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#ifndef _DTRAIN_KSAMPLER_H_
#define _DTRAIN_KSAMPLER_H_
#include "hg_sampler.h"
namespace dtrain
{
bool
cmp_hyp_by_model_d(ScoredHyp a, ScoredHyp b)
{
return a.model > b.model;
}
struct KSampler : public HypSampler
{
const unsigned k_;
vector<ScoredHyp> s_;
MT19937* prng_;
score_t (*scorer)(NgramCounts&, const unsigned, const unsigned, unsigned, vector<score_t>);
unsigned src_len_;
explicit KSampler(const unsigned k, MT19937* prng) :
k_(k), prng_(prng) {}
virtual void
NotifyTranslationForest(const SentenceMetadata& smeta, Hypergraph* hg)
{
src_len_ = smeta.GetSourceLength();
ScoredSamples(*hg);
}
vector<ScoredHyp>* GetSamples() { return &s_; }
void ScoredSamples(const Hypergraph& forest) {
s_.clear(); sz_ = f_count_ = 0;
std::vector<HypergraphSampler::Hypothesis> samples;
HypergraphSampler::sample_hypotheses(forest, k_, prng_, &samples);
for (unsigned i = 0; i < k_; ++i) {
ScoredHyp h;
h.w = samples[i].words;
h.f = samples[i].fmap;
h.model = log(samples[i].model_score);
h.rank = i;
h.score = scorer_->Score(h.w, *refs_, i, src_len_);
s_.push_back(h);
sz_++;
f_count_ += h.f.size();
}
sort(s_.begin(), s_.end(), cmp_hyp_by_model_d);
for (unsigned i = 0; i < s_.size(); i++) s_[i].rank = i;
}
};
} // namespace
#endif
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