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#include "search/vertex_generator.hh"
#include "lm/left.hh"
#include "search/context.hh"
#include "search/edge.hh"
#include <stdint.h>
namespace search {
VertexGenerator::VertexGenerator(ContextBase &context, Vertex &gen) : context_(context), gen_(gen) {
gen.root_.InitRoot();
root_.under = &gen.root_;
}
namespace {
const uint64_t kCompleteAdd = static_cast<uint64_t>(-1);
} // namespace
void VertexGenerator::NewHypothesis(const PartialEdge &partial, Note note) {
const lm::ngram::ChartState &state = partial.CompletedState();
std::pair<Existing::iterator, bool> got(existing_.insert(std::pair<uint64_t, Final*>(hash_value(state), NULL)));
if (!got.second) {
// Found it already.
Final &exists = *got.first->second;
if (exists.Bound() < partial.score) {
exists.Reset(partial.score, note, partial.nt[0].End(), partial.nt[1].End());
}
return;
}
unsigned char left = 0, right = 0;
Trie *node = &root_;
while (true) {
if (left == state.left.length) {
node = &FindOrInsert(*node, kCompleteAdd - state.left.full, state, left, true, right, false);
for (; right < state.right.length; ++right) {
node = &FindOrInsert(*node, state.right.words[right], state, left, true, right + 1, false);
}
break;
}
node = &FindOrInsert(*node, state.left.pointers[left], state, left + 1, false, right, false);
left++;
if (right == state.right.length) {
node = &FindOrInsert(*node, kCompleteAdd - state.left.full, state, left, false, right, true);
for (; left < state.left.length; ++left) {
node = &FindOrInsert(*node, state.left.pointers[left], state, left + 1, false, right, true);
}
break;
}
node = &FindOrInsert(*node, state.right.words[right], state, left, false, right + 1, false);
right++;
}
node = &FindOrInsert(*node, kCompleteAdd - state.left.full, state, state.left.length, true, state.right.length, true);
got.first->second = CompleteTransition(*node, state, note, partial);
}
VertexGenerator::Trie &VertexGenerator::FindOrInsert(VertexGenerator::Trie &node, uint64_t added, const lm::ngram::ChartState &state, unsigned char left, bool left_full, unsigned char right, bool right_full) {
VertexGenerator::Trie &next = node.extend[added];
if (!next.under) {
next.under = context_.NewVertexNode();
lm::ngram::ChartState &writing = next.under->MutableState();
writing = state;
writing.left.full &= left_full && state.left.full;
next.under->MutableRightFull() = right_full && state.left.full;
writing.left.length = left;
writing.right.length = right;
node.under->AddExtend(next.under);
}
return next;
}
Final *VertexGenerator::CompleteTransition(VertexGenerator::Trie &starter, const lm::ngram::ChartState &state, Note note, const PartialEdge &partial) {
VertexNode &node = *starter.under;
assert(node.State().left.full == state.left.full);
assert(!node.End());
Final *final = context_.NewFinal();
final->Reset(partial.score, note, partial.nt[0].End(), partial.nt[1].End());
node.SetEnd(final);
return final;
}
} // namespace search
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