Converting a C++ string to a char array is pretty straightorward using the c_str function of string and then doing strcpy. However, how to do the opposite?

I have a char array like: char arr[ ] = "This is a test"; to be converted back to: string str = "This is a test.


The string class has a constructor that takes a NULL-terminated C-string:

char arr[ ] = "This is a test";

string str(arr);

//  You can also assign directly to a string.
str = "This is another string";

// or
str = arr;
  • 2
    It would still work either way. The overloaded assignment operator takes a const char*, so you can pass it a string literal or char array (which decays to that).
    – Mysticial
    Jan 22 '12 at 9:19
  • 3
    @kingsmasher1: Strictly speaking, strings in the form "hello world" are arrays. If you use sizeof("hello world") it will give you the size of the array (which is 12), rather than the size of a pointer (likely 4 or 8).
    – dreamlax
    Jan 22 '12 at 9:22
  • 14
    Note that this only works for constant NULL-terminated C-strings. The string constructor will not work with, for example, a passed argument string declared as unsigned char * buffer, something very common in byte stream handling libraries.
    – CXJ
    Mar 27 '14 at 19:12
  • 5
    There's no need for anything being constant. If you have a byte buffer of any char type, you can use the other constructor: std::string str(buffer, buffer+size);, but it's probably better to stick to a std::vector<unsigned char> in that case. Mar 27 '14 at 19:21
  • 3
    Although it might be obvious: str is not a convert-function here. It is the name of the string variable. You can use any other variable name (e.g. string foo(arr);). The conversion is done by the constructor of std::string that is called implicitly. Sep 11 '14 at 8:48

Another solution might look like this,

char arr[] = "mom";
std::cout << "hi " << std::string(arr);

which avoids using an extra variable.

  • Could you indicate in the answer how this is different from the accepted answer my Misticial? Sep 3 '14 at 21:27
  • 1
    @owlstead please see the edit. I simply put my answer because its what I wish I saw when i first came across this page looking for an answer. If someone just as dumb as me comes across this page but isn't able to make that connection from looking at the first answer, i hope my answer will help them. Sep 4 '14 at 18:35
  • This does not work for character arrays in general, only if they are 0-terminated. If you cannot ensure that your character array is 0-terminated, provide a length to the std::string constructor like in this answer. Oct 2 '20 at 8:31

There is a small problem missed in top-voted answers. Namely, character array may contain 0. If we will use constructor with single parameter as pointed above we will lose some data. The possible solution is:

cout << string("123\0 123") << endl;
cout << string("123\0 123", 8) << endl;

Output is:

123 123

  • 3
    This is a better answer if you are using std::string as a container for binary data and cannot be certain that the array does not contain '\0'. Oct 8 '17 at 0:34
  • Or if the string array does not contain a '\0'
    – Brian Yeh
    Sep 2 '20 at 22:33
#include <stdio.h>
#include <iostream>
#include <stdlib.h>
#include <string>

using namespace std;

int main ()
  char *tmp = (char *)malloc(128);
  int n=sprintf(tmp, "Hello from Chile.");

  string tmp_str = tmp;

  cout << *tmp << " : is a char array beginning with " <<n <<" chars long\n" << endl;
  cout << tmp_str << " : is a string with " <<n <<" chars long\n" << endl;

 return 0;


H : is a char array beginning with 17 chars long

Hello from Chile. :is a string with 17 chars long
  • Where is free(tmp)? does string take care of that? Jan 25 '18 at 1:02
  • 2
    good question. I think free should be there because I am using malloc.
    – Cristian
    Jan 26 '18 at 16:37

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