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What is the most simple and efficient why to copy an int to a boost/std::array?

The following seems to work, but I'm not sure if this is the most appropriate way to do it:

  int r = rand();
  boost::array<char, sizeof(int)> send_buf;
  std::copy(reinterpret_cast<char*>(&r), reinterpret_cast<char*>(&r + sizeof(int)), &send_buf[0]);
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4 Answers 4

up vote 3 down vote accepted

Just for comparison, here's the same thing with memcpy:

#include <cstring>

int r = rand();
boost::array<char, sizeof(int)> send_buf;
std::memcpy(&send_buf[0], &r, sizeof(int));

Your call whether an explosion of casts (and the opportunity to get them wrong) is better or worse than the C++ "sin" of using a function also present in C ;-)

Personally I think memcpy is quite a good "alarm" for this kind of operation, for the same reason that C++-style casts are a good "alarm" (easy to spot while reading, easy to search for). But you might prefer to have the same alarm for everything, in which case you can cast the arguments of memcpy to void*.

Btw, I might use sizeof r for both sizes rather than sizeof(int), but it sort of depends whether the context demands that the array "is big enough for r (which happens to be an int)" or "is the same size as an int (which r happens to be)". Since it's a send buffer, I guess the buffer is the size that the wire protocol demands and r is supposed to match the buffer, rather than the other way around. So sizeof(int) is probably appropriate but 4 or PROTOCOL_INTEGER_SIZE might be more appropriate still.

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There is a missing reference operator "&" in memcpy(&send_buf[0], r, sizeof(int)). Should be instead memcpy(&send_buf[0], &r, sizeof(int)). –  marcmagransdeabril Sep 24 '12 at 6:58

The idea is correct, but you have a bug:

reinterpret_cast<char*>(&r + sizeof(int))

Should be:

reinterpret_cast<char*>(&r) + sizeof(int)



These or a memcpy equivalent are OK. Anything else risks alignment issues.

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It's common currency to use reinterpret_cast for those purposes but the Standard makes it pretty clear that static_cast via void* is perfectly acceptable. In fact in the case of a type like int then reinterpret_cast<char*>(&r) is defined to have the semantics of static_cast<char*>(static_cast<void*>(&r)). Why not be explicit and use that outright?

If you get into the habit, you have less chance in the future of using a reinterpret_cast which will end up having implementation-defined semantics rather than a static_cast chain which will always have well-defined semantics.

Do note that you're allowed to treat a pointer to a single object as if it were a pointer into an array of one (cf. 5.7/4). This is convenient for obtaining the second pointer.

int r = rand();
boost::array<char, sizeof(int)> send_buf;
auto cast = [](int* p) { return static_cast<char*>(static_cast<void*>(p)); };
std::copy(cast(&r), cast(&r + 1), &send_buf[0]);
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Minor bug as pointed out by Michael Anderson

But you could do this:

#include <iostream>

union U
    int  intVal;
    char charVal[sizeof(int)];

int main()
    U   val;
    val.intVal  = 6;

    std::cout <<  (int)val.charVal[0] << ":" << (int)val.charVal[1] << ":" << (int)val.charVal[2] << ":" << (int)val.charVal[3] << "\n";
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Whereas this of course works, it is still UB, since you're reading from a union member that wasn't written to. –  Christian Rau Sep 18 '12 at 8:15
You don't seem to have actually copied the int into a boost/std array of char ;-p –  Steve Jessop Sep 18 '12 at 9:36
@ChristianRau: Yes I have lost that argument before and conceded it is UB. Though if you happen to know the part of the standard that states it I would love to know. Because so much C code relies on the above behavior I would have (before previous discussion) have though it perfectly legal. –  Loki Astari Sep 18 '12 at 17:57
@SteveJessop: Would it help if I had done: std::array<U,1> val; ;-) –  Loki Astari Sep 18 '12 at 17:58
@Loki: in C++03 it follows from what 9.5 says about only one member being active. There's text "one special guarantee" is made about PODs with a common initial sequence. No other special guarantees are made. In this case your union type-puns as char, which is a legal alias, I'm not sure I can "prove" it UB. The usual int/float example certainly is UB in C++03. C99 OTOH contains more special guarantees to say that you can reinterpret object representations through a union, and it does so in order to bless what compilers were doing anyway. I haven't checked the situation in C++11. –  Steve Jessop Sep 18 '12 at 18:36

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