wip
This commit is contained in:
Siarhei Fedartsou
parent
49cf294d2f
commit
8b34d5b40c
@ -359,7 +359,7 @@ if(ENABLE_CONAN)
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KEEP_RPATHS
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NO_OUTPUT_DIRS
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OPTIONS boost:filesystem_version=3 # https://stackoverflow.com/questions/73392648/error-with-boost-filesystem-version-in-cmake
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onetbb:shared=${TBB_SHARED}
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# onetbb:shared=${TBB_SHARED}
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boost:without_stacktrace=True # Apple Silicon cross-compilation fails without it
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BUILD missing
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)
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@ -471,6 +471,23 @@ double getNetworkDistance(SearchEngineData<Algorithm> &engine_working_data,
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const PhantomNode &target_phantom,
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EdgeWeight duration_upper_bound = INVALID_EDGE_WEIGHT);
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inline double getNetworkDistanceOld(SearchEngineData<Algorithm> &engine_working_data,
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const DataFacade<ch::Algorithm> &facade,
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SearchEngineData<Algorithm>::QueryHeap &forward_heap,
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SearchEngineData<Algorithm>::QueryHeap &reverse_heap,
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const PhantomNode &source_phantom,
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const PhantomNode &target_phantom,
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EdgeWeight duration_upper_bound = INVALID_EDGE_WEIGHT)
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{
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return getNetworkDistance(engine_working_data,
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facade,
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forward_heap,
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reverse_heap,
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source_phantom,
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target_phantom,
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duration_upper_bound);
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}
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template <typename EdgeMetric>
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std::tuple<EdgeMetric, EdgeDistance> getLoopMetric(const DataFacade<Algorithm> &facade, NodeID node)
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{
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@ -705,42 +705,134 @@ double getNetworkDistance(SearchEngineData<Algorithm> &engine_working_data,
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EdgeWeight weight_upper_bound = INVALID_EDGE_WEIGHT)
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{
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reverse_heap.Clear();
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// forward_heap.Clear();
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if (forward_heap.empty()) {
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if (source_phantom.IsValidForwardSource())
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{
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forward_heap.Insert(source_phantom.forward_segment_id.id,
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EdgeWeight{0} - source_phantom.GetForwardWeightPlusOffset(),
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{source_phantom.forward_segment_id.id,
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false,
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EdgeDistance{0} - source_phantom.GetForwardDistance()});
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}
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// if (forward_heap.Empty())
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// {
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// if (source_phantom.IsValidForwardSource())
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// {
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// forward_heap.Insert(source_phantom.forward_segment_id.id,
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// EdgeWeight{0} - source_phantom.GetForwardWeightPlusOffset(),
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// {source_phantom.forward_segment_id.id,
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// false,
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// EdgeDistance{0} - source_phantom.GetForwardDistance()});
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// }
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if (source_phantom.IsValidReverseSource())
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// if (source_phantom.IsValidReverseSource())
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// {
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// forward_heap.Insert(source_phantom.reverse_segment_id.id,
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// EdgeWeight{0} - source_phantom.GetReverseWeightPlusOffset(),
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// {source_phantom.reverse_segment_id.id,
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// false,
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// EdgeDistance{0} - source_phantom.GetReverseDistance()});
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// }
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// } else {
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// const auto node =
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// forward_heap.GetHeapNodeIfWasInserted(target_phantom.forward_segment_id.id); if (node) {
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// std::cerr << "Found " << target_phantom.forward_segment_id.id << " in forward_heap "
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// << node->data.distance << std::endl;
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// }
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// }
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if (!forward_heap.Empty())
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{
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if (target_phantom.IsValidForwardTarget() && !target_phantom.IsValidReverseTarget())
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{
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forward_heap.Insert(source_phantom.reverse_segment_id.id,
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EdgeWeight{0} - source_phantom.GetReverseWeightPlusOffset(),
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{source_phantom.reverse_segment_id.id,
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false,
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EdgeDistance{0} - source_phantom.GetReverseDistance()});
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if (const auto node =
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forward_heap.GetHeapNodeIfWasInserted(target_phantom.forward_segment_id.id))
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{
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return from_alias<double>(node->data.distance);
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}
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}
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// if (target_phantom.IsValidReverseTarget()) {
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// if (const auto node =
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// forward_heap.GetHeapNodeIfWasInserted(target_phantom.reverse_segment_id.id)) {
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// return from_alias<double>(node->data.distance);
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// }
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// }
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}
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forward_heap.Clear();
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if (source_phantom.IsValidForwardSource())
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{
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forward_heap.Insert(source_phantom.forward_segment_id.id,
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EdgeWeight{0},
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{source_phantom.forward_segment_id.id, false, EdgeDistance{0}});
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}
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if (source_phantom.IsValidReverseSource())
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{
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forward_heap.Insert(source_phantom.reverse_segment_id.id,
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EdgeWeight{0},
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{source_phantom.reverse_segment_id.id, false, EdgeDistance{0}});
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}
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if (target_phantom.IsValidForwardTarget())
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{
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reverse_heap.Insert(
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target_phantom.forward_segment_id.id,
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target_phantom.GetForwardWeightPlusOffset(),
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{target_phantom.forward_segment_id.id, false, target_phantom.GetForwardDistance()});
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reverse_heap.Insert(target_phantom.forward_segment_id.id,
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EdgeWeight{0},
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{target_phantom.forward_segment_id.id, false, EdgeDistance{0}});
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}
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if (target_phantom.IsValidReverseTarget())
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{
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reverse_heap.Insert(
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target_phantom.reverse_segment_id.id,
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target_phantom.GetReverseWeightPlusOffset(),
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{target_phantom.reverse_segment_id.id, false, target_phantom.GetReverseDistance()});
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reverse_heap.Insert(target_phantom.reverse_segment_id.id,
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EdgeWeight{0},
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{target_phantom.reverse_segment_id.id, false, EdgeDistance{0}});
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}
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const PhantomEndpoints endpoints{source_phantom, target_phantom};
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auto distance = searchDistance(
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engine_working_data, facade, forward_heap, reverse_heap, {}, weight_upper_bound, endpoints);
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if (distance == INVALID_EDGE_DISTANCE)
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{
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return std::numeric_limits<double>::max();
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}
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return from_alias<double>(distance);
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}
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template <typename Algorithm>
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double
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getNetworkDistanceOld(SearchEngineData<Algorithm> &engine_working_data,
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const DataFacade<Algorithm> &facade,
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typename SearchEngineData<Algorithm>::MapMatchingQueryHeap &forward_heap,
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typename SearchEngineData<Algorithm>::MapMatchingQueryHeap &reverse_heap,
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const PhantomNode &source_phantom,
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const PhantomNode &target_phantom,
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EdgeWeight weight_upper_bound = INVALID_EDGE_WEIGHT)
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{
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reverse_heap.Clear();
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forward_heap.Clear();
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if (source_phantom.IsValidForwardSource())
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{
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forward_heap.Insert(source_phantom.forward_segment_id.id,
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EdgeWeight{0},
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{source_phantom.forward_segment_id.id, false, EdgeDistance{0}});
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}
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if (source_phantom.IsValidReverseSource())
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{
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forward_heap.Insert(source_phantom.reverse_segment_id.id,
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EdgeWeight{0},
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{source_phantom.reverse_segment_id.id, false, EdgeDistance{0}});
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}
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if (target_phantom.IsValidForwardTarget())
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{
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reverse_heap.Insert(target_phantom.forward_segment_id.id,
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EdgeWeight{0},
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{target_phantom.forward_segment_id.id, false, EdgeDistance{0}});
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}
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if (target_phantom.IsValidReverseTarget())
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{
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reverse_heap.Insert(target_phantom.reverse_segment_id.id,
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EdgeWeight{0},
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{target_phantom.reverse_segment_id.id, false, EdgeDistance{0}});
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}
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const PhantomEndpoints endpoints{source_phantom, target_phantom};
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@ -217,6 +217,78 @@ SubMatchingList mapMatching(SearchEngineData<Algorithm> &engine_working_data,
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const EdgeWeight weight_upper_bound = to_alias<EdgeWeight>(
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((haversine_distance + max_distance_delta) / 4.) * facade.GetWeightMultiplier());
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std::vector<double> old_distances;
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for (const auto s : util::irange<std::size_t>(0UL, prev_viterbi.size()))
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{
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if (prev_pruned[s])
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{
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continue;
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}
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forward_heap.Clear();
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for (const auto s_prime : util::irange<std::size_t>(0UL, current_viterbi.size()))
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{
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const double emission_pr = emission_log_probabilities[t][s_prime];
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double new_value = prev_viterbi[s] + emission_pr;
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if (current_viterbi[s_prime] > new_value)
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{
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continue;
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}
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double network_distance =
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getNetworkDistanceOld(engine_working_data,
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facade,
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forward_heap,
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reverse_heap,
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prev_unbroken_timestamps_list[s].phantom_node,
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current_timestamps_list[s_prime].phantom_node,
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weight_upper_bound);
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old_distances.push_back(network_distance);
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}
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}
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std::vector<double> new_distances;
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for (const auto s : util::irange<std::size_t>(0UL, prev_viterbi.size()))
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{
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if (prev_pruned[s])
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{
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continue;
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}
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forward_heap.Clear();
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for (const auto s_prime : util::irange<std::size_t>(0UL, current_viterbi.size()))
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{
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const double emission_pr = emission_log_probabilities[t][s_prime];
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double new_value = prev_viterbi[s] + emission_pr;
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if (current_viterbi[s_prime] > new_value)
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{
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continue;
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}
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double network_distance =
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getNetworkDistance(engine_working_data,
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facade,
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forward_heap,
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reverse_heap,
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prev_unbroken_timestamps_list[s].phantom_node,
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current_timestamps_list[s_prime].phantom_node,
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weight_upper_bound);
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new_distances.push_back(network_distance);
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}
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}
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BOOST_ASSERT(old_distances.size() == new_distances.size());
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for (std::size_t i = 0; i < old_distances.size(); i++)
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{
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if (std::abs(old_distances[i] - new_distances[i]) > 1e-3)
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{
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std::cout << "Old: " << old_distances[i] << " New: " << new_distances[i]
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<< std::endl;
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}
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}
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// compute d_t for this timestamp and the next one
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for (const auto s : util::irange<std::size_t>(0UL, prev_viterbi.size()))
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{
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