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Forgive/correct me if my nomenclature is incorrect.

I have never understood the use of const_cast. Generally speaking, it seems to me that if you must use const_cast then your class/methods is probably fundamentally flawed unless you're using legacy functions that aren't const-correct. I may have stumbled on a case where its use is appropriate, however. I have a large class with a couple members that are assigned during construction and remain constant for the useful life of the object.

Because these objects are destroyed and constructed frequently, I would like to experiment with what I believe is called the Factory Model: instead of creating/destroying the object, I would like to retrieve/return it to a cache of unassigned objects. For example (simplified, of course):

class PersonFactory {
    const Person* getPerson(const QString& newname) {
    //I can't assign the new name because it's const
            return createNewPerson();
            return m_personCache.pop();
    void returnPerson(Person* person) { m_personCache.push(person); person = 0; }
    static PersonFactory* instance;
    Person* createNewPerson() const { return new Person(""); }
    QStack<Person*> m_personCache;

class Person {
    friend Person* PersonFactory::createNewPerson();

    const QString& name() const {
        return m_name;

    void destroy() {
    Person(QString name) : m_name(name) {}
    //m_name is const and should remain that way to prevent accidental changes
    const QString m_name;

I can't assign a new name because it is const. Is this a good case for const_cast or am I missing an obvious alternative? Would using const_cast result in a performance hit?

share|improve this question
mutable is not a sign of a design flaw. It's there so that objects can, for example, cache values instead of recalculating them every time they're needed. –  Pete Becker Dec 13 '12 at 23:24
I removed the reference to mutable since it contributed nothing to the question. There are certainly occasions when its use is called-for. –  Phlucious Dec 13 '12 at 23:30
instead of fiddling with Java design patterns, consider just using a C++ small objects allocator such as the one in the Loki library. for example, with the Java approach you cannot use the defaults for std::unique_ptr and std::shared_ptr. thus it has a negative impact on correctness and amount of work –  Cheers and hth. - Alf Dec 14 '12 at 0:53

1 Answer 1

up vote 0 down vote accepted

Would using const_cast result in a performance hit?

Maybe. Casting away const to store a value when an object is in fact const produces undefined behavior. Undefined behavior can manifest as, among other things, a performance hit.

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"Casting away const to store a value when an object is in fact const produces undefined behavior." Can you clarify what you mean by undefined behavior? –  Phlucious Dec 13 '12 at 23:34
I mean that the language definition does not impose any requirements on what an implementation does. A simple example that many beginners run into is: int main() { const int i = 3; const_cast<int&>(i) = 4; std::cout << i << '\n'; return 0; } and they're surprised that the program outputs 3. As undefined behavior goes, that's pretty innocuous. –  Pete Becker Dec 13 '12 at 23:37
Understood. So using the Factory Pattern as implemented negates the option for m_name to remain a const QString? I suppose I could make it non-const, make PersonFactory a friend class, and then assign it directly. Is that the correct OOP technique? –  Phlucious Dec 14 '12 at 0:03
Nevermind. This link seems to answer that question clearly. This use case for const_cast appears to be fundamentally wrong. Thanks! –  Phlucious Dec 14 '12 at 0:09

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