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I have a string

std::string s = "Stack Overflow";

That I need to copy into a vector. This is how I am doing it

std::vector<char> v;
for(std::string::const_iterator it = s.begin(); it != s.end(); ++it)
    v.push_back( *it );
v.push_back( '\0' );

But I hear range operation are more efficient. So I am thinking something like this

std::vector<char> v( s.begin(), s.end());

But is this better in this case? What about the potential re-allocation when inserting '\0'?
Another approach I am thinking is this

std::vector<char> v(s.length()+1);

Perhaps fast but potentially unsafe?
Has to be a null terminated string that can be used ( read/write ) inside a C function

share|improve this question
I would use the last one with strncopy. But this is only my opinion. –  Nobody Sep 11 '11 at 12:15
Where does the string come from? How is the resulting vector being used? Is it necessary to include the terminating 0? Can you just use the string as the container instead of needing a vector at all? –  tenfour Sep 11 '11 at 12:15
@tenfour The resulting vector is to be passed to a c function in a non-const fashion i.e. read/write –  molita Sep 11 '11 at 12:19
This is so wrong, nobody thought to invent an interface that would do it smoothly –  Puppy Sep 11 '11 at 12:19
@DeadMG: in my experience, the interface that would do it smoothly, that is to say the C++ wrapper around some C library or other, is where this sort of construct is most needed. –  Steve Jessop Sep 11 '11 at 12:47

3 Answers 3

up vote 4 down vote accepted

If you really need a vector (e.g. because your C function modifies the string content), then the following should give you what you want, in one line:

std::vector<char> v(s.c_str(), s.c_str() + s.length() + 1);

Since c_str() returns a null-terminated string, you can just copy it whole into the vector.

However, I’m not actually sure how optimised this constructor is. I do know that std::copy is as optimised as it gets, so perhaps (measure!) the following is faster:

std::vector<char> v(s.length() + 1);
std::copy(s.c_str(), s.c_str() + s.length() + 1, v.begin());

If the C function doesn’t modify the string, just pass c_str() directly, and cast away const-ness. This is safe, as long as the C function only reads from the string.

share|improve this answer
Yes, that should work. –  towi Sep 11 '11 at 12:36
"I do know that std::copy is as optimised as it gets" - or if there's doubt about the QOI of a particular standard template library, then memcpy would do as well and has an even better chance of being fiendishly optimized. –  Steve Jessop Sep 11 '11 at 12:44
@Steve Ugh. Juck! Don’t like low-level C functions where C++ algorithms are conceptually so much cleaner, and fundamentally able to optimise more due to type information. There isn’t a single case where memcpy should be able to perform better (except for the point about overlapping memory). –  Konrad Rudolph Sep 11 '11 at 12:46
@Konrad: I suppose there should never be "doubt" about QOI of the standard std::copy, since you can just look at the code and/or profile it to be sure. I think that "std::copy is as optimised as it gets" is either the statement of someone who has hand-checked every C++ implementation in the world, or a guess ;-p I wouldn't put it past some platform somewhere to have a pretty trivial std::copy implementation, not specialized for char, and an optimizer that can't make up for that. In which case I maintain the thing to do is check whether memcpy is any better. –  Steve Jessop Sep 11 '11 at 12:50
@UncleBens Because I know that std::copy is extremely optimised, and in particular for this case. I don’t know whether the vector constructor is. Granted, it should usually just use std::copy or something equivalent (with move rather than copy) internally. –  Konrad Rudolph Sep 11 '11 at 14:02

In most cases, you don't need vector of char, as std::string pretty much is a container of char. std::string also have begin and end functions. And it also have c_str() function which returns the c-string which you can pass to any function which expects const char*, such as this:

void f(const char* str); //c-function

std::string s="some string";

So why would you ever need std::vector<char>?

In my opinion, vector<char> is a very very rare need but if I ever need it, I would probably write this:

std::vector<char> v(s.begin(), s.end());

And to me, v.push_back('\0') doesn't make much sense. There is no such requirement on vector to have the last element as '\0' if the value_type is char.

Alright, as you said, std::string::c_str() returns const char*, and the c-function needs a non-const char* , then you can use std::vector because you want to take advantage of RAII which vector implements:

void g(char* s); //c-function

std::vector<char> v(s.begin(), s.end());


which seems fine to me. But RAII is all that you need, then you've other option as well:

  std::vector<char> memory(s.size()+1);
  char *str = &memory[0]; //gets the memory!
  std::strcpy(str, s.c_str());


} //<--- memory is destroyed here.

Use std::strcpy, std::memcpy or std::copy whichever is fast, as I cannot say which one is necessarily fast, without profiling.

share|improve this answer
How would a C function recognize it as a null terminated string? –  molita Sep 11 '11 at 12:22
@molita: You did not mention that requirement. –  Puppy Sep 11 '11 at 12:26
@molita: You can simply pass s.c_str(). –  Nawaz Sep 11 '11 at 12:27
@DeadMG Edited, Sorry. –  molita Sep 11 '11 at 12:27
@Nawaz s.c_str() is const –  molita Sep 11 '11 at 12:29

I don't think std::strcpy(&v[0],s.c_str()); is a good choice. I think c_str() is allowed to re-allocate.

If you somehow "need" the \0 for dealing with C-APIs, then rely on string::c_str() to provide it to you, on request. In dont think that you need to put it into a vector-of-char, most things you can do with the string itself like with a vector.


If you make sure your vector gets initialized with 0s, you can circumvent the call to c_str by using strncopy:

std::vector<char> v(s.length()+1, 0);  // added '0'
std::strncpy(&v[0],&s[0],s.length());  // no c_str()
share|improve this answer
I agree that it’s not a good choice but I don’t see how c_str() doing a re-allocation is important. The code is still well-defined. –  Konrad Rudolph Sep 11 '11 at 12:39
yes, right, well defined. I just meant, that he might want to prevent internal re-allocations for performance reasons. Wait, I update my answer... –  towi Sep 11 '11 at 12:46
How would constructing a vector with 0's and then copy the string into it be any better than letting the vector constructor copy the string? –  Bo Persson Sep 11 '11 at 13:54
@Bo: No I would not prefer this solution. I just wanted to point out the strncpy way. I +1'd Konrads answer :-) –  towi Sep 11 '11 at 14:01

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