#include "qext.h" int qext_rank; mpq_t *qext_coefficient; #include #include #define LOOP(i,n) for(int i = 0; i < (n); i++) #define RANK(x) ((x)->type->rank) const int qext_type_trivial_coeffs[] = {-1, 1}; struct qext_type qext_type_trivial_v = {1, qext_type_trivial_coeffs, NULL}; struct qext_type *QT_TRIVIAL = &qext_type_trivial_v; const int qext_type_sqrt5_coeffs[] = {-5, 0, 1}; struct qext_type qext_type_sqrt5_v = {2, qext_type_sqrt5_coeffs, NULL}; struct qext_type *QT_SQRT5 = &qext_type_sqrt5_v; static void qext_init_type(struct qext_type *type) { type->coeffs = malloc(type->rank*sizeof(mpq_t)); LOOP(i, type->rank) { mpq_init(type->coeffs[i]); mpq_set_si(type->coeffs[i], -type->integer_coeffs[i], type->integer_coeffs[type->rank]); } } struct qext_type *qext_newtype(int rank, const int *coeffs) { struct qext_type *type = malloc(sizeof(struct qext_type)); type->rank = rank; type->integer_coeffs = coeffs; qext_init_type(type); return type; } void qext_init(qext_number x, struct qext_type *type) { if(type->coeffs == NULL) // uninitialized default type qext_init_type(type); x->type = type; x->a = malloc(RANK(x)*sizeof(mpq_t)); LOOP(i, RANK(x)) mpq_init(x->a[i]); } void qext_clear(qext_number x) { LOOP(i, RANK(x)) mpq_clear(x->a[i]); free(x->a); } void qext_set(qext_number x, qext_number y) { LOOP(i, RANK(x)) mpq_set(x->a[i], y->a[i]); } void qext_set_int(qext_number x, int y) { mpq_set_si(x->a[0], y, 1); for(int i = 1; i < RANK(x); i++) mpq_set_ui(x->a[i], 0, 1); } void qext_set_q(qext_number x, mpq_t y) { mpq_set(x->a[0], y); for(int i = 1; i < RANK(x); i++) mpq_set_ui(x->a[i], 0, 1); } void qext_add(qext_number result, qext_number x, qext_number y) { LOOP(i, RANK(x)) mpq_add(result->a[i], x->a[i], y->a[i]); } void qext_sub(qext_number result, qext_number x, qext_number y) { LOOP(i, RANK(x)) mpq_sub(result->a[i], x->a[i], y->a[i]); } void qext_neg(qext_number result, qext_number x) { LOOP(i, RANK(x)) mpq_neg(result->a[i], x->a[i]); } void qext_print(qext_number x) { LOOP(i, RANK(x)) { if(i == 0) gmp_printf("%Qd", x->a[i]); else if(i == 1) gmp_printf(" + %Qd*a", x->a[i]); else gmp_printf(" + %Qd*a^%d", x->a[i], i); } } void qext_snprint(char *str, size_t size, qext_number x) { int len = 0; LOOP(i, RANK(x)) { if(i == 0) len += gmp_snprintf(str+len, size-len, "%Qd", x->a[i]); else if(i == 1) len += gmp_snprintf(str+len, size-len, " + %Qd*a", x->a[i]); else len += gmp_snprintf(str+len, size-len, " + %Qd*a^%d", x->a[i], i); } } int qext_cmp(qext_number x, qext_number y) { int cmp; LOOP(i, RANK(x)) { cmp = mpq_cmp(x->a[i], y->a[i]); if(cmp) return cmp; } return 0; } void qext_mul(qext_number out, qext_number x, qext_number y) { mpq_t result[2*RANK(x)-1]; mpq_t tmp; mpq_init(tmp); LOOP(i, 2*RANK(x)-1) { mpq_init(result[i]); mpq_set_ui(result[i], 0, 1); } // rk*rk multiplications + (rk-1)*rk multiplications with fixed coefficients // degree 1: 1+0 // degree 2: 4+2 // degree 4: 16+12, including 6 times 0* LOOP(i, RANK(x)) LOOP(j, RANK(x)) { mpq_mul(tmp, x->a[i], y->a[j]); mpq_add(result[i+j], result[i+j], tmp); } for(int i = RANK(x)-2; i >= 0; i--) { LOOP(j, RANK(x)) { mpq_mul(tmp, x->type->coeffs[j], result[RANK(x)+i]); mpq_add(result[i+j], result[i+j], tmp); } } LOOP(i, RANK(x)) mpq_set(out->a[i], result[i]); LOOP(i, 2*RANK(x)-1) mpq_clear(result[i]); mpq_clear(tmp); } void qext_div(qext_number out, qext_number x, qext_number y) { // todo: implement this by solving a linear system }