From b1e5513ab3012fa58713a64710a641f42161f9d5 Mon Sep 17 00:00:00 2001 From: "Wu, Ke" Date: Sun, 7 Dec 2014 11:01:04 -0500 Subject: Remove unused field in TargetTranslation --- decoder/ff_const_reorder.cc | 41 ++++++++++++++++++----------------------- 1 file changed, 18 insertions(+), 23 deletions(-) (limited to 'decoder') diff --git a/decoder/ff_const_reorder.cc b/decoder/ff_const_reorder.cc index 8874353d..95546793 100644 --- a/decoder/ff_const_reorder.cc +++ b/decoder/ff_const_reorder.cc @@ -66,13 +66,9 @@ inline void NewAndCopyCharArray(char** p, const char* q) { // TODO:to make the alignment more efficient struct TargetTranslation { - typedef vector SingleWordAlign; - TargetTranslation(int begin_pos, int end_pos, int input_begin_pos, - int input_end_pos, int e_num_word) + TargetTranslation(int begin_pos, int end_pos,int e_num_word) : begin_pos_(begin_pos), end_pos_(end_pos), - input_begin_pos_(input_begin_pos), - input_end_pos_(input_end_pos), e_num_words_(e_num_word), vec_left_most_(end_pos - begin_pos + 1, e_num_word), vec_right_most_(end_pos - begin_pos + 1, -1), @@ -179,8 +175,7 @@ struct TargetTranslation { if (target_end == -1) target_begin = -1; } - const uint16_t begin_pos_, end_pos_; // the position in parse - const uint16_t input_begin_pos_, input_end_pos_; // the position in input + const uint16_t begin_pos_, end_pos_; // the position in input const uint16_t e_num_words_; vector align_; @@ -304,6 +299,7 @@ struct ConstReorderFeatureImpl { dict_block_status_->Convert("Discon't", false); dict_block_status_->Convert("Con't", false); } + ~ConstReorderFeatureImpl() { if (const_reorder_classifier_left_) delete const_reorder_classifier_left_; if (const_reorder_classifier_right_) delete const_reorder_classifier_right_; @@ -363,7 +359,7 @@ struct ConstReorderFeatureImpl { void* state) { if (parsed_tree_ == NULL) return; - short int mapped_begin = edge.i_, mapped_end = edge.j_ - 1; + short int begin = edge.i_, end = edge.j_ - 1; typedef TargetTranslation* PtrTargetTranslation; PtrTargetTranslation* remnant = @@ -383,8 +379,7 @@ struct ConstReorderFeatureImpl { e_num_word--; } - remnant[0] = new TargetTranslation(mapped_begin, mapped_end, edge.i_, - edge.j_ - 1, e_num_word); + remnant[0] = new TargetTranslation(begin, end, e_num_word); vec_target_tran_.push_back(remnant[0]); // reset the alignment @@ -398,7 +393,7 @@ struct ConstReorderFeatureImpl { f_index[i] = index; const WordID& c = rule->f_[i]; if (c < 1) - index = vec_node[vc++]->input_end_pos_ + 1; + index = vec_node[vc++]->end_pos_ + 1; else index++; } @@ -446,11 +441,11 @@ struct ConstReorderFeatureImpl { // till now, we finished setting state values // next, use the state values to calculate constituent reorder feature - SetConstReorderFeature(mapped_begin, mapped_end, features, remnant[0], + SetConstReorderFeature(begin, end, features, remnant[0], vec_node, f_index); } - void SetConstReorderFeature(short int mapped_begin, short int mapped_end, + void SetConstReorderFeature(short int begin, short int end, SparseVector* features, const TargetTranslation* target_translation, const vector& vec_node, @@ -459,7 +454,7 @@ struct ConstReorderFeatureImpl { double logprob_srl_reorder_left = 0.0, logprob_srl_reorder_right = 0.0; for (size_t i = 0; i < focused_srl_->focus_predicates_.size(); i++) { const FocusedPredicate* pred = focused_srl_->focus_predicates_[i]; - if (!is_overlap(mapped_begin, mapped_end, pred->begin_, pred->end_)) + if (!is_overlap(begin, end, pred->begin_, pred->end_)) continue; // have no overlap between this predicate (with its // argument) and the current edge @@ -475,7 +470,7 @@ struct ConstReorderFeatureImpl { vecBlockStatus.reserve(pred->vec_items_.size()); for (j = 0; j < pred->vec_items_.size(); j++) { const STreeItem* con1 = pred->vec_items_[j]->tree_item_; - if (con1->m_iBegin < mapped_begin || con1->m_iEnd > mapped_end) { + if (con1->m_iBegin < begin || con1->m_iEnd > end) { vecBlockStatus.push_back(0); continue; } // the node is partially outside the current edge @@ -507,7 +502,7 @@ struct ConstReorderFeatureImpl { vecRelativeRightPosition.reserve(pred->vec_items_.size()); for (j = 0; j < pred->vec_items_.size(); j++) { const STreeItem* con1 = pred->vec_items_[j]->tree_item_; - if (con1->m_iBegin < mapped_begin || con1->m_iEnd > mapped_end) { + if (con1->m_iBegin < begin || con1->m_iEnd > end) { vecPosition.push_back(-1); vecRightPosition.push_back(-1); continue; @@ -525,7 +520,7 @@ struct ConstReorderFeatureImpl { const STreeItem* con1 = pred->vec_items_[j - 1]->tree_item_; const STreeItem* con2 = pred->vec_items_[j]->tree_item_; - if (con1->m_iBegin < mapped_begin || con2->m_iEnd > mapped_end) + if (con1->m_iBegin < begin || con2->m_iEnd > end) continue; // one of the two nodes is partially outside the current // edge @@ -577,7 +572,7 @@ struct ConstReorderFeatureImpl { for (size_t i = 0; i < focused_consts_->focus_parents_.size(); i++) { STreeItem* parent = focused_consts_->focus_parents_[i]; - if (!is_overlap(mapped_begin, mapped_end, parent->m_iBegin, + if (!is_overlap(begin, end, parent->m_iBegin, parent->m_iEnd)) continue; // have no overlap between this parent node and the current // edge @@ -591,8 +586,8 @@ struct ConstReorderFeatureImpl { if (j < vec_node.size()) continue; if (b_block_feature_) { - if (parent->m_iBegin >= mapped_begin && - parent->m_iEnd <= mapped_end) { + if (parent->m_iBegin >= begin && + parent->m_iEnd <= end) { string type = target_translation->IsTargetConstinousSpan2( parent->m_iBegin, parent->m_iEnd); int f_id = FD::Convert(string(parent->m_pszTerm) + type); @@ -607,7 +602,7 @@ struct ConstReorderFeatureImpl { for (j = 0; j < parent->m_vecChildren.size(); j++) { STreeItem* con1 = parent->m_vecChildren[j]; - if (con1->m_iBegin < mapped_begin || con1->m_iEnd > mapped_end) { + if (con1->m_iBegin < begin || con1->m_iEnd > end) { vecChunkBlock.push_back(0); continue; } // the node is partially outside the current edge @@ -640,7 +635,7 @@ struct ConstReorderFeatureImpl { vecRelativeRightPosition.reserve(parent->m_vecChildren.size()); for (j = 0; j < parent->m_vecChildren.size(); j++) { STreeItem* con1 = parent->m_vecChildren[j]; - if (con1->m_iBegin < mapped_begin || con1->m_iEnd > mapped_end) { + if (con1->m_iBegin < begin || con1->m_iEnd > end) { vecPosition.push_back(-1); vecRightPosition.push_back(-1); continue; @@ -658,7 +653,7 @@ struct ConstReorderFeatureImpl { STreeItem* con1 = parent->m_vecChildren[j - 1]; STreeItem* con2 = parent->m_vecChildren[j]; - if (con1->m_iBegin < mapped_begin || con2->m_iEnd > mapped_end) + if (con1->m_iBegin < begin || con2->m_iEnd > end) continue; // one of the two nodes is partially outside the current // edge -- cgit v1.2.3