Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Why can I not do this:

char* p = new char[10];

void SetString(char * const str)
{
    p = str;
}


SetString("Hello");

I have a const pointer to a char, why can I not assign the const pointer to another pointer?

It just seems illogical, as by assigning it to another pointer, you are not essentially violating the const-ness of the char pointer. Or are you?

EDIT: When I compile this it says "error C2440: '=' : cannot convert from 'char *const *__w64 ' to 'char *'"

(I'm attempting to understand a concept from a book I'm reading. Just cannot get the code to compile.

CODE:

int _tmain(int argc, _TCHAR* argv[])
{

    MyString *strg = new MyString(10);
    strg->SetString("Hello, ");

    MyString *secondstr = new MyString(7);
    secondstr->SetString("Tony");

    strg->concat(*secondstr, *strg);

}

CPP FILE:

#include "MyStringClass.h"
#include <string.h>
#include "stdafx.h"

#include "MyStringClass.h"

void MyString::concat(MyString& a, MyString& b)
{
    len = a.len + b.len;
    s = new char[len + 1];
    strcpy(s, a.s);
    strcat(s, b.s);
    delete [] s; 

}

void MyString::SetString(char * const str)
{
    s = str;
}

MyString::MyString(int n)
{
    s = new char[n+1];
    s[n+1] = '\0';
    len = n;
}

HEADER FILE:

#include <string.h>
#include <stdio.h>

class MyString
{
private:
    char* s;
    int len;
public:
    MyString(int n = 80);

    void SetString (char * const str);

    void concat (MyString& a, MyString& b);
};
share|improve this question
2  
There isn't anything wrong with that code, per se. Why not show us real code with real compile errors to solve a real problem? –  GManNickG Jul 23 '10 at 8:38
    
In response to the edit, what is "compile this"...you haven't posted compilable code. :) Give us a small snippet of what you're compiling, exactly. –  GManNickG Jul 23 '10 at 8:49
3  
Oh my. This code violates about two basic principles of C++ programming for every line. I wouldn't know where to start telling you what's wrong with it. What book are you learning C++ from? Whatever it is, trash it and have a look at The Definitive C++ Book Guide and List before you write any other line. –  sbi Jul 23 '10 at 9:05
    
Hm, how is this code being compiled? (Which compiler and what settings?) By the way, this code is littered with bits of errors. Is the book saying to do things like _tmain? –  GManNickG Jul 23 '10 at 9:06
    
@GMan - He is using the MSVC compiler, I presume, because Windows main is named as _tmain. –  DumbCoder Jul 23 '10 at 9:11
show 5 more comments

1 Answer 1

up vote 2 down vote accepted

There is difference between constant pointer and pointer to constant. Constant pointer is a pointer (a number - memory address) that cannot be changed - it always point to the same object given via initialization:

int * const const_pointer = &some_int_var; // will be always pointing to this var
pointer = &some_other_var; // illegal - cannot change the pointer
*pointer = 2; // legal, the pointer is a pointer to non-const

Pointer to constant is a pointer whose pointed value cannot be changed:

const int * pointer_to_const = &some_int_var; // doesn't have to be always pointing to this var
pointer = &some_other_var; // legal, it's not a constant pointer and we can change it
*pointer = 2; // illegal, pointed value cannot be changed

You can always assign constant to variable i.e. const pointer to non-const pointer (a). You can cast pointer to non-const to a poionter to const (b). But you cannot cast pointer to const to a poionter to non-const (c):

int * pointer;
int * const const_pointer = &var;
const int * pointer_to_const;

/* a */
pointer = const_pointer; // OK, no cast (same type)

/* b */
pointer_to_const = pointer; // OK, casting 'int*' to 'const int*'

/* c */
pointer = pointer_to_const; // Illegal, casting 'const int*' to 'int*'

[EDIT] Below, this is not standard c++. However, this is common.[/EDIT]
String literal

"Hello"

is converted to constant pointer to const (const char * const):

char *pointer = "Hello"; // Illegal, cannot cast 'const char*' to 'char*'
char * const const_pointer = "Hello"; // Illegal, cannot cast 'const char*' to 'char*'
const char * pointer_to_const = "Hello"; // OK, we can assign a constant to a variable of the same type (and the type is 'const char*')
"Hello" = pointer_to_const; // Illegal cannot re-assign a constant

In above examples the second is your case. You tried to initialize pointer-to-non-const with a pointer-to-const when passing string literal as argument of your function. No matter if these pointers are constants or not, it's matter what do they point to.

Summary:
1) If you cast a pointer of some type to a pointer of another type, you cannot cast pointer-to-const to pointer-to-non-const.
2) If you have constant pointer, the same rules applies as to other constants - you can assign a constant to a variable but you cannot assign a variable to a constant (except initializing it).

// EDIT
As GMan pointed out, the C++98 standard (§4.2/2) allows to implicitly cast string literals (which are constant char arrays) to a non-const char pointer. This is because of backward compatibility (in C language there are no constants).

Of course such a conversion can lead to mistakes and compilers will violate the rule and show an error. However, GCC in compatibility mode shows only a warning.

share|improve this answer
1  
This does contain some wrong information, leading to wrong results. A string literal is an array of const char's, not a const char* (Though, since it's an array, it can decay into such). While it's true such an array cannot typically be implicitly converted to char*, string literals have this special conversion. (It's deprecated, and only exists for backwards compatibility.) So all three of your code examples are completely legal. –  GManNickG Jul 23 '10 at 9:19
    
I wrote that "it is converted to a pointer", not "it is a pointer". It is converted to a pointer that points to the array you are saying about. And you are wrong - string literals cannot be implicitly converted to 'char*'. Maybe you are confused with char array initialization. –  adf88 Jul 23 '10 at 9:29
    
No, I'm not. §4.2/2: "A string literal (2.13.4) that is not a wide string literal can be converted to an rvalue of type “pointer to char”; a wide string literal can be converted to an rvalue of type “pointer to wchar_t”. In either case, the result is a pointer to the first element of the array. This conversion is considered only when there is an explicit appropriate pointer target type, and not when there is a general need to convert from an lvalue to an rvalue. [Note: this conversion is deprecated. See Annex D. ]" Like I said, all three lines are legal. (Well, you have four now; the first 3.) –  GManNickG Jul 23 '10 at 9:47
    
Yes, you right. I missed the point. I'm young so this is really deprecated to me. Of course, for compatibility with C, string literals can be casted to non-const char pointer (only this kind of pointers exist in C). But either GCC and VC (and other compilers) are violating these rule and will show an error ('gcc -ansi -pedantic' shows warning). Well, I'll just give a note. –  adf88 Jul 23 '10 at 10:02
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.