I defined my char as usual, although I named it buf. I keep getting an error:

argument of type 'char' is incompatible with parameter of type 'void*'

If I set buf to void*, it won't be able to pass in 4096 as a parameter.

So, how do I get around this? Has anyone run into a problem like this before?

    char buf{4096};
    string userinput;
    do
    {
        cout << "> " << endl;
        getline(cin, userinput);


        if (userinput.size() > 0) // make sure the user typed something in  
        {
            int SendResult = send(sock, userinput.c_str, userinput.size() + 1, 0);
            if (SendResult != SOCKET_ERROR)
            {
                ZeroMemory(buf, 4096);
                int bytesReceived = recv(sock, buf, 4096, 0);
                if (bytesReceived > 0)
                {
                    cout << "SERVER" << string(buf, 0, bytesReceived) << 
endl;
                }
            }
        }
  • 8
    char buf{4096} should probably be char buf[4096]. You've created a single character buffer and are trying to populate it with the value 4096. – tadman Feb 21 at 22:15
  • 1
    @tadman, Likely the winapi function – chris Feb 21 at 22:16
  • @chris Good catch. The SendResult naming convention threw me off. – tadman Feb 21 at 22:17
  • 5
    char buf{4096} declares one char with the value 4096. You want char buf[4096] – Miles Budnek Feb 21 at 22:17
  • @MilesBudnek not that 4096 will ever fit on "boring" platforms with 8 bit chars... buf will probably be 0 an almost any of those. – Matteo Italia Feb 21 at 23:03

The problem is likely this definition:

char buf{4096};

Which is roughly equivalent to:

char buf = 4096;

Which is a single character, not a character array buffer. To fix this:

char buf[4096];

When passing that in you may need to do:

ZeroMemory(&buf, 4096);

I'd strongly encourage you to avoid hammering out 4096 everywhere, so define a constant:

const SIZE_T buf_size = 4096;
char buf[buf_size];

// ...

ZeroMemory(&buf, buf_size);
  • To note, a conforming C++11 compiler will not compile this because of the narrowing in braces. (And a pre-C++11 compiler won't recognize the form of initialization.) I think it's a fair assumption that 4096 isn't a valid char value on Windows. – chris Feb 21 at 22:20
  • never mind fixed it – Jacob Sator Feb 21 at 22:25
  • 1
    Just do ZeroMemory(&buf, sizeof buf); – immibis Feb 21 at 22:31
  • 2
    Since buf is a fixed array, passing its name around is the same as passing a pointer to its first element, so you don't need the & at all: ZeroMemory(buf, sizeof(buf)); On the other hand, in this example, it is not necessary to zero out buf at all before calling recv(), that is just wasted overhead. – Remy Lebeau Feb 21 at 22:41

How about:

#include <array>   

std::array<char, 4096> buf;
...    

        std::fill(buf.begin(), buf.end(), 0);
        int bytesReceived = recv(sock, buf.data(), buff.size(), 0);
...
  • Granted, this is a better approach, but this does nothing to answer the question that was actually asked. StackOverflow is a Q+A site, we are here to answer question, not rewrite code. – Remy Lebeau Feb 21 at 22:38
  • The question was, "So, how do I get around this?". The answer, in my opinion, involves the use of std::array. And no, we're not just here to answer the question. If we were we wouldn't down-vote so many. It's also a C++ question. My answer was idiomatic over c-style arrays. – Robinson Feb 21 at 22:40
  • The question being asked is in regards to fixing the error message, not changing the semantics of the code. That is what Code Review is for. – Remy Lebeau Feb 21 at 22:51

Another question is why do you need ZeroMemory at all. And I think what happened here is that you picked up wrong string constructor overload. Let me explain:

You have your buf buffer and you have your bytesReceived length of data, so really all you need is

std::string(buf, bytesReceived)

to construct valid string. But you have chosen

std::string(buf, 0, bytesReceived)

This overload looks like this:

basic_string( const basic_string& other, size_type pos, size_type count, ..

The buf is implicitly converted into std::string at the 1st argument, but for this to work correctly your buffer needs to be null terminated, which it might or might not be. So you worked around this problem by zeroing the rest of the buffer. What do you think will happen if you get 4096 bytes of data that is not null terminated? Your workaround will not work in this case. So just use the appropriate string constructor mentioned above and you won't need to use ZeroMemory.

  • According to Remy Lebeau we must answer the specific question, not offer a better alternative. Yea... I know. – Robinson Feb 27 at 22:16
  • @Robinson Really? This is why you downvoted? – Killzone Kid Feb 27 at 22:17
  • Yes. Your answer is excellent but it's off-topic, apparently. It's the same reason I was downvoted below. I'm just making a point :). – Robinson Feb 27 at 22:20
  • 1
    @Robinson Well, I am going to upvote your answer, I hope you will feel really bad about it, you little person – Killzone Kid Feb 27 at 22:23
  • I don't feel bad about it. – Robinson Feb 27 at 22:24

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