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This might be a stupid question, but I'm new to C++ so I'm still fooling around with the basics. Testing pointers, I bumped into something that didn't produce the output I expected.

When I ran the following:

char r ('m');
cout << r << endl;
cout << &r << endl;
cout << (void*)&r << endl;

I expected this:


..but I got this:


I was thinking that perhaps since r is of type char, cout would interpret &r as a char* and [for some reason] output the pointer value - the bytes comprising the address of r - as a series of chars, but then why would the first one would be m, the content of the address pointed to, rather than the char representation of the first byte of the pointer address.. It was as if cout interprets &r as r but instead of just outputting 'm', it goes on to output more chars - interpreted from the byte values of the subsequent 11 memory addresses.. Why? And why 11?

I'm using MSVC++ (Visual Studio 2013) on 64 bit Win7.

Postscript: I got a lot of correct answers here (as expected, given the trivial nature of the question). Since I can only accept one, I made it the first one I saw. But thanks, everyone.

So to summarize and expand on the instinctive theories mentioned in my question:

Yes, cout does interpret &r as char*, but since char* is a 'special thing' in C++ that essentially means a null terminated string (rather than a pointer [to a single char]), cout will attempt to print out that string by outputting chars (interpreted from the byte contents of the memory address of r onwards) until it encounters '\0'. Which explains the 11 extra characters (it just coincidentally took 11 more bytes to hit that NUL).

And for completeness - the same code, but with int instead of char, performs as expected:

int s (3);
cout << s << endl;
cout << &s << endl;
cout << (void*)&s << endl;


share|improve this question
char* is interpreted as a string. – Brandon Jan 6 '14 at 20:27
up vote 2 down vote accepted

A char * is a special thing in C++, inherited from C. It is, in most circumstances, a C-style string. It is supposed to point to an array of chars, terminated with a 0 (a NUL character, '\0').

So it tries to print this, following on in to the memory after the 'm', looking for a terminating '\0'. This makes it print some random garbage. This is known as Undefined Behaviour.

share|improve this answer
In this specific case, with this compiler on this platform, it prints random garbage. It could also crash, appear to work correctly, play the Andy Griffith theme, or do any of a billion other things. Undefined is undefined. :) – cHao Jan 6 '14 at 20:25
@cHao – Yakk Jan 6 '14 at 21:02

There is an operator<< overload specifically for char* strings. This outputs the null-terminated string, not the address. Since the pointer you're passing this overload isn't a null-terminated string, you also get Undefined Behavior when operator<< runs past the end of the buffer.

Conversely, the void* overload will print the address.

share|improve this answer

Because there's an overload of operator<< which takes a const char pointer as it's second argument and prints out a string. The overload that takes a void pointer prints only the address.

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Because operator<< is overloaded based on the data type.

If you give it a char, it assumes you want that character.

If you give it a void*, it assumes you want an address.

However, if you give it a char*, it takes that as a C-style string and attempts to output it as such. Since the original intent of C++ was "C with classes", handling of C-style strings was a necessity.

The reason you get all the rubbish at the end is simply because, despite your assertion to the compiler, it isn't actually a C-style string. Specifically, it is not guaranteed to have a string-terminating NUL character at the end so the output routines will just output whatever happens to be in memory after it.

This may work (if there's a NUL there), it may print gibberish (if there's a NUL nearby), or it may fall over spectacularly (if there's no NUL before it gets to memory it cannot read). It's not something you should rely on.

share|improve this answer

A char * is often - usually even - a pointer to a C-style null-terminated string (or a string literal) and is treated as such by ostreams. A void * by contrast unambiguously indicates a pointer value is required.

share|improve this answer

The output operator (operator<<()) is overloaded for char const* and void const*. When passing a char* the overload for char const* is a better match and chosen. This overload expects a pointer to the start of a null terminated string. You give it a pointer to an individual char, i.e., you get undefined behavior.

If you want to try with a well-defined example you can use

char s[] = { 'm', 0 };
std::cout << s[0] << '\n';
std::cout << &s[0] << '\n';
std::cout << static_cast<void*>(&s[0]) << '\n';
share|improve this answer

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