Related
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?
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);
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.
Strings can also be concatenated at compile time.
#define SCHEMA "test"
#define TABLE "data"
const char *table = SCHEMA "." TABLE ; // note no + or . or anything
const char *qry = // include comments in a string
" SELECT * " // get all fields
" FROM " SCHEMA "." TABLE /* the table */
" WHERE x = 1 " /* the filter */
;
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!)
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);
}
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;
}
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.
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
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.
It is undefined behaviour to attempt to modify string literals, which is what something like:
strcat ("Hello, ", name);
will attempt to do. It will try to tack on the name string to the end of the string literal "Hello, ", which is not well defined.
Try something this. It achieves what you appear to be trying to do:
char message[1000];
strcpy (message, "TEXT ");
strcat (message, var);
This creates a buffer area that is allowed to be modified and then copies both the string literal and other text to it. Just be careful with buffer overflows. If you control the input data (or check it before-hand), it's fine to use fixed length buffers like I have.
Otherwise, you should use mitigation strategies such as allocating enough memory from the heap to ensure you can handle it. In other words, something like:
const static char TEXT[] = "TEXT ";
// Make *sure* you have enough space.
char *message = malloc (sizeof(TEXT) + strlen(var) + 1);
if (message == NULL)
handleOutOfMemoryIntelligently();
strcpy (message, TEXT);
strcat (message, var);
// Need to free message at some point after you're done with it.
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.
You can write your own function that does the same thing as strcat() but that doesn't change anything:
#define MAX_STRING_LENGTH 1000
char *strcat_const(const char *str1,const char *str2){
static char buffer[MAX_STRING_LENGTH];
strncpy(buffer,str1,MAX_STRING_LENGTH);
if(strlen(str1) < MAX_STRING_LENGTH){
strncat(buffer,str2,MAX_STRING_LENGTH - strlen(buffer));
}
buffer[MAX_STRING_LENGTH - 1] = '\0';
return buffer;
}
int main(int argc,char *argv[]){
printf("%s",strcat_const("Hello ","world")); //Prints "Hello world"
return 0;
}
If both strings together are more than 1000 characters long, it will cut the string at 1000 characters. You can change the value of MAX_STRING_LENGTH to suit your needs.
You are trying to copy a string into an address that is statically allocated. You need to cat into a buffer.
Specifically:
...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.
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)
int main()
{
char input[100];
gets(input);
char str[101];
strcpy(str, " ");
strcat(str, input);
char *p = str;
while(*p) {
if(*p == ' ' && isalpha(*(p+1)) != 0)
printf("%c",*(p+1));
p++;
}
return 0;
}
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;
}
This was my solution
#include <stdlib.h>
#include <stdarg.h>
char *strconcat(int num_args, ...) {
int strsize = 0;
va_list ap;
va_start(ap, num_args);
for (int i = 0; i < num_args; i++)
strsize += strlen(va_arg(ap, char*));
char *res = malloc(strsize+1);
strsize = 0;
va_start(ap, num_args);
for (int i = 0; i < num_args; i++) {
char *s = va_arg(ap, char*);
strcpy(res+strsize, s);
strsize += strlen(s);
}
va_end(ap);
res[strsize] = '\0';
return res;
}
but you need to specify how many strings you're going to concatenate
char *str = strconcat(3, "testing ", "this ", "thing");
I need to call a function which receives a string.
I need the string to contain integers.
How do I assign the string with the integers?
Thanks,
Edo Cohen
You are looking for the snprintf() function:
http://libslack.org/manpages/snprintf.3.html
Use snprintf to make the string you need.
try this:
int number = 10;
char mystring[20];
snprintf(mystring, sizeof(mystring), "%d", number);
alternatively you can use itoa but this is considered unsafe.
use itoa, or sprintf as suggested in the link, because of portability reasons.
snprintf or asprintf for security reasons..
You could use sprintf to do that:
sprintf(buffer, "%d", 123);
Note that you need to mage sure that your buffer has enough space allocated
i guess this will work
#include <stdlib.h> // for itoa() call
#include <stdio.h> // for printf() call
int main() {
int num = 123;
char buf[5];
// convert 123 to string [buf]
itoa(num, buf, 10);
// print our string
printf("%s\n", buf);
return 0;
}
also u can use--
#include <stdio.h>
int main(void)
{
const char base[] = "filename";
char filename [ FILENAME_MAX ];
int number = 42;
sprintf(filename, "%s%d", base, number);
printf("filename = \"%s\"\n", filename);
return 0;
}
Though remember sprintf() does not calculate for buffer overflow. sprintf() doesn't flush any file buffer, in fact it doesn't have any buffer associated with it. sprintf() operates on a character buffer (not quite the same thing). If you overflow that buffer you can crash the system.
A safer version of sprintf() is snprintf() which unfortunately isn't very standard yet. It appears in various forms from many compiler vendors and was finally standardized in C99 and will hopefully make it as part of standard C++ in the next standard of C++. Until then you just have to dig up the unstandard version of it if you have one.
I am trying to encode a string in hex8 using c. The script I have right now is:
int hex8 (char str) {
str = printf("%x", str);
if(strlen(str) == 1) {
return printf("%s", "0", str);
} else {
return str;
}
}
In this function, I will need to add a 0 ahead of the string if the length is less than 1. I don't know why I'm getting:
passing argument 1 of 'strlen' makes pointer from integer without a cast
Does anyone know why?
I don't know exactly what hex8 encoding is, but it looks like you're trying to turn a char into a two-byte hex string? In that case, you don't need anything as complicated as you have there. Just do something like this:
char hexstring[3];
char character = 'f';
sprintf(hexstring, "%02x", character);
After that code fragment, hexstring will be "66". If you have a whole string, something like this should work (assuming you've allocated appropriate memory before calling the function):
void string2hex(char *hex, char *in)
{
while (*in)
{
hex += sprintf(hex, "%02x", *in);
in++;
}
}
The second line is a problem:
str = printf("%x", str);
printf outputs text to stdout, and returns an integer representing the number of characters that it output, not the actual value that was printed. You should replace this line with a call to sprintf instead, to load the output into str:
sprintf(str, "%x", str);
You can read about the various standard output functions here: Formatted Output Functions
Note that sprintf returns the number of characters that it stored into str, so you can actually use this to check whether you need to add the 0, instead of using strlen at all, like this:
if (sprintf(str, "%x", str) == 1)
{
...
The parameter str is a char. strlen expects a char const * argument. From the context it would seem you need to change the prototype to char *str.
EDIT: You will also need to change the function return type to char *.
if I want to construct a const char * out of several primitive type arguments, is there a way to build the string using a similar to the printf?
You're probably looking for snprintf.
int snprintf(char *str, size_t size, const char *format, ...);
A simple example:
char buffer[100];
int value = 42;
int nchars = snprintf(buffer, 100, "The answer is %d", value);
printf("%s\n", buffer);
/* outputs: The answer is 42 */
GNU has an example too.
Just to add, you don't actually need to use snprintf - you can use the plain old sprintf (without the size argument) but then it is more difficult to ensure only n characters are written to the buffer. GNU also has a nice function, asprintf which will allocate the buffer for you.
You can use sprintf, which is exactly like printf except the first parameter is a buffer where the string will be placed.
Example:
char buffer[256];
sprintf(buffer, "Hello, %s!\n", "Beta");
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?
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);
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.
Strings can also be concatenated at compile time.
#define SCHEMA "test"
#define TABLE "data"
const char *table = SCHEMA "." TABLE ; // note no + or . or anything
const char *qry = // include comments in a string
" SELECT * " // get all fields
" FROM " SCHEMA "." TABLE /* the table */
" WHERE x = 1 " /* the filter */
;
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!)
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);
}
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;
}
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.
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
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.
It is undefined behaviour to attempt to modify string literals, which is what something like:
strcat ("Hello, ", name);
will attempt to do. It will try to tack on the name string to the end of the string literal "Hello, ", which is not well defined.
Try something this. It achieves what you appear to be trying to do:
char message[1000];
strcpy (message, "TEXT ");
strcat (message, var);
This creates a buffer area that is allowed to be modified and then copies both the string literal and other text to it. Just be careful with buffer overflows. If you control the input data (or check it before-hand), it's fine to use fixed length buffers like I have.
Otherwise, you should use mitigation strategies such as allocating enough memory from the heap to ensure you can handle it. In other words, something like:
const static char TEXT[] = "TEXT ";
// Make *sure* you have enough space.
char *message = malloc (sizeof(TEXT) + strlen(var) + 1);
if (message == NULL)
handleOutOfMemoryIntelligently();
strcpy (message, TEXT);
strcat (message, var);
// Need to free message at some point after you're done with it.
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.
You can write your own function that does the same thing as strcat() but that doesn't change anything:
#define MAX_STRING_LENGTH 1000
char *strcat_const(const char *str1,const char *str2){
static char buffer[MAX_STRING_LENGTH];
strncpy(buffer,str1,MAX_STRING_LENGTH);
if(strlen(str1) < MAX_STRING_LENGTH){
strncat(buffer,str2,MAX_STRING_LENGTH - strlen(buffer));
}
buffer[MAX_STRING_LENGTH - 1] = '\0';
return buffer;
}
int main(int argc,char *argv[]){
printf("%s",strcat_const("Hello ","world")); //Prints "Hello world"
return 0;
}
If both strings together are more than 1000 characters long, it will cut the string at 1000 characters. You can change the value of MAX_STRING_LENGTH to suit your needs.
You are trying to copy a string into an address that is statically allocated. You need to cat into a buffer.
Specifically:
...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.
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)
int main()
{
char input[100];
gets(input);
char str[101];
strcpy(str, " ");
strcat(str, input);
char *p = str;
while(*p) {
if(*p == ' ' && isalpha(*(p+1)) != 0)
printf("%c",*(p+1));
p++;
}
return 0;
}
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;
}
This was my solution
#include <stdlib.h>
#include <stdarg.h>
char *strconcat(int num_args, ...) {
int strsize = 0;
va_list ap;
va_start(ap, num_args);
for (int i = 0; i < num_args; i++)
strsize += strlen(va_arg(ap, char*));
char *res = malloc(strsize+1);
strsize = 0;
va_start(ap, num_args);
for (int i = 0; i < num_args; i++) {
char *s = va_arg(ap, char*);
strcpy(res+strsize, s);
strsize += strlen(s);
}
va_end(ap);
res[strsize] = '\0';
return res;
}
but you need to specify how many strings you're going to concatenate
char *str = strconcat(3, "testing ", "this ", "thing");