438

I want to convert a std::string into a char* or char[] data type.

std::string str = "string";
char* chr = str;

Results in: “error: cannot convert ‘std::string’ to ‘char’ ...”.

What methods are there available to do this?

1

18 Answers 18

786

It won't automatically convert (thank god). You'll have to use the method c_str() to get the C string version.

std::string str = "string";
const char *cstr = str.c_str();

Note that it returns a const char *; you aren't allowed to change the C-style string returned by c_str(). If you want to process it you'll have to copy it first:

std::string str = "string";
char *cstr = new char[str.length() + 1];
strcpy(cstr, str.c_str());
// do stuff
delete [] cstr;

Or in modern C++:

std::vector<char> cstr(str.c_str(), str.c_str() + str.size() + 1);
19
  • 5
    @Kerrek SB: It was an example, would use a smart pointer in real code, or more likely avoid this c_str madness completely.
    – orlp
    Sep 8, 2011 at 17:37
  • 16
    The answer is bulky, inelegant, non-local, uses raw arrays, and requires attention to exception safety. vector was invented precisely as a wrapper for dynamic arrays, so not using it seems like a missed opportunity at best, and in violation of the spirit of C++ at worst.
    – Kerrek SB
    Sep 8, 2011 at 20:11
  • 29
    First of all, yes the answer is bulky. First I explain the OP's error (thinking that std::string would automatically convert) and then I explain what he should use, with a short code sample. Thinking forward I also explain some side effects of the use of this function, of which one is that you may not edit the string returned by c_str(). You mistakenly see my short examples as real problem-solving code, which it's not.
    – orlp
    Sep 8, 2011 at 20:19
  • 9
    I downvoted the answer. This answer is indeed not useful and the fact that it was accepted is most unfortunate. This answer completely disregards good C++ programming practices and exception safety and there are far superior solutions, some of which are given in other answers to this question (e.g. the answer given by ildjarn which uses std::vector<char>). Sep 8, 2011 at 20:27
  • 144
    @james-mcnellis, I picked this answer as the correct one because it answered EXACTLY what I was asking for... No more, no less. I did not ask for what you think that I should do, I did not ask for a different solution for what you think that I am doing, I did not ask for good practices. You have no idea what I am working in, where my code is going to be implemented and under what conditions. Some should learn to read, understand questions and to answer what is actually being asked. No need to show off here.
    – user912695
    Sep 9, 2011 at 16:19
216

More details here, and here but you can use

string str = "some string" ;
char *cstr = &str[0];

As of C++11, you can also use the str.data() member function, which returns char *

string str = "some string" ;
char *cstr = str.data();
13
  • 22
    FWIW, in my book, this is the only correct answer to the question that was actually asked. An std::string is inherently mutable: people who are making it sound like modifying the contents of the string is somehow the devil's work seem to be missing this fact. Oct 4, 2013 at 1:25
  • 3
    yes, this is the correct answer. it's silly that, given the frequency of use, there isn't a standart method to do this, like msoft's lockbuffer. Jan 28, 2015 at 17:24
  • 1
    I changed 0 to 0u. Because some compilers/libraries will (believe it or not) complain about some ambiguity when warnings are turned all the way on for the &str[0] construct Jan 28, 2015 at 18:05
  • 9
    Note that this is C++11 only. Previous versions might not have continuous storage or are missing the terminating null
    – Flamefire
    Jun 29, 2017 at 20:14
  • 1
    This is the only one that worked for me, for some reason c_str() kept stopping at my null bytes even though my reading seems to indicate that it shouldn't. Maybe I did something else wrong somewhere else, but swapping c_str() with this (or even &str.first()) worked perfectly Aug 6, 2018 at 13:36
48

If I'd need a mutable raw copy of a c++'s string contents, then I'd do this:

std::string str = "string";
char* chr = strdup(str.c_str());

and later:

free(chr); 

So why don't I fiddle with std::vector or new[] like anyone else? Because when I need a mutable C-style raw char* string, then because I want to call C code which changes the string and C code deallocates stuff with free() and allocates with malloc() (strdup uses malloc). So if I pass my raw string to some function X written in C it might have a constraint on it's argument that it has to allocated on the heap (for example if the function might want to call realloc on the parameter). But it is highly unlikely that it would expect an argument allocated with (some user-redefined) new[]!

1
  • 1
    You should explain where strdup is from.
    – L. F.
    May 8, 2019 at 10:31
26

(This answer applies to C++98 only.)

Please, don't use a raw char*.

std::string str = "string";
std::vector<char> chars(str.c_str(), str.c_str() + str.size() + 1u);
// use &chars[0] as a char*
9
  • 1
    I actually just needed something like this earlier today. I was wondering, is it OK to say vector<char>(str.c_str(), str.c_str() + str.size() + 1), without assigning the char pointer to a temporary?
    – Kerrek SB
    Sep 8, 2011 at 17:30
  • 1
    @Kerrek : Yes, the return value of std::basic_string<>::c_str() is valid until the string is changed or destroyed. This also implies that it returns the same value on subsequent calls as long as the string isn't modified.
    – ildjarn
    Sep 8, 2011 at 17:32
  • 2
    @friendzis : There is no speed or space overhead using vector in this way. And if one were to write exception-safe code without a RAII mechanism (i.e., using raw pointers), the code complexity would be much higher than this simple one-liner.
    – ildjarn
    Sep 8, 2011 at 17:40
  • 8
    It's a myth that vector has a huge amount of overhead and complexity. If your requirement is that you have a mutable char array, then in fact a vector of chars is pretty much the ideal C++ wrapper. If your requirement actually just calls for a const-char pointer, then just use c_str() and you're done.
    – Kerrek SB
    Sep 8, 2011 at 17:41
  • 3
    @ildjarn: Actually, it basically was. Jul 10, 2013 at 10:00
16
  • If you just want a C-style string representing the same content:

    char const* ca = str.c_str();
    
  • If you want a C-style string with new contents, one way (given that you don't know the string size at compile-time) is dynamic allocation:

    char* ca = new char[str.size()+1];
    std::copy(str.begin(), str.end(), ca);
    ca[str.size()] = '\0';
    

    Don't forget to delete[] it later.

  • If you want a statically-allocated, limited-length array instead:

    size_t const MAX = 80; // maximum number of chars
    char ca[MAX] = {};
    std::copy(str.begin(), (str.size() >= MAX ? str.begin() + MAX : str.end()), ca);
    

std::string doesn't implicitly convert to these types for the simple reason that needing to do this is usually a design smell. Make sure that you really need it.

If you definitely need a char*, the best way is probably:

vector<char> v(str.begin(), str.end());
char* ca = &v[0]; // pointer to start of vector
14
  • 1
    Why &str.front(), &str.back() (which aren't present in C++03) instead of the more common str.begin() and str.end()? Sep 8, 2011 at 17:30
  • 1
    what about str.begin(), or even std::begin(str), iterator-like? I don't believe string has any obligation to be in contiguous memory like vector, or has it?
    – xtofl
    Sep 8, 2011 at 17:33
  • 1
    @xtofl: I already edited those in. And yes, as of C++11 there is an obligation; this was implicit in C++03. Sep 8, 2011 at 17:34
  • @xtofl: Not in C++03. In C++11 we have that guarantee, along with the front() and back() functions, which were misused in the original answer anyway Sep 8, 2011 at 17:35
  • 1
    @Tomalak: They were misused in that you needed &back() + 1, not &back() Sep 8, 2011 at 17:39
13

This would be better as a comment on bobobobo's answer, but I don't have the rep for that. It accomplishes the same thing but with better practices.

Although the other answers are useful, if you ever need to convert std::string to char* explicitly without const, const_cast is your friend.

std::string str = "string";
char* chr = const_cast<char*>(str.c_str());

Note that this will not give you a copy of the data; it will give you a pointer to the string. Thus, if you modify an element of chr, you'll modify str.

1
  • There's probably a good reason the API designers made the returned pointer const char* and not just char *. const says "don't modify this object." When you use const_cast, you are saying "I know better, I really can modify the object." Or, you are saying "I won't modify the object, I just need to pass it through this function that could have declared its input const but didn't. Although it seems safe to just throw away the constness of the C-string, because we know it's mutable data underneath, you really shouldn't. You should avoid use of const_cast when you can.
    – bobobobo
    Feb 26 at 3:30
8

Assuming you just need a C-style string to pass as input:

std::string str = "string";
const char* chr = str.c_str();
0
7

To obtain a const char * from an std::string use the c_str() member function :

std::string str = "string";
const char* chr = str.c_str();

To obtain a non-const char * from an std::string you can use the data() member function which returns a non-const pointer since C++17 :

std::string str = "string";
char* chr = str.data();

For older versions of the language, you can use range construction to copy the string into a vector from which a non-const pointer can be obtained :

std::string str = "string";
std::vector<char> str_copy(str.c_str(), str.c_str() + str.size() + 1);
char* chr = str_copy.data();

But beware that this won't let you modify the string contained in str, only the copy's data can be changed this way. Note that it's specially important in older versions of the language to use c_str() here because back then std::string wasn't guaranteed to be null terminated until c_str() was called.

5

To be strictly pedantic, you cannot "convert a std::string into a char* or char[] data type."

As the other answers have shown, you can copy the content of the std::string to a char array, or make a const char* to the content of the std::string so that you can access it in a "C style".

If you're trying to change the content of the std::string, the std::string type has all of the methods to do anything you could possibly need to do to it.

If you're trying to pass it to some function which takes a char*, there's std::string::c_str().

0
5

Here is one more robust version from Protocol Buffer

char* string_as_array(string* str)
{
    return str->empty() ? NULL : &*str->begin();
}

// test codes
std::string mystr("you are here");
char* pstr = string_as_array(&mystr);
cout << pstr << endl; // you are here
1
  • +1 for checking that the string is empty. I would also add a check to make sure that the string is zero terminated: if (str[str.length()-1] != 0) str.push_back(0)
    – GaspardP
    Jan 24, 2016 at 19:20
5

Conversion in OOP style

converter.hpp

class StringConverter {
    public: static char * strToChar(std::string str);
};

converter.cpp

char * StringConverter::strToChar(std::string str)
{
    return (char*)str.c_str();
}

usage

StringConverter::strToChar("converted string")
1
  • I like how the cast to char* eliminates the const from the output of c_str, I think the reason c_str returns const char* is to eliminate potential memory access issues, by providing a read only version of the thing. the OP wants to have a char*, but I think he might be better served by const char* output of c_str instead, since that is safer, and functions that take char* usually take const char* as well (assuming functions don't do anything like changing their inputs, which in general, they shouldn't). Feb 21, 2019 at 22:37
4

For completeness' sake, don't forget std::string::copy().

std::string str = "string";
const size_t MAX = 80;
char chrs[MAX];

str.copy(chrs, MAX);

std::string::copy() doesn't NUL terminate. If you need to ensure a NUL terminator for use in C string functions:

std::string str = "string";
const size_t MAX = 80;
char chrs[MAX];

memset(chrs, '\0', MAX);
str.copy(chrs, MAX-1);
4

You can make it using iterator.

std::string str = "string";
std::string::iterator p=str.begin();
char* chr = &(*p);

Good luck.

4

A safe version of orlp's char* answer using unique_ptr:

std::string str = "string";
auto cstr = std::make_unique<char[]>(str.length() + 1);
strcpy(cstr.get(), str.c_str());
3
char* result = strcpy((char*)malloc(str.length()+1), str.c_str());
3

Alternatively , you can use vectors to get a writable char* as demonstrated below;

//this handles memory manipulations and is more convenient
string str;
vector <char> writable (str.begin (), str.end) ;
writable .push_back ('\0'); 
char* cstring = &writable[0] //or &*writable.begin () 

//Goodluck  
1
  • This will allocate new memory for the vector and then copy each character. std::string is already a container, you might as well push_back(0) to your string and do &str[0]
    – GaspardP
    Jan 24, 2016 at 19:19
2

This will also work

std::string s;
std::cout<<"Enter the String";
std::getline(std::cin, s);
char *a=new char[s.size()+1];
a[s.size()]=0;
memcpy(a,s.c_str(),s.size());
std::cout<<a;  
0

No body ever mentioned sprintf?

std::string s;
char * c;
sprintf(c, "%s", s.c_str());
1
  • 1
    As-is, this will cause a segmentation fault. You need to allocate memory for the char array before calling sprintf, either on the stack or heap. Easiest thing to do would be to use the length of the string to dictate the size of the char array. Sep 22, 2020 at 5:52

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