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I'm working in C and I have to concatenate a few things.

Right now I have this:

message = strcat("TEXT " , var);

message2 = strcat(strcat("TEXT ", foo), strcat(" TEXT ", bar));

Now if you have experience in C I'm sure you realize that this gives you a Segmentation Fault when you try to run it. So how do i work around that?

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6  
I would like to suggest that you use strlcat instead of strcat! gratisoft.us/todd/papers/strlcpy.html –  divideandconquer.se Nov 21 '08 at 13:37
2  
I would like to repeart That suggestion. Strcat causes vulnerability to buffer overflow exploits. Someone can give your program data that causes it to execute arbitrary code. –  Brian Nov 21 '08 at 14:10

13 Answers 13

up vote 146 down vote accepted

In C, "strings" are just plain char arrays. Therefore, you can't directly concatenate them with other "strings".

You can use the strcat function, which appends the string pointed to by src to the end of the string pointed to by dest:

char *strcat(char *dest, const char *src);

Here is an example from cplusplus.com:

char str[80];
strcpy(str, "these ");
strcat(str, "strings ");
strcat(str, "are ");
strcat(str, "concatenated.");

For the first parameter, you need to provide the destination buffer itself. The destination buffer must be a char array buffer. E.g.: char buffer[1024];

Make sure that the first parameter has enough space to store what you're trying to copy into it. If available to you, it is safer to use functions like: strcpy_s and strcat_s where you explicitly have to specify the size of the destination buffer.

Note: A string literal cannot be used as a buffer, since it is a constant. Thus, you always have to allocate a char array for the buffer.

The return value of strcat can simply be ignored, it merely returns the same pointer as was passed in as the first argument. It is there for convenience, and allows you to chain the calls into one line of code:

strcat(strcat(str, foo), bar);

So your problem could be solved as follows:

char *foo = "foo";
char *bar = "bar";
char str[80];
strcpy(str, "TEXT ");
strcat(str, foo);
strcat(str, bar);
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28  
Would you put "Be very careful that..." in bold, please? This can't be stressed enough. Misuse of strcat, strcpy, and sprintf are the heart of unstable/insecure software. –  plinth Nov 21 '08 at 13:33
8  
Warning: As written, this code will leave a giant, gaping hole in your code for buffer overflow exploits. –  Brian Nov 21 '08 at 14:09
7  
There is no buffer overflow exploit possible in the above example. And yes I agree in general I wouldn't use the above example for undetermined string lengths of foo and bar. –  Brian R. Bondy Nov 21 '08 at 14:14
10  
@psihodelia: Also don't forget that spoons are much better than forks! so be sure to always use a spoon! –  Brian R. Bondy May 12 '10 at 13:13
8  
To second @dolmen, Joel Spolsky has written quite elaborate article on the issue. Should be a mandatory reading. ;-) –  peter.slizik Aug 14 '12 at 14:53

Avoid using strcat in C code. The cleanest and, most importantly, the safest way is to use snprintf:

char buf[256];
snprintf(buf, sizeof buf, "%s%s%s%s", str1, str2, str3, str4);

Some commenters raised an issue that the number of arguments may not match the format string and the code will still compile, but most compilers already issue a warning if this is the case.

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... but without the needless and confusing parenthesis to the sizeof operator. Those are only needed when you want the size of an actual type, not of an object. Pet peeve alert, sorry. –  unwind Nov 21 '08 at 13:23
2  
Checkers, he was talking about the parentheses around "buf" of the sizeof argument. they are not required if the argument is an expression. But i don't understand why you are downvoted. i think your answer is the best of all, even though it is c99. (maybe because of that they disagree! lamers!) +1 –  Johannes Schaub - litb Nov 21 '08 at 13:27
1  
sizeof() only works here for char buf[...]. NOT for char * buf = malloc(...). There aren't many differences between arrays and pointers, but this is one of them! –  Mr.Ree Nov 21 '08 at 13:28
4  
@MrRee: The differences between pointers and arrays are vast and complete! It's in how you use them that does not always differ. Also, pointers and dynamic allocation are really orthogonal concepts. –  Lightness Races in Orbit Dec 7 '11 at 20:11
7  
One of my pet peeves is people like @unwind who insist on the pointless distinction between sizeof(x) and sizeof x. The parenthesized notation always works and the unparenthesized notation only works sometimes, so always use the parenthesized notation; it is a simple rule to remember and is safe. This gets into a religious argument — I've been involved in discussions with those who object before — but the simplicity of 'always use parentheses' outweighs any merit to not using them (IMNSHO, of course). This is presented for balance. –  Jonathan Leffler Mar 31 '14 at 0:22

Also malloc and realloc are useful if you don't know ahead of time how many strings are being concatenated.

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

void example(const char *header, const char **words, size_t num_words)
{
    size_t message_len = strlen(header) + 1; /* + 1 for terminating NULL */
    char *message = (char*) malloc(message_len);
    strncat(message, header, message_len);

    for(int i = 0; i < num_words; ++i)
    {
       message_len += 1 + strlen(words[i]); /* 1 + for separator ';' */
       message = (char*) realloc(message, message_len);
       strncat(strncat(message, ";", message_len), words[i], message_len);
    }

    puts(message);

    free(message);
}
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Folks, use strncpy(), strncat(), or snprintf().
Exceeding your buffer space will trash whatever else follows in memory!
(And remember to allow space for the trailing null '\0' character!)

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Not only should you remember to allow space for the NULL character, you need to remember to add the NULL character. strncpy and strncat don't do that for you. –  Graeme Perrow Nov 21 '08 at 13:36
    
Uh? strncpy() and strncat() sure add the terminating character. In fact, they add too many. At least as long as there's space left in the buffer, which is a huge trap with these calls. Not recommended. –  unwind Nov 21 '08 at 13:42
    
@unwind, I think the point of Graeme is that if the buffer is too small, strncpy or strncat will not add the terminating '\0'. –  quinmars Nov 21 '08 at 13:45
    
if n < strlen()+1, no null is added. if n==strlen()+1, one null is added. if n>strlen()+1 many nulls are added. It's called PROGRAMMING. –  Mr.Ree Nov 21 '08 at 13:46
4  
Don't use strncpy(). It's not a "safer" version of strcpy(). The target character array may be needlessly padded with extra '\0' characters, or worse, it may be left unterminated (i.e., not a string). (It was designed for use with a data structure that's rarely used anymore, a character array padded to the end with zero or more '\0' characters.) –  Keith Thompson Dec 7 '11 at 20:39

The first argument of strcat() needs to be able to hold enough space for the concatenated string. So allocate a buffer with enough space to receive the result.

char bigEnough[64] = "";

strcat(bigEnough, "TEXT");
strcat(bigEnough, foo);

/* and so on */

strcat() will concatenate the second argument with the first argument, and store the result in the first argument, the returned char* is simply this first argument, and only for your convenience.

You do not get a newly allocated string with the first and second argument concatenated, which I'd guess you expected based on your code.

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Do not forget to initialize the output buffer. The first argument to strcat must be a null terminated string with enough extra space allocated for the resulting string:

char out[1024] = ""; // must be initialized
strcat( out, null_terminated_string ); 
// null_terminated_string has less than 1023 chars
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As people pointed out string handling improved much. So you may want to learn how to use the C++ string library instead of C-style strings. However here is a solution in pure C

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

void appendToHello(const char *s) {
    const char *const hello = "hello ";

    const size_t sLength     = strlen(s);
    const size_t helloLength = strlen(hello);
    const size_t totalLength = sLength + helloLength;

    char *const strBuf = malloc(totalLength + 1);
    if (strBuf == NULL) {
        fprintf(stderr, "malloc failed\n");
        exit(EXIT_FAILURE);
    }

    strcpy(strBuf, hello);
    strcpy(strBuf + helloLength, s);

    puts(strBuf);

    free(strBuf);

}

int main (void) {
    appendToHello("blah blah");
    return 0;
}

I am not sure whether it is correct/safe but right now I could not find a better way to do this in ANSI C.

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<string.h> is C++ style. You want "string.h". You also calculate strlen(s1) twice, which isn't needed. s3 should be totalLenght+1 long. –  Mooing Duck Dec 7 '11 at 20:08
    
What the heck is this mess? –  Lightness Races in Orbit Dec 7 '11 at 20:11
3  
@MooingDuck: "string.h" is nonsense. –  sbi Dec 7 '11 at 20:15
    
I haven't used C-style strings for a while. Feel free to post a fixed version. –  Nils Dec 7 '11 at 20:16
2  
I've taken the liberty of updating the sample code. –  Keith Thompson Dec 7 '11 at 20:52

Try this. It achieves what you appear to be trying to do:

char message[1000];
strcpy (message, "TEXT ");
strcat (message, var);

char message2[1000];
strcpy (message2, "TEXT ");
strcat (message2, foo);
strcat (message2, " TEXT ");
strcat (message2, bar);

The reason you're having troubles is because you're trying to modify string literals which, in C, is undefined behaviur.

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4  
What happens if var/foo/bar has more than 1000 characters? >:) –  Geo Nov 21 '08 at 14:20
1  
Then you will get a buffer overflow, which you can add code to check for beforehand (say, with strlen). But the purpose of a code snippet is to show how something works without polluting it with too much extra code. Otherwise I'd be checking lengths, whether var/foo/bar was null, etc. –  paxdiablo Nov 21 '08 at 22:23
4  
@paxdiablo: But you didn't even mention it, in an answer to a question where it would appear to need mentioning. That makes your answer dangerous. You also didn't explain why this code is better than the OP's original code, except for the myth that it "achieves the same result as your original" (then what would be the point? the original was broken!), so the answer is also incomplete. –  Lightness Races in Orbit Dec 7 '11 at 20:09

Best way to do it without having a limited buffer size is by using asprintf()

char* concat(const char* str1, const char* str2)
{
    char* result;
    asprintf(&result, "%s%s", str1, str2);
    return result;
}
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1  
You should return char *, not const char *. The return value will need to be passed to free. –  Per Johansson Aug 5 '13 at 13:31
    
Unfortunately asprintf is only a GNU extension. –  Calmarius Nov 28 '13 at 16:24

You are trying to copy a string into an address that is statically allocated. You need to cat into a buffer.

Sepcifically: ...snip... destination Pointer to the destination array, which should contain a C string, and be large enough to contain the concatenated resulting string. ...snip...

http://www.cplusplus.com/reference/clibrary/cstring/strcat.html

There's an example here as well.

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if you have experience in C you will notice that Strings are only char arrays where the last character is a null character.

Now that is quite inconvenient as you have to find the last character in order to append something. strcat will do that for you. So strcat searches through the first argument for a null character. Then it will replace this with the second argument's content (until that ends in a null).

Now let's go through your code:

message = strcat("TEXT " + var);

Here you are adding something to the pointer to the text "TEXT" (the type of "TEXT" is const char*. A pointer.). That will usually not work. Also modifying the "TEXT" array will not work as it is usually placed in a constant segment.

message2 = strcat(strcat("TEXT ", foo), strcat(" TEXT ", bar));

That might work better, except that you are again trying to modify static texts. strcat is not allocating new memory for the result.

I would propose to do something like this instead:

sprintf( message2, "TEXT %s TEXT %s", foo, bar );

Read the documentation of sprintf to check for it's options.

And now an important point. Ensure that the buffer has enough space to hold the text AND the null character. There are a couple of functions that can help you e.g. strncat and special versions of printf that allocate the buffer for you. Not ensuring the buffer size will lead to memory corruption and remotely exploitable bugs.

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The type of "TEXT" is char[5], not const char*. It decays to char* in most contexts. For backward compatibility reasons, string literals are not const, but attempting to modify them results in undefined behavior. (In C++, string literals are const.) –  Keith Thompson Dec 7 '11 at 20:41

Assuming you have a char[fixed_size] rather than a char*, you can use a single, creative macro to do it all at once with a <<cout<<like ordering ("rather %s the disjointed %s\n", "than", "printf style format"). If you are working with embedded systems, this method will also allow you to leave out malloc and the large *printf family of functions like snprintf() (This keeps dietlibc from complaining about *printf too)

#include <unistd.h> //for the write example
//note: you should check if offset==sizeof(buf) after use
#define strcpyALL(buf, offset, ...) do{ \
    char *bp=(char*)(buf+offset); /*so we can add to the end of a string*/ \
    const char *s, \
    *a[] = { __VA_ARGS__,NULL}, \
    **ss=a; \
    while((s=*ss++)) \
         while((*s)&&(++offset<(int)sizeof(buf))) \
            *bp++=*s++; \
    if (offset!=sizeof(buf))*bp=0; \
}while(0)

char buf[256];
int len=0;

strcpyALL(buf,len,
    "The config file is in:\n\t",getenv("HOME"),"/.config/",argv[0],"/config.rc\n"
);
if (len<sizeof(buf))
    write(1,buf,len); //outputs our message to stdout
else
    write(2,"error\n",6);

//but we can keep adding on because we kept track of the length
//this allows printf-like buffering to minimize number of syscalls to write
//set len back to 0 if you don't want this behavior
strcpyALL(buf,len,"Thanks for using ",argv[0],"!\n");
if (len<sizeof(buf))
    write(1,buf,len); //outputs both messages
else
    write(2,"error\n",6);
  • Note 1, you typically wouldn't use argv[0] like this - just an example
  • Note 2, you can use any function that outputs a char*, including nonstandard functions like itoa() for converting integers to string types.
  • Note 3, if you are already using printf anywhere in your program there is no reason not to use snprintf(), since the compiled code would be larger (but inlined and significantly faster)
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try something similar to this:

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

int main(int argc, const char * argv[])
{
  // insert code here...
  char firstname[100], secondname[100];
  printf("Enter First Name: ");
  fgets(firstname, 100, stdin);
  printf("Enter Second Name: ");
  fgets(secondname,100,stdin);
  firstname[strlen(firstname)-1]= '\0';
  printf("fullname is %s %s", firstname, secondname);

  return 0;
}
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