The C++11 Standard (ISO/IEC 14882:2011) says in § C.1.1:

char* p = "abc"; // valid in C, invalid in C++

For the C++ it's OK as a pointer to a String Literal is harmful since any attempt to modify it leads to a crash. But why is it valid in C?

The C++11 says also:

char* p = (char*)"abc"; // OK: cast added

Which means that if a cast is added to the first statement it becomes valid.

Why does the casting makes the second statement valid in C++ and how is it different from the first one? Isn't it still harmful? If it's the case, why did the standard said that it's OK?

  • 6
    C++11 doesn't allow the first one. I have no idea why C made the type of a string literal char[] in the first place. The second one is a const_cast in disguise.
    – chris
    Jan 6, 2014 at 7:08
  • 4
    There is simply too much legacy C code that would break if this rule were changed.
    – Paul R
    Jan 6, 2014 at 7:08
  • 22
    The C language had string literals before it had const, so they were necessarily not const.
    – Casey
    Jan 6, 2014 at 7:46
  • 6
    C and C++ allows you to cast from nearly any type to another type. That does not mean these casts are meaningful and safe.
    – Siyuan Ren
    Jan 6, 2014 at 8:02
  • 3
    More importantly, this question must be born from some idea that the two languages have more in common than they do. This is proven incorrect by the error message, so why do you think it's a good idea to ask about the two languages as though you expect them to have a common subset? Programming in that common subset is a waste of your time; you'll be relying upon the worst of both worlds. Choose one or the other, and use the linker when you need to link modules from different languages.
    – autistic
    Jul 12, 2017 at 4:16

4 Answers 4


Up through C++03, your first example was valid, but used a deprecated implicit conversion--a string literal should be treated as being of type char const *, since you can't modify its contents (without causing undefined behavior).

As of C++11, the implicit conversion that had been deprecated was officially removed, so code that depends on it (like your first example) should no longer compile.

You've noted one way to allow the code to compile: although the implicit conversion has been removed, an explicit conversion still works, so you can add a cast. I would not, however, consider this "fixing" the code.

Truly fixing the code requires changing the type of the pointer to the correct type:

char const *p = "abc"; // valid and safe in either C or C++.

As to why it was allowed in C++ (and still is in C): simply because there's a lot of existing code that depends on that implicit conversion, and breaking that code (at least without some official warning) apparently seemed to the standard committees like a bad idea.

  • 9
    @rullof: It's dangerous enough that it doesn't give any meaningful flexibility, at least for code that cares (at all) about portability. Writing to a string literal will typically get your program aborted on a modern OS, so allowing code to (try to) write there doesn't add any meaningful flexibility. Jan 6, 2014 at 7:30
  • 4
    The code snippet given in this answer char const *p = "abc"; is "valid and safe in both C and C++", not "valid and safe in either C or C++".
    – Daniel Le
    Dec 30, 2016 at 14:46
  • 6
    @DanielLe both of those sentences have the same meaning
    – Caleth
    May 4, 2018 at 14:50
  • 7
    Oh my lord! [Insert tongue firmly in cheek] Sorry, but "or" is the correct term here. The code can be compiled as either C or as C++, but cannot be simultaneously compiled as both C and C++. You can choose either, but you must make a choice. You can't have both at once. [resume normal tongue operation]. Aug 7, 2018 at 3:57
  • 3
    No, both/and is the clearest and most correct wording here. Either/or also happens to convey the right meaning, but it's not as clear technically. Or alone is irrefutably wrong (A or B is not equal to A and B). Sep 14, 2018 at 18:13

It's valid in C for historical reasons. C traditionally specified that the type of a string literal was char * rather than const char *, although it qualified it by saying that you're not actually allowed to modify it.

When you use a cast, you're essentially telling the compiler that you know better than the default type matching rules, and it makes the assignment OK.

  • 4
    It was a char[N] and was changed to const char[N]. It has size information attached to it.
    – chris
    Jan 6, 2014 at 7:11
  • 1
    In C type of string literal is char[N] but not char* e.g. "abc" is char[4] Jan 6, 2014 at 7:11

You can also use strdup:

char* p = strdup("abc");


char p[] = "abc";

as pointed here

  • 4
    Note that "abc" got duplicated and pointer p should be freed to avoid memory leak.
    – cartoonist
    Oct 13, 2020 at 9:59
  • I originally wanted to do a simple cast char* p = (char*)"abcXXXXX"; but my program crashed, because I am actually modifying the string later (I am using mkstemp to replace the X's). This solution worked. And I did not forget to free(p).
    – user7610
    Oct 15, 2020 at 13:56
  • I'm sure the asker knows this; the question is why C and C++ have different rules here. Dec 30, 2020 at 9:37

You can declare like one of the below options:

char data[] = "Testing String";


const char* data = "Testing String";


char* data = (char*) "Testing String";
  • 3
    I'm sure the asker knows this; the question is why C and C++ have different rules here. Dec 30, 2020 at 9:37

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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