43

There are many times that I get compile errors when I use char* instead of const char*. So, I am not sure the actual difference, the syntax and the compile mechanism.

7
  • What is your system and compiler? Jul 5, 2010 at 13:05
  • 8
    "...I get compile errors..." What compile(r) errors? What does the code look like? What's the signature of the function you're calling? The more effort you put into your question, the better both the quantity and quality of answers you'll get. Jul 5, 2010 at 13:08
  • I get the error: 'cannot convert parameter 1 from 'char*' to 'const char*' '
    – Sunscreen
    Jul 5, 2010 at 13:12
  • @Sunscreen: Can't you post the code? Jul 5, 2010 at 13:14
  • 2
    @Sunscreen: ...and (quoting) "What does the code look like? What's the signature of the function you're calling?" Jul 5, 2010 at 13:15

5 Answers 5

55

If you're after the difference between the two, just think of them as:

  • char* is a pointer that points to a location containing a value of type char that can also be changed. The pointer's value can be changed, i.e. the pointer can be modified to point to different locations.
  • const char* is a pointer, whose value can be also changed, that points to a location containing a value of type char that cannot be changed.
6
  • Though what if I allocate memory to both and then assign?
    – Sunscreen
    Jul 5, 2010 at 13:38
  • @Sunscreen: You'll be able to write to the memory via the char * pointer, and not via the const char * pointer. Jul 5, 2010 at 13:44
  • 15
    There are several reasons to use const char *. One is that it documents that your code will not be modifying the data pointed to. Another is that it will prevent you from inadvertently (e.g. due to a typo like = instead of == or typing the wrong variable name) writing somewhere you didn't mean to. And it may help the compiler determine optimizations that can be made (but probably not if the compiler is already sufficiently smart). Jul 5, 2010 at 14:19
  • 1
    @Sunscreen: "And then, what is the point of using 'const char' ?"* For me, mostly two reasons: 1. As "R." pointed out, it documents your code, it's part of the contract of your function or whatever. 2. Using a const char * argument in a function signature when the function doesn't need to modify the string being passed in may allow the compiler to do optimizations it otherwise can't do. Jul 5, 2010 at 21:34
  • In contradiction to your second point, I am not able to change the value at the addr pointed to by *const char **. int main() { const char* str = "Original string."; strcpy(str, "New string."); //error: invalid conversion from 'const char*' to 'char*' [-fpermissive]| return 0; }
    – pkthapa
    Sep 12, 2016 at 6:41
29

const char * means "pointer to an unmodifiable character." It's usually used for strings of characters that shouldn't be modified.

Say you're writing this function:

int checkForMatch(const char * pstr)

You've promised (through the function signature) that you will not change the thing pointed to by pstr. Now say part of checking for a match would involve ignore the case of letters, and you tried to do it by converting the string to upper case before doing your other checks:

strupr(pstr);

You'll get an error saying you can't do that, because strupr is declared as:

char * strupr(char* str);

...and that means it wants to be able to write to the string. You can't write to the characters in a const char * (that's what the const is for).

In general, you can pass a char * into something that expects a const char * without an explicit cast because that's a safe thing to do (give something modifiable to something that doesn't intend to modify it), but you can't pass a const char * into something expecting a char * (without an explicit cast) because that's not a safe thing to do (passing something that isn't meant to be modified into something that may modify it).

Of course, this is C, and you can do just about anything in C, including explicitly casting a const char * to a char * — but that would be a really, really bad idea because there is (presumably) some reason that the thing being pointed to by the pointer is const.

19
  • You can't write to the characters in a string literal, no matter how you declare the pointer.
    – anon
    Jul 5, 2010 at 13:33
  • @Neil: That's true. It would be one of the reasons why trying to would be a really bad idea. :-) Jul 5, 2010 at 13:39
  • 2
    @Sunscreen: A char ch = 'A'; is a variable (ch) with a character you can change. So a char * is a pointer to a character you can change. In exactly the same way, a const char ch = 'A'; is a variable (ch) for a character you can't change, and so a const char * is a pointer to a character you can't change (which usually means it's a pointer to a null-terminated string of them, although that's not necessarily the case). Jul 5, 2010 at 14:05
  • 1
    @shin Both the C and C++ standards say that writing to a literal will result in undefined behaviour.
    – anon
    Jul 5, 2010 at 17:04
  • 1
    @shin No matter what you do, from the standard's point of view it will ALWAYS be undefined behaviour. It may of course "work" for your particular implementation.
    – anon
    Jul 5, 2010 at 17:26
5
  • char *       : non-constant pointer to non-constant character
  • const char *    : non-constant pointer to constant   character
  • char *const     : constant   pointer to non-constant character
  • const char * const : constant   pointer to constant   character


Reference [link]

2

I always try to define parameters with const char* not char* because converting from std::string to conts char* is easy by .c_str() method. However converting std::string to char* is not that easy.

1

Probably I'm too picky. In my book, the character(s) pointed to by a const char* can possibly be changed but not via the const char*. A const char * can point to modifiable storage. Example:

char a[] = "abracadabra";
const char * ccp = &a[0]; // ccp points to modifiable storage.
*&a[0] = 'o'; // This writes to a location pointed to by const char* ccp

So, my wording is:

A char * is a pointer that be changed and that also allows writing through it when dereferenced via * or [].

A const char * is a pointer that be changed and that does not allow writing through it when dereferenced via * or [].

2
  • A const char * can also simply be cast to a normal char * to write to the address. This does NOT mean the write will succeed; for instance the pointer may point to non-writable memory. However, if writing to that address through any other means has well-defined behavior, then removing the const qualifier and writing that way also has well-defined behavior. It's useful for implementing functions like strstr which need to be able to handle both char * and const char * arguments while preserving non-const-ness in the returned pointer. Jul 5, 2010 at 14:24
  • Exactly, the same thing also happens the other way around, where a legacy function has uses char* for read-only parameters and you trust it to not modify you (char*)-casted const char * pointers you give it as parameters.
    – Peter G.
    Jul 5, 2010 at 15:09

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