diff options
-rw-r--r-- | space_wolff.hpp | 253 | ||||
-rw-r--r-- | spheres.cpp | 50 |
2 files changed, 142 insertions, 161 deletions
diff --git a/space_wolff.hpp b/space_wolff.hpp index f95c68a..211e647 100644 --- a/space_wolff.hpp +++ b/space_wolff.hpp @@ -29,13 +29,14 @@ const std::array<std::array<unsigned, 16>, 16> smiley = { {{0, 0, 1, 1, 1, 0, 0, 0, 0, 0, 0, 1, 1, 1, 0, 0}}, {{0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0}}}}; -template <class U, unsigned D> using Vector = Eigen::Matrix<U, D, 1>; +template <class T, int D> using Vector = Eigen::Matrix<T, D, 1>; -template <class U, unsigned D> using Matrix = Eigen::Matrix<U, D, D>; +template <class T, int D> using Matrix = Eigen::Matrix<T, D, D>; -template <class U, unsigned D> -Vector<U, D> diff(U L, Vector<U, D> v1, Vector<U, D> v2) { - Vector<U, D> v; +/** brief diff - periodic subtraction of vectors + */ +template <class T, int D> Vector<T, D> diff(T L, Vector<T, D> v1, Vector<T, D> v2) { + Vector<T, D> v; for (unsigned i = 0; i < D; i++) { v(i) = std::abs(v1(i) - v2(i)); @@ -47,20 +48,23 @@ Vector<U, D> diff(U L, Vector<U, D> v1, Vector<U, D> v2) { return v; } -template <class U, unsigned D, class state> class Spin { +template <class T, int D, class S> class Spin { public: - Vector<U, D> x; - state s; + Vector<T, D> x; + S s; }; -template <class U, unsigned D> class Euclidean { +template <class T, int D> class Euclidean { private: - U L; + T L; public: - Vector<U, D> t; - Matrix<U, D> r; - Euclidean(U L) : L(L) { + Vector<T, D> t; + Matrix<T, D> r; + + /** brief Euclidean - default constructor, constructs the identity + */ + Euclidean(T L) : L(L) { for (unsigned i = 0; i < D; i++) { t(i) = 0; r(i, i) = 1; @@ -70,14 +74,13 @@ public: } } - Euclidean(U L, Vector<U, D> t0, Matrix<U, D> r0) : L(L) { + Euclidean(T L, Vector<T, D> t0, Matrix<T, D> r0) : L(L) { t = t0; r = r0; } - template <class state> - Spin<U, D, state> act(const Spin<U, D, state> &s) const { - Spin<U, D, state> s_new; + template <class S> Spin<T, D, S> act(const Spin<T, D, S>& s) const { + Spin<T, D, S> s_new; s_new.x = t + r * s.x; s_new.s = s.s; @@ -89,9 +92,9 @@ public: return s_new; } - Euclidean act(const Euclidean &x) const { - Vector<U, D> tnew = r * x.t + t; - Matrix<U, D> rnew = r * x.r; + Euclidean act(const Euclidean& x) const { + Vector<T, D> tnew = r * x.t + t; + Matrix<T, D> rnew = r * x.r; for (unsigned i = 0; i < D; i++) { tnew(i) = fmod(L + tnew(i), L); @@ -103,8 +106,8 @@ public: } Euclidean inverse() const { - Vector<U, D> tnew = -r.transpose() * t; - Matrix<U, D> rnew = r.transpose(); + Vector<T, D> tnew = -r.transpose() * t; + Matrix<T, D> rnew = r.transpose(); Euclidean pnew(this->L, tnew, rnew); @@ -112,65 +115,60 @@ public: } }; -template <class T, unsigned D> class Dictionary { +template <class T, int D, class S> class Octree { private: - unsigned N; T L; - std::vector<std::set<unsigned>> d; + unsigned N; + std::vector<std::set<Spin<T, D, S>*>> data; public: - Dictionary(unsigned Ni, double Li) : N(Ni), L(Li), d(pow(Ni, D)){}; + Octree(T L, unsigned depth) : L(L), N(pow(2, depth)), data(pow(N, D)){}; - unsigned dictionary_index(Vector<T, D> x) const { + unsigned ind(Vector<T, D> x) const { unsigned pos_ind = 0; for (unsigned i = 0; i < D; i++) { - pos_ind += pow(N, i) * (unsigned)std::floor(x(i) * N / L); - }; + pos_ind += pow(N, i) * (unsigned)std::floor(N * x(i) / L); + } + + assert(pos_ind < data.size()); return pos_ind; } - void record(Vector<T, D> x, unsigned ind) { - d[this->dictionary_index(x)].insert(ind); - }; + void insert(Spin<T, D, S>* s) { data[ind(s->x)].insert(s); }; - void remove(Vector<T, D> x, unsigned ind) { - d[this->dictionary_index(x)].erase(ind); - }; + void remove(Spin<T, D, S>* s) { data[ind(s->x)].erase(s); }; - std::set<unsigned> neighbors(Vector<T, D> x, unsigned depth) const { - return nearest_neighbors_of(this->dictionary_index(x), depth, {}); + std::set<Spin<T, D, S>*> neighbors(const Vector<T, D>& x, unsigned depth) const { + std::set<Spin<T, D, S>*> ns; + std::set<unsigned> seen; + nearest_neighbors_of(ind(x), depth, ns, seen); + return ns; }; - std::set<unsigned> nearest_neighbors_of(unsigned ind, unsigned depth, - std::list<unsigned> ignores) const { - std::set<unsigned> ns = d[ind]; + void nearest_neighbors_of(unsigned ind, unsigned depth, std::set<Spin<T, D, S>*>& ns, + std::set<unsigned>& seen) const { + ns.insert(data[ind].begin(), data[ind].end()); + seen.insert(ind); if (depth > 0) { for (unsigned i = 0; i < D; i++) { - if (std::none_of(ignores.begin(), ignores.end(), [i](unsigned k) { return i == k; })) { - std::list<unsigned> ignores_new = ignores; - ignores_new.push_back(i); - for (signed j : {-1, 1}) { - unsigned ni = pow(L, i + 1) * (ind / ((unsigned)pow(L, i + 1))) + - fmod(pow(L, i + 1) + ind + j * pow(L, i), pow(L, i + 1)); + for (signed j : {-1, 1}) { + unsigned nind = pow(N, i + 1) * (ind / ((unsigned)pow(N, i + 1))) + + fmod(pow(N, i + 1) + ind + j * pow(N, i), pow(N, i + 1)); - std::set<unsigned> nns = nearest_neighbors_of(ni, depth - 1, ignores_new); - - for (unsigned guy : nns) { - ns.insert(guy); - } + if (!seen.contains(nind)) { + seen.insert(nind); + nearest_neighbors_of(nind, depth - 1, ns, seen); } } } } - - return ns; - }; + } }; -class Quantity { +class quantity { private: double total; double total2; @@ -181,7 +179,7 @@ public: unsigned n; std::list<double> hist; - Quantity(unsigned lag, unsigned wait) : C(lag), wait(wait) { + quantity(unsigned lag, unsigned wait) : C(lag), wait(wait) { n = 0; total = 0; total2 = 0; @@ -245,22 +243,38 @@ public: unsigned num_added() const { return n - wait; } }; -template <class U, unsigned D, class state> class Model { +template <class U, int D, class S> class Model; + +/* +template <class U, int D, class S> + class measurement { + public: + virtual void pre_cluster(const Model<U, D, S>&, unsigned, const Euclidean<U, D>&) {}; + virtual void plain_bond_visited(const Model<U, D, S>&, const X_t&, double) {}; + virtual void plain_site_transformed(const system<R_t, X_t, G_t>&, const typename G_t::vertex& +v, const X_t&) {}; + + virtual void ghost_bond_visited(const system<R_t, X_t, G_t>&, const typename G_t::vertex& v, +const X_t&, const X_t&, double) {}; virtual void ghost_site_transformed(const system<R_t, X_t, +G_t>&, const R_t&) {}; + + virtual void post_cluster(unsigned, unsigned, const system<R_t, X_t, G_t>&) {}; + }; + */ + +template <class U, int D, class S> class Model { public: U L; Euclidean<U, D> s0; - std::vector<Spin<U, D, state>> s; - Dictionary<U, D> dict; - std::function<std::set<unsigned>(Model<U, D, state> &, unsigned, - Spin<U, D, state>)> - neighbors; - std::function<double(Spin<U, D, state>, Spin<U, D, state>)> Z; - std::function<double(Spin<U, D, state>)> B; + std::vector<Spin<U, D, S>> s; + Octree<U, D, S> dict; + unsigned dDepth; + unsigned nDepth; + std::function<double(const Spin<U, D, S>&, const Spin<U, D, S>&)> Z; + std::function<double(const Spin<U, D, S>&)> B; std::vector<Matrix<U, D>> mats; std::vector<Vector<U, D>> steps; - long double E; - Quantity Eq; - Quantity Cq; + double E; void one_sequences(std::list<std::array<double, D>>& sequences, unsigned level) { if (level > 0) { @@ -275,14 +289,9 @@ public: } } - Model(U L, unsigned N, - std::function<double(Spin<U, D, state>, Spin<U, D, state>)> Z, - std::function<double(Spin<U, D, state>)> B, - std::function<std::set<unsigned>(Model<U, D, state> &, unsigned, - Spin<U, D, state>)> - ns) - : L(L), s0(L), dict(N, L), neighbors(ns), Z(Z), B(B), Eq(1000, 1000), - Cq(1000, 1000) { + Model(U L, std::function<double(const Spin<U, D, S>&, const Spin<U, D, S>&)> Z, + std::function<double(const Spin<U, D, S>&)> B, unsigned dDepth, unsigned nDepth) + : L(L), s0(L), dict(L, dDepth), Z(Z), B(B), dDepth(dDepth), nDepth(nDepth) { std::array<double, D> ini_sequence; ini_sequence.fill(1); std::list<std::array<double, D>> sequences; @@ -345,82 +354,71 @@ public: E = 0; for (unsigned i = 0; i < s.size(); i++) { for (unsigned j = 0; j < i; j++) { - E -= Z(s[i], s[j]); + E -= Z(s[i], s[j]); } E -= B(s0.inverse().act(s[i])); } } - void step(double T, unsigned ind, Euclidean<U, D> r, std::mt19937 &rng) { + void step(double T, unsigned ind, Euclidean<U, D> r, std::mt19937& rng) { unsigned cluster_size = 0; std::uniform_real_distribution<double> dist(0.0, 1.0); - std::queue<unsigned> queue; - queue.push(ind); + std::queue<Spin<U, D, S>*> queue; + queue.push(&(s[ind])); - std::vector<bool> visited(s.size() + 1, false); + std::set<Spin<U, D, S>*> visited; while (!queue.empty()) { - unsigned i = queue.front(); + Spin<U, D, S>* si = queue.front(); queue.pop(); - if (!visited[i]) { - visited[i] = true; - - bool we_are_ghost = i == s.size(); - - Spin<U, D, state> si_new; - Euclidean<U, D> s0_new(L); + if (!visited.contains(si)) { + visited.insert(si); - if (we_are_ghost) { - s0_new = r.act(s0); + if (si == NULL) { + Euclidean<U, D> s0_new = r.act(s0); + for (Spin<U, D, S>& ss : s) { + Spin<U, D, S> s0s_old = s0.inverse().act(ss); + Spin<U, D, S> s0s_new = s0_new.inverse().act(ss); + double p = 1.0 - exp(-(B(s0s_new) - B(s0s_old)) / T); + if (dist(rng) < p) { + queue.push(&ss); + } + s0 = s0_new; + } } else { - si_new = r.act(s[i]); - } - - for (unsigned j : neighbors(*this, i, si_new)) { - if (j != i) { - double p; - bool neighbor_is_ghost = j == s.size(); - - if (we_are_ghost || neighbor_is_ghost) { - Spin<U, D, state> s0s_old, s0s_new; - unsigned non_ghost; - - if (neighbor_is_ghost) { - non_ghost = i; - s0s_old = s0.inverse().act(s[i]); - s0s_new = s0.inverse().act(si_new); + Spin<U, D, S> si_new = r.act(*si); + std::set<Spin<U, D, S>*> all_neighbors; + std::set<Spin<U, D, S>*> current_neighbors = dict.neighbors(si->x, nDepth); + std::set<Spin<U, D, S>*> new_neighbors = dict.neighbors(si_new.x, nDepth); + + all_neighbors.insert(current_neighbors.begin(), current_neighbors.end()); + all_neighbors.insert(new_neighbors.begin(), new_neighbors.end()); + all_neighbors.insert(NULL); + for (Spin<U, D, S>* sj : all_neighbors) { + if (sj != si) { + double p; + if (sj == NULL) { + Spin<U, D, S> s0s_old = s0.inverse().act(*si); + Spin<U, D, S> s0s_new = s0.inverse().act(si_new); + p = 1.0 - exp(-(B(s0s_new) - B(s0s_old)) / T); } else { - non_ghost = j; - s0s_old = s0.inverse().act(s[j]); - s0s_new = s0_new.inverse().act(s[j]); + p = 1.0 - exp(-(Z(si_new, *sj) - Z(*si, *sj)) / T); + } + if (dist(rng) < p) { + queue.push(sj); } - - p = 1.0 - exp(-(B(s0s_new) - B(s0s_old)) / T); - } else { - p = 1.0 - exp(-(Z(si_new, s[j]) - Z(s[i], s[j])) / T); - } - - if (dist(rng) < p) { - queue.push(j); } } - } - - if (we_are_ghost) { - s0 = s0_new; - } else { - dict.remove(s[i].x, i); - s[i] = si_new; - dict.record(s[i].x, i); + dict.remove(si); + *si = si_new; + dict.insert(si); cluster_size++; } } } - - Cq.add(cluster_size); } void wolff(double T, unsigned N, std::mt19937& rng) { @@ -457,7 +455,6 @@ public: this->step(T, ind_dist(rng), g, rng); this->update_energy(); - Eq.add(E); } } }; diff --git a/spheres.cpp b/spheres.cpp index b0f4fb4..633a26a 100644 --- a/spheres.cpp +++ b/spheres.cpp @@ -34,65 +34,49 @@ int main(int argc, char* argv[]) { } } - std::function<double(spin<double, D, double>, spin<double, D, double>, spin<double, D, double>)> Z = - [L] (spin<double, D, double> s1, spin<double, D, double> s2, spin<double, D, double> s1_new) -> double { - vector<double, D> diff_old = diff(L, s1.x, s2.x); - vector<double, D> diff_new = diff(L, s1_new.x, s2.x); + std::function<double(const Spin<double, D, double>&, const Spin<double, D, double>&)> Z = + [L] (const Spin<double, D, double>& s1, const Spin<double, D, double>& s2) -> double { + Vector<double, D> d = diff(L, s1.x, s2.x); double rad_sum = pow(s1.s + s2.s, 2); - bool old_overlap = diff_old.transpose() * diff_old < rad_sum; - bool new_overlap = diff_new.transpose() * diff_new < rad_sum; + bool overlap = d.transpose() * d < rad_sum; - if (new_overlap) { - return 1.0; + if (overlap) { + return -1e8; } else { - return 0.0; + return 0; } }; - std::function<double(spin<double, D, double>)> B = - [L, H] (spin<double, D, double> s) -> double { + std::function<double(Spin<double, D, double>)> B = + [L, H] (Spin<double, D, double> s) -> double { return H * sin(2 * M_PI * 3 * s.x(0) / L); }; - std::function<std::set<unsigned>(model<double, D, double>&, unsigned, spin<double, D, double>)> neighbors = - [] (model<double, D, double>& m, unsigned i0, spin<double, D, double> s1) -> std::set<unsigned> { - std::set<unsigned> nn; - if (i0 < m.s.size()) { - std::set<unsigned> n_old = m.dict.neighbors(m.s[i0].x, 1); - std::set<unsigned> n_new = m.dict.neighbors(s1.x, 1);; - nn.insert(n_old.begin(), n_old.end()); - nn.insert(n_new.begin(), n_new.end()); - nn.insert(m.s.size()); - } else { - for (unsigned i = 0; i < m.s.size(); i++) { - nn.insert(i); - } - } - return nn; - }; - - model<double, D, double> sphere(L, Z, B, neighbors); + Model<double, D, double> sphere(L, Z, B, std::floor(log2(L)), 2); randutils::auto_seed_128 seeds; std::mt19937 rng{seeds}; std::uniform_real_distribution<double> dist(0.0, L); + sphere.s.reserve(n); + for (unsigned i = 0; i < n; i++) { - vector<double, D> pos = {dist(rng), dist(rng)}; + Vector<double, D> pos = {dist(rng), dist(rng)}; sphere.s.push_back({pos, 0.5}); - sphere.dict.record<double>(pos, i); + sphere.dict.insert(&sphere.s.back()); } + sphere.wolff(T, N, rng); std::ofstream snapfile; snapfile.open("sphere_snap.dat"); - for (spin<double, D, double> s : sphere.s) { - spin<double, D, double> rs = sphere.s0.inverse().act(s); + for (Spin<double, D, double> s : sphere.s) { + Spin<double, D, double> rs = sphere.s0.inverse().act(s); snapfile << rs.x.transpose() << "\n"; } |