dga is a tiny C library for creating generic and typesafe dynamic arrays which are also binary compatible with native C arrays.
The idea comes from the library sds from Antirez the creator of Redis. Instead of
creating a structure that contains the buffer and the length like most string libraries
do/did, sds puts a header at the beginning of the buffer that contains the metadata,
and returns a pointer to the buffer + sizeof(header). This way sds guarantees
binary compatibility with the standard string functions.
dga takes the sds approach one step further, and implements the same idea in a way that can
be used with any C type, including variably modified types.
#include <stdio.h>
#include "dga.h"
int main() {
/* dga_new() creates and initializes the header.
* If the first argument is any number greater than
* zero, it already allocates that amount.
*/
int *iarr = dga_new(4, int);
/* iarr can now be manipulated as if it was declared int iarr[4]; */
iarr[0] = 0;
iarr[1] = 1;
iarr[2] = 2;
iarr[3] = 3;
/* you can also use the dga_len(void *arr) function to retrieve the length,
* since it's constantly tracked anyway. And notice that we pass the normal array.
*/
for (size_t i = 0; i < dga_len(iarr); i++) {
iarr[i] = i * 2;
}
/* you can allocate more space for the array by either using dga_grow(arr, n)
* or dga_resize(arr, * n).
*/
iarr = dga_grow(iarr, 2); // grow the array by 2 -> iarr[6]
iarr = dga_resize(iarr, 8); // resize the array to size 8 -> iarr[8]
iarr = dga_shrink(iarr, 2); // shrink the array by 2 elements -> iarr[6]
/* dga's approach has a couple of pitfalls, and one of them being
* pointer invalidation. So every operation that can change the size of the array
* returns a new pointer which might or might not be the same as the one passed.
* If running out of memory is a real concern for you, then there's no way out of
* the following pattern.
*/
int *tmp = dga_grow(iarr, 2);
if (tmp) {
iarr = tmp;
} else {
// the array is not freed if resizing fails, so if it's either resize or die
// you should do.
dga_free(iarr);
return 1;
}
dga_free(iarr);
return 0;
}