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Use correct upper bound condition for MLD routing

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Michael Krasnyk 2017-03-14 16:04:15 +01:00
parent 152f77b665
commit a75fd560d7
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GPG Key ID: 49C12AD0F43D2108
1 changed files with 33 additions and 57 deletions
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76
include/engine/routing_algorithms/routing_base_mld.hpp
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@ -26,9 +26,7 @@ void routingStep(const datafacade::ContiguousInternalMemoryDataFacade<algorithm:
const std::pair<LevelID, CellID> &parent_cell,
const std::function<LevelID(const NodeID)> &get_query_level,
NodeID &middle_node,
EdgeWeight &path_upper_bound,
EdgeWeight &forward_upper_bound,
EdgeWeight &reverse_upper_bound)
EdgeWeight &path_upper_bound)
{
const auto &partition = facade.GetMultiLevelPartition();
const auto &cells = facade.GetCellStorage();
@ -36,25 +34,21 @@ void routingStep(const datafacade::ContiguousInternalMemoryDataFacade<algorithm:
const auto node = forward_heap.DeleteMin();
const auto weight = forward_heap.GetKey(node);
auto update_upper_bounds = [&](NodeID to, EdgeWeight forward_weight, EdgeWeight edge_weight) {
// Upper bound for the path source -> target with
// weight(source -> node) = forward_weight, weight(node -> to) = edge_weight and
// weight(to -> target) ≤ reverse_weight is forward_weight + edge_weight + reverse_weight
// weight(source -> node) = weight weight(to -> target) ≤ reverse_weight
// is weight + reverse_weight
// More tighter upper bound requires additional condition reverse_heap.WasRemoved(to)
// with weight(to -> target) = reverse_weight and all weights ≥ 0
if (reverse_heap.WasInserted(to))
if (reverse_heap.WasInserted(node))
{
auto reverse_weight = reverse_heap.GetKey(to);
auto path_weight = forward_weight + edge_weight + reverse_weight;
auto reverse_weight = reverse_heap.GetKey(node);
auto path_weight = weight + reverse_weight;
if (path_weight >= 0 && path_weight < path_upper_bound)
{
middle_node = to;
middle_node = node;
path_upper_bound = path_weight;
forward_upper_bound = forward_weight + edge_weight;
reverse_upper_bound = reverse_weight + edge_weight;
}
}
};
const auto &node_data = forward_heap.GetData(node);
const auto level = get_query_level(node);
@ -63,9 +57,6 @@ void routingStep(const datafacade::ContiguousInternalMemoryDataFacade<algorithm:
(node_data.parent == node || // is the first point of the path
node_data.edge_id != SPECIAL_EDGEID); // or an overlay entreé point
// Edge case: single node path
update_upper_bounds(node, weight, 0);
if (check_overlay_edges)
{
if (DIRECTION == FORWARD_DIRECTION)
@ -83,13 +74,11 @@ void routingStep(const datafacade::ContiguousInternalMemoryDataFacade<algorithm:
if (!forward_heap.WasInserted(to))
{
forward_heap.Insert(to, to_weight, {node});
update_upper_bounds(to, weight, shortcut_weight);
}
else if (to_weight < forward_heap.GetKey(to))
{
forward_heap.GetData(to) = {node};
forward_heap.DecreaseKey(to, to_weight);
update_upper_bounds(to, weight, shortcut_weight);
}
}
++destination;
@ -110,13 +99,11 @@ void routingStep(const datafacade::ContiguousInternalMemoryDataFacade<algorithm:
if (!forward_heap.WasInserted(to))
{
forward_heap.Insert(to, to_weight, {node});
update_upper_bounds(to, weight, shortcut_weight);
}
else if (to_weight < forward_heap.GetKey(to))
{
forward_heap.GetData(to) = {node};
forward_heap.DecreaseKey(to, to_weight);
update_upper_bounds(to, weight, shortcut_weight);
}
}
++source;
@ -146,13 +133,11 @@ void routingStep(const datafacade::ContiguousInternalMemoryDataFacade<algorithm:
if (!forward_heap.WasInserted(to))
{
forward_heap.Insert(to, to_weight, {node, edge});
update_upper_bounds(to, weight, edge_data.weight);
}
else if (to_weight < forward_heap.GetKey(to))
{
forward_heap.GetData(to) = {node, edge};
forward_heap.DecreaseKey(to, to_weight);
update_upper_bounds(to, weight, edge_data.weight);
}
}
}
@ -165,44 +150,35 @@ auto search(const datafacade::ContiguousInternalMemoryDataFacade<algorithm::MLD>
const std::pair<LevelID, CellID> &parent_cell,
const std::function<LevelID(const NodeID)> &get_query_level)
{
const auto &partition = facade.GetMultiLevelPartition();
BOOST_ASSERT(!forward_heap.Empty() && forward_heap.MinKey() < INVALID_EDGE_WEIGHT);
BOOST_ASSERT(!reverse_heap.Empty() && reverse_heap.MinKey() < INVALID_EDGE_WEIGHT);
// run two-Target Dijkstra routing step.
NodeID middle = SPECIAL_NODEID;
EdgeWeight weight = INVALID_EDGE_WEIGHT;
EdgeWeight forward_search_radius = INVALID_EDGE_WEIGHT;
EdgeWeight reverse_search_radius = INVALID_EDGE_WEIGHT;
bool progress;
do
EdgeWeight forward_heap_min = forward_heap.MinKey();
EdgeWeight reverse_heap_min = reverse_heap.MinKey();
while (forward_heap.Size() + reverse_heap.Size() > 0 &&
forward_heap_min + reverse_heap_min < weight)
{
progress = false;
if (!forward_heap.Empty() && (forward_heap.MinKey() < forward_search_radius))
if (!forward_heap.Empty())
{
progress = true;
routingStep<FORWARD_DIRECTION>(facade,
forward_heap,
reverse_heap,
parent_cell,
get_query_level,
middle,
weight,
forward_search_radius,
reverse_search_radius);
routingStep<FORWARD_DIRECTION>(
facade, forward_heap, reverse_heap, parent_cell, get_query_level, middle, weight);
if (!forward_heap.Empty())
forward_heap_min = forward_heap.MinKey();
}
if (!reverse_heap.Empty() && (reverse_heap.MinKey() < reverse_search_radius))
if (!reverse_heap.Empty())
{
progress = true;
routingStep<REVERSE_DIRECTION>(facade,
reverse_heap,
forward_heap,
parent_cell,
get_query_level,
middle,
weight,
reverse_search_radius,
forward_search_radius);
routingStep<REVERSE_DIRECTION>(
facade, reverse_heap, forward_heap, parent_cell, get_query_level, middle, weight);
if (!reverse_heap.Empty())
reverse_heap_min = reverse_heap.MinKey();
}
} while (progress);
};
// No path found for both target nodes?
if (weight == INVALID_EDGE_WEIGHT || SPECIAL_NODEID == middle)