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#ifndef _VITERBI_H_
#define _VITERBI_H_
#include <vector>
#include "prob.h"
#include "hg.h"
#include "tdict.h"
// V must implement:
// void operator()(const vector<const T*>& ants, T* result);
template<typename T, typename Traversal, typename WeightType, typename WeightFunction>
WeightType Viterbi(const Hypergraph& hg,
T* result,
const Traversal& traverse = Traversal(),
const WeightFunction& weight = WeightFunction()) {
const int num_nodes = hg.nodes_.size();
std::vector<T> vit_result(num_nodes);
std::vector<WeightType> vit_weight(num_nodes, WeightType::Zero());
for (int i = 0; i < num_nodes; ++i) {
const Hypergraph::Node& cur_node = hg.nodes_[i];
WeightType* const cur_node_best_weight = &vit_weight[i];
T* const cur_node_best_result = &vit_result[i];
const int num_in_edges = cur_node.in_edges_.size();
if (num_in_edges == 0) {
*cur_node_best_weight = WeightType(1);
continue;
}
for (int j = 0; j < num_in_edges; ++j) {
const Hypergraph::Edge& edge = hg.edges_[cur_node.in_edges_[j]];
WeightType score = weight(edge);
std::vector<const T*> ants(edge.tail_nodes_.size());
for (int k = 0; k < edge.tail_nodes_.size(); ++k) {
const int tail_node_index = edge.tail_nodes_[k];
score *= vit_weight[tail_node_index];
ants[k] = &vit_result[tail_node_index];
}
if (*cur_node_best_weight < score) {
*cur_node_best_weight = score;
traverse(edge, ants, cur_node_best_result);
}
}
}
std::swap(*result, vit_result.back());
return vit_weight.back();
}
struct PathLengthTraversal {
void operator()(const Hypergraph::Edge& edge,
const std::vector<const int*>& ants,
int* result) const {
(void) edge;
*result = 1;
for (int i = 0; i < ants.size(); ++i) *result += *ants[i];
}
};
struct ESentenceTraversal {
void operator()(const Hypergraph::Edge& edge,
const std::vector<const std::vector<WordID>*>& ants,
std::vector<WordID>* result) const {
edge.rule_->ESubstitute(ants, result);
}
};
struct ELengthTraversal {
void operator()(const Hypergraph::Edge& edge,
const std::vector<const int*>& ants,
int* result) const {
*result = edge.rule_->ELength() - edge.rule_->Arity();
for (int i = 0; i < ants.size(); ++i) *result += *ants[i];
}
};
struct FSentenceTraversal {
void operator()(const Hypergraph::Edge& edge,
const std::vector<const std::vector<WordID>*>& ants,
std::vector<WordID>* result) const {
edge.rule_->FSubstitute(ants, result);
}
};
// create a strings of the form (S (X the man) (X said (X he (X would (X go)))))
struct ETreeTraversal {
ETreeTraversal() : left("("), space(" "), right(")") {}
const std::string left;
const std::string space;
const std::string right;
void operator()(const Hypergraph::Edge& edge,
const std::vector<const std::vector<WordID>*>& ants,
std::vector<WordID>* result) const {
std::vector<WordID> tmp;
edge.rule_->ESubstitute(ants, &tmp);
const std::string cat = TD::Convert(edge.rule_->GetLHS() * -1);
if (cat == "Goal")
result->swap(tmp);
else
TD::ConvertSentence(left + cat + space + TD::GetString(tmp) + right,
result);
}
};
struct FTreeTraversal {
FTreeTraversal() : left("("), space(" "), right(")") {}
const std::string left;
const std::string space;
const std::string right;
void operator()(const Hypergraph::Edge& edge,
const std::vector<const std::vector<WordID>*>& ants,
std::vector<WordID>* result) const {
std::vector<WordID> tmp;
edge.rule_->FSubstitute(ants, &tmp);
const std::string cat = TD::Convert(edge.rule_->GetLHS() * -1);
if (cat == "Goal")
result->swap(tmp);
else
TD::ConvertSentence(left + cat + space + TD::GetString(tmp) + right,
result);
}
};
prob_t ViterbiESentence(const Hypergraph& hg, std::vector<WordID>* result);
std::string ViterbiETree(const Hypergraph& hg);
prob_t ViterbiFSentence(const Hypergraph& hg, std::vector<WordID>* result);
std::string ViterbiFTree(const Hypergraph& hg);
int ViterbiELength(const Hypergraph& hg);
int ViterbiPathLength(const Hypergraph& hg);
#endif
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