, if the call is protected by mutex inside, for me it looks like it's ok to make it mutable member, otherwise not if there is a slight chance of multithreading involved.
    – dewaffled
    Sep 26, 2014 at 12:35
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    If it returns different values every time it seems a little odd to want to declare it constant. This will confuse the user. Users expect that if you call a method of a const object it will be idempotent.
    – Ben
    Sep 26, 2014 at 12:37
  • @Cyber: A minimal example was added to the question. Sep 26, 2014 at 12:38

4 Answers 4

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It really depends on what semantics you give to const member access.

For Standard classes, it is thread-safe to concurrently invoke const members from multiple threads. Leaving members const that mutate an RNG would break that, unless the RNG is fully thread-safe (for non-const use).

You don't have to design your classes the same way, but other developers will probably find it confusing to discover classes that can't be safely "read" (invoke const member functions) concurrently.

One option would be to provide two variations -- a non-const version that uses the internally stored RNG, and a const version that accepts an RNG by non-const reference. (The first can call the second, no const_cast required). This implements the "pay only for what you need" guideline w.r.t thread-safety, as multiple threads can safely use the object if each provides a thread-local RNG instance. It also allows testing using a mock RNG implementation, which is likely even more valuable.

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    As long as you can seed the provided RNG yourself (for example, the class constructor allows you to provide it), then testing is less of an issue even without a mock as you are already deterministic. The mock becomes more valuable when you wish for the 6th call to return a specific value not returned in the 5 first... Sep 26, 2014 at 12:46
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It really depends on what you want to achieve, typical strategies include:

  1. Exposing mutability. Simply do not mark the method as const.

  2. Externalising to expose mutability. Pass the mutable elements (here the generator and distribution) as method parameters, exposing the use of mutability inside, the caller is responsible for any thread-safety implication.

  3. Implementing "logical" constness. If the use of randomness is not considered as breaking the logical constness of the class, you can simply declare the generator and distribution as mutable; beware of thread-safety implications (if necessary, ie in a multi-threaded application, use a mutable mutex)

Which alternative you pick depends on the semantics you which to achieve.

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  • In C++ we say Member functions ;)
    – Ben Voigt
    Sep 26, 2014 at 12:51
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    @BenVoigt: the Standard does, for sure, but colloquial uses seem to favor "methods" as a short-hand :) Sep 26, 2014 at 12:53
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    The term method has meaning in computer science. The users applying it indiscriminately in C++ either come from Java, which does have methods, and haven't quite figured out that C++ member functions are not virtual-by-default, or cargo-cult programmers just repeating what they hear.
    – Ben Voigt
    Sep 26, 2014 at 12:56
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    I prefer the term non-virtual parametrically invocated code segments, personally
    – Matthew
    Sep 26, 2014 at 17:50
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The mutable keyword was designed for this type of cases. When you will mark the random generator instance field with this modifier it will be allowed to change its state even in const methods of the enclosing class.

In general this seems to be a grey area depending on what type of concept your class is representing. If the state of the generator is conceptually irrelevant to the state of this class than this solution is OK. Otherwise you should rethink the design - if the state of generator is relevant, than the method using it should not be const.

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    I'd say it's not a good idea in this case, though. mutable is to help out with logically-const methods. Invoking an RNG is not logically-const. Sep 26, 2014 at 12:37
  • @OliverCharlesworth That's a good point, however I'd argue that it's a grey area and depends on what concept the class is representing (updated the answer).
    – BartoszKP
    Sep 26, 2014 at 12:38
  • I suppose the same argument applies to a method that returns the current time, or the current mouse position.
    – gnasher729
    Sep 26, 2014 at 15:17
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I think that depends on your use case. if you want some totally deterministic behavior you have to drop the const flag to make sure the state of your class can not change then it is not expected to be changed. This may be important if writing safety relevant code or code that have to be reproducible tested.

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