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Merge branch '1124_Mark_Rounding_Implementation' into 'develop'

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1124 mark rounding implementation

# ChangeLog 

* Implemented Mark Rounding Algorithm so the server acknowledges when boats pass around and through marks / gates 
* Compound Mark class changed so that it has one constructor which takes a list of Mark objects
* GeoUtility has had many methods added to it for purposes of deducing mark rounding

# Testing 

* JUnit tests done for GeoUtility Class
* JUnit tests done for CompoundMark Class
* Test class removed for Yacht Class as no longer testable
* Manual test-log entry made for mark rounding in game

See merge request !53
This commit is contained in:
Michael Rausch
2017-08-10 17:20:33 +12:00
parent 43788bd153 1d7b527130
commit 1772d1c05e
14 changed files with 435 additions and 274 deletions
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src/main/java/seng302/gameServer/GameState.java
+12 -1
View File
@@ -4,9 +4,12 @@ import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import seng302.gameServer.server.messages.BoatActionType;
import seng302.model.Player;
import seng302.model.Yacht;
import seng302.model.mark.MarkOrder;
/**
* A Static class to hold information about the current state of the game (model)
@@ -14,6 +17,8 @@ import seng302.model.Yacht;
*/
public class GameState implements Runnable {
private Logger logger = LoggerFactory.getLogger(MarkOrder.class);
private static Integer STATE_UPDATES_PER_SECOND = 60;
private static Long previousUpdateTime;
@@ -25,6 +30,7 @@ public class GameState implements Runnable {
private static Map<Integer, Yacht> yachts;
private static Boolean isRaceStarted;
private static GameStages currentStage;
private static MarkOrder markOrder;
private static long startTime;
private static Map<Player, String> playerStringMap = new HashMap<>();
@@ -53,8 +59,9 @@ public class GameState implements Runnable {
//set this when game stage changes to prerace
previousUpdateTime = System.currentTimeMillis();
yachts = new HashMap<>();
markOrder = new MarkOrder(); //This could be instantiated at some point with a select map?
new Thread(this).start();
new Thread(this).start(); //Run the auto updates on the game state
}
public static String getHostIpAddress() {
@@ -100,6 +107,10 @@ public class GameState implements Runnable {
GameState.currentStage = currentStage;
}
public static MarkOrder getMarkOrder() {
return markOrder;
}
public static long getStartTime(){
return startTime;
}
src/main/java/seng302/gameServer/server/simulator/parsers/CourseParser.java
+8 -7
View File
@@ -79,18 +79,19 @@ public class CourseParser extends FileParser {
if (node.getNodeType() == Node.ELEMENT_NODE) {
Element e = (Element) node;
Integer markID = Integer.valueOf(e.getAttribute("CompoundMarkID"));
String name = e.getAttribute("Name");
CompoundMark cMark = new CompoundMark(markID, name);
NodeList marks = e.getElementsByTagName("Mark");
for (int i = 0; i < marks.getLength(); i++) {
List<Mark> subMarks = new ArrayList<>();
for (int i = 0; i < marks.getLength(); i++) {
Mark mark = getMark(marks.item(i));
if (mark != null)
cMark.addSubMarks(mark);
if (mark != null) {
subMarks.add(mark);
}
}
return cMark;
}
return new CompoundMark(markID, name, subMarks);
}
System.out.println("Failed to create compound mark.");
return null;
}
src/main/java/seng302/model/Yacht.java
+180 -29
View File
@@ -10,6 +10,8 @@ import javafx.beans.property.ReadOnlyDoubleWrapper;
import javafx.beans.property.ReadOnlyLongProperty;
import javafx.beans.property.ReadOnlyLongWrapper;
import javafx.scene.paint.Color;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import seng302.gameServer.GameState;
import seng302.model.mark.CompoundMark;
import seng302.model.mark.Mark;
@@ -28,7 +30,12 @@ public class Yacht {
void notifyLocation(Yacht yacht, double lat, double lon, double heading, double velocity);
}
private static final Double ROUNDING_DISTANCE = 15d; // TODO: 3/08/17 wmu16 - Look into this value further
private Logger logger = LoggerFactory.getLogger(Yacht.class);
private static final Integer SPEED_MULTIPLIER = 4;
private static final Double ROUNDING_DISTANCE = 50d; // TODO: 3/08/17 wmu16 - Look into this value further
//BOTH AFAIK
private String boatType;
@@ -39,11 +46,10 @@ public class Yacht {
private String country;
private Long estimateTimeAtFinish;
private Long lastMark;
private Integer currentMarkSeqID = 0;
private Long markRoundTime;
private Double distanceToNextMark;
private Double distanceToCurrentMark;
private Long timeTillNext;
private CompoundMark nextMark;
private Double heading;
private Integer legNumber = 0;
@@ -54,11 +60,13 @@ public class Yacht {
private GeoPoint location;
private Integer boatStatus;
private Double velocity;
//MARK ROUNDING INFO
private GeoPoint lastLocation; //For purposes of mark rounding calculations
private Boolean hasEnteredRoundingZone; //The distance that the boat must be from the mark to round
private Boolean hasPassedFirstLine; //The line extrapolated from the next mark to the current mark
private Boolean hasPassedSecondLine; //The line extrapolated from the last mark to the current mark
private Boolean hasPassedLine;
private Boolean hasPassedThroughGate;
private Boolean finishedRace;
//CLIENT SIDE
private List<YachtLocationListener> locationListeners = new ArrayList<>();
@@ -84,8 +92,9 @@ public class Yacht {
this.velocity = 0d; //in mms-1
this.hasEnteredRoundingZone = false;
this.hasPassedFirstLine = false;
this.hasPassedSecondLine = false;
this.hasPassedLine = false;
this.hasPassedThroughGate = false;
this.finishedRace = false;
}
/**
@@ -97,7 +106,7 @@ public class Yacht {
Double windSpeedKnots = GameState.getWindSpeedKnots();
Double trueWindAngle = Math.abs(GameState.getWindDirection() - heading);
Double boatSpeedInKnots = PolarTable.getBoatSpeed(windSpeedKnots, trueWindAngle);
Double maxBoatSpeed = boatSpeedInKnots / 1.943844492 * 1000;
Double maxBoatSpeed = boatSpeedInKnots / 1.943844492 * 1000 * SPEED_MULTIPLIER;
if (sailIn && velocity <= maxBoatSpeed && maxBoatSpeed != 0d) {
if (velocity < maxBoatSpeed) {
@@ -122,12 +131,12 @@ public class Yacht {
}
//UPDATE BOAT LOCATION
lastLocation = location;
location = GeoUtility.getGeoCoordinate(location, heading, velocity * secondsElapsed);
//CHECK FOR MARK ROUNDING
distanceToNextMark = calcDistanceToNextMark();
if (distanceToNextMark < ROUNDING_DISTANCE) {
hasEnteredRoundingZone = true;
if (!finishedRace) {
checkForLegProgression();
}
// TODO: 3/08/17 wmu16 - Implement line cross check here
@@ -135,14 +144,16 @@ public class Yacht {
/**
* Calculates the distance to the next mark (closest of the two if a gate mark).
*
* Calculates the distance to the next mark (closest of the two if a gate mark). For purposes
* of mark rounding
* @return A distance in metres. Returns -1 if there is no next mark
* @throws IndexOutOfBoundsException If the next mark is null (ie the last mark in the race)
* Check first using {@link seng302.model.mark.MarkOrder#isLastMark(Integer)}
*/
public Double calcDistanceToNextMark() {
if (nextMark == null) {
return -1d;
} else if (nextMark.isGate()) {
public Double calcDistanceToCurrentMark() throws IndexOutOfBoundsException {
CompoundMark nextMark = GameState.getMarkOrder().getCurrentMark(currentMarkSeqID);
if (nextMark.isGate()) {
Mark sub1 = nextMark.getSubMark(1);
Mark sub2 = nextMark.getSubMark(2);
Double distance1 = GeoUtility.getDistance(location, sub1);
@@ -153,6 +164,144 @@ public class Yacht {
}
}
/**
* 4 Different cases of progression in the race
* 1 - Passing the start line
* 2 - Passing any in-race Gate
* 3 - Passing any in-race Mark
* 4 - Passing the finish line
*/
private void checkForLegProgression() {
CompoundMark currentMark = GameState.getMarkOrder().getCurrentMark(currentMarkSeqID);
if (currentMarkSeqID == 0) {
checkStartLineCrossing(currentMark);
} else if (GameState.getMarkOrder().isLastMark(currentMarkSeqID)) {
checkFinishLineCrossing(currentMark);
} else if (currentMark.isGate()) {
checkGateRounding(currentMark);
} else {
checkMarkRounding(currentMark);
}
}
/**
* If we pass the start line gate in the correct direction, progress
*
* @param currentMark The current gate
*/
private void checkStartLineCrossing(CompoundMark currentMark) {
Mark mark1 = currentMark.getSubMark(1);
Mark mark2 = currentMark.getSubMark(2);
CompoundMark nextMark = GameState.getMarkOrder().getNextMark(currentMarkSeqID);
Integer crossedLine = GeoUtility.checkCrossedLine(mark1, mark2, lastLocation, location);
if (crossedLine > 0) {
Boolean isClockwiseCross = GeoUtility.isClockwise(mark1, mark2, nextMark.getMidPoint());
if (crossedLine == 2 && isClockwiseCross || crossedLine == 1 && !isClockwiseCross) {
currentMarkSeqID++;
logMarkRounding(currentMark);
}
}
}
/**
* This algorithm checks for mark rounding. And increments the currentMarSeqID number attribute
* of the yacht if so.
* A visual representation of this algorithm can be seen on the Wiki under
* 'mark passing algorithm'
*/
private void checkMarkRounding(CompoundMark currentMark) {
distanceToCurrentMark = calcDistanceToCurrentMark();
GeoPoint nextPoint = GameState.getMarkOrder().getNextMark(currentMarkSeqID).getMidPoint();
GeoPoint prevPoint = GameState.getMarkOrder().getPreviousMark(currentMarkSeqID)
.getMidPoint();
GeoPoint midPoint = GeoUtility.getDirtyMidPoint(nextPoint, prevPoint);
//1 TEST FOR ENTERING THE ROUNDING DISTANCE
if (distanceToCurrentMark < ROUNDING_DISTANCE) {
hasEnteredRoundingZone = true;
}
//In case current mark is a gate, loop through all marks just in case
for (Mark thisCurrentMark : currentMark.getMarks()) {
if (GeoUtility.isPointInTriangle(lastLocation, location, midPoint, thisCurrentMark)) {
hasPassedLine = true;
}
}
if (hasPassedLine && hasEnteredRoundingZone) {
currentMarkSeqID++;
hasPassedLine = false;
hasEnteredRoundingZone = false;
hasPassedThroughGate = false;
logMarkRounding(currentMark);
}
}
/**
* Checks if a gate line has been crossed and in the correct direction
*
* @param currentMark The current gate
*/
private void checkGateRounding(CompoundMark currentMark) {
Mark mark1 = currentMark.getSubMark(1);
Mark mark2 = currentMark.getSubMark(2);
CompoundMark prevMark = GameState.getMarkOrder().getPreviousMark(currentMarkSeqID);
CompoundMark nextMark = GameState.getMarkOrder().getNextMark(currentMarkSeqID);
Integer crossedLine = GeoUtility.checkCrossedLine(mark1, mark2, lastLocation, location);
//We have crossed the line
if (crossedLine > 0) {
Boolean isClockwiseCross = GeoUtility.isClockwise(mark1, mark2, prevMark.getMidPoint());
//Check we cross the line in the correct direction
if (crossedLine == 1 && isClockwiseCross || crossedLine == 2 && !isClockwiseCross) {
hasPassedThroughGate = true;
}
}
Boolean prevMarkSide = GeoUtility.isClockwise(mark1, mark2, prevMark.getMidPoint());
Boolean nextMarkSide = GeoUtility.isClockwise(mark1, mark2, nextMark.getMidPoint());
if (hasPassedThroughGate) {
//Check if we need to round this gate after passing through
if (prevMarkSide == nextMarkSide) {
checkMarkRounding(currentMark);
} else {
currentMarkSeqID++;
logMarkRounding(currentMark);
}
}
}
/**
* If we pass the finish gate in the correct direction
*
* @param currentMark The current gate
*/
private void checkFinishLineCrossing(CompoundMark currentMark) {
Mark mark1 = currentMark.getSubMark(1);
Mark mark2 = currentMark.getSubMark(2);
CompoundMark prevMark = GameState.getMarkOrder().getPreviousMark(currentMarkSeqID);
Integer crossedLine = GeoUtility.checkCrossedLine(mark1, mark2, lastLocation, location);
if (crossedLine > 0) {
Boolean isClockwiseCross = GeoUtility.isClockwise(mark1, mark2, prevMark.getMidPoint());
if (crossedLine == 1 && isClockwiseCross || crossedLine == 2 && !isClockwiseCross) {
currentMarkSeqID++;
finishedRace = true;
logMarkRounding(currentMark);
System.out.println("YAY YOU FINISHED!");
// TODO: 8/08/17 wmu16 - Do something!
}
}
}
public void adjustHeading(Double amount) {
Double newVal = heading + amount;
lastHeading = heading;
@@ -231,7 +380,6 @@ public class Yacht {
}
private void turnTowardsHeading(Double newHeading) {
System.out.println(newHeading);
if (heading < 90 && newHeading > 270) {
adjustHeading(-TURN_STEP);
} else {
@@ -357,14 +505,6 @@ public class Yacht {
this.lastMarkRounded = lastMarkRounded;
}
public void setNextMark(CompoundMark nextMark) {
this.nextMark = nextMark;
}
public CompoundMark getNextMark(){
return nextMark;
}
public GeoPoint getLocation() {
return location;
}
@@ -429,8 +569,8 @@ public class Yacht {
this.velocity = velocity;
}
public Double getDistanceToNextMark() {
return distanceToNextMark;
public Double getDistanceToCurrentMark() {
return distanceToCurrentMark;
}
public void updateLocation(double lat, double lng, double heading, double velocity) {
@@ -443,6 +583,17 @@ public class Yacht {
}
}
private void logMarkRounding(CompoundMark currentMark) {
String typeString = "mark";
if (currentMark.isGate()) {
typeString = "gate";
}
System.out.println(
"(" + currentMarkSeqID + ") Passed " + typeString + ": " + currentMark.getMarks().get(0)
.getName()
+ " ID(" + currentMark.getId() + ")");
}
public void addLocationListener (YachtLocationListener listener) {
locationListeners.add(listener);
}
src/main/java/seng302/model/mark/CompoundMark.java
+21 -43
View File
@@ -1,8 +1,9 @@
package seng302.model.mark;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import seng302.model.GeoPoint;
import seng302.utilities.GeoUtility;
public class CompoundMark {
@@ -10,18 +11,17 @@ public class CompoundMark {
private String name;
private List<Mark> marks = new ArrayList<>();
private GeoPoint midPoint;
public CompoundMark(int markID, String name) {
this.compoundMarkId = markID;
public CompoundMark(int markID, String name, List<Mark> marks) {
this.compoundMarkId = markID;
this.name = name;
}
public void addSubMarks(Mark... marks) {
this.marks.addAll(Arrays.asList(marks));
}
public void addSubMarks(List<Mark> marks) {
this.marks.addAll(marks);
this.marks.addAll(marks);
if (marks.size() > 1) {
this.midPoint = GeoUtility.getDirtyMidPoint(marks.get(0), marks.get(1));
} else {
this.midPoint = marks.get(0);
}
}
/**
@@ -68,6 +68,16 @@ public class CompoundMark {
}
}
/**
* NOTE: This is a 'dirty' mid point as it is simply calculated as an xy point would be.
* NO CHECKING FOR LAT / LNG WRAPPING IS DONE IN CREATION OF THIS MIDPOINT
*
* @return GeoPoint of the midpoint of the two marks, or the one mark if there is only one
*/
public GeoPoint getMidPoint() {
return midPoint;
}
/**
* Returns whether or not this CompoundMark is a Gate. It is generally cleaner to program to a
* specific singleMark or the list of marks.
@@ -87,38 +97,6 @@ public class CompoundMark {
return marks;
}
// @Override
// public boolean equals(Object other) {
// if (other == null) {
// return false;
// }
//
// if (!(other instanceof Mark)){
// return false;
// }
//
// Mark otherMark = (Mark) other;
//
// if (otherMark.getLat() != getLat() || otherMark.getLongitude() != getLongitude()) {
// return false;
// }
//
// if (otherMark.getCompoundMarkID() != getCompoundMarkID()){
// return false;
// }
//
// if (otherMark.getId() != getId()){
// return false;
// }
//
// if (!otherMark.getName().equals(name)){
// return false;
// }
//
// return true;
// }
@Override
public int hashCode() {
int hash = 0;
src/main/java/seng302/model/mark/MarkOrder.java
+31 -33
View File
@@ -24,7 +24,7 @@ import java.util.Map;
* Class to hold the order of the marks in the race.
*/
public class MarkOrder {
private List<Mark> raceMarkOrder;
private List<CompoundMark> raceMarkOrder;
private Logger logger = LoggerFactory.getLogger(MarkOrder.class);
public MarkOrder(){
@@ -35,7 +35,7 @@ public class MarkOrder {
* @return An ordered list of marks in the race
* OR null if the mark order could not be loaded
*/
public List<Mark> getMarkOrder(){
public List<CompoundMark> getMarkOrder(){
if (raceMarkOrder == null){
logger.warn("Race order accessed but not instantiated");
return null;
@@ -45,26 +45,35 @@ public class MarkOrder {
}
/**
* Returns the mark in the race after the previous mark
* @param position The current race position
* @return the next race position
* OR null if there is no position
* @param seqID The seqID of the current mark the boat is heading to
* @return A Boolean indicating if this coming mark is the last one (finish line)
*/
public RacePosition getNextPosition(RacePosition position){
Mark previousMark = position.getNextMark();
Mark nextMark;
public Boolean isLastMark(Integer seqID) {
return seqID == raceMarkOrder.size() - 1;
}
if (position.getPositionIndex() + 1 >= raceMarkOrder.size() - 1){
RacePosition nextRacePosition = new RacePosition(raceMarkOrder.size() - 1, null, previousMark);
nextRacePosition.setFinishingLeg();
/**
* @param currentSeqID The seqID of the current mark the boat is heading to
* @return The mark last passed
* @throws IndexOutOfBoundsException if there is no next mark.
* Check seqID != 0 first
*/
public CompoundMark getPreviousMark(Integer currentSeqID) throws IndexOutOfBoundsException{
return raceMarkOrder.get(currentSeqID - 1);
}
return nextRacePosition;
}
public CompoundMark getCurrentMark(Integer currentSeqID) {
return raceMarkOrder.get(currentSeqID);
}
Integer nextPositionIndex = position.getPositionIndex() + 1;
RacePosition nextRacePosition = new RacePosition(nextPositionIndex, raceMarkOrder.get(nextPositionIndex), previousMark);
return nextRacePosition;
/**
* @param currentSeqID The seqID of the current mark the boat is heading to
* @return The mark following the mark that the boat is heading to
* @throws IndexOutOfBoundsException if there is no next mark.
* Check using {@link #isLastMark(Integer)}
*/
public CompoundMark getNextMark(Integer currentSeqID) throws IndexOutOfBoundsException{
return raceMarkOrder.get(currentSeqID + 1);
}
/**
@@ -72,7 +81,7 @@ public class MarkOrder {
* @param xml An AC35 RaceXML
* @return An ordered list of marks in the race
*/
private List<Mark> loadRaceOrderFromXML(String xml){
private List<CompoundMark> loadRaceOrderFromXML(String xml){
DocumentBuilderFactory dbf = DocumentBuilderFactory.newInstance();
DocumentBuilder db;
@@ -92,11 +101,11 @@ public class MarkOrder {
logger.debug("Loaded RaceXML for mark order");
List<Corner> corners = data.getMarkSequence();
Map<Integer, CompoundMark> marks = data.getCompoundMarks();
List<Mark> course = new ArrayList<>();
List<CompoundMark> course = new ArrayList<>();
for (Corner corner : corners){
CompoundMark compoundMark = marks.get(corner.getCompoundMarkID());
course.add(compoundMark.getMarks().get(0));
course.add(compoundMark);
}
return course;
@@ -105,17 +114,6 @@ public class MarkOrder {
return null;
}
/**
* @return The first position in the race
*/
public RacePosition getFirstPosition(){
if (raceMarkOrder.size() > 0){
return new RacePosition(-1, raceMarkOrder.get(0), null);
}
return null;
}
/**
* Load the raceXML and mark order
*/
@@ -132,4 +130,4 @@ public class MarkOrder {
}
raceMarkOrder = loadRaceOrderFromXML(raceXML);
}
}
}
src/main/java/seng302/model/mark/RacePosition.java
-55
View File
@@ -1,55 +0,0 @@
package seng302.model.mark;
/**
* Represents a boats position between two marks
*/
public class RacePosition {
private Integer positionIndex;
private Mark nextMark;
private Mark previousMark;
private Boolean isFinishingLeg;
public RacePosition(Integer positionIndex, Mark nextMark, Mark previousMark){
this.positionIndex = positionIndex;
this.nextMark = nextMark;
this.previousMark = previousMark;
isFinishingLeg = false;
}
/**
* @return The position of the boat (0...number of marks in race - 1)
*/
public Integer getPositionIndex(){
return positionIndex;
}
/**
* @return The mark the boat is heading to
* will return NULL if this is the finishing legg
*/
public Mark getNextMark(){
return nextMark;
}
/**
* @return The mark the boat is heading away from,
* Will return NULL if this is the starting leg
*/
public Mark getPreviousMark(){
return previousMark;
}
/**
* Sets a flag that this is the last leg in the race
*/
public void setFinishingLeg(){
isFinishingLeg = true;
}
/**
* @return true if this is the last leg in the race
*/
public boolean getIsFinishingLeg() {
return isFinishingLeg;
}
}
src/main/java/seng302/utilities/GeoUtility.java
+58 -7
View File
@@ -45,6 +45,19 @@ public class GeoUtility {
return (Math.toDegrees(getBearingRad(p1, p2)) + 360.0) % 360.0;
}
/**
* WARNING: this function DOES NOT account for wrapping around on lats / longs etc.
* SO BE CAREFUL IN USING THIS FUNCTION
*
* @param p1 GeoPoint 1
* @param p2 GeoPoint 2
* @return GeoPoint midPoint
*/
public static GeoPoint getDirtyMidPoint(GeoPoint p1, GeoPoint p2) {
return new GeoPoint((p1.getLat() + p2.getLat()) / 2, (p1.getLng() + p2.getLng()) / 2);
}
/**
* Calculates the angle between to angular co-ordinates on a sphere in radians.
*
@@ -93,7 +106,6 @@ public class GeoUtility {
return new GeoPoint(Math.toDegrees(endLat), Math.toDegrees(endLng));
}
/**
* Performs the line function on two points of a line and a test point to test which side of the
* line that point is on. If the return value is return 1, then the point is on one side of the
@@ -125,6 +137,31 @@ public class GeoUtility {
}
}
/**
* Checks if the line formed by lastLocation and location doesn't intersect the line segment
* formed by mark1 and mark2 See the wiki Mark Rounding algorithm for more info
*
* @param mark1 One mark of the line
* @param mark2 The second mark of the line
* @param lastLocation The last location of the point crossing this line
* @param location The current location of the point crossing this line
* @return 0 if two line segment doesn't intersect, otherwise 1 if they intersect and
* lastLocation is on RHS of the line segment (mark1 to mark2) or 2 if lastLocation on LHS of
* the line segment (mark1 to mark2)
*/
public static Integer checkCrossedLine(GeoPoint mark1, GeoPoint mark2, GeoPoint lastLocation,
GeoPoint location) {
boolean enteredDirection = isClockwise(mark1, mark2, lastLocation);
boolean exitedDirection = isClockwise(mark1, mark2, location);
if (enteredDirection != exitedDirection) {
if (!isPointInTriangle(mark1, lastLocation, location, mark2)
&& !isPointInTriangle(mark2, lastLocation, location, mark1)) {
return enteredDirection ? 1 : 2;
}
}
return 0;
}
/**
* Given a point and a vector (angle and vector length) Will create a new point, that vector
@@ -155,10 +192,24 @@ public class GeoUtility {
* @param bearing2 the bearing of v2
* @return the difference of bearing from v1 to v2
*/
private static double getBearingDiff(double bearing1, double bearing2) {
private static Double getBearingDiff(double bearing1, double bearing2) {
return ((360 - bearing1) + bearing2) % 360;
}
/**
* Check if a geo point ins on the right hand side of the line segment, which
* formed by two geo points v1 to v2. (Algorithm: point is clockwise to the
* line if the bearing difference is less than 180 deg.)
*
* @param v1 one end of the line segment
* @param v2 another end of the line segment
* @param point the point to be tested
* @return true if the point is on the RHS of the line
*/
public static Boolean isClockwise(GeoPoint v1, GeoPoint v2, GeoPoint point) {
return getBearingDiff(getBearing(v1, v2), getBearing(v1, point)) < 180;
}
/**
* Given three geo points to form a triangle, the method returns true if the fourth point is
* inside the triangle
@@ -169,15 +220,15 @@ public class GeoUtility {
* @param point the point to be tested
* @return true if the fourth point is inside the triangle
*/
public static boolean isPointInTriangle(GeoPoint v1, GeoPoint v2, GeoPoint v3, GeoPoint point) {
// true, if diff of bearing from (v1->v2) to (v1->p) is less than 180 deg
boolean sideFlag = getBearingDiff(getBearing(v1, v2), getBearing(v1, point)) < 180;
public static Boolean isPointInTriangle(GeoPoint v1, GeoPoint v2, GeoPoint v3, GeoPoint point) {
// true, if diff of bearing from (v1 to v2) to (v1 to p) is less than 180 deg
boolean isCW = isClockwise(v1, v2, point);
if ((getBearingDiff(getBearing(v2, v3), getBearing(v2, point)) < 180) != sideFlag) {
if (isClockwise(v2, v3, point) != isCW) {
return false;
}
if ((getBearingDiff(getBearing(v3, v1), getBearing(v3, point)) < 180) != sideFlag) {
if (isClockwise(v3, v1, point) != isCW) {
return false;
}
src/main/java/seng302/utilities/XMLParser.java
+2 -2
View File
@@ -256,9 +256,9 @@ public class XMLParser {
if (cMarkNode.getNodeName().equals("CompoundMark")) {
cMark = new CompoundMark(
XMLParser.getNodeAttributeInt(cMarkNode, "CompoundMarkID"),
XMLParser.getNodeAttributeString(cMarkNode, "Name")
XMLParser.getNodeAttributeString(cMarkNode, "Name"),
createMarks(cMarkNode)
);
cMark.addSubMarks(createMarks(cMarkNode));
allMarks.add(cMark);
}
}
src/main/java/seng302/visualiser/GameClient.java
-1
View File
@@ -174,7 +174,6 @@ public class GameClient {
break;
case BOAT_XML:
System.out.println("GOT SUM BOATS YAY :)");
allBoatsMap = XMLParser.parseBoats(
StreamParser.extractXmlMessage(packet)
);
src/main/java/seng302/visualiser/controllers/RaceViewController.java
+1 -1
View File
@@ -312,7 +312,7 @@ public class RaceViewController extends Thread implements ImportantAnnotationDel
updateRaceTime();
updateWindDirection();
updateOrder();
updateSparkLine();
// updateSparkLine();
}
}, 0, 1000);
}
src/test/java/seng302/model/YachtTest.java
-54
View File
@@ -1,54 +0,0 @@
package seng302.model;
import static org.junit.Assert.*;
import org.junit.Before;
import org.junit.Test;
import seng302.model.mark.CompoundMark;
import seng302.model.mark.Mark;
/**
* Use this link to test geo distances
* http://www.csgnetwork.com/gpsdistcalc.html
* Created by wmu16 on 3/08/17.
*/
public class YachtTest {
private Yacht yacht;
private CompoundMark compoundMark;
private Double toleranceRatio = 0.01;
private GeoPoint p1 = new GeoPoint(57.670333, 11.827833);
private GeoPoint p2 = new GeoPoint(57.671524, 11.844495);
private GeoPoint p3 = new GeoPoint(57.670822, 11.843392);
private GeoPoint p4 = new GeoPoint(25.694829, 98.392049);
@Before
public void setup() {
yacht = new Yacht("Yacht",
0,
"0",
"WillIsCool",
"HaomingIsOk",
"NZL");
yacht.setLocation(57.670333, 11.827833);
compoundMark = new CompoundMark(0, "HaomingsMark");
Mark subMark1 = new Mark("H", 57.671524, 11.844495, 0);
Mark subMark2 = new Mark("H", 57.670822, 11.843392, 0);
compoundMark.addSubMarks(subMark1, subMark2);
yacht.setNextMark(compoundMark);
}
@Test
public void testDistanceToNextMark() {
Double actual, expected;
actual = yacht.calcDistanceToNextMark();
expected = 927d;
assertEquals(expected, actual, expected * toleranceRatio);
}
}
src/test/java/seng302/model/mark/CompoundMarkTest.java
+66
View File
@@ -0,0 +1,66 @@
package seng302.model.mark;
import static org.junit.Assert.*;
import java.util.ArrayList;
import java.util.List;
import org.junit.Before;
import org.junit.Test;
import seng302.model.GeoPoint;
/**
* A class to test the compound mark calss
* Created by wmu16 on 10/08/17.
*/
public class CompoundMarkTest {
private Mark mark1;
private Mark mark2;
private CompoundMark gateMark;
private CompoundMark singleMark;
private static Double TOLERANCE_RATIO = 0.01;
@Before
public void setUp() throws Exception {
mark1 = new Mark("Mark1", 57.670333, 11.842833, 0);
mark2 = new Mark("Mark2", 57.671524, 11.844495, 1);
List<Mark> gateMarks = new ArrayList<Mark>();
gateMarks.add(mark1);
gateMarks.add(mark2);
List<Mark> singleMarks = new ArrayList<Mark>();
singleMarks.add(mark1);
gateMark = new CompoundMark(0, "Fun Mark", gateMarks);
singleMark = new CompoundMark(1, "Awesome Mark", singleMarks);
}
@Test
public void getSubMark() throws Exception {
assertEquals(mark1, gateMark.getSubMark(1));
assertEquals(mark2, gateMark.getSubMark(2));
assertEquals(mark1, singleMark.getSubMark(1));
}
@Test
public void getMidPoint() throws Exception {
GeoPoint result = gateMark.getMidPoint();
assertEquals(57.6709285, result.getLat(), result.getLat() * TOLERANCE_RATIO);
assertEquals(11.843664, result.getLng(), result.getLng() * TOLERANCE_RATIO);
result = singleMark.getMidPoint();
assertEquals(result, mark1);
}
@Test
public void isGate() throws Exception {
assertTrue(gateMark.isGate());
assertFalse(singleMark.isGate());
}
}
src/test/java/seng302/models/MarkOrderTest.java
+27 -39
View File
@@ -3,19 +3,22 @@ package seng302.models;
import org.junit.AfterClass;
import org.junit.BeforeClass;
import org.junit.Test;
import seng302.model.mark.CompoundMark;
import seng302.model.mark.Mark;
import seng302.model.mark.MarkOrder;
import seng302.model.mark.RacePosition;
import static junit.framework.TestCase.assertEquals;
import static junit.framework.TestCase.assertFalse;
import static junit.framework.TestCase.assertTrue;
public class MarkOrderTest {
private static MarkOrder markOrder;
private static Integer currentSeqID;
@BeforeClass
public static void setup(){
markOrder = new MarkOrder();
currentSeqID = 0;
}
/**
@@ -26,54 +29,39 @@ public class MarkOrderTest {
assertTrue(markOrder != null);
}
/**
* Test if .getNextMark() returns null if it is called with the final mark in the race
*/
@Test
public void testNextMarkAtEnd(){
// There are no marks in the XML, therefore this can't be tested
if (markOrder.getMarkOrder().size() == 0){
return;
}
public void testIsLastMark() {
currentSeqID = 0;
assertFalse(markOrder.isLastMark(currentSeqID));
Mark lastMark = markOrder.getMarkOrder().get(markOrder.getMarkOrder().size() - 1);
Integer lastIndex = markOrder.getMarkOrder().size() - 1;
RacePosition lastRacePosition = new RacePosition(lastIndex, lastMark, null);
assertEquals(null, markOrder.getNextPosition(lastRacePosition).getNextMark());
currentSeqID = markOrder.getMarkOrder().size() - 1;
assertTrue(markOrder.isLastMark(currentSeqID));
}
/**
* Test if .getNextMark() method returns the next mark in the race
*/
@Test
public void testNextMark(){
// There are not enough marks for this to be tested
if (markOrder.getMarkOrder().size() < 2){
return;
}
public void testGetNextMark() {
currentSeqID = 4;
CompoundMark nextMark = markOrder.getMarkOrder().get(4 + 1);
assertEquals(nextMark, markOrder.getNextMark(currentSeqID));
RacePosition firstRacePos = new RacePosition(0, markOrder.getMarkOrder().get(0), null);
assertEquals(markOrder.getMarkOrder().get(1).getName(), markOrder.getNextPosition(firstRacePos).getNextMark().getName());
currentSeqID = 3;
nextMark = markOrder.getMarkOrder().get(3 + 1);
assertEquals(nextMark, markOrder.getNextMark(currentSeqID));
}
/**
* Test if a whole race can be completed
*/
@Test
public void testMarkSequence(){
RacePosition current = markOrder.getFirstPosition();
public void testGetCurrentMark() {
currentSeqID = 0;
CompoundMark currentMark = markOrder.getMarkOrder().get(0);
assertEquals(currentMark, markOrder.getCurrentMark(0));
}
while (!current.getIsFinishingLeg()){
current = markOrder.getNextPosition(current);
if (current.getIsFinishingLeg()){
assertEquals(null, current.getNextMark());
}
}
@Test
public void testGetPreviousMark() {
currentSeqID = 1;
CompoundMark prevMark = markOrder.getMarkOrder().get(0);
assertEquals(prevMark, markOrder.getPreviousMark(currentSeqID));
}
@AfterClass
src/test/java/seng302/utilities/GeoUtilityTest.java
+29 -2
View File
@@ -6,12 +6,11 @@ import static org.junit.Assert.assertNotEquals;
import static org.junit.Assert.assertTrue;
import javafx.geometry.Point2D;
import org.junit.Before;
import org.junit.Test;
import seng302.model.GeoPoint;
import seng302.utilities.GeoUtility;
/**
* http://www.geoplaner.com/ For plotting geo points for visualisation
* To test methods in GeoUtility.
* Use this site to calculate distances
* https://rechneronline.de/geo-coordinates/#distance
@@ -150,4 +149,32 @@ public class GeoUtilityTest {
assertFalse(GeoUtility.isPointInTriangle(v1, v2, v3, p2));
}
@Test
public void testCheckCrossedGate() {
GeoPoint mark1 = new GeoPoint(37.40937, -122.62233);
GeoPoint mark2 = new GeoPoint(37.40938, -122.62154);
GeoPoint location1 = new GeoPoint(37.40964, -122.62196);
GeoPoint location2 = new GeoPoint(37.40910, -122.62189);
GeoPoint location3 = new GeoPoint(37.40949, -122.62202);
GeoPoint location4 = new GeoPoint(37.40927, -122.62152);
// M1 -> M3 enters from CCW side
assertTrue(GeoUtility.checkCrossedLine(mark1, mark2, location1, location2) == 2);
// M1 -> M3 doesn't across
assertFalse(GeoUtility.checkCrossedLine(mark1, mark2, location1, location3) > 0);
// M2 -> M3 enters from CW side
assertTrue(GeoUtility.checkCrossedLine(mark1, mark2, location2, location3) == 1);
// order changes intersect direction
assertTrue(GeoUtility.checkCrossedLine(mark2, mark1, location2, location3) == 2);
assertTrue(GeoUtility.checkCrossedLine(mark1, mark2, location3, location2) == 2);
}
@Test
public void testDirtyMiddlePoint() {
GeoPoint result = GeoUtility.getDirtyMidPoint(p1, p2);
assertEquals(57.6709285, result.getLat(), result.getLat() * toleranceRate);
assertEquals(11.836164, result.getLng(), result.getLng() * toleranceRate);
}
}