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#ifndef _MONOTONIC_PSEG_H_
#define _MONOTONIC_PSEG_H_
#include <vector>
#include "prob.h"
#include "ccrp_nt.h"
#include "trule.h"
#include "base_measures.h"
struct MonotonicParallelSegementationModel {
explicit MonotonicParallelSegementationModel(PhraseJointBase& rcp0) :
rp0(rcp0), base(prob_t::One()), rules(1,1), stop(1.0) {}
void DecrementRule(const TRule& rule) {
if (rules.decrement(rule))
base /= rp0(rule);
}
void IncrementRule(const TRule& rule) {
if (rules.increment(rule))
base *= rp0(rule);
}
void IncrementRulesAndStops(const std::vector<TRulePtr>& rules) {
for (int i = 0; i < rules.size(); ++i)
IncrementRule(*rules[i]);
if (rules.size()) IncrementContinue(rules.size() - 1);
IncrementStop();
}
void DecrementRulesAndStops(const std::vector<TRulePtr>& rules) {
for (int i = 0; i < rules.size(); ++i)
DecrementRule(*rules[i]);
if (rules.size()) {
DecrementContinue(rules.size() - 1);
DecrementStop();
}
}
prob_t RuleProbability(const TRule& rule) const {
prob_t p; p.logeq(rules.logprob(rule, log(rp0(rule))));
return p;
}
prob_t Likelihood() const {
prob_t p = base;
prob_t q; q.logeq(rules.log_crp_prob());
p *= q;
q.logeq(stop.log_crp_prob());
p *= q;
return p;
}
void IncrementStop() {
stop.increment(true);
}
void IncrementContinue(int n = 1) {
for (int i = 0; i < n; ++i)
stop.increment(false);
}
void DecrementStop() {
stop.decrement(true);
}
void DecrementContinue(int n = 1) {
for (int i = 0; i < n; ++i)
stop.decrement(false);
}
prob_t StopProbability() const {
return prob_t(stop.prob(true, 0.5));
}
prob_t ContinueProbability() const {
return prob_t(stop.prob(false, 0.5));
}
const PhraseJointBase& rp0;
prob_t base;
CCRP_NoTable<TRule> rules;
CCRP_NoTable<bool> stop;
};
#endif
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