What would be the equivalent of using memcpy to a buffer, or string in C++?

For example:

char message_buffer[32];
uint16_t n = 457u;
memcpy(message_buffer, &n, sizeof(n));

Something like:

std::string message_buffer;
uint16_t n = 457u;
std::copy(messagebuffer, n);

Is there no C++ equivalent? Do I just stick to using memcpy, but instead with std::string?

std::string message_buffer;
uint16_t n = 457u;
memcpy(&message_buffer[0], &n, sizeof(n));

I guess I should give more background on what I am trying to do - simply I am sending and receiving data using sockets. The data needs to be pre-appended with the 16 bit binary representation of that number (457). So the examples I gave are but the first step, afterwards I copy the information I would like to send to the buffer, knowing that the first 2 bytes (16bits) contain the "magic number" binary.

  • 1
    Maybe you really want std::to_string? Sep 19, 2015 at 23:18
  • Do NOT use memcpy on std::string and other classes. I wanted to write you an example but I don't understand what you are doing. Is your real question how to pack a 16-bit integer value in an array of bytes?
    – Neil Kirk
    Sep 19, 2015 at 23:21
  • 1
    The equivalent are (copy-) constructors. If you are doing type-unsafe byte movement outside of the container, it's probably not C++ design in first place and you are trying to write C code with fancy trendy things from std namespace. There is not enough of the (high-level) context in the question to propose any C++-ish solution. What are you trying to do exactly? Sep 19, 2015 at 23:42
  • What value do you expect in the first and second byte? You can't assume memcpy will put 01010111 in the first byte.
    – Neil Kirk
    Sep 20, 2015 at 0:47

3 Answers 3


An std::string is for strings. If you want a buffer of bytes, you should use std::vector<char> (or its signed/unsigned counterparts) or std::array for small fixed length buffers instead.

Using std::copy is pretty much always the way to go, especially while in the "high level C++ realm" with all its classes etc.

However, I would say when you are dealing with low level constructs like byte buffers, the C++ function std::memcpy is the most appropriate choice. Just remember, std::memcpy is a "dumb" function that only copies bytes, but considering that we are trying to fill a byte buffer, that is what we want.

std::array<char, 32> buffer;
uint16_t n = 457u;
std::memcpy(buffer.data(), &n, sizeof(n));

Of course, if you want to store a more complex class with e.g. pointer members or non-trivial copy constructors (anything that is not "plain old data") in some byte buffer, you would need to serialize the object to get meaningful results, just as you would in C for structs with pointer members.

Analogously, you cannot simply use memcpy to get the data from the buffer back into some complex type. You would have do de-serialize the raw byte data in an appropriate way.

  • How is it most appropriate? The result depends on the implementation due to endianness. You might as well use std::copy with a reinterpret_cast. At least it will stand out in the code as potentially dangerous.
    – Neil Kirk
    Sep 19, 2015 at 23:18
  • 1
    @NeilKirk "At least it will stand out in the code as potentially dangerous." As will std::memcpy. vOv You want to copy some bytes somewhere, and that is what std::memcpy does and is there for.
    – Baum mit Augen
    Sep 19, 2015 at 23:21
  • You could also use memcpy to copy an array of the same basic type from one place to another, which is not dangerous. This can happen if you inherit legacy C code.
    – Neil Kirk
    Sep 19, 2015 at 23:22
  • @NeilKirk One should not do this in new code (as I wrote above, as long you as you stay in the normal C++ type system, use std::copy), but yes, one might find it in legacy code. Is your point that it is only part of the language for legacy reasons and should not be used at all? If so, I would disagree. If you are going to copy bytes (which I usually don't) std::memcpy is fine by my standard.
    – Baum mit Augen
    Sep 19, 2015 at 23:25
  • My advice is never to use std::memcpy for any purpose. If you want to copy bytes, use std::copy. If you want to copy bytes in an implementation-specific way, use std::copy and the appropriate cast to warn others.
    – Neil Kirk
    Sep 19, 2015 at 23:27

For the specific task you're doing, copying the byte representation of an object of some unrelated type into a buffer, memcpy is the appropriate function. This is specifically because it's one of the few legal ways to do this sort of thing independent of the types involved. Of course its use is limited as it's only valid with trivially copiable types.

When you're copying something where you don't want to destroy static type information, C++ provides other methods, such as the std::copy algorithm which operates on iterators rather than just void* as memcpy() does.


To encode the 16-bit number 457 into a byte array such that the first byte is 01010111 and the second byte is 00000100 in a platform-independent way, use:

unsigned char buffer[2];
const uint16_t n = 457u;
buffer[0] = n & 0xFF;
buffer[1] = (n >> 8) & 0xFF;

You can wrap this logic in a function if you need to do it often.

You cannot assume memcpy will have the same affect. See: https://en.wikipedia.org/wiki/Endianness

  • Could you explain why/how this works? Also, this seems a lot less portable than using memcpy. With memcpy you could copy a lot of different primitive types. Sep 20, 2015 at 1:02
  • @FranciscoAguilera You need to research bitwise operations. Portability depends on what you expect the actual value of the bytes to be. It's unclear.
    – Neil Kirk
    Sep 20, 2015 at 1:08

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.