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Given the following:

class ParamClass {...};

class MyObject {
    void myMethod(ParamClass const& param) { _myPrivate = param; }

    ParamClass _myPrivate;


MyObject obj;

void some_function(void)
    ParamClass p(...);

What will happen to _myPrivate at the end of the lifetime of object p? EDIT: will I still be able to use _myPrivate to access a copy of object p?



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4 Answers 4

up vote 7 down vote accepted

Since _myPrivate is not a reference, in the assignment _myPrivate = param, its value will be copied over from whatever the reference param points to, which in this case is the local variable p in some_function().

So if the assignment operator for ParamClass is implemented correctly, the code should be fine.

will I still be able to use _myPrivate to access a copy of object p?

With the above caveat, yes. But to be precise, _myPrivate can not be used to access a copy of p; it is a variable containing a copy of the data in (the now extinct) p.

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in myMethod you invoke the assignment operator of ParamClass which by default makes a bitwise copy of the object (you can define your own operator). So you create a copy of p, which will be accessible

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it makes a member-by-member copy, not a bitwise copy –  CashCow Feb 1 '11 at 15:02

A reference is like an alias to an object. The reference has no lifetime of its own. The lifetime to consider is the lifetime of the object referenced.

In your example, _myPrivate is an object so the operator= will copy the reference-passed objet p. p will be destroyed, and the parameter reference will reference nothing, but _myPrivate, as a copy will be OK.

It would be a problem if _myPrivate was declared as :

ParamObject& _myPrivate;

In this case, you end up with a "dangled" reference : Undefined behavior :)


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Take a look at:

_myPrivate = param;

In this statement assignment operator (ParamClass::operator=) copies values of each member of the object referred by param into members of _myPrivate. When some_function returns, p is moved from stack - it disappears. But _myPrivate now contains copies of p's members' values.

If ParamClass has members that are pointers to dynamically allocated memory, you must make sure that ParamClass::operator= performs deep copy, otherwise you might have problems with dangling pointers - ParamClass's destructor might free that memory but _myPrivate will have a member that still points to it!

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