I need to concatenate two const chars like these:

const char *one = "Hello ";
const char *two = "World";

How might I go about doing that?

I am passed these char*s from a third-party library with a C interface so I can't simply use std::string instead.

  • 6
    I'm confused - the original questioner wrote "c++" tag - then someone else removed it. What's the state of affairs for this question? Is C++ code allowed? Jan 3 '10 at 14:26
  • 1
    @Johannes: That's a better question xD. Jan 3 '10 at 14:28
  • Also note the original question did NOT refer to C - I've removed that tag.
    – anon
    Jan 3 '10 at 14:32
  • I switched the C++ tag to C because the OP accepted an answer that uses arrays on stack and strcpy and strcat calls, I thought that made sense to change the tags. Jan 3 '10 at 14:59
  • 8
    Added C and C++ tags. As the OP explains in a comment, he's writing C++ code, but calling a library which uses a C interface. The question is relevant in both languages.
    – jalf
    Jan 4 '10 at 1:10

12 Answers 12


In your example one and two are char pointers, pointing to char constants. You cannot change the char constants pointed to by these pointers. So anything like:

strcat(one,two); // append string two to string one.

will not work. Instead you should have a separate variable(char array) to hold the result. Something like this:

char result[100];   // array to hold the result.

strcpy(result,one); // copy string one into the result.
strcat(result,two); // append string two to the result.
  • 10
    what about char* result; result = calloc(strlen(one)+strlen(two)+1, sizeof(char)); and THEN the strcpy+strcat?
    – luiscubal
    Jan 3 '10 at 14:27
  • 3
    @luiscubal: Yes that would work too...just use a (char*) cast, as calloc returns void*
    – codaddict
    Jan 3 '10 at 14:31
  • 6
    The problem with this answer is the hard coded array size. That's a really bad habit to get into, especially if you don't know what size "one" and "two" are. Jan 3 '10 at 15:58
  • 1
    In the first example, strcpy(one,two); should be strcat(one,two); (not that that makes it correct, as you correctly point out). Jan 3 '10 at 17:59
  • 3
    what about sprintf(dest,"%s%s",one,two) and forget the copy?
    – mpen
    Jan 4 '10 at 5:25

The C way:

char buf[100];
strcpy(buf, one);
strcat(buf, two);

The C++ way:

std::string buf(one);

The compile-time way:

#define one "hello "
#define two "world"
#define concat(first, second) first second

const char* buf = concat(one, two);
  • 1
    It is worth mentioning that the "compile-time" way only works when one and two are both string literals.
    – cartoonist
    Sep 28 '20 at 10:11

If you are using C++, why don't you use std::string instead of C-style strings?

std::string one="Hello";
std::string two="World";

std::string three= one+two;

If you need to pass this string to a C-function, simply pass three.c_str()

  • 12
    Because I am using a library that was coded in C so the functions return const char * Jan 3 '10 at 14:21
  • 1
    @AnthoniCaldwell : Thanks for the laugh. I could not because of work pressure.:D
    – Rick2047
    Jul 28 '12 at 4:34
  • @AnthoniCaldwell every C++ developers common nightmare: having to work with C libraries and their const char *s...
    – cs guy
    Apr 4 '21 at 16:33

Using std::string:

#include <string>

std::string result = std::string(one) + std::string(two);
  • 12
    The second explicit constructor call is not necessary
    – sellibitze
    Jan 3 '10 at 22:04
const char *one = "Hello ";
const char *two = "World";

string total( string(one) + two );

// to use the concatenation as const char*, use:

Updated: changed string total = string(one) + string(two); to string total( string(one) + two ); for performance reasons (avoids construction of string two and temporary string total)

// string total(move(move(string(one)) + two));  // even faster?
  • @iburidu have you measured it? What about situations where safety trumps performance? (They are common situations)
    – Sqeaky
    Aug 18 '15 at 14:51
  • 3
    @Sqeaky There are absolutely no situations where this is safer than any other solution, but it is ALWAYS slower than a compile time solution, by invoking runtime behavior as well as almost certainly invoking memory allocation.
    – Alice
    Aug 25 '15 at 6:26

One more example:

// calculate the required buffer size (also accounting for the null terminator):
int bufferSize = strlen(one) + strlen(two) + 1;

// allocate enough memory for the concatenated string:
char* concatString = new char[ bufferSize ];

// copy strings one and two over to the new buffer:
strcpy( concatString, one );
strcat( concatString, two );


// delete buffer:
delete[] concatString;

But unless you specifically don't want or can't use the C++ standard library, using std::string is probably safer.

  • 1
    If the OP can't use C++, he can't use new. And if he can use it, he should use std::string, as you say. Jan 4 '10 at 6:11

It seems like you're using C++ with a C library and therefore you need to work with const char *.

I suggest wrapping those const char * into std::string:

const char *a = "hello "; 
const char *b = "world"; 
std::string c = a; 
std::string d = b; 
cout << c + d;

First of all, you have to create some dynamic memory space. Then you can just strcat the two strings into it. Or you can use the c++ "string" class. The old-school C way:

  char* catString = malloc(strlen(one)+strlen(two)+1);
  strcpy(catString, one);
  strcat(catString, two);
  // use the string then delete it when you're done.

New C++ way

  std::string three(one);
  three += two;
  • why do you need dynamic memory? Jan 3 '10 at 14:08
  • 4
    -1 for me, first with the C-way you need to use malloc and free. Then even if you do new then it should be delete[] and not delete.
    – Naveen
    Jan 3 '10 at 14:11
  • The library I am using is coded in C not C++ so all of the functions return const char * not string. Jan 3 '10 at 14:17
  • 1
    @Naveen, the tag said "C++". If you can't use new and delete, then he shouldn't have used the C++ tag. Jan 3 '10 at 15:28

If you don't know the size of the strings, you can do something like this:

#include <stdio.h>
#include <string.h>
#include <stdlib.h>

int main(){
    const char* q1 = "First String";
    const char* q2 = " Second String";

    char * qq = (char*) malloc((strlen(q1)+ strlen(q2))*sizeof(char));


    return 0;

You can use strstream. It's formally deprecated, but it's still a great tool if you need to work with C strings, i think.

char result[100]; // max size 100
std::ostrstream s(result, sizeof result - 1);

s << one << two << std::ends;
result[99] = '\0';

This will write one and then two into the stream, and append a terminating \0 using std::ends. In case both strings could end up writing exactly 99 characters - so no space would be left writing \0 - we write one manually at the last position.

  • Deprecation shouldn't matter too much. Even if it's removed from a future version of the standard, it's not so much work to re-implement in your own namespace. Jan 3 '10 at 17:46
  • @Steve, indeed :) And writing your own streambuf directing output to a char buffer used with ostream isn't too difficult either. Jan 3 '10 at 17:58
const char* one = "one";
const char* two = "two";
char result[40];
sprintf(result, "%s%s", one, two);

Connecting two constant char pointer without using strcpy command in the dynamic allocation of memory:

const char* one = "Hello ";
const char* two = "World!";

char* three = new char[strlen(one) + strlen(two) + 1] {'\0'};

strcat_s(three, strlen(one) + 1, one);
strcat_s(three, strlen(one) + strlen(two) + 1, two);

cout << three << endl;

delete[] three;
three = nullptr;

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