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I have a class that's inhenerently non-copyable (a thread, so there's no copy semantics that make sense), and I want to have a largeish 'array' of these, identically constructed with a non-default constructor. Note that the array is fixed size.

I can only use the default constructor with C++ arrays, unless I initialise each one independently.

Thread myArray[128];   // uses default constructor - wrong

I can list the object constructors and parameters explicitly, but that's verbose and ugly

Thread myArray[128] = { Thread(params,...), Thread(params,...), ... x 128 ;  // ugly

It seems I can't use stl vectors because the object is non-copyable - event though the vector never changes size. I guess the constructor actually does copying!

std::vector<Thread> myVector(128, Thread(params,...));// won't compile

The way I've though of doing this is with an array of smart pointers and an initialization loop, but maybe I'm missing something:

Is there any other way - maybe with boost containers, or a different container type?

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Using a smart-pointer seems like the sensible thing to do. I don't think there is a better way. –  Björn Pollex May 18 '11 at 9:30
If they are "identically constructed", can you not add a default constructor that does that? Otherwise go with @Space_C0wb0y. –  Bo Persson May 18 '11 at 9:33
The Qt library is a quite famous library, and they handle arrays of non copyable objects (the GUI widgets, totally non copyable) with pointers. So I guess that smart pointers are the way to go. –  Fezvez May 18 '11 at 9:42
Even if you can't add a default constructor, you could derive: the derived class could have a default constructor which passes the desired arguments to the Thread constructor. You then create an array of the default class. –  James Kanze May 18 '11 at 9:43
Strongly consider a boost::ptr_vector over a vector of smart pointers. –  Fred Nurk May 18 '11 at 11:27

4 Answers 4

up vote 3 down vote accepted

A vector of smart pointers, with each instance dynamically allocated, is definitely the simplest way. Otherwise (and I'd only do this if absolutely necessary), you can more or less emulate what std::vector does internally. Something along the lines of:

    double just_to_ensure_alignment;
    unsigned char data[ sizeof(Thread) * elementCount ];
} array;

//  construct...
for ( int i = 0; i != elementCount; ++ i )
    new (data + i * sizeof(Thread)) Thread(params,...);

//  access...
Thread& getAt( int i )
    return reinterpret_cast<Thread*>( data + i * sizeof(Thread) );

(I'd actually wrap this in a class, if only to be able to use operator[] instead of getAt.)

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Thanks. I ended up using an array of boost::shared_ptr –  Roddy May 18 '11 at 19:06

This may seem like totally crazy (and it probably is), but...

struct ThreadInitValues{
  // your actual params
  int i;
  float f;

struct Thread{
    Thread(int i = _init.i, float f = _init.f)
      : _i(i)
      , _f(f)

    static ThreadInitValues _init;

    // uncopyable
    Thread(Thread const&);
    Thread& operator=(Thread const& other);

    // your actual member
    int _i;
    float _f;

ThreadInitValues Thread::_init;

int main(){
    Thread::_init.i = 5;
    Thread::_init.f = 3.14f;
    Thread arr[128];

Maybe this works out for you. :) Of course, you now need to watch out if the array is initialized in multithreaded code itself...

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+1 for crazy. But I think the array of smart pointers is more idiomatic, and easier to read. –  Roddy May 18 '11 at 9:49

For new compilers supporting r-value references, being copyable is not necessary for vector elements AFAIK. To use it without copying 128 push_back's should be used (creating new object each time), because creting several objects from a single one is a copying :).

If this way is not available, try boost::ptr_vector or std::vector of boost::shared_ptr.

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Beware: MSVC falsly tries to access the copy ctor on copy elision even though it should access the move ctor –  Xeo May 18 '11 at 9:43
Hmm. But won't the myVector(128, Thread(params,...)) constructor still need to do copying? After all, I'm only passing in one object and I want 128 created... –  Roddy May 18 '11 at 9:50
I've updated the answer - just use push_back. –  maxim1000 May 18 '11 at 10:39

I am not that much big programmer. But did you try this

std::vector<YourObject *> temp_Vec;
for(int i=0;i<128;++i)
    temp_Vec.push_back(new YourObject(arguments));
share|improve this answer
Smart pointers would be much safer. boost::scoped_ptr, for example. –  Roddy May 18 '11 at 10:01

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