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I'm trying to figure out how to create generic container using C++ without stdlib (gcc -nostdlib -nostartfiles). I've firstly encountered such problem, I even can't think how could I do it. I need something like std::vector manually, without "operator new". Could anyone give me little source with only append(), at() and remove() functions? Thank you!

Regards.

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You should be able to use std::vector with an allocator that uses malloc/free underneath... the higher cost is building the allocator, but that is not really hard –  David Rodríguez - dribeas Sep 26 '13 at 15:47
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Can you write something yourself that mimics std::array? –  Michael Kristofik Sep 26 '13 at 15:50
    
What's the purpose of doing so... A working compiler is supposed to support basic functionalities like malloc(), free() and STL. –  vbmaster Sep 26 '13 at 15:52
    
With a problem with unusual constraints, it is helpful to describe the source and the detail of the constraints. Why do you not have stdlib? Are you literally linking with those options? Is this an intellectual excercise, or are you targeting some environment where they are not available? As we discover more details of the problem, our answers become more relevant. –  Robᵩ Sep 26 '13 at 16:03
    
why are you reinventing the wheel? –  Alex Sep 26 '13 at 16:03
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2 Answers

up vote 1 down vote accepted

I would assume you should take std::vector as your guideline (if you're looking for a dynamic container) or std::array.

I would also assume you're looking at complete memory management (which is platform specific, so here's an issue for you if you don't want any C++ memory operators), a templated class (again, use std::vector as your guideline).

You would be looking at a variety of constructors, operators, iterators, etc, much on which you can find invaluable information on Design Patterns or stackoverflow.

Append for instance, implies that you allocate extra memory sequentially, so as to have a continuous block (again, platform dependant?).

At would have to use some form of bookkeeping or indexing, with boundary and memory checks.

Remove one of the same as append.

Hope this is of any help to you.

EDIT: To answer your comment.

using templates (such as std::vector does) you need not be concerned with the type, its the Class's(or Type's) responsibility to manage its memory.

What you could for example do in Win32, is:

 template<class _Ty>
 class w32Allocator
 {
     // deallocate object at _Ptr, ignore size
     void deallocate(pointer _Ptr, size_type) 
     {
         VirtualFree(_Ptr, 0, MEM_FREE);
     }

     // allocate array of _Count elements
     pointer allocate(size_type _Count)
     {
         return (pointer)VirtualAlloc(NULL, sizeof(_Ty) * _Count, MEM_COMMIT | MEM_RESERVE, PAGE_READWRITE);
     }
};

Note: The above code is not mine, don't know if its buggy. Taken from this post. In this case, you are managing the low level C calls to Win32 Heap management. Bear in mind this is tricky territory.

Then you need to worry only about an array of type _Ty, i.e. if its a continuous array (non-dynamic):

_Ty array[number_of_objects];

Alternatively, you can look at linked lists (where each node has a pointer to your object, and a pointer to the next node), but this may brake the continuous memory performance.

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Yes, exactly. But with using of templates, I don't know where to store my custom created class, for instance: MyClass a; DynamicContainer b; b.append(a); // where should I store it? as char * array or MyClass array? as I'm guessing, I have problem with pointers and references, where and how to store them. Regards. –  Ovér Flôwz Sep 26 '13 at 18:21
    
Thanks, problem solved. –  Ovér Flôwz Sep 26 '13 at 21:39
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The first stop is to implement the various memory management operators, possibly in terms of malloc() and free() (if you can't use these operators, either, things become a lot more interesting):

void* operator new(std::size_t size) {
    return malloc(size);
}
void* operator new[](std::size_t size) {
    return malloc(size);
}
void operator delete(void* ptr) {
    free(ptr);
}
void operator delete[](void* ptr) {
    free(ptr);
}

Once you got these, you can just start allocating memory as normal. Writing a std::vector<T> even with the small set of operations you asked for should be a simple exercise. Note, however, that using at() is a Bad Idea: wide interfaces glossing over errors are generally more of a problem than a solution.

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"The first stop" sounds like a Freudian slip ;) mallocl is just a typo, I guess. –  dyp Sep 26 '13 at 16:04
    
Note that -nostdlib means no malloc(), no free(). –  Robᵩ Sep 26 '13 at 16:05
    
Added comment to previous post, check that out, thanks. –  Ovér Flôwz Sep 26 '13 at 16:28
    
As long as you have something resembling malloc() and free(), it should be straight forward to implement basic memory management. That's the first thing I'd create. Much of the standard library doesn't require anything beyond that and a custom clone shouldn't have more requirements. Looking at VirtualAlloc() or similar functionality in POSIX (e.g. sbrk() or mmap()) may require a bit book-keep for which a global object may be sufficient. Alternatively, you might want to look at allocators but it sounds like overkill –  Dietmar Kühl Sep 26 '13 at 17:52
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