Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

When I write a class, it's always a big issue whether to make immutable class or just use const keyword.

I came from Objective-C, and when I used Objective-C, there was separated mutable/immutable convention. This is mainly because lack of const semantic like in C++, but it also guarantees immutability of object and especially I can trap when a immutable object is being copied to mutable object. So I could use shared state for immutable objects, and copies state only when it is being copied to mutable object.

In C++, there's const semantics, so I tried to design a container with it, but I have a few issues with it. Here's sample code.

struct Foo
  int bar;

Foo const f1;
Foo f2 = f1;    // This is allowed but...

Copy assignment from f1 to f2 is allowed, and doesn't make any warning or error. The problem is I cannot trap the situation of copying immutable object to mutable object. When I write a copy-assignment constructor, it's for both of mutable or immutable object. I want to make immutable object to use shared state, and it will be copied only when it is being copied to mutable object.

Copy-on-write is not for me because my container code should be appropriate for real-time program. Performance hit must be visible and the position should be predictable. Copy-on-write is not allowed because it defers copying cost to unpredictable time point. Copy cost must be visible.

This can be solved by making separated object for each immutable/mutable object, but I am not sure this is good design on C++.

What is recommended pattern to make immutable/mutable classes with visible copying cost? I think this can be solve if I can make some copy constructor from immutable to mutable, but I cannot find any method.

share|improve this question
You probably shouldn't implement both. I'd just implement the mutable with const semantics and then let the user wrap it in a shared_ptr if they want to prevent copies. –  Pubby May 12 '13 at 3:29

1 Answer 1

up vote 1 down vote accepted

With pointers:

const Foo *f1 = new Foo(); /* Foo instance is trapped in pointer-to-const */
//Foo *f2 = f1; /* Error; not allowed without cast. */
Foo *f3 = new Foo(*f1); /* Use copy constructor */
delete f1;
delete f3;

With shared_ptr(C++11):

#include <memory>

std::shared_ptr<Foo> f1 = std::make_shared<Foo>(); /* shared_ptr will not implicitly copy object */
std::shared_ptr<Foo> f2 = f1; /* No copy made */
std::shared_ptr<Foo> f3 = std::make_shared<Foo>(*f1); /* use copy constructor */

If the client uses the object directly, THEY take responsibility for the copy overhead. This is more or less expected. You can hide the overhead by using pointers/refcounting/copy-on-write internally in your class, but as you said, this isn't what you want.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.