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I'm about to write something myself since I didn't find what I was looking for, but figured I should ask the crowd before diving in.

  • Is there a boost or stl random access container type that allows passing in of prefilled buffer?

The imaginary(?) container type would operate something like this:

  const int blobSize = unpackBlobSize( msg );
  int *     blob     = unpackBlobData( msg );

  SpecialVector<int> mySpecialIntVector( blob, blobSize );

Basically I'm interfacing an old library with c-style raw pointers-to-buffers, but would like to use C++ style container semantics without requiring a copy step. What I would hope to have is std::vector plus preallocated & prefilled buffer constructor and, minus resize.

Libeigen has this sort of functionality with their Eigen::Map which allows things like the following:

  int array[9];
  for(int i = 0; i < 9; ++i) 
      array[i] = i;
  stl::cout << Eigen::Map<Eigen::Matrix3i>(array) << stl::endl;

Anyone know of a boost or stl template that covers these constraints?

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I'm not intimately familiar with the library, but I believe Boost.Range probably has something you can use. As I understand, it provides a few thin wrappers that make pairs of iterators look like containers –  Dennis Zickefoose Jul 28 '11 at 4:22
@Dennis that seems like it might be a real solution. Checking into it. –  Catskul Jul 28 '11 at 4:39
@Dennis, do you want to make this into an answer or shall I? –  Catskul Jul 28 '11 at 5:02
Feel free, I haven't actually looked deep enough into it to give a working example. –  Dennis Zickefoose Jul 28 '11 at 5:20
that's my point, I don't see an example. What's in vector's API (if not automatic resize) that you lack? "safe(er) C++/STL way" are just words, sorry. You can run out of vector's boundaries as happily as you can with a built-in array. The only safer thing about vector is implicit memory management, but you gave this up. Pointers are just a kind of (built-in) iterators, it's ok to use them as such as long as you don't manage you memory by yourself. STL is just a tool, not a talisman against bad stuff :) –  davka Jul 28 '11 at 6:03

3 Answers 3

up vote 8 down vote accepted

Going from Dennis Zickenfoose's comment, I looked up Boost.range seems to offer the perfect solution:

  #include <boost/range.hpp>
  #include <boost/foreach.hpp>
  #include <iostream>

  int main()
    const int blobSize = 100;
    int blob[blobSize];

    for( int i = 0; i < blobSize; ++i )
      blob[i] = i;

    boost::iterator_range<int*> blobPsudoContainer( blob, blob + blobSize );

    BOOST_FOREACH( int & i, blobPsudoContainer )
      i = i + 1;

    std::cout << "Size is:" << blobPsudoContainer.size() << "\n";
    std::cout << "value at 0 is:" << blobPsudoContainer[0] << "\n";
    return 0;

Thanks Dennis! : )

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Nice. I don't think it would have occurred to me to use boost::range for this particular purpose. I had always thought of it only for representing a subset of a container - applying it to a C array to turn the array into a container just wouldn't have entered my mind. –  Michael Burr Jul 28 '11 at 5:49
Now I'm getting greedy... I'm wondering if I can rig it to automatically convert std container types so that I can just have all of my templated function signatures take boost.range types and cover all bases for free : ) –  Catskul Jul 28 '11 at 6:01
@Catskul: Ranges aren't types; they're concepts. boost::iterator_range is a type that implements a range concept; it happens to be defined by two user-supplied iterators. You can implement types that satisfy the range concept too. All of the standard containers also just so happen to satisfy the range concept. –  Nicol Bolas Jul 28 '11 at 6:07
@Nicol, "Ranges aren't types; they're concepts" Yeah, I get that. If I didn't we wouldn't be having this conversation ;) If you'd prefer me to be more verbose, I'm trying to say that I think I can probably produce templatized functions that instantiate boost ranges from std container types automatically so I handle std::container types, and ranges together without specializing. –  Catskul Jul 28 '11 at 6:19
@Catskul: But you can't instantiate ranges from anything, because ranges are concepts and concepts can't be instantiated. Also, Boost.Range already includes many template algorithms that handle range types. They also have delayed evaluation functionality, so you can compose multiple algorithms into one in an efficient way. And standard containers already fit the range criteria, so any template function that accepts a range concept will accept a standard container. –  Nicol Bolas Jul 28 '11 at 6:49

There's nothing like you want, this is just a shortcoming of the language. If you were satisfied with having the allocator statically guess a good expected maximum element count, you could just embed a normal C array inside an allocator and defer to it as long as possible; this is usually called an auto buffer.

Old Answer:

All of the standard library containers allow you to specify an allocator. You can make a buffer allocator.

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Very interesting idea. I would still be left with the resize issue though. –  Catskul Jul 28 '11 at 4:01
@Catskul It will use your custom allocator when resizing. –  young Jul 28 '11 at 4:08
It looks like he wants the provided buffer to already contain initialized values; a standard library container will assume the allocator returns uninitialized memory, and overwrite the existing data. –  Dennis Zickefoose Jul 28 '11 at 4:08
I was about to write it but now we should clarify: @Cat: Do you want to pass in the buffer, or just assume some sort of expected static buffer. Why are you dynamically allocating your buffer anyway? –  GManNickG Jul 28 '11 at 4:16
@Catskul: Then perhaps I'm missing something, but why not just start using your buffer then? What does sticking it in std::vector<> and then not using std::vector features gain? –  GManNickG Jul 28 '11 at 4:21

I figured I'd post the custom solution I ended up using for posterity and in case anyone was curious or had any comments. Please forgive the tight formatting; It was to get rid of the horizontal scroll.

Do let me know in the comment section if you use this. I'd be curious to hear if it was useful to anyone else.

We'll need the following headers:

 #include <boost/range/iterator_range.hpp>
 #include <boost/shared_ptr.hpp>
 #include <boost/shared_array.hpp>
 #include <vector>

A helper to hook onto an existing refcounted object

 template<typename RefCountedTypeT>
 struct RefCountLinkFunctor
     RefCountLinkFunctor( const RefCountedTypeT & ptr ) 
       : m_ptr(ptr) 
       &RefCountedTypeT::use_count; // try to check if refcounted

      template<typename T> void operator()(T*) {}

     RefCountedTypeT m_ptr;

And then:

 template< typename DataT >
 class DataRange : public boost::iterator_range< DataT * >
   typedef boost::iterator_range< DataT * >    ParentType;
   typedef DataRange< DataT >                  OwnType;
   typedef DataT                               DataType;
   typedef boost::iterator_range< DataType * > Range;
   typedef boost::shared_ptr< OwnType >        Ptr;
   typedef std::vector<DataType>               DataVector;
   typedef boost::shared_ptr<DataVector>       DataVectorPtr;

   static Ptr allocateShared( std::size_t size )
     typedef boost::shared_array<DataType>         DataSharedArray;
     typedef RefCountLinkFunctor<DataSharedArray>  Deleter;

     DataSharedArray   dataArray( new DataType[size] );
     Deleter           deleter( dataArray );

     DataT * begin = dataArray.get();
     DataT * end   = begin + size;

     return Ptr( new OwnType(begin, end), deleter);

   template< typename RefCountedT >
   static Ptr 
   makeShared( DataType * begin, DataType * end, const RefCountedT & refObj )
     RefCountLinkFunctor< RefCountedT >  deleter( refObj );
     return Ptr( new OwnType(begin, end), deleter );

   template< typename RefCountedT, typename InDataT >
   static Ptr 
   makeShared( DataVector & data, const RefCountedT & refObj )
     RefCountLinkFunctor< RefCountedT >  deleter( refObj );

     DataType * begin = &data.front();
     DataType * end   = begin + data.size();

     return makeShared( begin, end, deleter );

   static Ptr makeShared( const DataVectorPtr & data )
     typedef boost::shared_ptr< std::vector<DataType> > InputVectorPtr;

     RefCountLinkFunctor< InputVectorPtr >  deleter( data );

     DataType * begin = &data->front();
     DataType * end   = begin + data->size();

     return makeShared( begin, end, deleter );

     DataRange( DataType * begin, DataType * end ) : ParentType( begin, end ){}

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