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For one reason or another, I'm forced to provide both a copy constructor and an operator= for my class. I thought I didn't need operator= if I defined a copy ctor, but QList wants one. Putting that aside, I hate code duplication, so is there anything wrong with doing it this way?

Fixture::Fixture(const Fixture& f) {
    *this = f;

Fixture& Fixture::operator=(const Fixture& f) {
    m_shape         = f.m_shape;
    m_friction      = f.m_friction;
    m_restitution   = f.m_restitution;
    m_density       = f.m_density;
    m_isSensor      = f.m_isSensor;
    return *this;

And just out of curiosity, there's no way to switch it so that the bulk of the code is in the copy ctor and operator= somehow utilizes it? I tried return Fixture(f); but it didn't like that.

It appears I need to make it more clear that the copy constructor and assignment operator have been implicitly disabled by the class I am inheriting from. Why? Because it's an abstract base class that shouldn't be instantiated on its own. This class, however, is meant to stand alone.

share|improve this question
Your new code recurses endlessly. It's just calling the operator= itself again. No good. – Johannes Schaub - litb Sep 22 '09 at 2:59
@litb: Oh.. lol. oops :$ – mpen Sep 22 '09 at 4:52
No worries! My first answer of course contained the same issue too, just burried into a std::swap call. Epic fail xD – Johannes Schaub - litb Sep 22 '09 at 5:09
Have you noticed that the selected answer has the least votes. There is a reason for this you realize! – Loki Astari Sep 23 '09 at 22:26
@Martin: The reason, I assumed, was because it was still a new answer when I marked it the answer. It's been a number of hours since and it doesn't seem very well received. I guess I shall explore this some more. – mpen Sep 24 '09 at 4:12
up vote 22 down vote accepted

This is bad, because the operator= can't rely on a set-up object anymore. You should do it the other way around, and can use the copy-swap idiom.

In the case where you just have to copy over all elements, you can use the implicitly generated assignment operator.

In other cases, you will have to do something in addition, mostly freeing and copying memory. This is where the copy-swap idiom is good for. Not only is it elegant, but it also provide so an assignment doesn't throw exceptions if it only swaps primitives. Let's a class pointing to a buffer that you need to copy:

Fixture::Fixture():m_data(), m_size() { }

Fixture::Fixture(const Fixture& f) {
    m_data = new item[f.size()];
    m_size = f.size();
    std::copy(, + f.size(), m_data);

Fixture::~Fixture() { delete[] m_data; }

// note: the parameter is already the copy we would
// need to create anyway. 
Fixture& Fixture::operator=(Fixture f) {
    return *this;

// efficient swap - exchanging pointers. 
void Fixture::swap(Fixture &f) {
    using std::swap;
    swap(m_data, f.m_data);
    swap(m_size, f.m_size);

// keep this in Fixture's namespace. Code doing swap(a, b)
// on two Fixtures will end up calling it. 
void swap(Fixture &a, Fixture &b) {

That's how i write the assignment operator usually. Read Want speed? Pass by value about the unusual assignment operator signature (pass by value).

share|improve this answer
That sounds great, but why do I need to swap them? Who cares what the value of f is? Isn't that needless copying? Not to mention I copied f just to call the function since you removed the reference... – mpen Sep 22 '09 at 2:43
Before you swap, the values you want are in f, but you want them in *this. That's why you swap. If you keep f being a const reference, then you have to do Fixture c = f; swap(*this, c); in the body - so you have to copy anyway. It's always best to do a copy as transparent to the caller as possible. Read – Johannes Schaub - litb Sep 22 '09 at 2:52
Yes, I want the values from f in *this. But I don't need *this copied to f. Sure there's an assignment, but this causes twice the assignments, no? – mpen Sep 22 '09 at 2:57
I think it's getting more and more elegant :O – GManNickG Sep 22 '09 at 5:37
Wait - we are really overlooking something here: You need to swap, because you want your old date to be freed. If you just assign over, you don't free the old data. And if you just swap the pointer, but not the other data, then in the destructor of the parameter (which will hold your old pointer, but some other data), you will get inconsistencies. So you have to always swap. – Johannes Schaub - litb Sep 25 '09 at 17:58

Copy ctor and assignment are entirely distinct -- assignment typically needs to free resources in the object that it's replacing, copy ctor is working on a not-yet-initialized object. Since here you apparently have no special requirements (no "releasing" needed on assignment), your approach is fine. More in general, you might have a "free all resources the object is holding" auxiliary method (to be called in the dtor and at the start of assignment) as well as the "copy these other things into the object" part that's reasonably close to the work of a typical copy ctor (or mostly, anyway;-).

share|improve this answer
Assuming I did need to free some resources, then this method wouldn't work at all eh? Because then I'd by trying to free uninitialized resources in the copy ctor (since it calls operator=). Which leads to the last question I had -- is there anyway to swap it so that operator= calls the copy constructor instead? That way I free the resources and then copy the data. – mpen Sep 22 '09 at 2:32
Best is probably to have "free stuff" and "copy stuff" auxiliary methods and call them to build up copy ctor, assignment, and dtor -- not quite as general like litb's std::swap idea, but somewhat cheaper if assignment and copy-constructing are equivalent for the resources you're holding. – Alex Martelli Sep 22 '09 at 3:07
+1: After reading litb's answer and the other approaches I decide to like your's the most. Yes, it does not look very elegant but it combines no code redundancy with best performance. (See also my comment to litb's and Goz' answers) – Rüdiger Stevens Sep 22 '09 at 8:05
I've got this sneaking suspicion that if assignment and copy-construction are equivalent (i.e, there are no resources to free), then the default copy constructor and operator= are fine, and you shouldn't be writing any code at all. But I can't prove it, and anyway the default operator= and this approach both have exception-safety issues which only copy-and-nothrow-swap can solve, unless you know that all your members have nothrow operator=. If you use exceptions, then copy-and-swap ranks roughly with RAII as an essential c++ idiom. – Steve Jessop Sep 22 '09 at 10:25
... the problem with implementing operator= as "free, then copy" if the copy can fail, is that you can provide at best the weak exception guarantee, and even for that you have to catch any exceptions and undo what you've done of the "copy", so as to clear out the object being assigned to, into an "empty" state. This is neither its initial state, nor the desired state, hence no strong guarantee. – Steve Jessop Sep 22 '09 at 10:28

You're simply doing a member-wise copy and assignment in your examples. This is not something you need to write yourself. The compiler can generate implicit copy and assignment operations that do exactly that. You only need to write your own copy constructor, assignment and/or destructor if the compiler-generated ones are not appropriate (i.e. in case you manage some resource through a pointer or something like that)

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good point. that's what i think about the example code too. Not sure why it needs its own copy assignment operator. – Johannes Schaub - litb Sep 22 '09 at 8:26
Don't mean to be rude, but read the first sentence :) I'm inheriting from another class that implicitly disables the copy constructor and assignment operator. I need to define them in my own class for them to exist. – mpen Sep 23 '09 at 2:45
You could have mentioned this detail. I think it's fairly unusual to derive from a noncopiable class and make the derived one copiable. – sellibitze Sep 23 '09 at 21:36

I think you run into issues if your operator= ever becomes virtual.

I would recommend writing a function (maybe static) that does the copy then have the copy-constructor and operator= call that function instead.

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Yes, this is good practice and should (almost) always be done. In addition toss in a destructor and default constructor (even if you make it private).

In James Coplien's 1991 book Advanced C++, this is described as part of "Orthodox Canonical Form". In it, he advocates for a default constructor, a copy constructor, the assignment operator and a destructor.

In general, you must use the orthodox canonical form if:

  • You want to support assignment of object of the class, or want to pass those objects as call-by-value parameters to a function, and
  • The object contains pointers to objects that are reference-counted, or the class destructor performs a delete on a data member of the object.

You should use the orthodox canonical form for any nontrivial class in a program, for the sake of uniformity across classes and to manage the increasing complexity of each class over the course of program evolution.

Coplien offers pages of reasons for this pattern and I couldn't do them justice here. However, a key item that has already been touched on is the ability to clean up the object that is being overwritten.

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Well that's great and all, but it doesn't really answer anything does it? All you've told me is that I should include them. Not how, which was what the question was about. – mpen Sep 22 '09 at 2:54
+1 for useful tidbit of info, although Mark is correct that this does not answer his question at all – DVK Sep 22 '09 at 3:03
I guess my point was that better minds than mine have thought about this problem and in Coplien's case written an entire chapter section on it. So, rather than completely plagiarizing Coplien, I included a reference to a book that is worth reading. I will edit to offer a bit more of an opinion/answer. – Adrian Sep 22 '09 at 3:44

I think you should initialize your object member variables using initializer list. If your variables are of primitive-types, then it doesn't matter. Otherwise, assignment is different from initialization.

You could do it with a little trick by initializing pointers inside the copy constructor to 0, then you could call delete safely in the assignment operator:

Fixture::Fixture(const Fixture& f) : myptr(0) {
    *this = f;
Fixture& Fixture::operator=(const Fixture& f) {
    // if you have a dynamic array for example, delete other wise.
    delete[] myptr;
    myptr = new int[10];
    // initialize your array from the other object here.
    return *this;
share|improve this answer
I could... but it would be better if I didn't even have to try to delete it when I know it hasn't been initialized. – mpen Sep 22 '09 at 2:47
There is no harm deleting NULL pointers. Anyway, the assignment operator should free original resource and allocate new resources to copy the other object's data. – AraK Sep 22 '09 at 2:49
I know it's safe, but it's still an extra operation ;) One that, IMO, shouldn't be needed. I know it's a micro-optimization, but if it can clearly be avoided, I'd prefer that. – mpen Sep 22 '09 at 2:56
Btw I want to give you a +1 but it won't let me. Says your post is too old. Try editing it slightly. – mpen Sep 22 '09 at 6:28
This version of the assignment operator probably fails in case this==&f (se-fassignment) – sellibitze Sep 22 '09 at 11:33

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