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String literals vs const char* in C

Why i can do this?

void foo(char * cstr) {

and in code

foo("some text");

shouldnt "some text" be of type const char * ?

if its char *, means i can modify it?

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marked as duplicate by Gilles, nmichaels, iammilind, Jens Gustedt, Bertrand Marron Jul 21 '11 at 13:23

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Try compiling it with all warnings turned on. – Kerrek SB Jul 21 '11 at 12:20
C or C++? Pick one. – Lightness Races in Orbit Jul 21 '11 at 12:24
I believe answer is different for the two languages you tagged the question with – pmg Jul 21 '11 at 12:25
C++ GCC 4.2, in XCode – Peter Lapisu Jul 21 '11 at 13:20
@Peter: Then why did you tag the question c? – Lightness Races in Orbit Jul 21 '11 at 14:27
up vote 10 down vote accepted

Yes, it should be const.

In C++03, you are allowed to omit the const only for backward compatibility with C, but with two caveats:

  • You are still not allowed to modify the data. Yes, this is highly confusing. That's why leaving out const is deprecated. Ideally it would be plain disallowed (and, in C++11 onwards, it is).

  • If you have your compiler's warning level set properly, you will be warned when trying to do this. If you have your compiler's error level set really strictly then it will be treated as an error.

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Your answer only applies to C++, please mark it as such (Pmg has an answer for C). Nevertheless, +1 from me (for both). – Sjoerd Jul 21 '11 at 12:40
Note also, that in C++0x the implicit conversion from const char* to char* that was there for C compatibility has been dropped, and so it will become an error to point a non-const char* to a string literal (which by the way is of type const char[N] --array of N constant characters, where N includes the NUL termination) – David Rodríguez - dribeas Jul 21 '11 at 14:11
@David: I think I said that already! And note that it was never really a char const* to char* conversion that was allowed, but string literal to char* conversion. There is a not-so-subtle difference. – Lightness Races in Orbit Jul 21 '11 at 14:26

In C, string literals are of type char[N], where N is just large enough for all characters in the string literal plus the terminating null byte.

the string literal "foobar", in C, has type char [7]. Its use often decays to a pointer to its first element, of type char*.

I believe, treatment of string literals in C++ is different.

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It is a const char *. Running the following on ideone (gcc-4.5.1)

#include <iostream>

void foo(char * cstr) {
  std::cout << cstr << std::endl;

int main()
  foo( "Hello, World!" );

  return 0;

produces the desired output along with these warnings

prog.cpp: In function 'int main()':
prog.cpp:9:24: warning: deprecated conversion from string constant to 'char*'
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+1, it's deprecated. – iammilind Jul 21 '11 at 12:25
-1: You get a warning, not an error, so the call to foo(char*) is allowed. So you proved that "Hello, World!" is not plain const char*, as the latter is not implicitly convertable to char*. How can you conclude that you proved the exact opposite? – Sjoerd Jul 21 '11 at 12:42
Huh? I proved that a deprecated conversion exists from a string literal to a char *. I didn't think I needed to prove that string literals decay to const char * quite readily. – Praetorian Jul 21 '11 at 12:48
@Peter Lapisu: Try compiling with -Wall and / or -pedantic – Praetorian Jul 21 '11 at 13:22
@Praetorian Indeed, you proved that a conversion exists from string literal to char *, which does not exist for const char*. But you claimed that "Hello, World!" has type const char*! Non-sequitor. – Sjoerd Jul 21 '11 at 17:30

Yes it should be const char* , but this code compiles due to backward compatibility reasons. But you can not modify the str; if you try to do so it will be undefined behavior.

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Along with other answers:

In C++, there exists an implicit conversion from a string literal to char*.

char* p = "Hello"; //Legal, but dangerous

This conversion is dangerous and exists for reasons of compatibility with C. It is explicitly deprecated in C++03 standard. In C++0x the conversion was removed!

char* p = "Hello"; //compiler error in C++0x


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Grammatically speaking, it should be const char*, and then the compiler won't complain anything.

However, to your question, in fact you might modify it under some conditions (it depends on the operating system). The compiler just checks whether your code meets the requirements of C programming, and after the code being compiled and linked into an executable file, it will be the business of the OS.

That's to say, you have chance to make achievement to modify a 'const' data. Take linux and gcc for example:

The string "some text" will be put in the .rodata segment (so if we don't play some tricks, it would be a segment fault when modifying the string). And there are some tricks we can try:

  1. Use mprotect to modify the write authority status to the .rodata segment.
  2. Or, when linking the objects, link the .rodata segment to .data segment, by using gcc linker script like:

    .data : {
        *(.data .data.* .gnu.linkonce.d.*)

    Name it as then run gcc:

    gcc test.c -Wl,-T, -o test.out

    That will make the "some text" writable, because it's in the .data segment.

Maybe there are other tricks that can achieve this funny play, I cannot list all of them here. Whatever, it's just for fun, you will never be suggested to do that :-p

EDIT Well, someone told me that my linker script method did not work. Unfortunately my computer is currently without Linux. So, I try this in Windows+MinGW and succeed.

  1. Use ld -verbose to get the default linker script. Then, copy the contents in .rdata section (in Linux that's .rodata) to .data section assignment. In my environment, that is:

      .data BLOCK(__section_alignment__) :
        __data_start__ = . ;
        __data_end__ = . ;

    Then delete .rdata : {...}, save the file as a linker script file

  2. Here's my test.c:

    #include <stdio.h>
    void foo(char* p){
        *p = 'f';
    int main(){
        const char *str = "sunny";
        return 0;
  3. When I make it through

    gcc test.c

    And run a.exe, it crashes, of course.

  4. And This try:

    gcc test.c -Wl,-T,

    Running a.exe, finally, it outputs normally:


-,- That's all I can explain.

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