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This code behaves weird in MS Visual Studio:

char *s = "hello";
s[0] = 'a';

In release build with optimization turned on it ignores s[0] = 'a' and prints "hello". Without optimization or in debug build it crashes with access violation.
Is this behavior is c++ standard compliant or no? In my opinion, compiler should only allow constant references to string literals, i.e.

const char *s = "hello";

EDIT: I know why it works like this, I do not understand why I am allowed to make non const reference to read only memory.

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The others are right about the string being in read-only memory, but I'm amazed the program does not crash when you try to overwrite the read-only string. –  Jim Buck Feb 23 '09 at 16:30
Why does everbody think that their failure in understanding things constitutes a bug in the thing? –  Bombe Feb 23 '09 at 16:34
In asm listing i see that optimizer just throw away s[0] = 'a' and calls printf("hello") directly. –  Pavel Dogurevich Feb 23 '09 at 16:40
Wow, really?? This sounds like a compiler bug for it to throw out non-trivial code like that. –  Jim Buck Feb 23 '09 at 21:39
SELECT is not broken. –  Wedge Feb 27 '09 at 2:45
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6 Answers

up vote 8 down vote accepted

The reason why this code is allowed in the first place (rather than requiring the declaration to be of type char const*) is backwards compatibility to old C code.

Most modern compilers in strict mode will issue a warning for the above code, though!

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I have used Visual Studio 2008 express with maximum warning level. It shows no warnings :( –  Pavel Dogurevich Feb 23 '09 at 16:41
@zuranthus - compilers might issue warnings, but are not required to. unfortunately, assigning const string data to non-const variables is so common (which is why it was permitted int he first place), warnings are likely to be overwhelming in any decent-sized body of code. –  Michael Burr Feb 23 '09 at 16:45
@zuranthus - unfortunately the "maximum" level (/W4) does not show all warnings. If you haven't already, try it with /Wall. –  Ferruccio Feb 23 '09 at 16:51
@Ferruccio - no, still nothing, even with /Wall. –  Pavel Dogurevich Feb 23 '09 at 16:55
this is what i don't like about msvc. it mixes together C and C++ and its extensions together.and one does never know when one compiles in strict or non-strict mode.you have to enable W4 for example just to be warned when you do string &s = string(); (which is invalid c++) i read in an msdn belog. –  Johannes Schaub - litb Feb 23 '09 at 17:01
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No, it's not a bug in the compiler. When you write:

char* s = "hello";

The string constant "hello" will be placed in a read-only section and should generate an exception if you try to modify it. (an OS exception, not a C++ exception).

To make it writable, you have to either use an array:

char s[] = { 'h', 'e', 'l', 'l', 'o', 0 };

or, if you really need a pointer, make it point to an array:

char _s[] = { 'h', 'e', 'l', 'l', 'o', 0 };
char* s = _s;

I can see your point about only allowing const pointers to be initialized with string literals, but I think that would break a lot of existing code.

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It's enough to write char s[] = "Hallo";, no need to spell the string literal out as an array! –  Konrad Rudolph Feb 23 '09 at 16:27
I wonder how this is defined in the spec. –  shoosh Feb 23 '09 at 16:28
In fact, for a string of N characters: both are valid i.e. char s[ N ] = "12...N" and char s[ N + 1 ] = "12...N"; –  dirkgently Feb 23 '09 at 16:29
@Konrad - That's true. I had forgotten you could do that. –  Ferruccio Feb 23 '09 at 16:30
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I think C++ compilers are allowed to allocate string literals in read only memory pages per the standard.

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This won't work because *s is pointing to the memory address of a string constant, which you're not allowed to change.

I'm actually a little surprised you don't don't get an access violation when it's compiled with optimizations.

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I think that optimizer simplifies printf(s) to printf("hello"), since s points to read only memory. Then optimizer throws away s[0] = 'a' as unnecessary operation, since it does not affect anything. –  Pavel Dogurevich Feb 23 '09 at 16:36
Ahh, interesting! –  Dana Feb 23 '09 at 17:15
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char *s = "foo";

is a tricky pony. It doesn't tell you that this really is a read-only string when in reality it is. This is so, because, you could have your colleague write another string like:

char *t = "foo";

Now, the compiler, at its helpful best will keep only one copy, and changing one would mean a lot of work only to keep you and your friend happy. So, it doesn't try to do that. This is something you should find in the standard. Guess what, what you're doing invokes UB.

That said, if you were to have your way, it would break a lot of legacy code which the poor guys at the Standards Committee couldn't afford. So, there you are.

Remember the const we are guilty of carefree usage wasn't born in a day. Bjarne did a lot of soul-searching and so did a lot of others whether to put it in or not. In fact, he had this excellent idea of having read-only and write-only variables ... but I'll save that story for another day.

And finally, there is our good friend C, who we need to take care of. So ...

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As the others said, you can't modify a string literal. I also wonder why you don't get a compiler warning in your code. The compiler can for sure figure out that you're trying to write to read only memory.

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