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#include "cluster.h"
#include "state.h"
template <class R_t, class X_t>
void wolff(count_t N, state_t <R_t, X_t> *s, std::function <R_t(gsl_rng *, X_t s0)> gen_R, std::function <void(const state_t <R_t, X_t> *)> measurements, gsl_rng *r, bool silent) {
#ifdef FINITE_STATES
initialize_probs(s->J, s->H, s->T);
#endif
if (!silent) printf("\n");
for (count_t steps = 0; steps < N; steps++) {
if (!silent) printf("\033[F\033[JWOLFF: step %" PRIu64 " / %" PRIu64 ": E = %.2f, S = %" PRIv "\n", steps, N, s->E, s->last_cluster_size);
v_t v0 = gsl_rng_uniform_int(r, s->nv);
R_t step = gen_R(r, s->spins[v0]);
flip_cluster <R_t, X_t> (s, v0, step, r);
free_spin(step);
measurements(s);
}
if (!silent) {
printf("\033[F\033[J");
}
printf("WOLFF: step %" PRIu64 " / %" PRIu64 ": E = %.2f, S = %" PRIv "\n", N, N, s->E, s->last_cluster_size);
}
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