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I have an std::vector. I want to copy the contents of the vector into a char* buffer of a certain size.

Is there a safe way to do this?

Can I do this?

memcpy(buffer, _v.begin(), buffer_size);

or this?

std::copy(_v.begin(), _v.end(), buffer); // throws a warning (unsafe)

or this?

for (int i = 0; i < _v.size(); i++)
  *buffer = _v[i];


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My C++-fu is a little rusty, but wouldn't char* str = &_v[0]; do the job? –  Polynomial Nov 8 '11 at 8:49
I don't know.. :( –  krebstar Nov 8 '11 at 8:51
@Polynomial Probably, at least at first. If the vector ever reallocates its buffer, the location may change, and if the vector is destroyed, the pointer is invalid. It's risky enough that it's probably not a good idea. –  ssube Nov 8 '11 at 8:52
@Polynomial: That will not copy the vector into a different buffer, it will just grab the address of the internal buffer in the vector. –  Mankarse Nov 8 '11 at 8:53
The real question is: Why do you want to use a char* buffer? std::vector is much better in (almost) every way. –  Mankarse Nov 8 '11 at 8:55

5 Answers 5

up vote 8 down vote accepted
std::copy(_v.begin(), _v.end(), buffer);

This is preferred way to do this in C++. It is safe to copy this way if buffer is large enough.

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@AdamZalcman: Why? char* is not necessarily a c-string. –  Nawaz Nov 8 '11 at 8:57
@AdamZalcman: It is not reasonable. What if the vector contents many \0? –  Nawaz Nov 8 '11 at 9:00
@AdamZalcman: Also, if that is reasonable, then the initial choice of std::vector<char> is wrong to begin with, as std::string would be a better choice in case if char* needs to be treated with c-string. –  Nawaz Nov 8 '11 at 9:01
@AdamZalcman: No. I don't think it is sloppy answer. When I see std::vector<char> instead of std::string, I assume that the vector 's content is not guaranteed to be c-string. –  Nawaz Nov 8 '11 at 9:08
@krebstar: Yes. vector<char> is guaranteed to be a contiguous block of memory?. –  Nawaz Nov 8 '11 at 9:09

If you just need char*, then you can do this:

char *buffer=&v[0];//v is guaranteed to be a contiguous block of memory.
//use buffer

Note changing data pointed to by buffer changes the vector's content also!

Or if you need a copy, then allocate a memory of size equal to v.size() bytes, and use std::copy:

 char *buffer = new char[v.size()];
 std::copy(v.begin(), v.end(), buffer);
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The safest way to copy a vector<char> into a char * buffer is to copy it to another vector, and then use that vector's internal buffer:

std::vector<char> copy = _v;
char * buffer = &copy[0];

Of course, you can also access _vs buffer if you don't actually need to copy the data. Also, beware that the pointer will be invalidated if the vector is resized.

If you need to copy it into a particular buffer, then you'll need to know that the buffer is large enough before copying; there are no bounds checks on arrays. Once you've checked the size, your second method is best. (The first only works if vector::iterator is a pointer, which isn't guaranteed; although you could change the second argument to &_v[0] to make it work. The third does the same thing, but is more complicated, and probably should be fixed so it doesn't modify buffer).

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This is almost best. I didn't think that way. +1. –  Nawaz Nov 8 '11 at 9:05

Well, you want to assign to *buffer for case 3, but that should work. The first one almost certainly won't work.

EDIT: I stand corrected regarding #2.

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Hehe sorry, I caught it after I posted it.. Edited it.. –  krebstar Nov 8 '11 at 8:50
Anyway, is there no faster way to do this? doing a for/while loop seems weird.. =/ –  krebstar Nov 8 '11 at 8:52

This should work:

char* buffer = new char[_v.size()+1];
std::copy(_v.begin(), _v.end(), buffer);
buffer[_v.size()] = 0;

Note that the size of the char buffer should be one greater than the length of the vector to accomodate the \0 character at the end which should also be added. Otherwise attempts to work with buffer as if it was a char string may end up crashing your program (due to memory reference outside of allocated area).

Always null-terminate your char strings.

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Yes, you always terminate char strings - but while char* is always a char array, it's not always a char string. –  JSON Nov 23 at 4:45

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