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authorredpony <redpony@ec762483-ff6d-05da-a07a-a48fb63a330f>2010-06-22 22:31:28 +0000
committerredpony <redpony@ec762483-ff6d-05da-a07a-a48fb63a330f>2010-06-22 22:31:28 +0000
commit9be9a5dde934577de314ce8ac6fb3eb0ba787503 (patch)
tree557cc31667174994d39e741203dc7b155622b9a9 /gi/clda/src/sampler.h
parent2f2ba42a1453f4a3a08f9c1ecfc53c1b1c83d550 (diff)
chris's crappy lda
git-svn-id: https://ws10smt.googlecode.com/svn/trunk@6 ec762483-ff6d-05da-a07a-a48fb63a330f
Diffstat (limited to 'gi/clda/src/sampler.h')
-rw-r--r--gi/clda/src/sampler.h138
1 files changed, 138 insertions, 0 deletions
diff --git a/gi/clda/src/sampler.h b/gi/clda/src/sampler.h
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+#ifndef SAMPLER_H_
+#define SAMPLER_H_
+
+#include <algorithm>
+#include <functional>
+#include <numeric>
+#include <iostream>
+#include <fstream>
+#include <vector>
+
+#include <boost/random/mersenne_twister.hpp>
+#include <boost/random/uniform_real.hpp>
+#include <boost/random/variate_generator.hpp>
+#include <boost/random/normal_distribution.hpp>
+#include <boost/random/poisson_distribution.hpp>
+
+#include "prob.h"
+
+struct SampleSet;
+
+template <typename RNG>
+struct RandomNumberGenerator {
+ static uint32_t GetTrulyRandomSeed() {
+ uint32_t seed;
+ std::ifstream r("/dev/urandom");
+ if (r) {
+ r.read((char*)&seed,sizeof(uint32_t));
+ }
+ if (r.fail() || !r) {
+ std::cerr << "Warning: could not read from /dev/urandom. Seeding from clock" << std::endl;
+ seed = time(NULL);
+ }
+ std::cerr << "Seeding random number sequence to " << seed << std::endl;
+ return seed;
+ }
+
+ RandomNumberGenerator() : m_dist(0,1), m_generator(), m_random(m_generator,m_dist) {
+ uint32_t seed = GetTrulyRandomSeed();
+ m_generator.seed(seed);
+ }
+ explicit RandomNumberGenerator(uint32_t seed) : m_dist(0,1), m_generator(), m_random(m_generator,m_dist) {
+ if (!seed) seed = GetTrulyRandomSeed();
+ m_generator.seed(seed);
+ }
+
+ size_t SelectSample(const prob_t& a, const prob_t& b, double T = 1.0) {
+ if (T == 1.0) {
+ if (this->next() > (a / (a + b))) return 1; else return 0;
+ } else {
+ assert(!"not implemented");
+ }
+ }
+
+ // T is the annealing temperature, if desired
+ size_t SelectSample(const SampleSet& ss, double T = 1.0);
+
+ // draw a value from U(0,1)
+ double next() {return m_random();}
+
+ // draw a value from N(mean,var)
+ double NextNormal(double mean, double var) {
+ return boost::normal_distribution<double>(mean, var)(m_random);
+ }
+
+ // draw a value from a Poisson distribution
+ // lambda must be greater than 0
+ int NextPoisson(int lambda) {
+ return boost::poisson_distribution<int>(lambda)(m_random);
+ }
+
+ bool AcceptMetropolisHastings(const prob_t& p_cur,
+ const prob_t& p_prev,
+ const prob_t& q_cur,
+ const prob_t& q_prev) {
+ const prob_t a = (p_cur / p_prev) * (q_prev / q_cur);
+ if (log(a) >= 0.0) return true;
+ return (prob_t(this->next()) < a);
+ }
+
+ private:
+ boost::uniform_real<> m_dist;
+ RNG m_generator;
+ boost::variate_generator<RNG&, boost::uniform_real<> > m_random;
+};
+
+typedef RandomNumberGenerator<boost::mt19937> MT19937;
+
+class SampleSet {
+ public:
+ const prob_t& operator[](int i) const { return m_scores[i]; }
+ prob_t& operator[](int i) { return m_scores[i]; }
+ bool empty() const { return m_scores.empty(); }
+ void add(const prob_t& s) { m_scores.push_back(s); }
+ void clear() { m_scores.clear(); }
+ size_t size() const { return m_scores.size(); }
+ void resize(int size) { m_scores.resize(size); }
+ std::vector<prob_t> m_scores;
+};
+
+template <typename RNG>
+size_t RandomNumberGenerator<RNG>::SelectSample(const SampleSet& ss, double T) {
+ assert(T > 0.0);
+ assert(ss.m_scores.size() > 0);
+ if (ss.m_scores.size() == 1) return 0;
+ const prob_t annealing_factor(1.0 / T);
+ const bool anneal = (annealing_factor != prob_t::One());
+ prob_t sum = prob_t::Zero();
+ if (anneal) {
+ for (int i = 0; i < ss.m_scores.size(); ++i)
+ sum += ss.m_scores[i].pow(annealing_factor); // p^(1/T)
+ } else {
+ sum = std::accumulate(ss.m_scores.begin(), ss.m_scores.end(), prob_t::Zero());
+ }
+ //for (size_t i = 0; i < ss.m_scores.size(); ++i) std::cerr << ss.m_scores[i] << ",";
+ //std::cerr << std::endl;
+
+ prob_t random(this->next()); // random number between 0 and 1
+ random *= sum; // scale with normalization factor
+ //std::cerr << "Random number " << random << std::endl;
+
+ //now figure out which sample
+ size_t position = 1;
+ sum = ss.m_scores[0];
+ if (anneal) {
+ sum.poweq(annealing_factor);
+ for (; position < ss.m_scores.size() && sum < random; ++position)
+ sum += ss.m_scores[position].pow(annealing_factor);
+ } else {
+ for (; position < ss.m_scores.size() && sum < random; ++position)
+ sum += ss.m_scores[position];
+ }
+ //std::cout << "random: " << random << " sample: " << position << std::endl;
+ //std::cerr << "Sample: " << position-1 << std::endl;
+ //exit(1);
+ return position-1;
+}
+
+#endif