57

What's the equivalent to the following:

std::vector<Foo*> vec;
vec.push_back(NULL);

when dealing with boost::shared_ptr? Is it the following code?

std::vector< boost::shared_ptr<Foo> > vec;
vec.push_back(boost::shared_ptr<Foo>());

Note: I may push back a lot of such objects. Should I declare a global static nullPtr object somewhere? That way only one of them would have to be constructed:

boost::shared_ptr<Foo> nullPtr;
2
  • 4
    good news from the next C++ standard: there, you can write "vec.emplace_back();" and get a null pointer append :) Mar 7, 2009 at 4:24
  • 7
    Consider using boost::ptr_vector which requires less overhead.
    – Philipp
    Jul 1, 2010 at 7:49

6 Answers 6

54

Your suggestion (calling the shared_ptr<T> constructor with no argument) is correct. (Calling the constructor with the value 0 is equivalent.) I don't think that this would be any slower than calling vec.push_back() with a pre-existing shared_ptr<T>, since construction is required in both cases (either direct construction or copy-construction).

But if you want "nicer" syntax, you could try the following code:

class {
public:
    template<typename T>
    operator shared_ptr<T>() { return shared_ptr<T>(); }
} nullPtr;

This declares a single global object nullPtr, which enables the following natural syntax:

shared_ptr<int> pi(new int(42));
shared_ptr<SomeArbitraryType> psat(new SomeArbitraryType("foonly"));

...

pi = nullPtr;
psat = nullPtr;

Note that if you use this in multiple translation units (source files), you'll need to give the class a name (e.g. _shared_null_ptr_type), move the definition of the nullPtr object to a separate .cpp file, and add extern declarations in the header file where the class is defined.

11
  • nice idea dude. i had to +1 that :p but note the answer over here stackoverflow.com/questions/395685/… Mar 7, 2009 at 4:45
  • Thanks guys. :) Looking at litb's post suggests that the class should really be named though. Mar 7, 2009 at 4:56
  • some silly names: nullPtrT, NullPtrType, nullPtr_t . whatever :) i found they append a _t when there is only one instance of something (like, nothrow_t and nullptr_t). Mar 7, 2009 at 18:04
  • another idea what to do when different TUs are involved: for avoiding static initialization fiasco you could also create a nullPtr() function, that returns an object of your null class. so you don't run into initialization order problems when something of a different TU uses your null object. Mar 8, 2009 at 3:40
  • 1
    Or even use nullptr on modern compilers - see my answer (I realize, of course, that nullptr didn't exist in 2009 :)
    – bdonlan
    Sep 25, 2011 at 8:05
18

Well, this is legal:

shared_ptr<Foo> foo;  /* don't assign */

And in this state, it doesn't point to anything. You can even test this property:

if (foo) {
    // it points to something
} else {
    // no it doesn't
}

So why not do this:

std::vector < shared_ptr<Foo> > vec;
vec.push_back (shared_ptr<Foo>);   // push an unassigned one
9

In C++0x, you can simply convert from nullptr to std::shared_ptr:

std::vector< boost::shared_ptr<Foo> > vec;
vec.push_back(nullptr);
4

You could declare a global nullPtr for shared_ptr<Foo>. But if you pollute the global namespace, what would you call the global nullPtr for shared_ptr<Bar>?

Typically I declare the null ptr as a static in the class of the pointer.

#include <boost\shared_ptr.hpp>

class Foo; // forward decl
typedef boost::shared_ptr<Foo> FooPtr;
class Foo
{
public:
    static FooPtr Null;
}
...
// define static in cpp file
FooPtr Foo::Null;
...
// use Foo Null
vec.push_back(Foo::Null);

That way each class has a static Null.

1
  • 1
    You can get a more natural syntax by using a templated conversion operator on a global variable. <plug>See my answer...</plug> :) Mar 7, 2009 at 4:38
1

Here's something which I think is a bit simpler and works just fine

( remember that typedef is your friend ):

#include    <cstdlib>
#include    <vector>
#include    <iostream>
#include    <boost/shared_ptr.hpp>

typedef boost::shared_ptr< std::vector<char> > CharVecHandle;

inline CharVecHandle newCharVec(std::vector<char>::size_type size) {
    return CharVecHandle(new std::vector<char>(size));
}

inline CharVecHandle newCharVec(void) {
    return CharVecHandle();
}

int main ( void )
{
    CharVecHandle cvh = newCharVec();

    if (cvh == NULL) 
        std::cout << "It's NULL" << std::endl;
    else 
        std::cout << "It's not NULL" << std::endl;

    std::vector< CharVecHandle > cvh_vec;

    cvh_vec.push_back(newCharVec(64));
    cvh_vec.push_back(newCharVec());

    // or call the NULL constructor directly
    cvh_vec.push_back(CharVecHandle());

    return EXIT_SUCCESS;
}
4
  • Sure, a typedef is nicer to look at than boost::shared_ptr<Foo>, and the OP seems to be concerned only with a single type Foo, in which case typedef fits nicely. If you want to avoid a proliferation of typedefs for different smart pointer types, my approach is better I think. Not sure what you're trying to demonstrate with your newCharVec() functions though, can you explain? Jul 1, 2010 at 10:36
  • @j_random_hacker: The purpose of the newCharVec functions is the same as the typedef, convenience and consistency. Less characters to type and consistency in creating real objects and NULL objects. The thing is, that even if I was using the template method, I would still probably create a typedef. Coming from a C background whenever I see an overly complicated type declaration my first instinct is to typedef it. Taking that into account, I'm not sure if there's really an objective reason to pick one method or the other, it may be an issue of style or personal preference. Jul 1, 2010 at 20:19
  • Well, one reason to prefer my approach is that, because my nullPtr is type-agnostic, it will work in function templates when manipulating variables whose type is unknown, while yours won't. E.g. I can write a function template template <typename T> push_a_null_ptr(vector<shared_ptr<T> >& v) { v.push_back(nullPtr); }, which will work for all types T. I admit it's not a huge upside, but I don't see any downsides. Jul 2, 2010 at 3:55
  • Um, maybe I misinterpreted your last comment -- I thought you were comparing your approach to my approach, but maybe you were really comparing your approach to the OP's "starting point" approach of just spelling out the full shared_ptr<Foo>() each time? If the latter then I agree your approach is nicer, I'd rather look at a short typedefed name than a long template instantiation. But I still think mine's even better... :) Jul 2, 2010 at 3:59
0

Yes, declare a global static null pointer.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.