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-rw-r--r--timeseries.cpp108
1 files changed, 108 insertions, 0 deletions
diff --git a/timeseries.cpp b/timeseries.cpp
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+
+#include <getopt.h>
+#include <iostream>
+#include <chrono>
+#include <fstream>
+
+#define WOLFF_USE_FINITE_STATES
+
+#include "wolff/lib/wolff_models/ising.hpp"
+
+using namespace wolff;
+
+class Timeseries : public measurement<ising_t, ising_t, graph<>> {
+private:
+ signed M;
+ std::ofstream file;
+
+public:
+ Timeseries(unsigned D, unsigned L, double T, double H, const wolff::system<ising_t, ising_t, graph<>>& S) : file("series.dat", std::ios::app) {
+ M = 0;
+ for (const ising_t& s : S.s) {
+ M = M + S.s0.act_inverse(s);
+ }
+ file << D << " " << L << " " << T << " " << H << " " << M;
+ }
+
+ ~Timeseries() {
+ file << "\n";
+ file.close();
+ }
+
+ void ghost_bond_visited(const wolff::system<ising_t, ising_t, graph<>>&, const typename graph<>::vertex&,
+ const ising_t& s_old, const ising_t& s_new, double dE) override {
+ M += s_new - s_old;
+ }
+
+ void post_cluster(unsigned, unsigned, const wolff::system<ising_t, ising_t, graph<>>& S) override {
+ file << " " << M;
+ }
+};
+
+int main(int argc, char *argv[]) {
+
+ // set defaults
+ unsigned N = (unsigned)1e4;
+ unsigned D = 2;
+ unsigned L = 128;
+ double T = 2.26918531421;
+ double H = 0.0;
+
+ int opt;
+
+ // take command line arguments
+ while ((opt = getopt(argc, argv, "N:D:L:T:H:")) != -1) {
+ switch (opt) {
+ case 'N': // number of steps
+ N = (unsigned)atof(optarg);
+ break;
+ case 'D': // dimension
+ D = atoi(optarg);
+ break;
+ case 'L': // linear size
+ L = atoi(optarg);
+ break;
+ case 'T': // temperature
+ T = atof(optarg);
+ break;
+ case 'H': // external field
+ H = atof(optarg);
+ break;
+ default:
+ exit(EXIT_FAILURE);
+ }
+ }
+
+ // define the spin-spin coupling
+ std::function <double(const ising_t&, const ising_t&)> Z = [] (const ising_t& s1, const ising_t& s2) -> double {
+ return (double)(s1 * s2);
+ };
+
+ // define the spin-field coupling
+ std::function <double(const ising_t&)> B = [=] (const ising_t& s) -> double {
+ return H * s;
+ };
+
+ // initialize the lattice
+ graph<> G(D, L);
+
+ // initialize the system
+ wolff::system<ising_t, ising_t, graph<>> S(G, T, Z, B);
+
+ // initialize the random number generator
+ auto seed = std::chrono::high_resolution_clock::now().time_since_epoch().count();
+ std::mt19937 rng(seed);
+
+ // define function that generates self-inverse rotations
+ std::function <ising_t(std::mt19937&, const wolff::system<ising_t, ising_t, graph<>>&, const graph<>::vertex&)> gen_r = gen_ising<graph<>>;
+
+ // initailze the measurement object
+ Timeseries A(D, L, T, H, S);
+
+ // run wolff N times
+ S.run_wolff(N, gen_r, A, rng);
+
+ // exit
+ return 0;
+}
+