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I have a char* array that is new'd and initialized in a function. Normally I'd use std::string but the array is null terminated with possibly more than one '\0' and I would like to capture the full size.

As it is, the Caller must remember to delete[] the char * when it uses this function. I'd like to clean up the interface so that delete[] is called in a destructor when it goes out of scope but I'm unsure of what to use. Is there a smart pointer than can take a char *?

Edit:

Id rather not use std::string as it would be unclear that this isnt a C-style null terminated string. Can I use a boost::scoped_array<char> for this? Since scoped_array is non-copyable how would I return it from the function that created it?

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8  
std::string can contain null characters. And if you're really that frightened, you can always use a std::vector<char>. – Kerrek SB Jan 22 '13 at 17:40
2  
@KerrekSB, std::string has the implication that it can be used as a regular null-terminated string with the c_str method. I think your recommendation of std::vector<char> is better in this case, unless you have need of some of the string functions. – Mark Ransom Jan 22 '13 at 17:51
    
@MarkRansom: The utility of string::c_str(), string::data() and vector<char>::data() is almost identical. You just have to train your consumer to not treat nulls specially... – Kerrek SB Jan 22 '13 at 17:54
    
@KerrekSB, I really am just talking about an expectation of how it should be used, not a technical limitation. Principle of least astonishment and all that - you wouldn't expect a std::string to contain a null, so to avoid confusion you don't let it even if it's perfectly capable. – Mark Ransom Jan 22 '13 at 17:56
    
@MarkRansom: I am with Kerrek here, if the semantics of the interface are that strings can contain NUL characters, then it is sensible to expect users to make use of std::string::length() and std::string::data(). In the same way that if you have a std::map<int,T> for a type T that is not default constructible users must be aware not to use operator[], it is just a limitation on the particular use of the component. – David Rodríguez - dribeas Jan 22 '13 at 18:11

This is what OO programming is all about. Use std::string like comment above, or create a class that handles the data for you:

class MyObj {
private:
   char *data;
   int len;

public:
   MyObj( const char *data, int len ) {
      this->data = new char[...
      // do what you need here
   }

   const char* getStr() const {
      return data;
   }

   int getLen() const {
      return len;
   }

   ~MyObj() {
      delete [] data;
   }
};

You'll probably also want to implement copy constructor and assignment operator (or privatize their use)...

Alternatively, use std::string as your base implementation but only expose what and how you want:

class MyObj : private std::string {
public:
   // whatever you want here
   const char* data() {
      return c_str();
   }

   int length() const {
      return std::string::length();
   }
};
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2  
Don't forget the Rule of Three (and if using C++11, a move constructor and move assignment would be a good idea too). – aschepler Jan 22 '13 at 17:48
    
Thanks for the post but a custom class seems overboard for this. Its only a char[]. My question is mainly how can I use RAII correctly here an is there a smart pointer that would make sense. I am not using c++11 – Chris Jan 22 '13 at 18:09
    
@Chris, understood, and I don't know the rest of your code, but you might also look at your problem from a different angle. Perhaps the "function" that's creating this data should be a member method of the MyObj object itself? Or perhaps it is the object's constructor? I find myself rethinking code/data layouts in situations such as yours... – mark Jan 22 '13 at 18:33
    
Specifically, this can't be used as a return value for a function without correct copy or move semantics; in which case you're reinventing either std::vector or std::unique_ptr. – Mike Seymour Jan 22 '13 at 18:35
    
Totally agree. I'd either pass by reference, or have the function be an object member (or constructor), or not use a custom class at all. – mark Jan 22 '13 at 18:45

Before 2011, your choices for returning a dynamic array from a function were std::string, std::vector<char> or boost::shared_array<char>. With a modern implementation, you could also use std::unique_ptr<char[]>.

I'd recommend using std::string to represent a string.

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