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#ifndef _MFCR_H_
#define _MFCR_H_
#include <algorithm>
#include <numeric>
#include <cassert>
#include <cmath>
#include <list>
#include <iostream>
#include <vector>
#include <iterator>
#include <tr1/unordered_map>
#include <boost/functional/hash.hpp>
#include "sampler.h"
#include "slice_sampler.h"
#include "m.h"
struct TableCount {
TableCount() : count(), floor() {}
TableCount(int c, int f) : count(c), floor(f) {
assert(f >= 0);
}
int count; // count or delta (may be 0, <0, or >0)
unsigned char floor; // from which floor?
};
std::ostream& operator<<(std::ostream& o, const TableCount& tc) {
return o << "[c=" << tc.count << " floor=" << static_cast<unsigned int>(tc.floor) << ']';
}
// Multi-Floor Chinese Restaurant as proposed by Wood & Teh (AISTATS, 2009) to simulate
// graphical Pitman-Yor processes.
// http://jmlr.csail.mit.edu/proceedings/papers/v5/wood09a/wood09a.pdf
//
// Implementation is based on Blunsom, Cohn, Goldwater, & Johnson (ACL 2009) and code
// referenced therein.
// http://www.aclweb.org/anthology/P/P09/P09-2085.pdf
//
template <unsigned Floors, typename Dish, typename DishHash = boost::hash<Dish> >
class MFCR {
public:
MFCR(double d, double strength) :
num_tables_(),
num_customers_(),
discount_(d),
strength_(strength),
discount_prior_strength_(std::numeric_limits<double>::quiet_NaN()),
discount_prior_beta_(std::numeric_limits<double>::quiet_NaN()),
strength_prior_shape_(std::numeric_limits<double>::quiet_NaN()),
strength_prior_rate_(std::numeric_limits<double>::quiet_NaN()) { check_hyperparameters(); }
MFCR(double discount_strength, double discount_beta, double strength_shape, double strength_rate, double d = 0.9, double strength = 10.0) :
num_tables_(),
num_customers_(),
discount_(d),
strength_(strength),
discount_prior_strength_(discount_strength),
discount_prior_beta_(discount_beta),
strength_prior_shape_(strength_shape),
strength_prior_rate_(strength_rate) { check_hyperparameters(); }
void check_hyperparameters() {
if (discount_ < 0.0 || discount_ >= 1.0) {
std::cerr << "Bad discount: " << discount_ << std::endl;
abort();
}
if (strength_ <= -discount_) {
std::cerr << "Bad strength: " << strength_ << " (discount=" << discount_ << ")" << std::endl;
abort();
}
}
double discount() const { return discount_; }
double strength() const { return strength_; }
void set_hyperparameters(double d, double s) {
discount_ = d; strength_ = s;
check_hyperparameters();
}
void set_discount(double d) { discount_ = d; check_hyperparameters(); }
void set_strength(double a) { strength_ = a; check_hyperparameters(); }
bool has_discount_prior() const {
return !std::isnan(discount_prior_strength_);
}
bool has_strength_prior() const {
return !std::isnan(strength_prior_shape_);
}
void clear() {
num_tables_ = 0;
num_customers_ = 0;
dish_locs_.clear();
}
unsigned num_tables() const {
return num_tables_;
}
unsigned num_tables(const Dish& dish) const {
const typename std::tr1::unordered_map<Dish, DishLocations, DishHash>::const_iterator it = dish_locs_.find(dish);
if (it == dish_locs_.end()) return 0;
return it->second.table_counts_.size();
}
// this is not terribly efficient but it should not typically be necessary to execute this query
unsigned num_tables(const Dish& dish, const unsigned floor) const {
const typename std::tr1::unordered_map<Dish, DishLocations, DishHash>::const_iterator it = dish_locs_.find(dish);
if (it == dish_locs_.end()) return 0;
unsigned c = 0;
for (typename std::list<TableCount>::const_iterator i = it->second.table_counts_.begin();
i != it->second.table_counts_.end(); ++i) {
if (i->floor == floor) ++c;
}
return c;
}
unsigned num_customers() const {
return num_customers_;
}
unsigned num_customers(const Dish& dish) const {
const typename std::tr1::unordered_map<Dish, DishLocations, DishHash>::const_iterator it = dish_locs_.find(dish);
if (it == dish_locs_.end()) return 0;
return it->total_dish_count_;
}
// returns (delta, floor) indicating whether a new table (delta) was opened and on which floor
template <class InputIterator, class InputIterator2>
TableCount increment(const Dish& dish, InputIterator p0s, InputIterator2 lambdas, MT19937* rng) {
DishLocations& loc = dish_locs_[dish];
// marg_p0 = marginal probability of opening a new table on any floor with label dish
typedef typename std::iterator_traits<InputIterator>::value_type F;
const F marg_p0 = std::inner_product(p0s, p0s + Floors, lambdas, F(0.0));
assert(marg_p0 <= F(1.0001));
int floor = -1;
bool share_table = false;
if (loc.total_dish_count_) {
const F p_empty = F(strength_ + num_tables_ * discount_) * marg_p0;
const F p_share = F(loc.total_dish_count_ - loc.table_counts_.size() * discount_);
share_table = rng->SelectSample(p_empty, p_share);
}
if (share_table) {
// this can be done with doubles since P0 (which may be tiny) is not involved
double r = rng->next() * (loc.total_dish_count_ - loc.table_counts_.size() * discount_);
for (typename std::list<TableCount>::iterator ti = loc.table_counts_.begin();
ti != loc.table_counts_.end(); ++ti) {
r -= ti->count - discount_;
if (r <= 0.0) {
++ti->count;
floor = ti->floor;
break;
}
}
if (r > 0.0) {
std::cerr << "Serious error: r=" << r << std::endl;
Print(&std::cerr);
assert(r <= 0.0);
}
} else { // sit at currently empty table -- must sample what floor
if (Floors == 1) {
floor = 0;
} else {
F r = F(rng->next()) * marg_p0;
for (unsigned i = 0; i < Floors; ++i) {
r -= (*p0s) * (*lambdas);
++p0s;
++lambdas;
if (r <= F(0.0)) {
floor = i;
break;
}
}
}
assert(floor >= 0);
loc.table_counts_.push_back(TableCount(1, floor));
++num_tables_;
}
++loc.total_dish_count_;
++num_customers_;
return (share_table ? TableCount(0, floor) : TableCount(1, floor));
}
// returns first = -1 or 0, indicating whether a table was closed, and on what floor (second)
TableCount decrement(const Dish& dish, MT19937* rng) {
DishLocations& loc = dish_locs_[dish];
assert(loc.total_dish_count_);
int floor = -1;
int delta = 0;
if (loc.total_dish_count_ == 1) {
floor = loc.table_counts_.front().floor;
dish_locs_.erase(dish);
--num_tables_;
--num_customers_;
delta = -1;
} else {
// sample customer to remove UNIFORMLY. that is, do NOT use the d
// here. if you do, it will introduce (unwanted) bias!
double r = rng->next() * loc.total_dish_count_;
--loc.total_dish_count_;
--num_customers_;
for (typename std::list<TableCount>::iterator ti = loc.table_counts_.begin();
ti != loc.table_counts_.end(); ++ti) {
r -= ti->count;
if (r <= 0.0) {
floor = ti->floor;
if ((--ti->count) == 0) {
--num_tables_;
delta = -1;
loc.table_counts_.erase(ti);
}
break;
}
}
if (r > 0.0) {
std::cerr << "Serious error: r=" << r << std::endl;
Print(&std::cerr);
assert(r <= 0.0);
}
}
return TableCount(delta, floor);
}
template <class InputIterator, class InputIterator2>
typename std::iterator_traits<InputIterator>::value_type prob(const Dish& dish, InputIterator p0s, InputIterator2 lambdas) const {
typedef typename std::iterator_traits<InputIterator>::value_type F;
const F marg_p0 = std::inner_product(p0s, p0s + Floors, lambdas, F(0.0));
assert(marg_p0 <= F(1.0001));
const typename std::tr1::unordered_map<Dish, DishLocations, DishHash>::const_iterator it = dish_locs_.find(dish);
const F r = F(num_tables_ * discount_ + strength_);
if (it == dish_locs_.end()) {
return r * marg_p0 / F(num_customers_ + strength_);
} else {
return (F(it->second.total_dish_count_ - discount_ * it->second.table_counts_.size()) + F(r * marg_p0)) /
F(num_customers_ + strength_);
}
}
double log_crp_prob() const {
return log_crp_prob(discount_, strength_);
}
// taken from http://en.wikipedia.org/wiki/Chinese_restaurant_process
// does not include draws from G_w's
double log_crp_prob(const double& discount, const double& strength) const {
double lp = 0.0;
if (has_discount_prior())
lp = Md::log_beta_density(discount, discount_prior_strength_, discount_prior_beta_);
if (has_strength_prior())
lp += Md::log_gamma_density(strength + discount, strength_prior_shape_, strength_prior_rate_);
assert(lp <= 0.0);
if (num_customers_) {
if (discount > 0.0) {
const double r = lgamma(1.0 - discount);
if (strength)
lp += lgamma(strength) - lgamma(strength / discount);
lp += - lgamma(strength + num_customers_)
+ num_tables_ * log(discount) + lgamma(strength / discount + num_tables_);
assert(std::isfinite(lp));
for (typename std::tr1::unordered_map<Dish, DishLocations, DishHash>::const_iterator it = dish_locs_.begin();
it != dish_locs_.end(); ++it) {
const DishLocations& cur = it->second;
for (std::list<TableCount>::const_iterator ti = cur.table_counts_.begin(); ti != cur.table_counts_.end(); ++ti) {
lp += lgamma(ti->count - discount) - r;
}
}
} else if (!discount) { // discount == 0.0
lp += lgamma(strength) + num_tables_ * log(strength) - lgamma(strength + num_tables_);
assert(std::isfinite(lp));
for (typename std::tr1::unordered_map<Dish, DishLocations, DishHash>::const_iterator it = dish_locs_.begin();
it != dish_locs_.end(); ++it) {
const DishLocations& cur = it->second;
lp += lgamma(cur.table_counts_.size());
}
} else {
assert(!"discount less than 0 detected!");
}
}
assert(std::isfinite(lp));
return lp;
}
void resample_hyperparameters(MT19937* rng, const unsigned nloop = 5, const unsigned niterations = 10) {
assert(has_discount_prior() || has_strength_prior());
DiscountResampler dr(*this);
StrengthResampler sr(*this);
for (int iter = 0; iter < nloop; ++iter) {
if (has_strength_prior()) {
strength_ = slice_sampler1d(sr, strength_, *rng, -discount_,
std::numeric_limits<double>::infinity(), 0.0, niterations, 100*niterations);
}
if (has_discount_prior()) {
double min_discount = std::numeric_limits<double>::min();
if (strength_ < 0.0) min_discount -= strength_;
discount_ = slice_sampler1d(dr, discount_, *rng, min_discount,
1.0, 0.0, niterations, 100*niterations);
}
}
strength_ = slice_sampler1d(sr, strength_, *rng, -discount_,
std::numeric_limits<double>::infinity(), 0.0, niterations, 100*niterations);
}
struct DiscountResampler {
DiscountResampler(const MFCR& crp) : crp_(crp) {}
const MFCR& crp_;
double operator()(const double& proposed_d) const {
return crp_.log_crp_prob(proposed_d, crp_.strength_);
}
};
struct StrengthResampler {
StrengthResampler(const MFCR& crp) : crp_(crp) {}
const MFCR& crp_;
double operator()(const double& proposediscount_strength) const {
return crp_.log_crp_prob(crp_.discount_, proposediscount_strength);
}
};
struct DishLocations {
DishLocations() : total_dish_count_() {}
unsigned total_dish_count_; // customers at all tables with this dish
std::list<TableCount> table_counts_; // list<> gives O(1) deletion and insertion, which we want
// .size() is the number of tables for this dish
};
void Print(std::ostream* out) const {
(*out) << "MFCR<" << Floors << ">(d=" << discount_ << ",strength=" << strength_ << ") customers=" << num_customers_ << std::endl;
for (typename std::tr1::unordered_map<Dish, DishLocations, DishHash>::const_iterator it = dish_locs_.begin();
it != dish_locs_.end(); ++it) {
(*out) << it->first << " (" << it->second.total_dish_count_ << " on " << it->second.table_counts_.size() << " tables): ";
for (typename std::list<TableCount>::const_iterator i = it->second.table_counts_.begin();
i != it->second.table_counts_.end(); ++i) {
(*out) << " " << *i;
}
(*out) << std::endl;
}
}
typedef typename std::tr1::unordered_map<Dish, DishLocations, DishHash>::const_iterator const_iterator;
const_iterator begin() const {
return dish_locs_.begin();
}
const_iterator end() const {
return dish_locs_.end();
}
unsigned num_tables_;
unsigned num_customers_;
std::tr1::unordered_map<Dish, DishLocations, DishHash> dish_locs_;
double discount_;
double strength_;
// optional beta prior on discount_ (NaN if no prior)
double discount_prior_strength_;
double discount_prior_beta_;
// optional gamma prior on strength_ (NaN if no prior)
double strength_prior_shape_;
double strength_prior_rate_;
};
template <unsigned N,typename T,typename H>
std::ostream& operator<<(std::ostream& o, const MFCR<N,T,H>& c) {
c.Print(&o);
return o;
}
#endif
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