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I need a shared_ptr like object, but which automatically creates a real object when I try to access its members.

For example, I have:

class Box
    unsigned int width;
    unsigned int height;
    Box(): width(50), height(100){}

std::vector< lazy<Box> > boxes;

// at this point boxes contain no any real Box object.
// But when I try to access box number 50, for example,
// it will be created.

std::cout << boxes[49].width;

// now vector contains one real box and 99 lazy boxes.

Is there some implementation, or I should to write my own?

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4 Answers 4

up vote 17 down vote accepted

It's very little effort to roll your own.

template<typename T>
class lazy {
    lazy() : child(0) {}
    ~lazy() { delete child; }
    T &operator*() {
        if (!child) child = new T;
        return *child;
    // might dereference NULL pointer if unset...
    // but if this is const, what else can be done?
    const T &operator*() const { return *child; }
    T *operator->() { return &**this; }
    const T *operator->() const { return &**this; }
    T *child;

// ...

cout << boxes[49]->width;
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it will make sense to contain child as auto_ptr –  Mykola Golubyev May 18 '09 at 15:28
You can even use boost::optional<T> instead of the child pointer. Using boost::optional<T> means that you benefit of its stack-allocation. No heap is used then –  Johannes Schaub - litb May 18 '09 at 15:38
Also, a copy constructor needed for this custom solution. –  Alexander Artemenko May 19 '09 at 8:26
What about making child mutable, so that the const methods will not return 0? –  Thomas L Holaday May 19 '09 at 12:58
@ephemient: I agree with Thomas that child should be declared mutable. This is exactly the kind of problem mutable was designed to solve. I mean if you desire pure constness, then a class like this would be a bad design anyway and in this case I would even argue it's incorrect! –  Andreas Magnusson Dec 27 '11 at 19:28

Using boost::optional, you can have such a thing:

// 100 lazy BigStuffs
std::vector< boost::optional<BigStuff> > v(100);
v[49] = some_big_stuff;

Will construct 100 lazy's and assign one real some_big_stuff to v[49]. boost::optional will use no heap memory, but use placement-new to create objects in a stack-allocated buffer. I would create a wrapper around boost::optional like this:

template<typename T>
struct LazyPtr {
    T& operator*() { if(!opt) opt = T(); return *opt; }
    T const& operator*() const { return *opt; }

    T* operator->() { if(!opt) opt = T(); return &*opt; }
    T const* operator->() const { return &*opt; }    
    boost::optional<T> opt;

This now uses boost::optional for doing stuffs. It ought to support in-place construction like this one (example on op*):

T& operator*() { if(!opt) opt = boost::in_place(); return *opt; }

Which would not require any copy-ing. However, the current boost-manual does not include that assignment operator overload. The source does, however. I'm not sure whether this is just a defect in the manual or whether its documentation is intentionally left out. So i would use the safer way using a copy assignment using T().

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vector<LazyPtr<Box> > v(100) will use 100*sizeof(Box), which is maybe okay but maybe OP doesn't want to use memory for Boxes that aren't allocated. Since OP hasn't described more requirements, we don't know... –  ephemient May 18 '09 at 17:10
You're right, that's a good point :) –  Johannes Schaub - litb May 18 '09 at 17:14
Right, I dont want to waste space on not allocated objects. –  Alexander Artemenko May 19 '09 at 7:19

I've never heard of such a thing, but then again there are lots of things I've never heard of. How would the "lazy pointer" put useful data into the instances of the underlying class?

Are you sure that a sparse matrix isn't what you're really looking for?

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Why did you point to the sparse matrix? –  Mykola Golubyev May 18 '09 at 15:08
Because a sparse matrix fills a similar (though not identical) need. Note that the poster's example shows a vector of "lazy pointers"; this sounds a lot like a sparse matrix. –  Dan Breslau May 18 '09 at 15:10

So far as I know, there's no existing implementation of this sort of thing. It wouldn't be hard to create one though.

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