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I have some data type which, if I were to use plain old C, would be implemented as

typedef struct {
    ...many other members here...
    unsigned short _size;
    char           _buf[0];
} my_data; 

What I'd like to do, is to basically make that a class and add the usual operators like less, equality, copy constructor, operator assignment, and so on. As you can imagine I would then be using such class in associative containers like std::map as its key.

I need the buffer to be ideally at the same level of the object itself, otherwise when I have to compare two of them (buffers) I would have the CPU to take the pointer and load it in memory; I don't want to use std::vector because memory allocated wouldn't be contiguous with the rest of the data members.

Main issue for me is the fact that in C I would have a function which, given the size of the buffer would allocate proper memory size for it. In C++ such thing can't be done.

Am I right? Cheers

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4  
Zero array length array members are not valid in C++, so the answer to the question in the title is "no". –  R. Martinho Fernandes Aug 10 '12 at 7:29
    
Theoretically - no. Practically - yes, there's absolutely no problem with this –  valdo Aug 10 '12 at 7:30
    
What is the purpose of _buf? Maybe you can use some of the standard containers instead? –  Joachim Pileborg Aug 10 '12 at 7:32
1  
Oh by the way, identifiers with single or double leading underscores are reserved by the C and C++ standard. –  Joachim Pileborg Aug 10 '12 at 7:34
1  
@Joachim Pileborg; identifiers with single leading underscore are only reserved at global scope (unless the character after the underscore is an upper-case letter). So _buf is fine. –  Joe Gauterin Aug 10 '12 at 7:37

3 Answers 3

up vote 1 down vote accepted

This is quite impossible. Your object is effectively of variable size but the std::map will always treat it as a fixed size, and there is no way to implement copying or moving. You would need an old C-style container to use such a hack.

Edit: Custom allocator. Interesting solution, I hadn't thought of that. I don't know if you could make it work but it would be worth looking into.

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Thanks for confirming this. I'll try to tackle part of the cause of this issue using custom allocators, and/or I might have to write C containers to do so (as you suggested). –  Emanuele Aug 10 '12 at 7:55
    
A custom allocator would be an interesting solution. I hadn't thought of that, but I'm not actually sure how defined it would be. –  Puppy Aug 10 '12 at 7:57
    
It would be used to tackle part of the cause of this issue, and/or I could try to make the buffer start just right after the pointer for each instance, so to be on the same CPU CACHELINE. –  Emanuele Aug 10 '12 at 8:04
    
The problem with a custom allocator that automatically overallocates would be that it's actually only used for the complete nodes of the map, not for the single keys/values. –  Xeo Aug 10 '12 at 8:04
    
You could override the construct function. –  Puppy Aug 10 '12 at 8:06

No, it's not possible. Zero length arrays aren't legal C++.

You can1 do something very similar with an array of length 1, but you would still have to manage creation of instances yourself, so no copy constructor and no storing the objects in std::map.

Perhaps something like this:

class my_data {
public:
  static my_data* create(int size) {
    void* memory = malloc(sizeof(_size) + size);
    return new(memory) my_data(size);
  }

  static void destroy(my_data* ptr) {
    ptr->~my_data();
    free(ptr);
  }

private:
  //disable construction and destruction except by static methods above
  explicit my_data(int size) : _size(size) {}
  ~my_data(){}

  //disable copying
  my_data(const my_data&);
  my_data& operator=(const my_data&);

  unsigned short _size;
  char           _buf[1];
};

Note that the default constructor, destructor, copy constructor and assignment operator are all private, which greatly restricts how the class can be used.


1 In practical terms - it's not standards compliant, but it will work almost everywhere.

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You can approach it this way in C++:

struct MyData {
    unsigned short size_;
    char * buf () { return reinterpret_cast<char *>(&size_ + 1); }
    //...
};

You are likely going to want to overload the new operator to use malloc, and delete to use free, so that you can grow your data structure on demand with realloc.

As DeadMG points out, this cannot be used with STL containers very easily. One approach would be to use pointers to MyData in the containers. Another would be a custom smart pointer wrapper class for MyData.

Edit: This is a hack, where MyData acts as a kind of smart pointer, but the intelligence is managed by vector.

struct MyData {
    struct State {
        unsigned short size_;
        //...
    };
    std::vector<State> data_;
    MyData () {};
    MyData (unsigned short size)
        : data_(1 + size/sizeof(State) + !!size%sizeof(State)) {
        data_[0].size_ = size;
    }
    unsigned short size () const { return data_[0].size_; }
    //...
    char * buf () { return reinterpret_cast<char *>(&data_[1]); }
};
share|improve this answer
    
Thanks. But how could I dynamically decide the allocated size of Data at run time? –  Emanuele Aug 10 '12 at 7:48
    
You would have to create the zero size version first, and then grow it. –  jxh Aug 10 '12 at 7:50
1  
Allocation and initialization are two different beasts in C++. At allocation time operator new is given sizeof(MyData) in order to pass it to malloc, but at this point you cannot tell anything about the data. –  Stefan Majewsky Aug 10 '12 at 7:50
    
@Emanuele: void* p = ::operator new(sizeof(MyData) + your_buf_len); MyData* d = ::new (p) MyData();, something like that anyways. –  Xeo Aug 10 '12 at 7:51
    
The problem with this approach is that one then can't use the nice features like STL and/or smart pointers and so on. –  Emanuele Aug 10 '12 at 7:58

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