I usually use stringstream to write into in-memory string. Is there a way to write to a char buffer in binary mode? Consider the following code:

stringstream s;
s << 1 << 2 << 3;
const char* ch = s.str().c_str();

The memory at ch will look like this: 0x313233 - the ASCII codes of the characters 1, 2 and 3. I'm looking for a way to write the binary values themselves. That is, I want 0x010203 in the memory. The problem is that I want to be able to write a function

void f(ostream& os)
    os << 1 << 2 << 3;

And decide outside what kind of stream to use. Something like this:

mycharstream c;
c << 1 << 2 << 3; // c.data == 0x313233;
mybinstream b;
b << 1 << 2 << 3; // b.data == 0x010203;

Any ideas?

  • 1
    That's hex, not binary. Why can't you write 0x01, 0x02, etc., though... those are actual ASCII characters, after all. – jrockway Oct 13 '09 at 10:03
  • 2
    He wants the contents of memory (the actual bytes) to be 0x010203 (66051 decimal), not the string "0x010203". – KeithB Oct 13 '09 at 11:18
  • 1
    I've modified the question. Hope it's more clear now. – FireAphis Oct 13 '09 at 14:20
  • 3
    Excellent question. Too bad it is impossible to give a good answer, because this is a design bug in the standard libraries. – pyon Jan 12 '13 at 3:50

To read and write binary data to streams, including stringstreams, use the read() and write() member functions. So

unsigned char a(1), b(2), c(3), d(4);
std::stringstream s;
s.write(reinterpret_cast<const char*>(&a), sizeof(unsigned char));
s.write(reinterpret_cast<const char*>(&b), sizeof(unsigned char));
s.write(reinterpret_cast<const char*>(&c), sizeof(unsigned char));
s.write(reinterpret_cast<const char*>(&d), sizeof(unsigned char));

s.read(reinterpret_cast<char*>(&v), sizeof(unsigned int)); 
std::cout << std::hex << v << "\n";

This gives 0x4030201 on my system.

Edit: To make this work transparently with the insertion and extraction operators (<< and >>), your best bet it to create a derived streambuf that does the right thing, and pass that to whatever streams you want to use.

| improve this answer | |
  • It definitely answers the first part of the question, but is there a way to make the insertion look always the same (i.e. s << a) but the inner data representation differ depending on the type of the stream? – FireAphis Oct 13 '09 at 14:17
  • Your own streambuf can't do this; formatting is done in the (non-virtual) istream and ostream methods and the result of that is what the streambuf sees. – Roger Pate Jul 17 '10 at 0:30
  • The question actually shows the in-memory result 0x010203 whereas this will likely produce 0x00000001 0x00000002 0x00000003 (assuming sizeof(int)==4). – MSalters Jan 13 '17 at 13:17
  • @MSalters You're right, apparently 6 year younger me was an idiot. – KeithB Jan 13 '17 at 17:55

You can do this sort of thing with templates. E.g:

//struct to hold the value:
template<typename T> struct bits_t { T t; }; //no constructor necessary
//functions to infer type, construct bits_t with a member initialization list
//use a reference to avoid copying. The non-const version lets us extract too
template<typename T> bits_t<T&> bits(T &t) { return bits_t<T&>{t}; }
template<typename T> bits_t<const T&> bits(const T& t) { return bits_t<const T&>{t}; }
//insertion operator to call ::write() on whatever type of stream
template<typename S, typename T>
S& operator<<(S &s, bits_t<T> b) {
    return s.write((char*)&b.t, sizeof(T));
//extraction operator to call ::read(), require a non-const reference here
template<typename S, typename T>
S& operator>>(S& s, bits_t<T&> b) {
    return s.read((char*)&b.t, sizeof(T));

It could use some cleanup, but it's functional. E.g:

std::ofstream f = /*open a file*/;
int a = 5, b = -1, c = 123456;
f << bits(a) << bits(b) << bits(c);

std::ifstream f2 = /*open a file*/;
int a, b, c;
f >> bits(a) >> bits(b) >> bits(c);
| improve this answer | |
  • I prefer this answer because it's not confusing and it can also wrap other things like vector<float> – 陈家胜 Apr 20 '18 at 13:26
  • Hey, @SamuelPowell I like this approach so much, I took it a bit further, and wrote more serializers on top of this approach. I like this as it has such low complexity compared to other C++ serializers. If interested look at github.com/goblinhack/simple-c-plus-plus-serializer - would be interested in your comments. I found I had to remove the stream type in the templates due to (I think) operator overloading issues. Anyway, it works well for many types. – Neil McGill Sep 8 '19 at 2:44

Well, just use characters, not integers.

s << char(1) << char(2) << char(3);
| improve this answer | |

overloading some unusual operators works rather well. Here below I choosed to overload <= because it has the same left-to-right associativity as << and has somehow a close look-and-feel ...

#include <iostream>
#include <stdint.h>
#include <arpa/inet.h>

using namespace std;

ostream & operator<= (ostream& cout, string const& s) {
    return cout.write (s.c_str(), s.size());
ostream & operator<= (ostream& cout, const char *s) {
    return cout << s;
ostream & operator<= (ostream&, int16_t const& i) {
    return cout.write ((const char *)&i, 2);
ostream & operator<= (ostream&, int32_t const& i) {
    return cout.write ((const char *)&i, 4);
ostream & operator<= (ostream&, uint16_t const& i) {
    return cout.write ((const char *)&i, 2);
ostream & operator<= (ostream&, uint32_t const& i) {
    return cout.write ((const char *)&i, 4);

int main() {
    string s("some binary data follow : ");

    cout <= s <= " (machine ordered) : " <= (uint32_t)0x31323334 <= "\n"
         <= s <= " (network ordered) : " <= htonl(0x31323334) ;
    cout << endl;

    return 0;

There are several drawbacks :

  • the new meaning of <= may confuse readers or lead to unexpected results :

    cout <= 31 <= 32;

    won't give the same result as

    cout <= (31 <= 32);
  • the endianess isn't clearly mentionned at reading the code, as illustrated in the above example.

  • it cannot mix simply with << because it doesn't belong to the same group of precedence. I usually use parenthesis to clarify such as :

    ( cout <= htonl(a) <= htonl(b) ) << endl;
| improve this answer | |
  • 3
    That's a cool proof of concept, but note that C++'s overloaded operators are considered evil because they allow for this. The non-obvious overload of << is justified only because it's a standard overload. No new hacky overloads should be invented and the overloading itself should be used with a great care. – cubuspl42 Jul 10 '14 at 0:04

For this use case I implemented myself a "raw shift operator":

template <typename T, class... StreamArgs>
inline std::basic_ostream<StreamArgs...> &
operator <= (std::basic_ostream<StreamArgs...> & out, T const & data) {
        out.write(reinterpret_cast<char const *>(&data), sizeof(T));
        return out;

Put it somewhere convenient and use it like this:

std::cout <= 1337 <= 1337ULL <= 1337. <= 1337.f;


  • chainable
  • automatic sizeof()
  • takes arrays and struct/class instances, too


  • unsafe for non-POD objects: leaks pointers and padding
  • output is platform specific: padding, endianess, integer types
| improve this answer | |

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