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today I've been working with Boost::shared_ptr, and I have a question.

vector<shared_ptr<KlasaA> > vec;
vec.push_back(shared_ptr<KlasaA>(new KlasaB));
vec.push_back(shared_ptr<KlasaA>(new KlasaC));
vec.push_back(shared_ptr<KlasaA>(new KlasaC));
vec.push_back(shared_ptr<KlasaA>(new KlasaA));

for (vector<shared_ptr<KlasaA> >::const_iterator c_it = vec.begin();
    c_it != vec.end(); ++c_it)
{
    cout << c_it->get()->foo(10) << endl;
}

The loop above goes through a vector and polymorphically invokes foo(10).

My question is:

Can...

for (vector<shared_ptr<KlasaA> >::const_iterator c_it = vec.begin();
    c_it != vec.end(); ++c_it)

and

cout << c_it->get()->foo(10) << endl;

be expressed in a more concise way? Thanks in advance.

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5 Answers 5

up vote 3 down vote accepted

You could use Boost.Foreach library. Then it will look pretty concise and clear:

BOOST_FOREACH( boost::shared_ptr<KlasaA> v, vec )
{
    std::cout << v->foo(10) << std::endl;
}
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This is a fine solution, but I personally don't like calling that variable 'it' as it is not an iterator in the c++ std library sense. –  mmocny Apr 4 '11 at 18:47
    
I chose this answer because I didn't know that Boost offers such a nice FOREACH. Thanks! –  Maciej Ziarko Apr 4 '11 at 19:05
typedef boost::shared_ptr<KlasaA> SharedKlasaA;
typedef vector<SharedKlasaA> KlasaAVector;

KlasaAVector vec;
vec.push_back(SharedKlasaA(new KlasaB));
...
for (KlasaAVector::const_iterator ...

cout << (*c_it)->foo(10);
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+1 Apparently, I need to use typedefs more often. Thanks! –  Maciej Ziarko Apr 4 '11 at 19:02

Your iterator initialization seems about as compact as can be, as far as I can see. If you really want to, you could write the loop function as:

cout << (*c_it)->foo(10) << endl;

This saves only 4 characters, but it does look a bit clearer.

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shared_ptr has an implicit downcast constructor, so you can write

vec.push_back(shared_ptr<KlasaB>(new KlasaB));

Notice the shared_ptr type is shared_ptr<KlasaB> and vec expects shared_ptr<KlasaA>.

With this in mind, you can replace shared_ptr constructor with make_shared function call (which may actually be preferred, anyway).

vec.push_back(make_shared<KlasaB>());

This will save you the hassle of typing in a bunch of class names. make_shared accepts arguments which it will forward, so make_shared<X> is a nice replacement for new X.

You may notice that there are potential performance implications here: the make_shared data structure can (will?) be different, and there is an extra implicit conversion, but that may be optimized away by the compiler. Profile and check.

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+1 Thank you for your answer. –  Maciej Ziarko Apr 4 '11 at 19:04

Dependently on compiler you may do such things:

std::foreach(vec.begin(),vec.end(),[](const boost::shared_ptr<KlasaA> &p){
  cout<<p->foo(10);
});
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3  
if you are using c++0x you may as well do range based for loop -- for( auto const & p : vec ) {} –  mmocny Apr 4 '11 at 18:45
    
Cool... Do you know anything about its presence in Standard? Haven't it been removed together with concepts? –  maxim1000 Apr 4 '11 at 18:58
    
It is still in the standard, though I see your concern about how it was defined before. I don't know for certain how it is defined now, so I won't comment. –  mmocny Apr 4 '11 at 19:42

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