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I am trying to cvopy boost::array<char> to std::string.

boost::array<char, 1024> _buffer;
std::string data;
std::copy(_buffer.begin(), _buffer.begin()+bytes_transferred, data.begin());

which is not working. So I changed it a little bit.

char _buffer[1024];
std::string data;
std::copy(_buffer, _buffer+bytes_transferred, data.begin());

second one is not working either.

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So what exactly do you mean by "not working"? – sth Jun 14 '12 at 19:50

2 Answers 2

up vote 5 down vote accepted

You can use back_insert_iterator. Assigning to it will call push_back function of the underlying container so you don't need to worry with allocating space manually.

std::copy(_buffer.begin(), _buffer.begin()+bytes_transferred, std::back_inserter(data));
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While this works, I think it's much less efficient than just using the constructor. I doubt the compiler is smart enough to realize that it can optimize this into a block memory copy. – templatetypedef Jun 14 '12 at 20:03
@templatetypedef I agree. I posted this for completness sake, I guess. – jrok Jun 14 '12 at 20:05

The issue here is that copy assumes that space already exists for the data you're writing; it doesn't create any new room for you. Consequently, both of the above pieces of code cause undefined behavior, since you're going to be copying characters to a location where space hasn't previously been reserved.

The best way to do this would be to use the string constructor:

boost::array<char, 1024> _buffer;
std::string data(_buffer.begin(), _buffer.end());


char _buffer[1024];
std::string data(_buffer, _buffer + 1024);

This will initialize the string as a copy of the data stored in the array.

Hope this helps!

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So Do I need to reserve() If I want to use std::copy ? and why doesn't std::copy crash ? – Dipro Sen Jun 14 '12 at 19:52
@DiproSen- No, reserve will not fix this. You would need to resize the string so that there was sufficient space before using std::copy. reserve serves a totally different function. As for why there's no crash, I have absolutely no idea. It's undefined behavior, which means that the program can do anything. Not crashing is perfectly legal by the C++ spec. – templatetypedef Jun 14 '12 at 19:54

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