I'm trying to read a binary file and store it in a buffer. The problem is, that in the binary file are multiple null-terminated characters, but they are not at the end, instead they are before other binary text, so if I store the text after the '\0' it just deletes it in the buffer.


char * a = "this is a\0 test";
cout << a;

This will just output: this is a

here's my real code:

this function reads one character

bool CStream::Read  (int * _OutChar)
    if (!bInitialized)
        return false;

    int iReturn = 0;

     *_OutChar = fgetc (pFile);

    if (*_OutChar == EOF)
        return false;

    return true;

And this is how I use it:

    char * SendData = new char[4096 + 1];

    for (i = 0; i < 4096; i++)
        if (Stream.Read (&iChar))
            SendData[i] = iChar;
  • Is your problem about doing something with the read data ? Because the reading seems ok (assuming open mode is std::binary), and the use of the buffer as well.
    – Christophe
    Jul 12, 2014 at 19:12
  • @Christophe To open the the file i'am using fopen and as mode parameter "ab+", I think this is binary. What I do next, is sending the buffer to a socket with ssl_write, there i'am write the buffer back to to a file, but this fails, because the buffer that is recieved, is inclomplete, it just writes the buffer until a '\0'
    – schacker22
    Jul 12, 2014 at 19:30

5 Answers 5


I just want to mention that there is a standard way to read from a binary file into a buffer.

Using <cstdio>:

char buffer[BUFFERSIZE];

FILE * filp = fopen("filename.bin", "rb"); 
int bytes_read = fread(buffer, sizeof(char), BUFFERSIZE, filp);

Using <fstream>:

std::ifstream fin("filename.bin", ios::in | ios::binary );
fin.read(buffer, BUFFERSIZE);

What you do with the buffer afterwards is all up to you of course.

Edit: Full example using <cstdio>

#include <cstdio>

const int BUFFERSIZE = 4096;    

int main() {
    const char * fname = "filename.bin";
    FILE* filp = fopen(fname, "rb" );
    if (!filp) { printf("Error: could not open file %s\n", fname); return -1; }

    char * buffer = new char[BUFFERSIZE];
    while ( (int bytes = fread(buffer, sizeof(char), BUFFERSIZE, filp)) > 0 ) {
        // Do something with the bytes, first elements of buffer.
        // For example, reversing the data and forget about it afterwards!
        for (char *beg = buffer, *end=buffer + bytes; beg < end; beg++, end-- ) {
           swap(*beg, *end);

    // Done and close.

    return 0;
  • If I want to read a file over 1GB, i can't use fread, because the buffer size would be too big. This is because I'am using fgets, to read character by character
    – schacker22
    Jul 12, 2014 at 23:00
  • 2
    @schacker22 You would still probably get better performance reading into your smaller buffers with fread rather than fget. There is nothing about fread saying you have to read the whole file in one go. Jul 12, 2014 at 23:03
  • I've already tried this, see this: stackoverflow.com/questions/24712427/…
    – schacker22
    Jul 12, 2014 at 23:42
  • @schacker22 Aye, I took a look at your code there, I don't see anything wrong at first glance, unless fseek actually returns an error. Please note that as long as you are not jumping around the file the call to fseek is not needed. Jul 13, 2014 at 14:47
  • 1
    The current position in the file is stored in the FILE object, the next call to fread will therefore continue where the last read ended. (Just in the same way as fget does) The only difference is that fread reads more data at a time and therefore induces less overhead. Jul 13, 2014 at 14:58
static std::vector<unsigned char> read_binary_file (const std::string filename)
    // binary mode is only for switching off newline translation
    std::ifstream file(filename, std::ios::binary);

    std::streampos file_size;
    file.seekg(0, std::ios::end);
    file_size = file.tellg();
    file.seekg(0, std::ios::beg);

    std::vector<unsigned char> vec;
               std::istream_iterator<unsigned char>(file),
               std::istream_iterator<unsigned char>());
    return (vec);

and then

auto vec = read_binary_file(filename);
auto src = (char*) new char[vec.size()];
std::copy(vec.begin(), vec.end(), src);
  • 1
    For anyone who wants to use this: The read_binary_file function has the line std::vector<unsigned char> vec(file_size); It should just be std::vector<unsigned char> vec ; Otherwise, the function returns a vector with the file contents at the beginning x bytes followed by a dummy x bytes. The vector has 2x bytes ! If you want to optimize the memory allocs as you read the file into the vector, use vec.reserve(file_size) right after you create the vector. May 13, 2021 at 18:46

The problem is definitievely the writing of your buffer, because you read a byte at a time.

If you know the length of the data in your buffer, you could force cout to go on:

char *bf = "Hello\0 world"; 
cout << bf << endl;
cout << string(bf, 12) << endl;

This should give the following output:

Hello  world

However this is a workaround, as cout is foreseent to output printable data. Be aware that the output of non printable chars such as '\0' is system dependent.

Alternative solutions:

But if you manipulate binary data, you should define ad-hoc data structures and printing. Here some hints, with a quick draft for the general principles:

struct Mybuff {   // special strtucture to manage buffers of binary data
    static const int maxsz = 512; 
    int size;
    char buffer[maxsz]; 
    void set(char *src, int sz)  // binary copy of data of a given length
    { size = sz; memcpy(buffer, src, max(sz, maxsz)); }
} ; 

Then you could overload the output operator function:

ostream& operator<< (ostream& os, Mybuff &b)
    for (int i = 0; i < b.size; i++) 
        os.put(isprint(b.buffer[i]) ? b.buffer[i]:'*');  // non printables replaced with *
    return os;

ANd you could use it like this:

char *bf = "Hello\0 world"; 
Mybuff my; 
my.set(bf, 13);   // physical copy of memory
cout << my << endl;   // special output 

I believe your problem is not in reading the data, but rather in how you try to print it.

char * a = "this is a\0 test";
cout << a;

This example you show us prints a C-string. Since C-string is a sequence of chars ended by '\0', the printing function stops at the first null char. This is because you need to know where the string ends either by using special terminating character (like '\0' here) or knowing its length.

So, to print whole data, you must know the length of it and use a loop similar to the one you use for reading it.


Are you on Windows? If so you need to execute _setmode(_fileno(stdout), _O_BINARY);

Include <fcntl.h> and <io.h>

  • Is this for the fopen function or for the socket?
    – schacker22
    Jul 12, 2014 at 19:47

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