There are several subtleties in passing a pointer to a function to allocate, fill and return. The most important to understand is that when passing a pointer to a function, the function receives a copy of that pointer with a new and separate address. If you then allocate space in the function for the pointer, you must return the address of the pointer to the caller (main()
here) or the caller will have no way to access the values you have stored in your newly allocated block of memory.
To overcome this problem, and be able to pass a pointer to a function for allocation and filling, without having to utilize the return, you must pass the address of the pointer to the function, i.e.:
char *readline (FILE *fp, char **buffer)
Otherwise, as discussed in the comments and above, there is no reason to pass the pointer to buffer to the function. You can simply declare buffer
local to the function, dynamically allocate space for it, and return the starting address to the new block of memory.
There is nothing wrong with doing it either way, it really boils down to what you need, but you want to be clear on what you are passing to your function and why. The following is a short example passing the address of your pointer to readline
and allowing the function to allocate/fill each line without needing to utilize the return. Now it never hurts to return a pointer to your line in this case. It provides a way of determining success/failure and the flexibility to assign the return if you desire:
#include <stdio.h>
#include <stdlib.h>
#define NCHAR 64
char *readline (FILE *fp, char **buffer);
int main (int argc, char **argv) {
char *line = NULL;
size_t idx = 0;
FILE *fp = argc > 1 ? fopen (argv[1], "r") : stdin;
if (!fp) {
fprintf (stderr, "error: file open failed '%s'.\n", argv[1]);
return 1;
}
while (readline (fp, &line)) { /* read each line in 'fp' */
printf (" line[%2zu] : %s\n", idx++, line);
free (line);
line = NULL;
}
if (fp != stdin) fclose (fp);
return 0;
}
/* read line from 'fp' allocate *buffer NCHAR in size
* realloc as necessary. Returns a pointer to *buffer
* on success, NULL otherwise.
*/
char *readline (FILE *fp, char **buffer)
{
int ch;
size_t buflen = 0, nchar = NCHAR;
*buffer = malloc (nchar); /* allocate buffer nchar in length */
if (!*buffer) {
fprintf (stderr, "readline() error: virtual memory exhausted.\n");
return NULL;
}
while ((ch = fgetc(fp)) != '\n' && ch != EOF)
{
(*buffer)[buflen++] = ch;
if (buflen + 1 >= nchar) { /* realloc */
char *tmp = realloc (*buffer, nchar * 2);
if (!tmp) {
fprintf (stderr, "error: realloc failed, "
"returning partial buffer.\n");
(*buffer)[buflen] = 0;
return *buffer;
}
*buffer = tmp;
nchar *= 2;
}
}
(*buffer)[buflen] = 0; /* nul-terminate */
if (buflen == 0 && ch == EOF) { /* return NULL if nothing read */
free (*buffer);
*buffer = NULL;
}
return *buffer;
}
Input
$ cat ../dat/captnjack.txt
This is a tale
Of Captain Jack Sparrow
A Pirate So Brave
On the Seven Seas.
Output
$ ./bin/readline ../dat/captnjack.txt
line[ 0] : This is a tale
line[ 1] : Of Captain Jack Sparrow
line[ 2] : A Pirate So Brave
line[ 3] : On the Seven Seas.
Note
You really do not want to allocate for every character. malloc
is a relatively expensive operation. It makes far more sense to allocate some reasonably anticipated number of characters for each line and then realloc
if you reach that limit than it does to realloc
for every character. If you are concerned with only allocating exactly the amount needed to hold the string, then allocate as described, and do one final realloc
for strlen(buf) + 1
characters at the end.
Further, allocating in this manner, you can always set #define NCHAR 1
and force the allocation to start and 1-char
if you like.
Memory Leak/Error Check
In any code your write that dynamically allocates memory, you have 2 responsibilites regarding any block of memory allocated: (1) always preserves a pointer to the starting address for the block of memory so, (2) it can be freed when it is no longer needed. It is imperative that you use a memory error checking program to insure you haven't written beyond/outside your allocated block of memory and to confirm that you have freed all the memory you have allocated. For Linux valgrind
is the normal choice. There are so many subtle ways to misuse a block of memory that can cause real problems, there is no excuse not to do it. There are similar memory checkers for every platform. They are all simple to use. Just run your program through it.
$ valgrind ./bin/readline ../dat/captnjack.txt
==16460== Memcheck, a memory error detector
==16460== Copyright (C) 2002-2012, and GNU GPL'd, by Julian Seward et al.
==16460== Using Valgrind-3.8.1 and LibVEX; rerun with -h for copyright info
==16460== Command: ./bin/readline ../dat/captnjack.txt
==16460==
line[ 0] : This is a tale
line[ 1] : Of Captain Jack Sparrow
line[ 2] : A Pirate So Brave
line[ 3] : On the Seven Seas.
==16460==
==16460== HEAP SUMMARY:
==16460== in use at exit: 0 bytes in 0 blocks
==16460== total heap usage: 6 allocs, 6 frees, 888 bytes allocated
==16460==
==16460== All heap blocks were freed -- no leaks are possible
==16460==
==16460== For counts of detected and suppressed errors, rerun with: -v
==16460== ERROR SUMMARY: 0 errors from 0 contexts (suppressed: 2 from 2)
You should see All heap blocks were freed -- no leaks are possible
and ERROR SUMMARY: 0 errors from 0 contexts
every time.
note: updated to reflect comment on return and type for ch
and to fix potential memory leak when returning NULL
from readline
on EOF
.
buffer
as an argument and instantly overwrite it? Why not make it a local variable? Format your code properly. (there is anedit
link under your text).nchar=64;
forbuffer
and keep a charcount and whencharcount + 1 == nchar
thenrealloc (buffer, nchar * 2); nchar *=2;
?