I have a class with a private char str[256];

and for it I have an explicit constructor:

explicit myClass(const char *func)

I call it as:

myClass obj("example");

When I compile this I get the following warning:

deprecated conversion from string constant to 'char*'

Why is this happening?

  • 1
    You should use strncpy(str, func, 255) instead of strcpy(str, func) for a safer copy. And then don't forget to add the '\0' at the end of the string since strncpy does not add it. – Patrice Bernassola Oct 6 '09 at 8:55
  • 2
    Safer still to say "strncpy(str, func, sizeof(str)); str[sizeof(str) - 1] = '\0';" – Warren Young Oct 6 '09 at 8:59
  • 3
    I don't think the above gives the warning you quoted, although I'm sure quite similar code would. In order to get meaningful answers, you should post a minimal, compiling example that produces the warning. – sbi Oct 6 '09 at 9:23
  • 3
    @Patrice, Warren: don't use strncpy, it is not a safer version of strcpy. Use (or re-implement) strcpy_s. – Steve Jessop Oct 6 '09 at 15:26
  • I got the problem, its only showing these issues for an -X86 build and not for normal solaris or ARM(target) builds so I am ignoring this. Could not find a fix still as it doesn't shows a warning normally for my sample code as well. Thank you all! – mkamthan Oct 7 '09 at 6:13

10 Answers 10


This is an error message you see whenever you have a situation like the following:

char* pointer_to_nonconst = "string literal";

Why? Well, C and C++ differ in the type of the string literal. In C the type is array of char and in C++ it is constant array of char. In any case, you are not allowed to change the characters of the string literal, so the const in C++ is not really a restriction but more of a type safety thing. A conversion from const char* to char* is generally not possible without an explicit cast for safety reasons. But for backwards compatibility with C the language C++ still allows assigning a string literal to a char* and gives you a warning about this conversion being deprecated.

So, somwehere you are missing one or more consts in your program for const correctness. But the code you showed to us is not the problem as it does not do this kind of deprecated conversion. The warning must have come from some other place.

  • 15
    It is unfortunate considering the view and votes on this question that the OP never provided code that actually demonstrates the problem. – Shafik Yaghmour Mar 11 '15 at 19:23
  • You can reproduce the issue with the OP's code by deleting the const from the MyClass constructor...then you can fix it by adding the const back. – Theodore Murdock Jan 8 at 18:27

The warning:

deprecated conversion from string constant to 'char*'

is given because you are doing somewhere (not in the code you posted) something like:

void foo(char* str);

The problem is that you are trying to convert a string literal (with type const char[]) to char*.

You can convert a const char[] to const char* because the array decays to the pointer, but what you are doing is making a mutable a constant.

This conversion is probably allowed for C compatibility and just gives you the warning mentioned.


As answer no. 2 by fnieto - Fernando Nieto clearly and correctly describes that this warning is given because somewhere in your code you are doing (not in the code you posted) something like:

void foo(char* str);

However, if you want to keep your code warning-free as well then just make respective change in your code:

void foo(char* str);
foo((char *)"hello");

That is, simply cast the string constant to (char *).

  • 11
    Alternatively, make the function: void foo(const char* str) – Caprooja Apr 14 '14 at 16:28
  • 3
    @Caprooja Yes declaring the param as 'pointer to a constant' will also work in this case. But with this change user can no more change/reassign the value stored at the address using the 'str' pointer which user might be doing in the implementation part. So that is something you might want to look out for. – sactiw Apr 15 '14 at 7:37
  • 1
    @sactiw Are there any reasons to keep void foo(char* str) as is? I thought we cannot modity str in foo anyway, even the parameter is written as non-const. – sam Nov 22 '16 at 20:21

There are 3 solutions:

Solution 1:

const char *x = "foo bar";

Solution 2:

char *x = (char *)"foo bar";

Solution 3:

char* x = (char*) malloc(strlen("foo bar")+1); // +1 for the terminator
strcpy(x,"foo bar");

Arrays also can be used instead of pointers because an array is already a constant pointer.

  • 6
    For Solution 3, there is strdup. Unlike your code, it will allocate space for the terminating NUL character, and not overrun the allocation. – Ben Voigt Oct 2 '14 at 21:56
  • 2
    Solution 2 is to be avoided. – Lightness Races in Orbit Oct 12 '15 at 15:22
  • Actually solution 2 can be: char *x = static_cast<char*>("foo bar") in C++. – Kehe CAI Aug 22 '16 at 16:11
  • 3
    Anil will you ever integrate the comments into your answer? Solution 3 is still dangerously wrong. – Lightness Races in Orbit Sep 23 '16 at 15:16

In fact a string constant literal is neither a const char * nor a char* but a char[]. Its quite strange but written down in the c++ specifications; If you modify it the behavior is undefined because the compiler may store it in the code segment.

  • 5
    I would say it is const char[] because as a rvalue you cannot modify it. – fnieto - Fernando Nieto Oct 6 '09 at 20:29

I solve this problem by adding this macro in the beginning of the code, somewhere. Or add it in <iostream>, hehe.

 #define C_TEXT( text ) ((char*)std::string( text ).c_str())
  • 8
    "Or add it in <iostream>" What?! – Lightness Races in Orbit Sep 23 '16 at 15:17
  • There was ", hehe" that was for whatever reason edited out (implied that it was a joke) – Someguynamedpie Oct 23 '16 at 21:56
  • C_TEXT is fine for a function call ( foo(C_TEXT("foo"));), but is crying out for undefined behaviour if the value is stored in a variable like char *x = C_TEXT("foo"); - any use of x (apart from assignment) is undefined behaviour because the memory that it is pointing to has been freed. – Martin Bonner Jan 30 '18 at 20:22

I also got the same problem. And what I simple did is just adding const char* instead of char*. And the problem solved. As others have mentioned above it is a compatible error. C treats strings as char arrays while C++ treat them as const char arrays.


For what its worth, I find this simple wrapper class to be helpful for converting C++ strings to char *:

class StringWrapper {
    std::vector<char> vec;
    StringWrapper(const std::string &str) : vec(str.begin(), str.end()) {

    char *getChars() {
        return &vec[0];

Maybe you can try this:

void foo(const char* str) 
    // Do something


It works for me


The following illustrates the solution, assign your string to a variable pointer to a constant array of char (a string is a constant pointer to a constant array of char - plus length info):

#include <iostream>

void Swap(const char * & left, const char * & right) {
    const char *const temp = left;
    left = right;
    right = temp;

int main() {
    const char * x = "Hello"; // These works because you are making a variable
    const char * y = "World"; // pointer to a constant string
    std::cout << "x = " << x << ", y = " << y << '\n';
    Swap(x, y);
    std::cout << "x = " << x << ", y = " << y << '\n';

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