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When a variable is reassigned, the destructor is not called:

Object foo = Object(a,b);
foo = Object(c,d);

so, the destructor will only be called at the end of the scope for Object(c,d), which can obviously cause problems. Now, in this specific case it doesn't bother me too much: it is enough to declare 2 different objects:

Object foo1 = Object(a,b);
Object foo2 = Object(c,d);

In this way the destructor of both objects will be called at the end.

However, there is a case when I necessarily need to reassign a variable, i.e. in an object constructor such as:

SuperObject(Point point1, Point point2) : delay_object_(DelayObject(0)) {
  double distance = distance(point1, point2);
  double delay = distance / speed;

  delay_object_ = DelayObject(delay);

In fact the DelayObject parameter is not easy to calculate (in this example I also omitted a few other passages), and I want to avoid doing it in the initialisation list.

I thought I can force the deletion by putting the object in the heap and explicitly calling the destructor:

SuperObject(Point point1, Point point2) : p_delay_object_(new DelayObject(0)) {
  double distance = distance(point1, point2);
  double delay = distance / speed;

  delete p_delay_object_;
  p_delay_object_ = new DelayObject(delay);

but this really looks ugly to me, as I prefer to use dynamic allocation only when strictly necessary. Am I missing something?


share|improve this question
is there a reason you didn't type Object foo(a,b)? And then later change foo's values to c and d? Why do you feel the right way to proceed is to create and then copy around entire objects? I don't think you're thinking with stack semantics. – Kate Gregory Jul 4 '11 at 19:47
Thanks Kate. No reason for that: its been a long time since I last worked with c++. – Enzo Jul 4 '11 at 20:24
up vote 7 down vote accepted

"the destructor will only be called at the end of the scope for Object(c,d)"

False. Object(c,d) is a temporary, and its destructor is called at the end of the full-expression which creates it. In this case, that's the semi-colon at the end of foo = Object(c,d);. The destructor of foo is called at end-of-scope.

The assignment operator of Object should free or re-use resources already held by foo, and copy resources held by the temporary. Not necessarily in that order (see copy-and-swap).

Edit: in response to comment.

Object foo = Object(a,b);


  1. A temporary is constructed using whatever two-argument constructor matches (a,b).
  2. foo is constructed using the copy-constructor, passing the temporary as argument.
  3. The temporary is destroyed.


  1. foo is constructed using whatever two-argument constructor matches (a,b).

The implementation is free to do either - this is permitted by "copy constructor elision".

foo = Object(c,d);
  1. A temporary is constructed using whatever two-argument constructor matches (c,d).
  2. The assignment operator for class Object is called on foo, passing the temporary as argument.
  3. The temporary is destroyed.

Some time later, at the end of the scope, foo is destroyed.

In C++0x, move assignment would come into play if it exists for the class.

share|improve this answer
Thanks Steve, and to everybody. I didn't hope to get so many professional answers.Could you please explain exactly what happens in a step-by-step fashion? – Enzo Jul 4 '11 at 20:15
My guess is: (1) Object foo = Object(a,b); // Object(a,b) is created, foo is created and Object(a,b) is copied into foo. (2) foo = Object(c,d); // Object(c,d) is created and is copied into foo (3) Object(a,b), Object(c,d), and foo are destructed in that order. – Enzo Jul 4 '11 at 20:28

You should overload the assignment operator, which would, conceptually, copy construct the existing object and destroy the old 'this'.

class Object {
  Object& operator= (const Object& other) {
     if (this != &other) {
       // copy 'other' into 'this'.
     return *this;

then the foo = Object(c,d); line should do what you expect.

(Also as @Steve Jessop mentioned, the temporary object Object(c,d) will also be destructed after before the end of the scope.)

See What is The Rule of Three?.

share|improve this answer
@Steve: Thanks. Abstracted out the comment to just say "copy 'other' into 'this'" :). BTW, for those who're interesting in copy-and-swap:…. – kennytm Jul 4 '11 at 19:52
Just say no to this, it is going to kill you when dynamic type of object is not equal to its static type. Also, how are you going to handle operator= in classes derived from Object? Use create temporary and swap idiom. – Tomek Jul 4 '11 at 19:54
Perhaps it's worth mentioning that whenever you find that you have to write your own destructor, and hence provide copy and assignment constructors, you should think twice. Oftentimes there's a better way using modern library tools to avoid this entirely. As Stephan T Lavavej puts it, "don't write your own copy constructor, that's evil"... – Kerrek SB Jul 4 '11 at 20:01
@Tomek: I don't understand your point. Create-temporary-and-swap and sub-typing are two different problem. You need to override operator= again in the derived class with or without that idiom. You can't change an Object on stack to a Derived by assignment. – kennytm Jul 4 '11 at 20:14
@Enzo: It's always preferable to design your class with intelligent data members so that you don't have to provide a custom copy constructor. But you have to know how to design your class (and it's probably not always possible). – Kerrek SB Jul 4 '11 at 20:25

Yes, you're forgetting that you can overload the assignment operator. The one provided by default by the compiler simply copies blindly all the fields of the objects, but you can provide your own that will do whatever you want, including disposing the resources of the object target of the assignment.

Notice that it's easy to get wrong an assignment operator (forgetting about corner cases, exception safety, ...), I advise you to read at least this part of our operator overloading FAQ, which in turn redirects to the explanation of the common copy and swap idiom, which is almost always the only sensible way to implement the assignment operator.


See in addition @Steve Jessop's answer, that considers another fundamental misunderstanding.

In all cases in which you write

SomeClass sc = SomeClass(parameters);

you are initializing a new object: you're creating a temporary (SomeClass(parameters)) and then initializing sc with a copy of it (via the copy constructor); this is both unnecessary and inefficient, the syntax to create an object on the stack in C++ is just

SomeClass sc(parameters);
share|improve this answer
Copy ctor elision deals with the inefficiency in an even halfway-decent compiler, and the two forms become equivalent. I slightly prefer the version with the =, because it never falls over the most vexing parse, but it's a matter of style. Of course if the profiler says that copy ctor elision has failed then that would have to be addressed. – Steve Jessop Jul 4 '11 at 19:53
It still looks like Java/C# to me, and it feels wrong. I also don't like it because I never remember if conceptually it's a temporary+copy, or some special case of "normal" construction alike the = to call 1-parameter constructors. – Matteo Italia Jul 4 '11 at 19:55
C++ was there first, if Java/C# look like it then that doesn't bother me ;-) But as I say, style issue, provided that the class has a copy ctor we should write whatever we like the look of. – Steve Jessop Jul 4 '11 at 19:57
Who's addicted to Steve Jessop's answer? ;-) – Kerrek SB Jul 4 '11 at 19:58
Oh yeah, and it occurs to me that if the class name is long, then I'll take my chances with the most vexing parse rather than write std::vector<int> vec = std::vector<int>(10);. And yes, I do then fall over the dreaded parse when I'm trying to initialize that vector from a pair of istream_iterator. – Steve Jessop Jul 4 '11 at 20:04

Delegate calculation of DelayObject parameters to private (possibly static) methods and use them when constructing DelayObject in initializer list.

share|improve this answer
Mmmm that might do it! Cheers! – Enzo Jul 4 '11 at 20:21

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