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This is the scenario;

// I have created a buffer
void *buffer = operator new(100)

/* later some data from a different buffer is put into the buffer at this pointer
by a function in an external header so I don't know what it's putting in there */

cout << buffer;

I want to print out the data that was put into the buffer at this pointer to see what went in. I would like to just print it out as raw ASCII, I know there will be some non-printable characters in there but I also know some legible text was pushed there.

From what I have read on the Internet cout can't print out uncasted data like a void, as opposed to an int or char. However, the compiler wont let me cast it on the fly using (char) for example. Should I create a seperate variable that casts the value at the pointer then cout that variable, or is there a way I can do this directly to save on another variable?

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Any reason not to create the buffer as char* if that's what you are storing in it? char* is almost as universal as void* and you can at least print it –  Martin Beckett May 10 '12 at 16:30
@EdHeal LMAO TRULY –  johnathon May 10 '12 at 16:33
@MartinBeckett Because the external function called requires a void* –  jwbensley May 10 '12 at 16:35
To tell you the truth - casting (as in the theatre or opera) is a bad idea. You usually get a diva or a dame! –  Ed Heal May 10 '12 at 16:35
@EdHeal - it's all bytes really, the rest is just window dressing! –  Martin Beckett May 10 '12 at 16:37

4 Answers 4

up vote 1 down vote accepted

Do this:

char* buffer = new char[100];

std::cout << buffer; 
// at some point
delete[] buffer;

void* you only need in certain circumstances, mostly for interop with C interfaces, but this is definitely not a circumstance requiring a void*, which essentially loses all type information.

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What if buffer is not null-terminated? –  Etienne de Martel May 10 '12 at 16:33
Then you have a problem :) –  Tony The Lion May 10 '12 at 16:35
Not really, you could just treat the buffer as an array of chars and use copy + ostream_iterator or something. –  Etienne de Martel May 10 '12 at 16:36
@EtiennedeMartel cout does not require null termination, hence you can copy a vector<char> to cout using std::copy(v.begin(),v.end(),std::cout); and the vector NOT have a null terminated char at its end. –  johnathon May 10 '12 at 16:36
haha.. beat me to it –  johnathon May 10 '12 at 16:37

Do something like:

// C++11
std::array<char,100> buf;
// use std::vector<char> for a large or dynamic buffer size

// buf.data() will return a raw pointer suitable for functions
//   expecting a void* or char*
// buf.size() returns the size of the buffer

for (char c : buf)
    std::cout << (isprint(c) ? c : '.');

// C++98
std::vector<char> buf(100);

// The expression `buf.empty() ? NULL : &buf[0]`
//   evaluates to a pointer suitable for functions expecting void* or char*

// The following struct needs to have external linkage
struct print_transform {
    char operator() (char c) { return isprint(c) ? c : '.'; }

std::transform(buf.begin(), buf.end(),
               std::ostream_iterator<char>(std::cout, ""),
share|improve this answer

You need to cast it to char*: reinterpret_cast<char*>(buffer). The problem is that void* represents anything, so only th pointer is printed; when you cast it to char*, the contents of the memory are interpreted as a C-style string

Note: use reinterpret_cast<> instead of the C-style (char *) to make your intent clear and avoid subtle-and-hard-to-find bugs later

Note: of course you might get a segfault instead, as if the data is indeed not a C-style string, memory not associated with the buffer might be accessed

Update: You could allocate the memory to a char* buffer to begin with and it would solve your problem too: you could still call your 3rd party function (char* is implicitly convertible to void*, which I presume is the 3rd party function's parameter type) and you don't need to do the cast-ing at all. Your best bet is to zero-out the memory and restrict the 3rd party function to copy more than 99*sizeof(char) bytes into your buffer to preserve the ending '\0' C-style string terminator

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Ah I see, c++ style static_casting yes? –  jwbensley May 10 '12 at 16:36
Why cast it from a void* if you can avoid the void* all together. –  Tony The Lion May 10 '12 at 16:38
It is not static cast (that is called static_cast<>, but telling the compiler you want to reinterpret the data in a completely different way (and possibly suffer the consequences) –  Attila May 10 '12 at 16:39
I get what you're saying, but I see no reason why the OP can't just have a char array in the first place. –  Tony The Lion May 10 '12 at 16:43
@TonyTheLion - updated the answer –  Attila May 10 '12 at 16:48

If you want to go byte by byte you could use an unsigned char and iterate over it.

unsigned char* currByte = new unsigned char[100];
for(int i = 0; i < 100; ++i)
    printf("| %02X |", currByte[i]);

It's not a very modern (or even very "C++") answer but it will print it as a hex value for you.

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AFAIK, this is just C. There's no C++ anywhere in this code, even the cast is a C style cast :P –  Tony The Lion May 10 '12 at 16:41
Yep it is C (newly added new aside). Nice and simple and to the point. :) Removed the cast in case anyone is wondering what Tony's on about. –  Dennis May 10 '12 at 16:54

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