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I building a simple class that is supposed to mimic the functionality of the std::string class (as an exercise!):

#ifndef _STR12_1_H
#define _STR12_1_H

#include <string>
#include <iostream>

class Str12_1

    typedef char* iterator;
    typedef const char* const_iterator;
    typedef long size_type;

    Str12_1(const Str12_1& str);
    Str12_1(const char *p);
    Str12_1(const std::string& s);

    size_type size() const;

    //Other member functions

    iterator first;
    iterator onePastLast;
    iterator onePastAllocated;

In order to avoid the overhead associated with "new" (and to increase my familiarity with the <memory> header), i've opted to use the library's allocator template class to allocate memory for my string. Here is an example of my use of it in the copy constructor:

#include <memory>
#include <algorithm>

using std::allocator;
using std::raw_storage_iterator;
using std::uninitialized_copy;

Str12_1::Str12_1(const Str12_1& str)
    allocator<char> charAlloc;
    first = charAlloc.allocate(str.size());
    onePastLast = onePastAllocated = first + str.size();
    *onePastLast = '\0';

    raw_storage_iterator<char*, char> it(first);

    uninitialized_copy(str.first, str.onePastLast, it);


The compiler keeps telling me two errors on the "uninitialized_copy" line which both lead back to headers in the library, :

error: invalid conversion from 'char' to 'char*'

error: no match for 'operator!=' in '__first != __last'

The problem is that I don't understand where on that line the conversion from char to char* is, and why two pointers of the same type (str.first, str.onePastLast) cannot be compared with "!=".

I could use "new", but as stated before, I want to get practice with <memory>. So can someone tell me why this isn't working?

share|improve this question
The default allocator just calls new under the hood. There's no magic in it. It's there to allow the user to customize the memory allocation strategy, by supplying a different allocator. But the default one just does the same thing as new. Just thought you might want to know that, even if it doesn't answer your question :) – jalf Feb 1 '11 at 22:02
Are you sure? What I gathered from Accelerated C++ and every other resource online is that "new" calls the type's default constructor after it allocates space, while ".allocate" does not. – Kevin Feb 1 '11 at 22:28
@Kevin: Yes, but for a primitive char, new char[x]; does nothing, and only new char[x]() zeroes out the block. - As to copying the string, strcpy and the like are probably better, since uninitialized_copy has a rather specific task (invoke the constructor to copy complicated types into uninitialized memory) which is not necessary for a primitive type. – UncleBens Feb 1 '11 at 22:32
@GMan: Ha! Yes... that's generated by NetBeans automatically whenever I create a new header file, and I was just too lazy to change it! I knew someone would mention it though. – Kevin Feb 1 '11 at 22:34
up vote 5 down vote accepted

Looking at the standard raw_storage_iterator does not typedef value_type to be T, but it's void instead:

template <class OutputIterator, class T>
class raw_storage_iterator
: public iterator<output_iterator_tag,void,void,void,void>

whereas uninitialized_copy has to use that typedef:

template <class InputIterator, class ForwardIterator>
ForwardIterator uninitialized_copy(InputIterator first, InputIterator last,
ForwardIterator result);


for (; first != last; ++result, ++first)
::new (static_cast<void*>(&*result))
typename iterator_traits<ForwardIterator>::value_type(*first);

In your code, after all substitutions, this leads to:

new (...&*result) void (*first);
                 invalid use here

From that you can conclude that those two were never meant to work together.

If you want to use raw_storage_iterator, then it should be fine to pass it to std::copy since all the magic happens in the operator=(const T&) overload.

If you think any of this is necessary for a primitive like char where you might just allocate with new char[x] (NB! terminating NUL) and copy with strcpy.

share|improve this answer
Ah! This is exactly what i'm looking for. Thanks. (What's weird is that it does not compile in GCC, but does with MS's Visual C++ compiler. – Kevin Feb 1 '11 at 23:15
With VC++ it doesn't compile for me for the second error you get, and it pretty much tells me that uninitialized_copy is "deprecated" anyway. – UncleBens Feb 1 '11 at 23:26

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