I think the string literals in c++ is the type of const char*. And you can't assign const char* object to a non-constant char* object. But in Visual studio 2010. The following code can compile without errors or warnings, which will however yield a runtime error.

int main(void)
    char *str2 = "this is good";
    str2[0] = 'T';
    cout << str2;
    return 0;

And if we don't modify the value of the string, reading the value is ok:

for(char *cp = str2; *cp !=0; ++cp) {
    printf("char is %c\n", *cp);
return 0;

So why can we assign a const char* to a char* here?

  • @unkulunkulu The answer is a bit different in C++: according to [lex.string], it's a an array of const char in C++
    – dyp
    Apr 12 '13 at 11:34
  • @DyP, the answer to the linked question covers C++ Apr 12 '13 at 11:35
  • @unkulunkulu Oh, sry, you're right. Still, the code above is invalid in C++, see [diff.lex]
    – dyp
    Apr 12 '13 at 11:36
  • @DyP, sorry for my ignorance, but what is [diff.lex] :D Apr 12 '13 at 11:41
  • 1
    @DyP - It's unlikely that VC2010 fully follows the C++11 standard. :-) That section is part of the revision of the language, and the conversion was allowed earlier (since the time when C didn't have const).
    – Bo Persson
    Apr 12 '13 at 11:49

The question is under VC++, but in GCC it has a meaningful warning:

warning: deprecated conversion from string constant to 'char*' [-Wwrite-strings]

This warning implies that compiler will apply an implicit conversion despite const/non-const differences. So, this code is OK (without any modification in run-time):

char *str2 = "this is good";

However modifying str2 yields an undefined behavior.


String literals are, indeed, constant. However, arrays decay to pointers, and you took the non-const pointer to the first element in the array:

char *str2 = "this is good";

Modifying any value of the const char array yields undefined behavior.

This will not compile clean under gcc 4.7.2. If you turn the warning levels up to Warning Level 4 under MSVC, it likely will emit a warning there, too.

  • [diff.lex] explicitly states char* p = "abc"; is invalid in C++. Now I'm confused.
    – dyp
    Apr 12 '13 at 11:37
  • @Dyp It's valid in vc++, but you can't modify the value.
    – Joey.Z
    Apr 12 '13 at 11:52
  • So the msvc takes the literals as char*, is it correct?
    – Joey.Z
    Apr 12 '13 at 11:55
  • @zoujyjs See my answer.
    – dyp
    Apr 12 '13 at 11:58
  • 1
    I have just crashed into the fact that MSVS 2013 does not report this as an error, neither with /W4 nor with /Wall nor with /Wall/W4 — the swine! I am not sure what the difference is between /W4 and /Wall: both are described as pretty much maximal.
    – PJTraill
    Aug 25 '15 at 13:32

Let's take a look at C++03 rather than C++11:


A string literal (2.13.4) that is not a wide string literal can be converted to an rvalue of type “pointer to char”;

Actually, any narrow string literal is of type "array of n const char", but as you can read above, there's a (already in C++03 deprecated) feature to implicitly convert them to rvalues of type char *.

Still you're not allowed to change the content of the string, same as if you had done a const_cast: The object the pointer points to has been declared const, therefore no modification is allowed (undefined behaviour).

  • nice! So, still it is const char* but there is a implicit converting. Got it!
    – Joey.Z
    Apr 12 '13 at 12:17
  • @zoujyjs Almost. There're two conversions. [conv.array], with text in brackets from me: "abc" is converted [from array of 4 const char] to “pointer to const char” as an array-to-pointer conversion, and then to “pointer to char” as a qualification conversion.
    – dyp
    Apr 12 '13 at 12:23

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