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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.

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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? –  Johannes Schaub - litb Jan 3 '10 at 14:26
@Johannes: That's a better question xD. –  Prasoon Saurav 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. –  Gregory Pakosz Jan 3 '10 at 14:59
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

10 Answers 10

up vote 34 down vote accepted

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.
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why did you tag it C++?... –  Gregory Pakosz Jan 3 '10 at 14:21
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
@luiscubal: Yes that would work too...just use a (char*) cast, as calloc returns void* –  codaddict Jan 3 '10 at 14:31
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. –  Paul Tomblin Jan 3 '10 at 15:58
In the first example, strcpy(one,two); should be strcat(one,two); (not that that makes it correct, as you correctly point out). –  Alok Singhal Jan 3 '10 at 17:59

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);
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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()

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Because I am using a library that was coded in C so the functions return const char * –  Anthoni Caldwell Jan 3 '10 at 14:21
Then the tag is misleading. –  Prasoon Saurav Jan 3 '10 at 14:22
Well I am coding it in Cpp. –  Anthoni Caldwell Jan 3 '10 at 14:23
@AnthoniCaldwell : Thanks for the laugh. I could not because of work pressure.:D –  Rick2047 Jul 28 '12 at 4:34

Using std::string:

#include <string>

std::string result = std::string(one) + std::string(two);
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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) + string(two);

// to use the concatenation in const char* use
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not very effective in speed, not a nice solution –  Iburidu Feb 12 at 23:50

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;
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how about a c_str() example? –  sellibitze Jan 3 '10 at 22:06

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;
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why do you need dynamic memory? –  Luca Matteis Jan 3 '10 at 14:08
-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. –  Anthoni Caldwell Jan 3 '10 at 14:17
@Naveen, the tag said "C++". If you can't use new and delete, then he shouldn't have used the C++ tag. –  Paul Tomblin Jan 3 '10 at 15:28

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.

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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. –  Alok Singhal Jan 4 '10 at 6:11

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.

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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. –  Steve Jessop 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. –  Johannes Schaub - litb Jan 3 '10 at 17:58
const char* one = "one";
const char* two = "two";
char result[40];
sprintf(result, "%s%s", one, two);
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