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Why does the following code not allow foo(ptr) to be called ?

#include <boost/scoped_ptr.hpp>
struct A {
    virtual ~A() {}

struct B: public A {};

void foo(boost::scoped_ptr<A>& a) {}

void goo(A& a) {}
int main() {
    boost::scoped_ptr<B> ptr(new B);
    B b;

The corresponding form where we pass references works as expected. Are we supposed not to do polymorphism with boost scoped_ptr ?

g++ with boost 1.49 gives me:

error: invalid initialization of reference of type ‘boost::scoped_ptr<A>&’ from expression of type ‘boost::scoped_ptr<B>’
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1 Answer 1

up vote 5 down vote accepted

That's because foo, for some reason, takes a scoped pointer by reference. That is completely unnecessary and is the reason why the call fails. There is a conversion from scoped_ptr<B> to scoped_ptr<A> but not from scoped_ptr<B>& to scoped_ptr<A>&.

You should pass it as reference to const.

void foo(boost::scoped_ptr<A> const & a) {}

Incidentally, this isn't a "problem" of smart pointers per se. The following code fails for the same reasons as yours.

void foo(A*& p) {}
int main()
    B* p = new B;
    foo(p); //FAIL

In order to fix this you have to pass the pointer either by value, or, if you're sufficiently perverted, by reference to const

 void foo (A * const & p); // <-- a perv wrote this
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wouldn't that need a copy of scoped_ptrs, which has a private copy constructor ? In any case, I want the scoped_ptr to persist in the callee. –  ATemp Mar 23 '12 at 19:49
changing foo() to make scoped_ptr instead of reference gives me: error: conversion from ‘boost::scoped_ptr<B>’ to non-scalar type ‘boost::scoped_ptr<A>’ requested –  ATemp Mar 23 '12 at 19:51
@ATemp: You're right, edited. –  Armen Tsirunyan Mar 23 '12 at 19:51
If you want it to persist in the callee then I'm pretty sure you don't want a scoped_ptr. You want unique_ptr if you're transferring ownership or shared_ptr if both places retain pointership to it. –  Mark B Mar 23 '12 at 19:52
@ATemp: Because in order to pass something by reference, the types must match exactly. But if it's reference to const, then conversions can take place. C++ rules –  Armen Tsirunyan Mar 23 '12 at 19:55

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