mirror of
https://github.com/moses-smt/mosesdecoder.git
synced 2024-12-27 05:55:02 +03:00
206 lines
5.9 KiB
C++
206 lines
5.9 KiB
C++
#include "search/vertex.hh"
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#include "search/context.hh"
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#include <boost/unordered_map.hpp>
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#include <algorithm>
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#include <functional>
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#include <assert.h>
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namespace search {
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namespace {
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const uint64_t kCompleteAdd = static_cast<uint64_t>(-1);
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class DivideLeft {
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public:
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explicit DivideLeft(unsigned char index)
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: index_(index) {}
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uint64_t operator()(const lm::ngram::ChartState &state) const {
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return (index_ < state.left.length) ?
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state.left.pointers[index_] :
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(kCompleteAdd - state.left.full);
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}
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private:
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unsigned char index_;
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};
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class DivideRight {
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public:
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explicit DivideRight(unsigned char index)
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: index_(index) {}
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uint64_t operator()(const lm::ngram::ChartState &state) const {
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return (index_ < state.right.length) ?
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static_cast<uint64_t>(state.right.words[index_]) :
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(kCompleteAdd - state.left.full);
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}
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private:
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unsigned char index_;
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};
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template <class Divider> void Split(const Divider ÷r, const std::vector<HypoState> &hypos, std::vector<VertexNode> &extend) {
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// Map from divider to index in extend.
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typedef boost::unordered_map<uint64_t, std::size_t> Lookup;
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Lookup lookup;
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for (std::vector<HypoState>::const_iterator i = hypos.begin(); i != hypos.end(); ++i) {
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uint64_t key = divider(i->state);
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std::pair<Lookup::iterator, bool> res(lookup.insert(std::make_pair(key, extend.size())));
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if (res.second) {
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extend.resize(extend.size() + 1);
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extend.back().AppendHypothesis(*i);
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} else {
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extend[res.first->second].AppendHypothesis(*i);
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}
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}
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//assert((extend.size() != 1) || (hypos.size() == 1));
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}
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lm::WordIndex Identify(const lm::ngram::Right &right, unsigned char index) {
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return right.words[index];
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}
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uint64_t Identify(const lm::ngram::Left &left, unsigned char index) {
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return left.pointers[index];
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}
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template <class Side> class DetermineSame {
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public:
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DetermineSame(const Side &side, unsigned char guaranteed)
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: side_(side), guaranteed_(guaranteed), shared_(side.length), complete_(true) {}
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void Consider(const Side &other) {
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if (shared_ != other.length) {
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complete_ = false;
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if (shared_ > other.length)
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shared_ = other.length;
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}
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for (unsigned char i = guaranteed_; i < shared_; ++i) {
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if (Identify(side_, i) != Identify(other, i)) {
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shared_ = i;
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complete_ = false;
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return;
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}
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}
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}
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unsigned char Shared() const { return shared_; }
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bool Complete() const { return complete_; }
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private:
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const Side &side_;
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unsigned char guaranteed_, shared_;
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bool complete_;
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};
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// Custom enum to save memory: valid values of policy_.
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// Alternate and there is still alternation to do.
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const unsigned char kPolicyAlternate = 0;
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// Branch based on left state only, because right ran out or this is a left tree.
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const unsigned char kPolicyOneLeft = 1;
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// Branch based on right state only.
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const unsigned char kPolicyOneRight = 2;
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// Reveal everything in the next branch. Used to terminate the left/right policies.
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// static const unsigned char kPolicyEverything = 3;
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} // namespace
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namespace {
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struct GreaterByScore : public std::binary_function<const HypoState &, const HypoState &, bool> {
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bool operator()(const HypoState &first, const HypoState &second) const {
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return first.score > second.score;
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}
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};
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} // namespace
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void VertexNode::FinishRoot() {
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std::sort(hypos_.begin(), hypos_.end(), GreaterByScore());
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extend_.clear();
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// HACK: extend to one hypo so that root can be blank.
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state_.left.full = false;
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state_.left.length = 0;
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state_.right.length = 0;
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right_full_ = false;
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niceness_ = 0;
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policy_ = kPolicyAlternate;
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if (hypos_.size() == 1) {
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extend_.resize(1);
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extend_.front().AppendHypothesis(hypos_.front());
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extend_.front().FinishedAppending(0, 0);
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}
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if (hypos_.empty()) {
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bound_ = -INFINITY;
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} else {
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bound_ = hypos_.front().score;
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}
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}
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void VertexNode::FinishedAppending(const unsigned char common_left, const unsigned char common_right) {
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assert(!hypos_.empty());
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assert(extend_.empty());
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bound_ = hypos_.front().score;
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state_ = hypos_.front().state;
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bool all_full = state_.left.full;
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bool all_non_full = !state_.left.full;
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DetermineSame<lm::ngram::Left> left(state_.left, common_left);
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DetermineSame<lm::ngram::Right> right(state_.right, common_right);
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for (std::vector<HypoState>::const_iterator i = hypos_.begin() + 1; i != hypos_.end(); ++i) {
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all_full &= i->state.left.full;
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all_non_full &= !i->state.left.full;
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left.Consider(i->state.left);
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right.Consider(i->state.right);
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}
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state_.left.full = all_full && left.Complete();
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right_full_ = all_full && right.Complete();
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state_.left.length = left.Shared();
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state_.right.length = right.Shared();
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if (!all_full && !all_non_full) {
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policy_ = kPolicyAlternate;
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} else if (left.Complete()) {
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policy_ = kPolicyOneRight;
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} else if (right.Complete()) {
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policy_ = kPolicyOneLeft;
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} else {
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policy_ = kPolicyAlternate;
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}
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niceness_ = state_.left.length + state_.right.length;
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}
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void VertexNode::BuildExtend() {
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// Already built.
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if (!extend_.empty()) return;
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// Nothing to build since this is a leaf.
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if (hypos_.size() <= 1) return;
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bool left_branch = true;
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switch (policy_) {
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case kPolicyAlternate:
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left_branch = (state_.left.length <= state_.right.length);
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break;
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case kPolicyOneLeft:
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left_branch = true;
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break;
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case kPolicyOneRight:
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left_branch = false;
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break;
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}
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if (left_branch) {
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Split(DivideLeft(state_.left.length), hypos_, extend_);
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} else {
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Split(DivideRight(state_.right.length), hypos_, extend_);
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}
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for (std::vector<VertexNode>::iterator i = extend_.begin(); i != extend_.end(); ++i) {
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// TODO: provide more here for branching?
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i->FinishedAppending(state_.left.length, state_.right.length);
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}
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}
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} // namespace search
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