@Override public synchronized LeastCostPathCalculator createPathCalculator(final Network network, final TravelDisutility travelCosts, final TravelTime travelTimes) { RoutingNetwork routingNetwork = this.routingNetworks.get(network); PreProcessEuclidean preProcessEuclidean = this.preProcessData.get(network); if (routingNetwork == null) { routingNetwork = this.routingNetworkFactory.createRoutingNetwork(network); if (preProcessEuclidean == null) { preProcessEuclidean = new PreProcessEuclidean(travelCosts); preProcessEuclidean.run(network); this.preProcessData.put(network, preProcessEuclidean); for (RoutingNetworkNode node : routingNetwork.getNodes().values()) { node.setDeadEndData(preProcessEuclidean.getNodeData(node.getNode())); } } this.routingNetworks.put(network, routingNetwork); } FastRouterDelegateFactory fastRouterFactory = new ArrayFastRouterDelegateFactory(); return new FastAStarEuclidean(routingNetwork, preProcessEuclidean, travelCosts, travelTimes, overdoFactor, fastRouterFactory); } }
@Override public synchronized LeastCostPathCalculator createPathCalculator(final Network network, final TravelDisutility travelCosts, final TravelTime travelTimes) { RoutingNetwork routingNetwork = this.routingNetworks.get(network); PreProcessDijkstra preProcessDijkstra = this.preProcessData.get(network); if (routingNetwork == null) { routingNetwork = this.routingNetworkFactory.createRoutingNetwork(network); if (this.usePreProcessData) { if (preProcessDijkstra == null) { preProcessDijkstra = new PreProcessDijkstra(); preProcessDijkstra.run(network); this.preProcessData.put(network, preProcessDijkstra); for (RoutingNetworkNode node : routingNetwork.getNodes().values()) { node.setDeadEndData(preProcessDijkstra.getNodeData(node.getNode())); } } } this.routingNetworks.put(network, routingNetwork); } FastRouterDelegateFactory fastRouterFactory = new ArrayFastRouterDelegateFactory(); return new FastMultiNodeDijkstra(routingNetwork, travelCosts, travelTimes, preProcessDijkstra, fastRouterFactory, this.searchAllEndNodes); } }
@Override public synchronized LeastCostPathCalculator createPathCalculator(final Network network, final TravelDisutility travelCosts, final TravelTime travelTimes) { RoutingNetwork routingNetwork = this.routingNetworks.get(network); PreProcessDijkstra preProcessDijkstra = this.preProcessData.get(network); if (routingNetwork == null) { routingNetwork = this.routingNetworkFactory.createRoutingNetwork(network); if (this.usePreProcessData) { if (preProcessDijkstra == null) { preProcessDijkstra = new PreProcessDijkstra(); preProcessDijkstra.run(network); this.preProcessData.put(network, preProcessDijkstra); for (RoutingNetworkNode node : routingNetwork.getNodes().values()) { node.setDeadEndData(preProcessDijkstra.getNodeData(node.getNode())); } } } this.routingNetworks.put(network, routingNetwork); } FastRouterDelegateFactory fastRouterFactory = new ArrayFastRouterDelegateFactory(); return new FastDijkstra(routingNetwork, travelCosts, travelTimes, preProcessDijkstra, fastRouterFactory); } }
@Override public synchronized LeastCostPathCalculator createPathCalculator(final Network network, final TravelDisutility travelCosts, final TravelTime travelTimes) { RoutingNetwork routingNetwork = this.routingNetworks.get(network); PreProcessLandmarks preProcessLandmarks = this.preProcessData.get(network); if (routingNetwork == null) { routingNetwork = this.routingNetworkFactory.createRoutingNetwork(network); if (preProcessLandmarks == null) { preProcessLandmarks = new PreProcessLandmarks(travelCosts); preProcessLandmarks.setNumberOfThreads(nThreads); preProcessLandmarks.run(network); this.preProcessData.put(network, preProcessLandmarks); for (RoutingNetworkNode node : routingNetwork.getNodes().values()) { node.setDeadEndData(preProcessLandmarks.getNodeData(node.getNode())); } } this.routingNetworks.put(network, routingNetwork); } FastRouterDelegateFactory fastRouterFactory = new ArrayFastRouterDelegateFactory(); final double overdoFactor = 1.0; return new FastAStarLandmarks(routingNetwork, preProcessLandmarks, travelCosts, travelTimes, overdoFactor, fastRouterFactory); } }
@Override public LeastCostPathCalculator createPathCalculator(final Network network, final TravelDisutility travelCosts, final TravelTime travelTimes) { RoutingNetwork routingNetwork = this.routingNetworks.get(network); PreProcessDijkstra preProcessDijkstra = this.preProcessData.get(network); if (routingNetwork == null) { routingNetwork = this.routingNetworkFactory.createRoutingNetwork(network); if (this.usePreProcessData) { if (preProcessDijkstra == null) { preProcessDijkstra = new PreProcessDijkstra(); preProcessDijkstra.run(network); this.preProcessData.put(network, preProcessDijkstra); } if (preProcessDijkstra.containsData()) { for (RoutingNetworkNode node : routingNetwork.getNodes().values()) { node.setDeadEndData(preProcessDijkstra.getNodeData(node.getNode())); } } } this.routingNetworks.put(network, routingNetwork); } FastRouterDelegateFactory fastRouterFactory = new ArrayFastRouterDelegateFactory(); return new BackwardFastMultiNodeDijkstra(routingNetwork, travelCosts, travelTimes, preProcessDijkstra, fastRouterFactory, this.searchAllEndNodes); } }