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Diffstat (limited to 'glass.cpp')
| -rw-r--r-- | glass.cpp | 553 |
1 files changed, 0 insertions, 553 deletions
diff --git a/glass.cpp b/glass.cpp deleted file mode 100644 index f2f44c1..0000000 --- a/glass.cpp +++ /dev/null @@ -1,553 +0,0 @@ -#include <eigen3/Eigen/Dense> -#include <eigen3/Eigen/src/Core/CwiseNullaryOp.h> -#include <iostream> -#include <list> -#include <vector> -#include <queue> - -#include "pcg-cpp/include/pcg_random.hpp" -#include "randutils/randutils.hpp" - -using Rng = randutils::random_generator<pcg32>; - -template <int D> using Vector = Eigen::Matrix<int, D, 1>; -template <int D> using Matrix = Eigen::Matrix<int, D, D>; - -int iPow(int x, unsigned p) { - if (p == 0) - return 1; - if (p == 1) - return x; - - int tmp = iPow(x, p / 2); - if (p % 2 == 0) - return tmp * tmp; - else - return x * tmp * tmp; -} - -unsigned mod(signed a, unsigned b) { - return ((a < 0) ? (a + (1 - a / (signed)b) * b) : a) % b; -} - -template <int D, typename Derived> Vector<D> mod(const Eigen::MatrixBase<Derived>& v, unsigned b) { - Vector<D> u; - for (unsigned i = 0; i < D; i++) { - u(i) = mod(v(i), b); - } - return u; -} - -template <int D> void one_sequences(std::list<std::array<double, D>>& sequences, unsigned level) { - if (level > 0) { - unsigned new_level = level - 1; - unsigned old_length = sequences.size(); - for (std::array<double, D>& sequence : sequences) { - std::array<double, D> new_sequence = sequence; - new_sequence[new_level] = -1; - sequences.push_front(new_sequence); - } - one_sequences<D>(sequences, new_level); - } -} - -template <unsigned D> std::vector<Matrix<D>> generateTorusMatrices() { - std::vector<Matrix<D>> mats; - - std::array<double, D> ini_sequence; - ini_sequence.fill(1); - std::list<std::array<double, D>> sequences; - sequences.push_back(ini_sequence); - - one_sequences<D>(sequences, D); - - sequences.pop_back(); // don't want the identity matrix! - - for (std::array<double, D> sequence : sequences) { - Matrix<D> m; - for (unsigned i = 0; i < D; i++) { - for (unsigned j = 0; j < D; j++) { - if (i == j) { - m(i, j) = sequence[i]; - } else { - m(i, j) = 0; - } - } - } - - mats.push_back(m); - } - - for (unsigned i = 0; i < D; i++) { - for (unsigned j = 0; j < D; j++) { - if (i != j) { - Matrix<D> m; - for (unsigned k = 0; k < D; k++) { - for (unsigned l = 0; l < D; l++) { - if ((k == i && l == j) || (k == j && l == i)) { - if (i < j) { - m(k, l) = 1; - } else { - m(k, l) = -1; - } - } else if (k == l && (k != i && k != j)) { - m(k, l) = 1; - } else { - m(k, l) = 0; - } - } - } - mats.push_back(m); - } - } - } - - return mats; -} - -template <unsigned D> class State : public Vector<D> { -public: - State() : Vector<D>(Vector<D>::Zero()) {} - - State(const Vector<D>& v) : Vector<D>(v) {} - - State(unsigned a, signed b) : Vector<D>(Vector<D>::Zero()) { this->operator()(a) = b; } - - State(Rng& r) : State(r.uniform((unsigned)0, D - 1), r.pick({-1, 1})) {} - - bool isEmpty() const { return this->squaredNorm() == 0; } - - void remove() { this->setZero(); } - - State<D> flip() const { - State<D> s; - for (unsigned i = 0; i < D; i++) { - s(i) = -this->operator()(i); - } - return s; - } -}; - -template <unsigned D> class Transformation { - public: - unsigned L; - Matrix<D> m; - Vector<D> v; - - Transformation(unsigned L) : L(L) { - m.setIdentity(); - v.setZero(); - } - - Transformation(unsigned L, const Matrix<D>& m, const Vector<D>& v) : L(L), m(m), v(v) {} - - Transformation(unsigned L, const std::vector<Matrix<D>>& ms, Rng& r) : m(r.pick(ms)), L(L) { - for (unsigned i = 0; i < D; i++) { - v[i] = r.uniform((unsigned)0, L - 1); - } - - v = v - m * v; - } - - Vector<D> apply(const Vector<D>& x) const { - return mod<D>(v + m * x, L); - } - - Transformation<D> apply(const Transformation<D>& t) const { - Transformation<D> tNew(L); - - tNew.m = m * t.m; - tNew.v = apply(t.v); - - return tNew; - } - - State<D> apply(const State<D>& x) const { - return State<D>(m * x); - } - - Transformation<D> inverse() const { - return Transformation<D>(L, m.transpose(), -m.transpose() * v); - } -}; - -template <unsigned D> class HalfEdge; - -template <unsigned D> class Vertex { -public: - Vector<D> position; - State<D> state; - std::vector<HalfEdge<D>> adjacentEdges; - bool marked; - - bool isEmpty() const { return state.isEmpty(); } -}; - -template <unsigned D> class HalfEdge { -public: - Vertex<D>& neighbor; - Vector<D> Δx; - - HalfEdge(Vertex<D>& n, const Vector<D>& d) : neighbor(n), Δx(d) {} -}; - -template <unsigned D> class System { -public: - const unsigned L; - unsigned N; - std::vector<Vertex<D>> vertices; - Transformation<D> orientation; - - unsigned vectorToIndex(const Vector<D>& x) const { - unsigned i = 0; - for (unsigned d = 0; d < D; d++) { - i += x[d] * iPow(L, d); - } - return i; - } - - Vector<D> indexToVector(unsigned i) const { - Vector<D> x; - for (unsigned d = 0; d < D; d++) { - x[d] = (i / iPow(L, d)) % L; - } - return x; - } - - System(unsigned L) : L(L), N(0), vertices(iPow(L, D)), orientation(L) { - for (unsigned i = 0; i < iPow(L, D); i++) { - vertices[i].position = indexToVector(i); - vertices[i].adjacentEdges.reserve(2 * D); - vertices[i].marked = false; - } - - for (unsigned d = 0; d < D; d++) { - Vector<D> Δx = Vector<D>::Zero(); - Δx[d] = 1; - for (signed i = 0; i < iPow(L, D); i++) { - unsigned j = iPow(L, d + 1) * (i / iPow(L, d + 1)) + mod(i + iPow(L, d), pow(L, d + 1)); - vertices[i].adjacentEdges.push_back(HalfEdge<D>(vertices[j], Δx)); - vertices[j].adjacentEdges.push_back(HalfEdge<D>(vertices[i], -Δx)); - } - } - } - - std::list<std::reference_wrapper<Vertex<D>>> overlaps(Vertex<D>& v, const State<D>& s, - bool excludeSelf = false) { - std::list<std::reference_wrapper<Vertex<D>>> o; - - if (s.isEmpty()) { - return o; - } - - if (!v.isEmpty() && !excludeSelf) { - o.push_back(v); - } - - for (const HalfEdge<D>& e : v.adjacentEdges) { - if (!e.neighbor.isEmpty()) { - if (s.dot(e.Δx) == 1 || e.neighbor.state.dot(e.Δx) == -1) { - o.push_back(e.neighbor); - } - } - } - - return o; - } - - bool insert(Vertex<D>& v, const State<D>& s) { - if (overlaps(v, s).empty()) { - v.state = s; - N++; - return true; - } else { - return false; - } - } - - bool tryDeletion(Vertex<D>& v) { - if (v.isEmpty()) { - return false; - } else { - v.state.remove(); - N--; - return true; - } - } - - bool tryRandomMove(Rng& r) { - Vertex<D>& v = r.pick(vertices); - State<D> oldState = v.state; - - if (!tryDeletion(v)) { - return false; - } - - if (1.0 / (2.0 * D) > r.uniform(0.0, 1.0)) { - for (HalfEdge<D>& e : v.adjacentEdges) { - if (1 == e.Δx.dot(oldState)) { - if (insert(e.neighbor, oldState.flip())) { - return true; - } - break; - } - } - } else { - State<D> newState(r); - while (newState.dot(oldState) == 1) { - newState = State<D>(r); - } - if (insert(v, newState)) { - return true; - } - } - v.state = oldState; - N++; - return false; - } - - bool trySwap(Vertex<D>& v1, Vertex<D>& v2) { - if (overlaps(v1, v2.state, true).size() == 0 && overlaps(v2, v1.state, true).size() == 0) { - std::swap(v1.state, v2.state); - return true; - } else { - return false; - } - } - - bool tryRandomSwap(Rng& r) { - Vertex<D>& v1 = r.pick(vertices); - Vertex<D>& v2 = r.pick(vertices); - - return trySwap(v1, v2); - } - - void setGroundState() { - N = 0; - - for (Vertex<D>& v : vertices) { - unsigned a = 0; - for (unsigned d = 0; d < D; d++) { - a += (d + 1) * v.position(d); - } - a %= 2 * D + 1; - - v.state.setZero() = Vector<D>::Zero(); - - if (0 < a && a <= D) { - v.state(a - 1) = -1; - N++; - } else if (D < a) { - v.state(2 * D - a) = 1; - N++; - } - } - } - - bool compatible() { - for (Vertex<D>& v : vertices) { - if (overlaps(v, v.state, true).size() > 0) { - return false; - } - } - - return true; - } - - double density() const { return N / pow(L, D); } - - unsigned maxOccupation() const { - // return (2 * D * iPow(L, D)) / (2 * D + 1); - return iPow(L, D); - } - - void sweepGrandCanonical(double z, Rng& r) { - for (unsigned i = 0; i < iPow(L, D); i++) { - if (0.5 < r.uniform(0.0, 1.0)) { - double pIns = maxOccupation() * z / (N + 1); - - if (pIns > r.uniform(0.0, 1.0)) { - while (true) { - Vertex<D>& v = r.pick(vertices); - if (v.isEmpty()) { - insert(v, State<D>(r)); - break; - } - } - } - } else { - - double pDel = N / (z * maxOccupation()); - - if (pDel > r.uniform(0.0, 1.0)) { - tryDeletion(r.pick(vertices)); - } - } - - tryRandomMove(r); - } - } - - void sweepLocal(Rng& r) { - for (unsigned i = 0; i < iPow(L, D); i++) { - tryRandomMove(r); - } - } - - void sweepSwap(Rng& r) { - for (unsigned i = 0; i < iPow(L, D); i++) { - tryRandomSwap(r); - } - } - - unsigned flipCluster(const Transformation<D>& R, Vertex<D>& v0, Rng& r, bool dry = false) { - std::queue<std::reference_wrapper<Vertex<D>>> q; - q.push(v0); - - unsigned n = 0; - - while (!q.empty()) { - Vertex<D>& v = q.front(); - q.pop(); - - if (!v.marked) { - Vector<D> xNew = R.apply(v.position); - Vertex<D>& vNew = vertices[vectorToIndex(xNew)]; - - v.marked = true; - vNew.marked = true; - - State<D> s = R.apply(v.state); - State<D> sNew = R.apply(vNew.state); - - std::list<std::reference_wrapper<Vertex<D>>> overlaps1 = overlaps(vNew, s, true); - std::list<std::reference_wrapper<Vertex<D>>> overlaps2 = overlaps(v, sNew, true); - overlaps1.splice(overlaps1.begin(), overlaps2); - - for (Vertex<D>& vn : overlaps1) { - if (!vn.marked) { - q.push(vn); - } - } - - if (!dry) { - v.state = sNew; - vNew.state = s; - } - - n += 1; - } - } - - return n; - } - - void swendsenWang(const Transformation<D>& R, Rng& r) { - for (Vertex<D>& v : vertices) { - if (!v.marked) { - bool dry = 0.5 < r.uniform(0.0, 1.0); - unsigned n = flipCluster(R, v, r, dry); - if (n > pow(L, D) / 4 && !dry) { - orientation = R.apply(orientation); - } - } - } - - for (Vertex<D>& v : vertices) { - v.marked = false; - } - } - - int overlap(const System<D>& s) const { - int o = 0; - - for (unsigned i = 0; i < vertices.size(); i++) { - State<D> s2 = orientation.apply(s.vertices[vectorToIndex(orientation.inverse().apply(indexToVector(i)))].state); - o += vertices[i].state.dot(s2); - } - - return o; - } -}; - -void print(const System<2>& s) { - for (const Vertex<2>& v : s.vertices) { - if (v.state(0) == 1 && v.state(1) == 0) { - std::cerr << "▶"; - } else if (v.state(0) == -1 && v.state(1) == 0) { - std::cerr << "◀"; - } else if (v.state(0) == 0 && v.state(1) == -1) { - std::cerr << "▲"; - } else if (v.state(0) == 0 && v.state(1) == 1) { - std::cerr << "▼"; - } else if (v.state(0) == 0 && v.state(1) == 0) { - std::cerr << " "; - } else { - std::cerr << "X"; - } - - if (v.position(0) == s.L - 1) { - std::cerr << std::endl; - } - } -} - -template <unsigned D> Vector<D> randomVector(unsigned L, Rng& r) { - Vector<D> x; - for (unsigned i = 0; i < D; i++) { - x[i] = r.uniform((unsigned)0, L - 1); - } - return x; -} - -int main() { - const unsigned D = 3; - unsigned L = 15; - unsigned Nmin = 2e2; - unsigned Nmax = 2e5; - double Tmin = 0.04; - double Tmax = 0.2; - double δT = 0.02; - - System<D> s(L); - - Rng r; - - double z = exp(1 / 0.08); - - while (s.density() < 0.818) { - s.sweepGrandCanonical(z, r); - } - - if (!s.compatible()) { - std::cerr << "Net compatible!" << std::endl; - return 1; - } - - std::cerr << "Found state with appropriate density." << std::endl; - - System<D> s0 = s; - - std::vector<Matrix<D>> ms = generateTorusMatrices<D>(); - - unsigned n = 1; - for (unsigned i = 0; i < 1e5; i++) { - if (n < 20 * log(i + 1)) { - n++; - std::cout << i << " " << s.overlap(s0) << std::endl; - } - Matrix<D> m = r.pick(ms); - Vertex<D>& v = r.pick(s.vertices); - unsigned nC = s.flipCluster(Transformation<D>(L, m, v.position - m * v.position), v, r); - std::cerr << nC << std::endl; - for (Vertex<D>& v : s.vertices) { - v.marked = false; - } -// s.sweepLocal(r); -// s.sweepSwap(r); -// s.swendsenWang(Transformation<D>(L, ms, r), r); - } - - return 0; -} - |