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i have some data that has to match a certain packet protocol. i'm getting said data as a std::string.

i need to take some integer values and put them in the string in certain locations. i don't want to convert the integer to string values; i want to copy the actual byte values in.

so for example, if my string is "abcdefg", and i have a 2 byte short with the value of 25 that i want to put into the 1st position, i don't want "a25defg". i want "a" + 0x00 + 0x19 + "defg" (forgive me for that. it was the best way i could think to illustrate what i want).

is there a slick way to do this using regular C++ strings? boost isn't a possibility for me here due to system req's.

from what i see, stringstream may help, but all of the examples i see are converting the number/short/integer into the ascii version of it, and that's not what i want.

i can easily do this with char arrays, but i was wondering if i can do it with strings.


share|improve this question
There are many things that affect the question. The first of which is whether the protocol uses std::string because it is a text based protocol or whether std::string is an abuse of std::vector<unsigned char>, will the protocol handle NUL characters in the string? Is the size of the string fixed in the protocol? – David Rodríguez - dribeas Jun 7 '12 at 20:39
yes, let's us assume that. endianness gets checked before this code ever gets hit. – jasonmclose Jun 7 '12 at 20:41
good questions. the string is a fixed size, as the protocol is defined. and yes, the protocol does need null characters and can handle them, which is one of the reasons for using std::string. i know how to do this using char arrays. i'm just really curious on how it can be done with std::string. – jasonmclose Jun 7 '12 at 20:43
@DavidRodríguez-dribeas Yes, a std::string can contain \0 characters. That is one of the many advantages of std::strings over C-type strings! – Mr Lister Jun 7 '12 at 20:45
protocol uses lots of 0x00 for placeholders in spare locations. 0x00 is legal. – jasonmclose Jun 7 '12 at 20:48
up vote 2 down vote accepted

You say it's easy to do with char arrays, but it's just as easy with std::strings!

std::string str = "abcdef";
short val = 25;
str[1] = val>>8;
str[2] = val&255;

That works the way you want. If the protocol is big-endian.

This works only if you want to replace existing chars in the string. To create a new string from scratch, or add a value at the end, see Dani's answer.

share|improve this answer
this is what i was looking for. i really need to learn my bitwise operators a little better. now let me ask you a second question. how can i append on a short in the same manner? would i need to append 2 values and then use your same method, or is there a better way? thanks a lot btw. – jasonmclose Jun 7 '12 at 20:46
Well, you shouldn't use [ ] indexing to append characters (i.e. write after the current end of the string), so you could, for instance, append "xx" first and then change the contents of the appended bytes. But then it becomes a less simple and elegant method... – Mr Lister Jun 7 '12 at 20:50
@MrLister: yes, I hadn't seen that one yet. :/ – Mooing Duck Jun 7 '12 at 20:59

Its not recommended, but you can just reinterpret it:

short something = 25;
string something_string(reinterpret_cast<unsigned char*>(&something),
// something_string == 19 00

You need to take care of endianess though, (like hton)

share|improve this answer
and str.append(reinterpret_cast<const char*>(val), sizeof(val)); and also str.replace(1, 2, reinterpret_cast<const char*>(val), sizeof(val)); to save you minuscule amounts of time. – Mooing Duck Jun 7 '12 at 20:59
template<size_t N>
void cram_helper( unsigned long long value, char* const dst )
    char* p = dst + N;
    while (p > dst) { *--p = value & 0xFF; value >>= 8; }

template<typename T>
void cram( T t, char* dst )
    cram_helper<sizeof(T)>(t, dst);

char buffer[] = { "abcdefg" };
short s = 25;
cram(s, buffer+1);

string buffer1 = "abcdefg";
cram(s, &buffer[1]);

template<size_t N, typename Container>
void cram_helper( unsigned long long value, Container& dst, int initial_index )
    char index = initial_index + N;
    while (index > initial_index) { dst[--index] = value & 0xFF; value >>= 8; }

template<typename T, typename Container>
void cram( T t, Container& dst, size_t initial_index = 0 )
    cram_helper<sizeof(T)>(t, dst, initial_index);

std::string buffer2 = "abcdefg";
short s = 25;
cram(s, buffer2, 1);
share|improve this answer
can this be done without using char* or char arrays? using straight access to a std::string or the std::string library? – jasonmclose Jun 7 '12 at 20:40
@jason: Just added that. – Ben Voigt Jun 7 '12 at 20:40
thank you so much ben. – jasonmclose Jun 7 '12 at 20:47

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