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#pragma once
#include <stdlib.h>
#include "types.h"
#include "potts.h"
template <q_t q>
class symmetric_t {
public:
q_t *perm;
};
template <q_t q>
void init(symmetric_t<q> *p) {
p->perm = (q_t *)malloc(q * sizeof(q_t));
for (q_t i = 0; i < q; i++) {
p->perm[i] = i;
}
}
template <q_t q>
void free_spin(symmetric_t<q> p) {
free(p.perm);
}
template <q_t q>
symmetric_t<q> copy(symmetric_t<q> x) {
symmetric_t<q> x2;
x2.perm = (q_t *)malloc(q * sizeof(q_t));
for (q_t i = 0; i < q; i++) {
x2.perm[i] = x.perm[i];
}
return x2;
}
template <q_t q>
potts_t<q> act(symmetric_t<q> r, potts_t<q> s) {
potts_t<q> s2;
s2.x = r.perm[s.x];
return s2;
}
template <q_t q>
symmetric_t<q> act(symmetric_t<q> r1, symmetric_t<q> r2) {
symmetric_t<q> r3;
r3.perm = (q_t *)malloc(q * sizeof(q_t));
for (q_t i = 0; i < q; i++) {
r3.perm[i] = r1.perm[r2.perm[i]];
}
return r3;
}
template <q_t q>
potts_t<q> act_inverse(symmetric_t<q> r, potts_t<q> s) {
potts_t<q> s2;
q_t i;
for (i = 0; i < q; i++) {
if (r.perm[i] == s.x) {
break;
}
}
s2.x = i;
return s2;
}
template <q_t q>
symmetric_t<q> act_inverse(symmetric_t<q> r1, symmetric_t<q> r2) {
symmetric_t<q> r3;
r3.perm = (q_t *)malloc(q * sizeof(q_t));
for (q_t i = 0; i < q; i++) {
r3.perm[r1.perm[i]] = r2.perm[i];
}
return r3;
}
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