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I have a method that receives a char ** as an argument in order to parse and construct a proper inner object.

  void  build (const char*  values[], const int amount=3) 
  {
       //..parse values and create instance of an inner field..
  }

It is constant, because I just want to use those values and I don't need to modify them at all. This works pretty much fine.

Now I want to be able to code a method that returns to me a const char ** in a way that I am able to use this returned value in the previously declared method. At first, I got the values needed from the instance of my class, converted them to string and put them in an array and returned it, but it was complaining that I was returning a pointer to a local variable. So I thought of using another field to hold this pointer, I created char ** values. Then I realized that I would need to allocate the memory for the value it points to, so I went trough with it. Currently the method I'm describing looks something like:

 const char** getValues()
 {
   string var;

   var = toString(point.zone);
   values[0]= new  char[var.length()+1](); 
   strcpy(values[0], var.c_str());       

   var = toString(point.easting);
   values[1]= new char[var.length()+1]();
   strcpy(values[1],var.c_str());

   var = toString(point.northing);
   values[2]= new char[var.length()+1]();
   strcpy(values[2],var.c_str());

   return values;

 }

But at the moment this will complain because char ** values is not constant. But if I make it constant,the strcpy will complain about the opposite. If I dont return it constant then I cant us it in other function. I need help fixing this problem. Any help is deeply appreciated, thanks.

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1  
Too much ifs and buts. Oh..!!! –  Coding Mash Sep 28 '12 at 15:44
    
How do you declare/allocate values? –  Arkadiy Sep 28 '12 at 15:46
    
its a private field of the object: char * values[3] –  Sednus Sep 28 '12 at 15:47
    
@H2CO3 So you like explicitly const_casting every time you use a non-modifying STL algorithm? Please stay away from purely subjective comments like Another reason to agree with Mr Torvalds on C++ being crap.. This is SO. –  Hindol Sep 28 '12 at 15:59
1  
@Hindol I removed my comment, and also sorry if I hurt you with that, but really, this was just a comment, with no intent agains anybody, and it's my honest opinion... –  user529758 Sep 28 '12 at 16:17

3 Answers 3

up vote 1 down vote accepted

You got a compilation error because you try to strcpy to a char const* directly. You should instead strcpy to a char * and assign this pointer back to the values[].

See the modified code below for a simple solution:

 const char** getValues()
 {
   string var;
   char* p;

   var = toString(point.zone);
   p = new  char[var.length()+1](); 
   strcpy(p, var.c_str());       
   value[0] = p; // now you can assign char* to char const* without compilation error

   var = toString(point.easting);
   p = new char[var.length()+1]();
   strcpy(p, var.c_str());
   value[1] = p;

   var = toString(point.northing);
   p = new char[var.length()+1]();
   strcpy(p,var.c_str());
   value[2] = p;

   return values;

 }
share|improve this answer
    
compilation error is not there, it is because values is declared as a char * values[] and I'm returning const char ** –  Sednus Sep 28 '12 at 16:29
    
Using the above code, you can now define values[] as const char* values[]. If your values should actually be char *, casting char** to const char ** is ok. –  chyx Sep 28 '12 at 16:33
    
OK, Ill try it out –  Sednus Sep 28 '12 at 16:38
    
So.. I think this works.. –  Sednus Sep 28 '12 at 16:55
    
This actually solves the problem in question so Ill mark it as an answer –  Sednus Sep 28 '12 at 17:17

One main point, why are you making your life complicated with char** instead of using std::string or std::vector<std::vector<char>> where appropriate?

I mean, if you're using C++ as your tags seem to indicate, then why not USE C++ and not C.

This will make your life much easier.

Another thing:

A const char** is a pointer to pointer to char that is const. Meaning you cannot alter the char. If you want to alter use char**.

Allocation is another point about your code, how are you allocating memory for your char**?

These are added complexities that you shouldn't need to have in C++, if you just use what I said above.

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1  
+1, anything other than using higher level features of the language will be a pain (manage the resources for starters) –  David Rodríguez - dribeas Sep 28 '12 at 16:21

You're probably looking for const char* const* const, where not only the data pointed to, but the pointers themselves, are constant.

There is an implicit conversion from char** to const char* const*. The rules of covariance forbid the conversion from char** to const char**, however, because a const char** is writable (you can store a new pointer), and operations which write to a collection are not safe for covariance. Take a look:

const char* a = "a literal"; // ok, literal is read-only, so const char* is good.
char* b;
char* c[] = { &b };
const char** d = c; // this step is illegal under the current rules
*d = &a;
*b = 'A'; // this would write to a string literal, causing an access violation

Notice that if the conversion were allowed, you could write to a const object without breaking type safety, which wouldn't be safe at all.

With const char* const* d = c, the following step (*d = &a) is already illegal, so there is no hole in the type system.

share|improve this answer
2  
Reason for downvote? –  Ben Voigt Sep 28 '12 at 15:58
    
would like to know as well –  Sednus Sep 28 '12 at 16:30
    
Strange. This answer is not technically incorrect - +1 for compensation. –  user529758 Sep 28 '12 at 16:32
    
+1 for good explanation –  Sednus Sep 28 '12 at 16:32

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