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I'm using an old open-source library, with the following (simplified) API of interest:

// some class that holds a raw pointer to memory on the heap
// DOES NOT delete it in its destructor
// DOES NOT do a "deep" copy when copied/assigned (i.e., after copying both objects
// will point to the same address)
class Point;

// function used to construct a point and allocate its data on the heap
Point AllocPoint();
// function used to release the memory of the point's data
void DeallocPoint(Point& p);

// Receives a pointer/c-array of Points, along with the number of points
// Doesn't own the memory
void Foo(Point* points, int npts);

What's the best (safest/most readable/most elegant) way of using this API in C++11. I can't simply use vector<unique_ptr<Point, PointDeleter>> (where PointDeleter is a simple custom deleter I can implement), because then I will not be able to use the function Foo (which expects Point* and not unique_ptr<Point>*).


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Have a look at the boost pointer container library. – juanchopanza Jun 17 '13 at 10:31
One thing that comes to mind is "ditch the library." Seriously. – slaphappy Jun 17 '13 at 10:33
Unfortunately this is not an option for me... – JohnnyW Jun 17 '13 at 10:34
"because then I will not be able to use the function Foo" - Why not? std::unique_ptr::get will give you a raw pointer while retaining ownership. – Xeo Jun 17 '13 at 11:32
Yes, but to use Foo I need a C-Array of points, so how can I pass all the points in the vector? – JohnnyW Jun 17 '13 at 11:36

If you really want to make it look nice, you're probably going to have to write a set of really comprehensive wrappers which completely hide the library's API - effectively, wrap the entire library with one that behaves in a modern C++ way on the outside and hides all the mess inside.

Not a pleasant task, but if you can get the behaviour of that library right then it should make your life a lot easier in the long term. Might not be worth it if you're not going to use this external library very extensively though.

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+1, but indeed I'm not sure it's worth it in my case – JohnnyW Jun 17 '13 at 11:31

I would wrap this non-RAII C-like API in RAII building blocks, and then use them in C++11 code.

For example: you can define a RaiiPoint class that wraps the (non-RAII) Point class, and in its constructor calls AllocPoint(), in the destructor DeallocPoint(). Then you can define proper copy constructor and copy operator=, or just implement move semantics (with move constructor and move operator=), or make the wrapper class both copyable and movable, basing on your requirements.

Then you can simply use a std::vector<RaiiPoint> with your RAII-based wrapper class.

(This is a general approach that you can use when you want to use C libraries in modern C++ code: you can wrap the "raw" C library handles and objects in safe RAII boundaries, and use these robust safe wrapper classes in your modern C++ code.)

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The problem with this is that he can't pass a RaiiPoint* to his functions. He would have to wrap each of the relevant functions with a function which extracts the Point, and passes it. (It's also not clear that he can implement correct copy or move semantics.) – James Kanze Jun 17 '13 at 10:49
I could also used unique_ptr with a custom deleter, but there is a problem here regarding the usage: I will not be able to pass to the function (as it will return RaiiPoint* and not Point* as accepted from Foo) – JohnnyW Jun 17 '13 at 10:49
@JamesKanze: The RAII wrapper class could expose a Get() or GetPtr() method returning a Point* for interfacing with the legacy API. – Mr.C64 Jun 17 '13 at 10:56
@Mr.C64 His function requires a pointer to an array of Point. Not an array of RaiiPoint. Being able to convert a single Point doesn't help him much. – James Kanze Jun 17 '13 at 11:21
As @JamesKanze pointed out (preceding me in 32 seconds in the first comment :), I need a Point*. – JohnnyW Jun 17 '13 at 11:30

You can use std::vector<Point>, calling Foo( &v[0], v.size() ). But managing the memory here could be tricky, since Point apparently doesn't provide any clean copy and assignment; a custom deleter in the allocator will be called for each element, even if it is copied.

If the vector should actually own the points, then you can wrap it in a more complex class, which calls AllocPoint for each insertion (and inserts the results), and DeallocPoint for each removal (and for everything remaining in the vector on destruction). This class should not allow write access to the Point (non-const operator[], non-const iterators, etc.), however, since this would allow changing any pointers in Point, and loosing what is needed for DeallocPoint to work correctly. Presumably, there other functions for manipulating Point; you'll have to arrange for these to be available through the wrapper interface.

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"You" could write a simple wrapper to free the memory:

struct PointVectorWrapper {
  vector<Point> points;
  ~PointVectorWrapper() {
    for (Point& p : points) {
  PointVectorWrapper& operator=(const PointVectorWrapper&) = delete;
  PointVectorWrapper(const PointVectorWrapper&) = delete;
// Now the usage is simple and safe:
PointVectorWrapper points;
// ... populate points ...
Foo(, points.size())

But this seems a little "adhoc". What's a more standard/reusable solution?

share|improve this answer
I wonder what happened to rule of 3 – Balog Pal Jun 17 '13 at 10:31
I don't understand, what's wrong? – JohnnyW Jun 17 '13 at 10:33
:-( please edit your code to remove the danger – Balog Pal Jun 17 '13 at 10:35
If it illustrates the point well enough, do we have to provide complete and safe solutions to everything for every question? Can't we rely on the OP to flesh it out into a full and safe implementation? – Matthew Walton Jun 17 '13 at 10:40
@BalogPal, indeed as Matthew Walton said I wanted to illustrate the point with a little clutter as possible. Nevertheless I edited the code. – JohnnyW Jun 17 '13 at 10:43

You could use a standard vector with a custom allocator, that invoke AllocPoint on construct method and DeallocPoint() on destruct method.

template<typename T>
class CustomAllocator : public std::allocator<T>
  //Rebind and constructors

class CustomAllocator<Point> : public std::allocator<Point>
   //Rebind and constructors

   //For c++11
   void construct( pointer p )
      new (p) Point();
      *p = AllocPoint();

   void construct( pointer p, const_reference val )
      //copy member from val to point if neccessary 

   void destroy( pointer p )

typedef std::vector<Point, CustomAllocator<Point> > PointVector;
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