I am an experienced programmer, but new to C. I am trying to learn C so I can use the gmp library to write fast big-integer programs; eventually I intend to write the performance parts of my programs in C functions that are called via a foreign function interface from other languages. As a vehicle for learning both C and the gmp library I have written the pollard rho integer factorization program shown below (yes, I know this isn't the best possible implementation of pollard rho, but it is simple, and at the moment I just want to get started). My program compiles correctly but when run it dies with the message "Segmentation fault." I assume that means I've got my pointers messed up somewhere, but I don't see it. Probably more than one. Can someone please look at my program and tell me where I've gone wrong? And point out any style issues or anything else I can improve? Many thanks, Phil

```
/* rho.c -- pollard rho factorization
* usage: rho n -- prints factors of n then exits
* compile as gcc -lgmp -o rho rho.c */
#include <stdlib.h>
#include <stdio.h>
#include <gmp.h>
typedef struct list {
void *data;
struct list *next;
} List;
List *insert(void *data, List *next)
{
List *new;
if (! (new = malloc(sizeof(List))))
return NULL;
new->data = data;
new->next = next;
return new;
}
List *insert_in_order(void *x, List *xs)
{
if (xs == NULL || mpz_cmp(x, xs->data) < 0)
{
return insert(x, xs);
} else {
List *head = xs;
while (xs->next != NULL && mpz_cmp(x, xs->next->data) < 0)
{
xs = xs->next;
}
xs->next = insert(x, xs->next);
return head;
}
}
void rho_factor(mpz_t f, mpz_t n, long long unsigned c)
{
mpz_t t, h, d, r;
mpz_init_set_ui(t, 2);
mpz_init_set_ui(h, 2);
mpz_init_set_ui(d, 1);
mpz_init_set_ui(r, 0);
while (mpz_cmp_si(d, 1) == 0)
{
mpz_mul(t, t, t);
mpz_add_ui(t, t, c);
mpz_mod(t, t, n);
mpz_mul(h, h, h);
mpz_add_ui(h, h, c);
mpz_mod(h, h, n);
mpz_mul(h, h, h);
mpz_add_ui(h, h, c);
mpz_mod(h, h, n);
mpz_sub(r, t, h);
mpz_gcd(d, r, n);
}
if (mpz_cmp(d, n) == 0)
{
rho_factor(f, n, c+1);
}
else if (mpz_probab_prime_p(d, 25))
{
mpz_set(f, d);
}
else
{
rho_factor(f, d, c+1);
}
mpz_clears(t, h, d, r);
}
void rho_factors(List *fs, mpz_t n)
{
mpz_t f;
mpz_init_set_ui(f, 0);
while (! (mpz_probab_prime_p(n, 25)))
{
rho_factor(f, n, 1);
fs = insert_in_order(f, fs);
mpz_divexact(n, n, f);
}
mpz_clear(f);
insert_in_order(n, fs);
}
int main(int argc, char *argv[])
{
mpz_t f, n;
mpz_init_set_ui(f, 0);
List *fs = NULL;
if (argc<2)
{
printf("usage: rho n\n");
return 1;
}
mpz_init_set_str(n, argv[1], 10);
if (mpz_probab_prime_p(n, 25))
{
printf("%s\n", argv[1]);
return 0;
}
printf("%s", argv[1]);
rho_factors(fs, n);
while (fs != NULL) {
printf(" %s", mpz_get_str(NULL, 10, fs->data));
fs = fs->next;
}
return 0;
}
```

EDIT1: Thanks to Daniel Fischer, I have made some progress, and am no longer getting a segmentation fault. The code shown below correctly prints the factor 127 when rho_factor is called with n = 1234567, but rho_factors returns a null list, so there is still something wrong with rho_factors. I assume the problem is that I can't keep re-initializing the same variable the way I am doing, but I don't know the right way to do it. Somehow I need to make a copy of each factor that I find, then insert that copy in fs. Many thanks, Phil

```
/* rho.c -- pollard rho factorization
* usage: rho n -- prints factors of n then exits
* compile as gcc -lgmp -o rho rho.c */
#include <stdlib.h>
#include <stdio.h>
#include <gmp.h>
typedef struct list {
void *data;
struct list *next;
} List;
List *insert(void *data, List *next)
{
List *new;
if (! (new = malloc(sizeof(List))))
return NULL;
new->data = data;
new->next = next;
return new;
List *insert_in_order(void *x, List *xs)
{
if (xs == NULL || mpz_cmp(x, xs->data) < 0)
{
return insert(x, xs);
} else {
List *head = xs;
while (xs->next != NULL && mpz_cmp(x, xs->next->data) < 0)
{
xs = xs->next;
}
xs->next = insert(x, xs->next);
return head;
}
}
void rho_factor(mpz_t f, mpz_t n, long long unsigned c)
{
mpz_t t, h, d, r;
mpz_init_set_ui(t, 2);
mpz_init_set_ui(h, 2);
mpz_init_set_ui(d, 1);
mpz_init_set_ui(r, 0);
while (mpz_cmp_si(d, 1) == 0)
{
mpz_mul(t, t, t);
mpz_add_ui(t, t, c);
mpz_mod(t, t, n);
mpz_mul(h, h, h);
mpz_add_ui(h, h, c);
mpz_mod(h, h, n);
mpz_mul(h, h, h);
mpz_add_ui(h, h, c);
mpz_mod(h, h, n);
mpz_sub(r, t, h);
mpz_gcd(d, r, n);
}
if (mpz_cmp(d, n) == 0)
{
rho_factor(f, n, c+1);
}
else if (mpz_probab_prime_p(d, 25))
{
mpz_set(f, d);
}
else
{
rho_factor(f, d, c+1);
}
mpz_clears(t, h, d, r, NULL);
}
void rho_factors(List *fs, mpz_t n)
{
while (! (mpz_probab_prime_p(n, 25)))
{
mpz_t f;
mpz_init_set_ui(f, 0);
rho_factor(f, n, 1);
fs = insert_in_order(f, fs);
mpz_divexact(n, n, f);
}
insert_in_order(n, fs);
}
int main(int argc, char *argv[])
{
mpz_t f, n;
mpz_init_set_ui(f, 0);
List *fs = NULL;
if (argc<2)
{
printf("usage: rho n\n");
return 1;
}
mpz_init_set_str(n, argv[1], 10);
if (mpz_probab_prime_p(n, 25))
{
printf("%s is prime\n", argv[1]);
return 0;
}
rho_factor(f, n, 1);
printf("%s\n", mpz_get_str(NULL, 10, f));
printf("%s", argv[1]);
rho_factors(fs, n);
while (fs != NULL) {
printf(" %s", mpz_get_str(NULL, 10, fs->data));
fs = fs->next;
}
return 0;
}
```

EDIT2: Got it. Thanks to Daniel Fischer. Final version shown below.

```
/* rho.c -- pollard rho factorization
* usage: rho n -- prints factors of n then exits
* compile as gcc -lgmp -o rho rho.c */
#include <stdlib.h>
#include <stdio.h>
#include <gmp.h>
typedef struct list {
void *data;
struct list *next;
} List;
List *insert(void *data, List *next)
{
List *new;
new = malloc(sizeof(List));
new->data = data;
new->next = next;
return new;
}
List *insert_in_order(void *x, List *xs)
{
if (xs == NULL || mpz_cmp(x, xs->data) < 0)
{
return insert(x, xs);
}
else
{
List *head = xs;
while (xs->next != NULL && mpz_cmp(x, xs->next->data) < 0)
{
xs = xs->next;
}
xs->next = insert(x, xs->next);
return head;
}
}
void rho_factor(mpz_t f, mpz_t n, long long unsigned c)
{
mpz_t t, h, d, r;
mpz_init_set_ui(t, 2);
mpz_init_set_ui(h, 2);
mpz_init_set_ui(d, 1);
mpz_init_set_ui(r, 0);
while (mpz_cmp_si(d, 1) == 0)
{
mpz_mul(t, t, t);
mpz_add_ui(t, t, c);
mpz_mod(t, t, n);
mpz_mul(h, h, h);
mpz_add_ui(h, h, c);
mpz_mod(h, h, n);
mpz_mul(h, h, h);
mpz_add_ui(h, h, c);
mpz_mod(h, h, n);
mpz_sub(r, t, h);
mpz_gcd(d, r, n);
}
if (mpz_cmp(d, n) == 0)
{
rho_factor(f, n, c+1);
}
else if (mpz_probab_prime_p(d, 25))
{
mpz_set(f, d);
}
else
{
rho_factor(f, d, c+1);
}
mpz_clears(t, h, d, r, NULL);
}
void rho_factors(List **fs, mpz_t n)
{
while (! (mpz_probab_prime_p(n, 25)))
{
mpz_t *f = malloc(sizeof(*f));
mpz_init_set_ui(*f, 0);
rho_factor(*f, n, 1);
*fs = insert_in_order(*f, *fs);
mpz_divexact(n, n, *f);
}
*fs = insert_in_order(n, *fs);
}
int main(int argc, char *argv[])
{
mpz_t f, n;
mpz_init_set_ui(f, 0);
List *fs = NULL;
if (argc<2)
{
printf("usage: rho n\n");
return 1;
}
mpz_init_set_str(n, argv[1], 10);
if (mpz_probab_prime_p(n, 25))
{
printf("%s is prime\n", argv[1]);
return 0;
}
printf("Factors of %s:", argv[1]);
rho_factors(&fs, n);
while (fs != NULL) {
printf(" %s", mpz_get_str(NULL, 10, fs->data));
fs = fs->next;
}
printf("\n");
return 0;
}
```