/
CarFlagEncoder.java
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/
CarFlagEncoder.java
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/*
* Licensed to GraphHopper GmbH under one or more contributor
* license agreements. See the NOTICE file distributed with this work for
* additional information regarding copyright ownership.
*
* GraphHopper GmbH licenses this file to you under the Apache License,
* Version 2.0 (the "License"); you may not use this file except in
* compliance with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.graphhopper.routing.util;
import com.graphhopper.reader.ReaderWay;
import com.graphhopper.routing.profiles.EncodedValue;
import com.graphhopper.routing.profiles.UnsignedDecimalEncodedValue;
import com.graphhopper.routing.util.spatialrules.TransportationMode;
import com.graphhopper.storage.IntsRef;
import com.graphhopper.util.Helper;
import com.graphhopper.util.PMap;
import java.util.*;
/**
* Defines bit layout for cars. (speed, access, ferries, ...)
*
* @author Peter Karich
* @author Nop
*/
public class CarFlagEncoder extends AbstractFlagEncoder {
protected final Map<String, Integer> trackTypeSpeedMap = new HashMap<>();
protected final Set<String> badSurfaceSpeedMap = new HashSet<>();
// This value determines the maximal possible on roads with bad surfaces
protected int badSurfaceSpeed;
protected boolean speedTwoDirections;
/**
* A map which associates string to speed. Get some impression:
* http://www.itoworld.com/map/124#fullscreen
* http://wiki.openstreetmap.org/wiki/OSM_tags_for_routing/Maxspeed
*/
protected final Map<String, Integer> defaultSpeedMap = new HashMap<>();
public CarFlagEncoder() {
this(5, 5, 0);
}
public CarFlagEncoder(PMap properties) {
this((int) properties.getLong("speed_bits", 5),
properties.getDouble("speed_factor", 5),
properties.getBool("turn_costs", false) ? 1 : 0);
this.speedTwoDirections = properties.getBool("speed_two_directions", false);
this.setBlockFords(properties.getBool("block_fords", false));
this.setBlockByDefault(properties.getBool("block_barriers", true));
}
public CarFlagEncoder(String propertiesStr) {
this(new PMap(propertiesStr));
}
public CarFlagEncoder(int speedBits, double speedFactor, int maxTurnCosts) {
super(speedBits, speedFactor, maxTurnCosts);
restrictions.addAll(Arrays.asList("motorcar", "motor_vehicle", "vehicle", "access"));
restrictedValues.add("private");
restrictedValues.add("agricultural");
restrictedValues.add("forestry");
restrictedValues.add("no");
restrictedValues.add("restricted");
restrictedValues.add("delivery");
restrictedValues.add("military");
restrictedValues.add("emergency");
intendedValues.add("yes");
intendedValues.add("permissive");
potentialBarriers.add("gate");
potentialBarriers.add("lift_gate");
potentialBarriers.add("kissing_gate");
potentialBarriers.add("swing_gate");
potentialBarriers.add("cattle_grid");
absoluteBarriers.add("fence");
absoluteBarriers.add("bollard");
absoluteBarriers.add("stile");
absoluteBarriers.add("turnstile");
absoluteBarriers.add("cycle_barrier");
absoluteBarriers.add("motorcycle_barrier");
absoluteBarriers.add("block");
absoluteBarriers.add("bus_trap");
absoluteBarriers.add("sump_buster");
badSurfaceSpeedMap.add("cobblestone");
badSurfaceSpeedMap.add("grass_paver");
badSurfaceSpeedMap.add("gravel");
badSurfaceSpeedMap.add("sand");
badSurfaceSpeedMap.add("paving_stones");
badSurfaceSpeedMap.add("dirt");
badSurfaceSpeedMap.add("ground");
badSurfaceSpeedMap.add("grass");
badSurfaceSpeedMap.add("unpaved");
badSurfaceSpeedMap.add("compacted");
// autobahn
defaultSpeedMap.put("motorway", 100);
defaultSpeedMap.put("motorway_link", 70);
defaultSpeedMap.put("motorroad", 90);
// bundesstraße
defaultSpeedMap.put("trunk", 70);
defaultSpeedMap.put("trunk_link", 65);
// linking bigger town
defaultSpeedMap.put("primary", 65);
defaultSpeedMap.put("primary_link", 60);
// linking towns + villages
defaultSpeedMap.put("secondary", 60);
defaultSpeedMap.put("secondary_link", 50);
// streets without middle line separation
defaultSpeedMap.put("tertiary", 50);
defaultSpeedMap.put("tertiary_link", 40);
defaultSpeedMap.put("unclassified", 30);
defaultSpeedMap.put("residential", 30);
// spielstraße
defaultSpeedMap.put("living_street", 5);
defaultSpeedMap.put("service", 20);
// unknown road
defaultSpeedMap.put("road", 20);
// forestry stuff
defaultSpeedMap.put("track", 15);
trackTypeSpeedMap.put("grade1", 20); // paved
trackTypeSpeedMap.put("grade2", 15); // now unpaved - gravel mixed with ...
trackTypeSpeedMap.put("grade3", 10); // ... hard and soft materials
trackTypeSpeedMap.put(null, defaultSpeedMap.get("track"));
// limit speed on bad surfaces to 30 km/h
badSurfaceSpeed = 30;
maxPossibleSpeed = 140;
speedDefault = defaultSpeedMap.get("secondary");
}
public TransportationMode getTransportationMode() {
return TransportationMode.MOTOR_VEHICLE;
}
@Override
public int getVersion() {
return 2;
}
/**
* Define the place of the speedBits in the edge flags for car.
*/
@Override
public void createEncodedValues(List<EncodedValue> registerNewEncodedValue, String prefix, int index) {
// first two bits are reserved for route handling in superclass
super.createEncodedValues(registerNewEncodedValue, prefix, index);
registerNewEncodedValue.add(avgSpeedEnc = new UnsignedDecimalEncodedValue(EncodingManager.getKey(prefix, "average_speed"), speedBits, speedFactor, speedTwoDirections));
}
protected double getSpeed(ReaderWay way) {
String highwayValue = way.getTag("highway");
if (!Helper.isEmpty(highwayValue) && way.hasTag("motorroad", "yes")
&& !"motorway".equals(highwayValue) && !"motorway_link".equals(highwayValue)) {
highwayValue = "motorroad";
}
Integer speed = defaultSpeedMap.get(highwayValue);
if (speed == null)
throw new IllegalStateException(toString() + ", no speed found for: " + highwayValue + ", tags: " + way);
if (highwayValue.equals("track")) {
String tt = way.getTag("tracktype");
if (!Helper.isEmpty(tt)) {
Integer tInt = trackTypeSpeedMap.get(tt);
if (tInt != null)
speed = tInt;
}
}
return speed;
}
@Override
public EncodingManager.Access getAccess(ReaderWay way) {
// TODO: Ferries have conditionals, like opening hours or are closed during some time in the year
String highwayValue = way.getTag("highway");
String firstValue = way.getFirstPriorityTag(restrictions);
if (highwayValue == null) {
if (way.hasTag("route", ferries)) {
if (restrictedValues.contains(firstValue))
return EncodingManager.Access.CAN_SKIP;
if (intendedValues.contains(firstValue) ||
// implied default is allowed only if foot and bicycle is not specified:
firstValue.isEmpty() && !way.hasTag("foot") && !way.hasTag("bicycle"))
return EncodingManager.Access.FERRY;
}
return EncodingManager.Access.CAN_SKIP;
}
if ("track".equals(highwayValue) && trackTypeSpeedMap.get(way.getTag("tracktype")) == null)
return EncodingManager.Access.CAN_SKIP;
if (!defaultSpeedMap.containsKey(highwayValue))
return EncodingManager.Access.CAN_SKIP;
if (way.hasTag("impassable", "yes") || way.hasTag("status", "impassable"))
return EncodingManager.Access.CAN_SKIP;
// multiple restrictions needs special handling compared to foot and bike, see also motorcycle
if (!firstValue.isEmpty()) {
if (restrictedValues.contains(firstValue) && !getConditionalTagInspector().isRestrictedWayConditionallyPermitted(way))
return EncodingManager.Access.CAN_SKIP;
if (intendedValues.contains(firstValue))
return EncodingManager.Access.WAY;
}
// do not drive street cars into fords
if (isBlockFords() && ("ford".equals(highwayValue) || way.hasTag("ford")))
return EncodingManager.Access.CAN_SKIP;
if (getConditionalTagInspector().isPermittedWayConditionallyRestricted(way))
return EncodingManager.Access.CAN_SKIP;
else
return EncodingManager.Access.WAY;
}
@Override
public IntsRef handleWayTags(IntsRef edgeFlags, ReaderWay way, EncodingManager.Access accept) {
if (accept.canSkip())
return edgeFlags;
if (!accept.isFerry()) {
// get assumed speed from highway type
double speed = getSpeed(way);
speed = applyMaxSpeed(way, speed);
speed = applyBadSurfaceSpeed(way, speed);
setSpeed(false, edgeFlags, speed);
if (speedTwoDirections)
setSpeed(true, edgeFlags, speed);
boolean isRoundabout = roundaboutEnc.getBool(false, edgeFlags);
if (isOneway(way) || isRoundabout) {
if (isForwardOneway(way))
accessEnc.setBool(false, edgeFlags, true);
if (isBackwardOneway(way))
accessEnc.setBool(true, edgeFlags, true);
} else {
accessEnc.setBool(false, edgeFlags, true);
accessEnc.setBool(true, edgeFlags, true);
}
} else {
double ferrySpeed = getFerrySpeed(way);
accessEnc.setBool(false, edgeFlags, true);
accessEnc.setBool(true, edgeFlags, true);
setSpeed(false, edgeFlags, ferrySpeed);
if (speedTwoDirections)
setSpeed(true, edgeFlags, ferrySpeed);
}
return edgeFlags;
}
/**
* make sure that isOneway is called before
*/
protected boolean isBackwardOneway(ReaderWay way) {
return way.hasTag("oneway", "-1")
|| way.hasTag("vehicle:forward", "no")
|| way.hasTag("motor_vehicle:forward", "no");
}
/**
* make sure that isOneway is called before
*/
protected boolean isForwardOneway(ReaderWay way) {
return !way.hasTag("oneway", "-1")
&& !way.hasTag("vehicle:forward", "no")
&& !way.hasTag("motor_vehicle:forward", "no");
}
protected boolean isOneway(ReaderWay way) {
return way.hasTag("oneway", oneways)
|| way.hasTag("vehicle:backward")
|| way.hasTag("vehicle:forward")
|| way.hasTag("motor_vehicle:backward")
|| way.hasTag("motor_vehicle:forward");
}
/**
* @param way needed to retrieve tags
* @param speed speed guessed e.g. from the road type or other tags
* @return The assumed speed
*/
protected double applyBadSurfaceSpeed(ReaderWay way, double speed) {
// limit speed if bad surface
if (badSurfaceSpeed > 0 && speed > badSurfaceSpeed && way.hasTag("surface", badSurfaceSpeedMap))
speed = badSurfaceSpeed;
return speed;
}
@Override
public String toString() {
return "car";
}
}