217 lines
4.9 KiB
C
217 lines
4.9 KiB
C
#include <tompoly.h>
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void draw_poly(pb_poly *a)
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{
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int x;
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char buf[8192];
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if (a->used == 0) {
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printf("0");
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} else {
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for (x = a->used - 1; x >= 0; x--) {
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if (mp_iszero(&(a->terms[x])) == MP_YES) continue;
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mp_toradix(&(a->terms[x]), buf, 10);
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if ((x != a->used - 1) && a->terms[x].sign == MP_ZPOS) {
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printf("+");
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}
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printf(" %sx^%d ", buf, x);
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}
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}
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if (mp_iszero(&(a->characteristic)) == MP_NO) {
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mp_toradix(&(a->characteristic), buf, 10);
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printf(" (mod %s)", buf);
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}
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printf("\n");
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}
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int main(void)
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{
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mp_int chara;
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pb_poly a,b,c,d,e;
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mp_int aa,bb,cc,dd,ee;
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int res;
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mp_init(&chara);
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mp_init_multi(&aa,&bb,&cc,&dd,&ee,NULL);
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pb_init_size(&a, &chara, 32);
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pb_init_size(&b, &chara, 32);
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pb_init_size(&c, &chara, 32);
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pb_init_size(&d, &chara, 32);
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pb_init_size(&e, &chara, 32);
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/* a = 3x + 4 */
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mp_set(&(a.terms[1]), 3);
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mp_set(&(a.terms[0]), 4);
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a.used = 2;
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pb_clamp(&a);
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printf("a == \n");
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draw_poly(&a);
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/* b = 7x^2 + 5x + 7 */
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mp_set(&(b.terms[2]), 7);
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mp_set(&(b.terms[1]), 5);
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mp_set(&(b.terms[0]), 7);
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b.used = 3;
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pb_clamp(&b);
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printf("b == \n");
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draw_poly(&b);
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/* c = a + b */
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printf("a + b\n");
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pb_add(&a, &b, &c);
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draw_poly(&c);
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/* c = b + a */
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printf("b + a\n");
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pb_add(&b, &a, &c);
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draw_poly(&c);
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/* now test clearing */
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printf("Shifting previous up one\n");
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pb_lshd(&c, 1);
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draw_poly(&c);
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pb_rshd(&c, 1);
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draw_poly(&c);
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pb_lshd(&c, 1);
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pb_add(&a, &b, &c);
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printf("previous add (test if excess cleared)\n");
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draw_poly(&c);
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/* multiply */
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printf("Multiply:\n");
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draw_poly(&a);
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draw_poly(&b);
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pb_mul(&a, &b, &c);
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draw_poly(&c);
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/* subtract */
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printf("a - b\n");
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pb_sub(&a, &b, &c);
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draw_poly(&c);
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printf("b - a\n");
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pb_sub(&b, &a, &c);
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draw_poly(&c);
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/* now hijack the char */
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mp_set(&(a.characteristic), 17);
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mp_set(&(b.characteristic), 17);
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mp_set(&(c.characteristic), 17);
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mp_set(&(d.characteristic), 17);
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mp_set(&(e.characteristic), 17);
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/* perform modular addition */
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printf("a + b (in GF(17))\n");
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pb_add(&a, &b, &c);
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draw_poly(&c);
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pb_add(&b, &a, &c);
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draw_poly(&c);
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/* perform modular subtaction */
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printf("a - b (in GF(17))\n");
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pb_sub(&a, &b, &c);
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draw_poly(&c);
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printf("b - a (in GF(17))\n");
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pb_sub(&b, &a, &c);
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draw_poly(&c);
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/* perform division */
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printf("Division (b/a)\n");
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pb_div(&b, &a, &c, &d);
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draw_poly(&a);
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draw_poly(&b);
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printf("Q == \n"); draw_poly(&c);
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printf("R == \n"); draw_poly(&d);
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/* now test it */
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pb_mul(&a, &c, &c);
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pb_add(&c, &d, &c);
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printf("aQ + R =\n"); draw_poly(&c);
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/* test mod */
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pb_mod(&b, &a, &c);
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printf("b mod a == "); draw_poly(&c);
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/* test GCD of (x^2 - 1) and 5*x^4+5*x^3+7*x^2+8*x+1 [should be x+1] */
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printf("GCD Test\n");
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pb_zero(&a);
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mp_set(&(a.terms[2]), 1);
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mp_set(&(a.terms[0]), 16);
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a.used = 3;
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pb_clamp(&a);
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printf("a == \n");
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draw_poly(&a);
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pb_zero(&b);
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mp_set(&(b.terms[4]), 5);
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mp_set(&(b.terms[3]), 5);
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mp_set(&(b.terms[2]), 7);
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mp_set(&(b.terms[1]), 8);
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mp_set(&(b.terms[0]), 1);
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b.used = 6;
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pb_clamp(&b);
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printf("b == \n");
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draw_poly(&b);
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pb_gcd(&a, &b, &c);
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printf("GCD: "); draw_poly(&c);
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/* test GCD */
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pb_div(&a, &c, &d, &e);
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printf("a/c == "); draw_poly(&d); printf("a mod c == "); draw_poly(&e); pb_mul(&d, &c, &e); printf("should be a: "); draw_poly(&e);
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pb_div(&b, &c, &d, &e);
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printf("b/c == "); draw_poly(&d); printf("b mod c == "); draw_poly(&e); pb_mul(&d, &c, &e); printf("should be b: "); draw_poly(&e);
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/* test modular inverse... x^2 + 3 or so should work nice */
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printf("Modular Inverse\n");
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pb_zero(&a);
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mp_set(&(a.terms[2]), 1);
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mp_set(&(a.terms[1]), 0);
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mp_set(&(a.terms[0]), 3);
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a.used = 3;
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pb_clamp(&a);
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printf("a == \n");
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draw_poly(&a);
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/* take inverse of 2x + 9 */
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pb_zero(&b);
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mp_set(&(b.terms[1]), 2);
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mp_set(&(b.terms[0]), 9);
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b.used = 2;
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pb_clamp(&b);
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printf("b == \n");
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draw_poly(&b);
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/* invert */
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pb_invmod(&b, &a, &c);
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printf("Inverse\n");
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draw_poly(&c);
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/* test */
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pb_mulmod(&b, &c, &a, &d);
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pb_mul(&b, &c, &e);
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printf("This should be 1 : "); draw_poly(&d);
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printf("This should be equal to k*a + 1: "); draw_poly(&e);
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/* now b has order [dividing] 17^2 - 1 == 288 so b^287 should equal c */
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printf("exptmod test\n");
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mp_set(&aa, 287);
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pb_exptmod(&b, &aa, &a, &d);
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printf("This should be invmod : "); draw_poly(&d);
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/* test irreduc */
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printf("Irreducibility testing\n");
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pb_isirreduc(&a, &res);
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printf("This should be 1 : %d\n", res);
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pb_isirreduc(&b, &res);
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printf("This should be 0 : %d\n", res);
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return EXIT_SUCCESS;
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}
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