Possible Duplicate:
C String Concatenation
How do I concatenate multiple char strings in C ?
Example:
const char *bytes = "tablr=Hello%20World";
const char *bytes2 = "tablr=Hello%20World";
const char *bytes3 = "tablr=Hello%20World";
thanks
Possible Duplicate:
C String Concatenation
How do I concatenate multiple char strings in C ?
Example:
const char *bytes = "tablr=Hello%20World";
const char *bytes2 = "tablr=Hello%20World";
const char *bytes3 = "tablr=Hello%20World";
thanks
Here's a suggestion, that avoids the Painter's problem:
char const *bytes = "tablr=Hello%20World";
char const *bytes2 = "tablr=Hello%20World";
char const *bytes3 = "tablr=Hello%20World";
unsigned int const sz1 = strlen(bytes );
unsigned int const sz2 = strlen(bytes2);
unsigned int const sz3 = strlen(bytes3);
char *concat = (char*)malloc(sz1+sz2+sz3+1);
memcpy( concat , bytes , sz1 );
memcpy( concat+sz1 , bytes2 , sz2 );
memcpy( concat+sz1+sz2 , bytes3 , sz3 );
concat[sz1+sz2+sz3] = '\0';
/* don't forget to free(concat) when it's not needed anymore */
This avoids the painter's problem and should be more efficient (although sometimes not) because memcpy may copy byte-by-byte or word-by-word, depending on the implementation, which is faster.
If you can see a pattern here, this can easilly be transformed into a function that concatenates an arbitrary number of strings, if they are provided in an char const*[]
String literals can be concatenated simply by being adjacent:
const char *whole_string = "tablr=Hello%20World" "tablr=Hello%20World" "tablr=Hello%20World";
The above concatenation is done by the compiler and doesn't incur runtime overhead.
In general, you use the strcat
function declared in <string.h>
.
But you can concatenate string literals merely by writing them one after another. Example:
const char *p = "Hello, " "World"
"!";
p points to "Hello, World!".
In your case it would be like this:
const char* p =
"tablr=Hello%20World"
"tablr=Hello%20World"
"tablr=Hello%20World";
With string.h
included (the easy but "slow" (not really very slow ;P) way):
char * result = calloc(strlen(bytes)+strlen(bytes2)+strlen(bytes3)+1,sizeof(char));
strcat(result, bytes);
strcat(result, bytes2);
strcat(result, bytes3);
Using an efficient loop:
int i, j, len = strlen(bytes)+strlen(bytes2)+strlen(bytes3)+1;
char * result = malloc(sizeof(char)*len);
for(i = 0; i < len && bytes[i] != '\0'; i++)
result[i] = bytes[i];
for(j = 0; i < len && bytes2[j] != '\0'; i++, j++)
result[i] = bytes2[j];
for(j = 0; i < len && bytes3[j] != '\0'; i++, j++)
result[i] = bytes3[j];
result[i] = '\0';
sizeof (char)
is, by definiton, 1
. I find calloc
is easier to read with 1: calloc(len, 1)
vs calloc(len, sizeof (char))
. If you must use sizeof
,use the object itself: calloc(len, sizeof *result)
. Your arguments to calloc
are in the wrong order.
sizeof(char)
as I find that to be more readable, and since sizeof it's evaluated during compilation the end result is the same.
Use the strcat
or strncat
functions. Be careful with the memory allocations around those though.
If your compiler supports it use strcat_s or _tcscat_s. They will check the buffer length you're writing to.
I suggest to use memcpy function. It is quite efficient:
int l1 = strlen(bytes), l2 = strlen(bytes2), l3 = strlen(bytes3);
int length = l1+l2+l3;
char *concatenatedBytes = (char *)malloc((length+1)*sizeof(char));
memcpy(concatenatedBytes, bytes, l1);
memcpy(concatenatedBytes + l1, bytes2, l2);
memcpy(concatenatedBytes + l1 + l2, bytes3, l3);
concatenatedBytes[length] = 0;
strlen
called multiple times on the same string literal?
Aug 30, 2011 at 8:58
strlen
is still not needed at all when used with constant strings - strlen("hello")
incurs runtime overhead while sizeof("hello") - 1
does not.
Aug 30, 2011 at 10:00