I can not create:

shared_ptr<char> n_char = make_shared<char>(new char[size_]{});

How can I create

char* chr = new char[size_]{}; 

using modern pointers?

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    Btw you better use std::string or std::vector<char> instead. – Slava Apr 26 '17 at 12:01
  • @Slava, well, those are equivalent to std::unique_ptr<char[]>. std::string used to be shared, copy-on-write in some versions of the standard library, but it turned out not to work for some cases, so it now always has a unique pointer underneath. If you want shared, you need to do it yourself (and be careful about modifying). – Jan Hudec Apr 26 '17 at 13:24
  • @JanHudec if you need shared ownership then use std::shared_ptr<std::vector<char>> or std::shared_ptr<std::array<char,N>> as you have to keep track of the buffer size anyway. – Slava Apr 26 '17 at 13:28
  • @Slava, not necessarily. A shared buffer, done the simple way, needs to be read-only and then if it is NUL-terminated, you don't need separate length (if you do need length, shared_ptr<string> makes a lot more sense). – Jan Hudec Apr 26 '17 at 13:35
  • @JanHudec then it could be std::string and you do not need to use explicit deleter, which is easy to miss and get UB, and you can use std::make_shared as well. – Slava Apr 26 '17 at 13:40

shared_ptr n_char = make_shared(new char[size_]{});

make_shared calls new inside, so you never use both. In this case you only call new, because make_shared does not work for arrays.

However, you still need to make it call the right delete:

Before C++17:

You need to specify the deleter explicitly.

std::shared_ptr<char> ptr(new char[size_], std::default_delete<char[]>());

Since C++17:

shared_ptr gains array support similar to what unique_ptr already had from the beginning:

std::shared_ptr<char[]> ptr(new char[size_]);

Be aware that done this simple way you are not tracking length and in multi-threaded environment not synchronizing. If you need the buffer modifiable, making shared pointer to std::string, or struct with std::string and std::mutex in it, will add a level of indirection, but will be otherwise more convenient to use.

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  • 1
    Actually, make_shared is a wrapper of new. The term "wrapper" generally means that the wrapper function has an implementation which calls the wrapped function, and make_shared indeed calls new. That's precisely why you don't pass new char[] as an argument, that would be a second call to new. – MSalters Apr 26 '17 at 11:23
  • @MSalters, ok, rewritten to avoid that term. – Jan Hudec Apr 26 '17 at 11:41
  • is this shared_ptr<char*> var (new char[size_] {}, std::default_delete<char*>()); correct form? – Person.Junkie Apr 26 '17 at 12:29
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    @Person.Junkie, no; what you wrote is a shared pointer to a pointer-to-array, i.e. it's underlying type is char ** (and second parameter is pointless since it is equal to default). The form in the answer is correct form for shared pointer to an array. – Jan Hudec Apr 26 '17 at 13:20
  • @JanHudec Thank you – Person.Junkie Apr 26 '17 at 13:33

You could use std::default_delete specialized for arrays

std::shared_ptr<char> ptr(new char[size_], std::default_delete<char[]>());

See std::default_delete docs. While std::unique_ptr uses default_delete by default when no other deleter is specified and has a partial specialization that handles array types:

std::unique_ptr<char[]> ptr(new char[size_]);

With std::shared_ptr you need to select it manually by passing a deleter to the constructor.

Edit: Thanks to Jan Hudec, c++17 includes a partial specialization for array types as well:

std::shared_ptr<char[]> ptr(new char[size_]);  // c++17
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For simple char buffer:

std::shared_ptr<char> ptr( (char*)operator new( buffer_size_here ) );
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