ZHAW-IT21b_WIN
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team02-AngryNerds-projekt1-racetrack
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Merge pull request #23 from PM2-IT21bWIN-ruiz-mach-krea/Game 

Game
This commit is contained in:
romanschenk37 2022-03-20 16:56:33 +01:00 committed by GitHub Enterprise
parent d02c04f91d b467a79596
commit fe74d017b2
13 changed files with 574 additions and 47 deletions
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2
build.gradle
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@ -44,7 +44,7 @@ version = '2022.1'
application {
// Define the main class for the application.
mainClass = 'ch.zhaw.pm2.racetrack.ConsoleApp'
mainClass = 'ch.zhaw.pm2.racetrack.Main'
}
run {

16
src/main/java/ch/zhaw/pm2/racetrack/Car.java
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@ -24,6 +24,10 @@ public class Car implements CarSpecification {
* Current position of the car on the track grid using a {@link PositionVector}
*/
private PositionVector position;
/**
* Points that car is holding for determining winner.
*/
private int winPoints;
/**
* Current velocity of the car using a {@link PositionVector}
@ -59,6 +63,18 @@ public class Car implements CarSpecification {
return id;
}
public void increaseWinPoints() {
winPoints ++;
}
public void deductWinPoints() {
winPoints --;
}
public int getWinPoints() {
return winPoints;
}
/**
* Returns the current velocity of the car as a PositionVector.
*

293
src/main/java/ch/zhaw/pm2/racetrack/Game.java
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@ -1,7 +1,11 @@
package ch.zhaw.pm2.racetrack;
import ch.zhaw.pm2.racetrack.given.GameSpecification;
import ch.zhaw.pm2.racetrack.strategy.*;
import java.io.File;
import java.io.FileNotFoundException;
import java.util.ArrayList;
import java.util.List;
import static ch.zhaw.pm2.racetrack.PositionVector.Direction;
@ -13,59 +17,152 @@ import static ch.zhaw.pm2.racetrack.PositionVector.Direction;
*/
public class Game implements GameSpecification {
public static final int NO_WINNER = -1;
private Track track;
private int currentCarIndex;
UserInterface userInterface;
public Game(UserInterface userInterface) {
this.userInterface = userInterface;
}
public boolean initPhase() throws InvalidTrackFormatException {
File folder = new File("tracks");
File[] listOfFiles = folder.listFiles();
if (listOfFiles.length > 0) {
List<String> tracks = new ArrayList<>();
for (File file : listOfFiles) {
tracks.add(file.getName());
}
File selectedTrack = listOfFiles[userInterface.selectOption("Select Track file", tracks)];
selectTrack(selectedTrack);
List<String> moveStrategies = new ArrayList<>();
moveStrategies.add("Do not move Strategy");
moveStrategies.add("User Move Strategy");
moveStrategies.add("Move List Strategy");
moveStrategies.add("Path Follow Move Strategy");
for (int i = 0; i < track.getCarCount(); i++) {
Car car = track.getCar(i);
while (car.getMoveStrategy() == null) {
int moveStrategie = userInterface.selectOption(
"Select Strategy for Car " + i + " (" + track.getCarId(i) + ")", moveStrategies);
switch (moveStrategie + 1) {
case 1:
selectMoveStrategy(car, new DoNotMoveStrategy());
break;
case 2:
selectMoveStrategy(car, new UserMoveStrategy(userInterface, i, track.getCarId(i)));
break;
case 3:
String path = ".\\moves\\" + selectedTrack.getName().split("\\.")[0] + "-car-" + track.getCar(i).getID() + ".txt";
try {
MoveStrategy moveStrategy = new MoveListStrategy(path);
selectMoveStrategy(car, moveStrategy);
} catch (FileNotFoundException e) {
userInterface.printInformation("There is no MoveList implemented. Choose another Strategy!");
}
//TODO: Backslash kompatibel für Linux
break;
case 4:
//TODO: add Arguments
selectMoveStrategy(car, new PathFollowerMoveStrategy());
break;
}
}
}
return true;
} else {
userInterface.printInformation("No Trackfile found!");
return false;
}
}
/**
* The functionality was taken out of init to automate testing
*
* @param selectedTrack
*/
Track selectTrack(File selectedTrack) {
try {
track = new Track(selectedTrack);
return track;
} catch (FileNotFoundException | PositionVectorNotValid | InvalidTrackFormatException e) {
e.printStackTrace();
}
return null;
}
/**
* The functionality was taken out of init to automate testing
*
* @param car to set the MoveStrategy
* @param strategy The movestrategy to set
*/
void selectMoveStrategy(Car car, MoveStrategy strategy) {
car.setMoveStrategy(strategy);
}
/**
* Return the index of the current active car.
* Car indexes are zero-based, so the first car is 0, and the last car is getCarCount() - 1.
*
* @return The zero-based number of the current car
*/
@Override
public int getCurrentCarIndex() {
// TODO: implementation
throw new UnsupportedOperationException();
return currentCarIndex;
}
/**
* Get the id of the specified car.
*
* @param carIndex The zero-based carIndex number
* @return A char containing the id of the car
*/
@Override
public char getCarId(int carIndex) {
// TODO: implementation
throw new UnsupportedOperationException();
return track.getCarId(carIndex);
}
/**
* Get the position of the specified car.
*
* @param carIndex The zero-based carIndex number
* @return A PositionVector containing the car's current position
*/
@Override
public PositionVector getCarPosition(int carIndex) {
// TODO: implementation
throw new UnsupportedOperationException();
return track.getCarPos(carIndex);
}
/**
* Get the velocity of the specified car.
*
* @param carIndex The zero-based carIndex number
* @return A PositionVector containing the car's current velocity
*/
@Override
public PositionVector getCarVelocity(int carIndex) {
// TODO: implementation
throw new UnsupportedOperationException();
return track.getCarVelocity(carIndex);
}
/**
* Return the winner of the game. If the game is still in progress, returns NO_WINNER.
*
* @return The winning car's index (zero-based, see getCurrentCar()), or NO_WINNER if the game is still in progress
*/
@Override
public int getWinner() {
// TODO: implementation
throw new UnsupportedOperationException();
if (onlyOneCarLeft()) {
return currentCarIndex;
}
for (int i = 0; i < track.getCarCount(); i++) {
if (track.getCar(i).getWinPoints() == 1) {
return i;
}
}
return NO_WINNER;
}
/**
@ -95,9 +192,48 @@ public class Game implements GameSpecification {
* for this turn
*/
@Override
public void doCarTurn(Direction acceleration) {
// TODO: implementation
throw new UnsupportedOperationException();
public void doCarTurn(Direction acceleration) throws PositionVectorNotValid {
track.getCar(currentCarIndex).accelerate(acceleration);
PositionVector crashPosition = null;
List<PositionVector> positionList = calculatePath(track.getCarPos(currentCarIndex), track.getCar(currentCarIndex).nextPosition());
for (int i = 0; i < positionList.size(); i++) {
if (willCarCrash(currentCarIndex, positionList.get(i))) {
if (i == 0) {
crashPosition = track.getCarPos(currentCarIndex);
} else {
crashPosition = positionList.get(i - 1);
}
break;
}
}
if (crashPosition != null) {
track.carDoesCrash(currentCarIndex, crashPosition);
} else {
calculateWinner(track.getCarPos(currentCarIndex), track.getCar(currentCarIndex).nextPosition(), currentCarIndex);
track.moveCar(currentCarIndex);
}
}
public String gamePhase() throws PositionVectorNotValid {
while (carsMoving() && getWinner() == NO_WINNER) {
userInterface.printTrack(track);
Direction direction;
direction = track.getCar(currentCarIndex).getMoveStrategy().nextMove();
if (direction == null) {
track.getCar(currentCarIndex).setMoveStrategy(new DoNotMoveStrategy());
direction = track.getCar(currentCarIndex).getMoveStrategy().nextMove(); //TODO: Entfernen?
}else {
doCarTurn(direction);
}
switchToNextActiveCar();
}
userInterface.printTrack(track);
int indexWinner = getWinner();
if (indexWinner == NO_WINNER) {
return null;
}
return String.valueOf(track.getCar(indexWinner).getID());
}
/**
@ -105,8 +241,14 @@ public class Game implements GameSpecification {
*/
@Override
public void switchToNextActiveCar() {
// TODO: implementation
throw new UnsupportedOperationException();
do {
if ((currentCarIndex + 1) == track.getCarCount()) {
currentCarIndex = 0;
} else {
currentCarIndex++;
}
} while (track.getCar(currentCarIndex).isCrashed());
// TODO: evtl andere Kapselung
}
/**
@ -117,28 +259,139 @@ public class Game implements GameSpecification {
* - Detect which axis of the distance vector is longer (faster movement)
* - for each pixel on the 'faster' axis calculate the position on the 'slower' axis.
* Direction of the movement has to correctly considered
*
* @param startPosition Starting position as a PositionVector
* @param endPosition Ending position as a PositionVector
* @param endPosition Ending position as a PositionVector
* @return Intervening grid positions as a List of PositionVector's, including the starting and ending positions.
*/
@Override
public List<PositionVector> calculatePath(PositionVector startPosition, PositionVector endPosition) {
// TODO: implementation
throw new UnsupportedOperationException();
ArrayList<PositionVector> pathList = new ArrayList<>();
// Use Bresenham's algorithm to determine positions.
int x = startPosition.getX();
int y = startPosition.getY();
// Relative Distance (x & y axis) between end- and starting position
int diffX = endPosition.getX() - startPosition.getX();
int diffY = endPosition.getY() - startPosition.getY();
// Absolute distance (x & y axis) between end- and starting position
int distX = Math.abs(diffX);
int distY = Math.abs(diffY);
// Direction of vector on x & y axis (-1: to left/down, 0: none, +1 : to right/up)
int dirX = Integer.signum(diffX);
int dirY = Integer.signum(diffY);
// Determine which axis is the fast direction and set parallel/diagonal step values
int parallelStepX, parallelStepY;
int diagonalStepX, diagonalStepY;
int distanceSlowAxis, distanceFastAxis;
if (distX > distY) {
// x axis is the 'fast' direction
parallelStepX = dirX;
parallelStepY = 0; // parallel step only moves in x direction
diagonalStepX = dirX;
diagonalStepY = dirY; // diagonal step moves in both directions
distanceSlowAxis = distY;
distanceFastAxis = distX;
} else {
// y axis is the 'fast' direction
parallelStepX = 0;
parallelStepY = dirY; // parallel step only moves in y direction
diagonalStepX = dirX;
diagonalStepY = dirY; // diagonal step moves in both directions
distanceSlowAxis = distX;
distanceFastAxis = distY;
}
int error = distanceFastAxis / 2;
for (int step = 0; step < distanceFastAxis; step++) {
error -= distanceSlowAxis;
if (error < 0) {
error += distanceFastAxis; // correct error value to be positive again
// step into slow direction; diagonal step
x += diagonalStepX;
y += diagonalStepY;
} else {
// step into fast direction; parallel step
x += parallelStepX;
y += parallelStepY;
}
pathList.add(new PositionVector(x, y));
}
return pathList;
}
private void calculateWinner(PositionVector start, PositionVector finish, int carIndex) {
List<PositionVector> path = calculatePath(start, finish);
for (PositionVector point : path) {
if (track.getSpaceType(point) != null) {
switch (track.getSpaceType(point)) {
case FINISH_UP:
if (start.getY() < finish.getY()) {
track.getCar(carIndex).increaseWinPoints();
} else if (start.getY() > finish.getY()) {
track.getCar(carIndex).deductWinPoints();
}
break;
case FINISH_DOWN:
if (start.getY() > finish.getY()) {
track.getCar(carIndex).increaseWinPoints();
} else if (start.getY() < finish.getY()) {
track.getCar(carIndex).deductWinPoints();
}
break;
case FINISH_RIGHT:
if (start.getX() < finish.getX()) {
track.getCar(carIndex).increaseWinPoints();
} else if (start.getX() > finish.getX()) {
track.getCar(carIndex).deductWinPoints();
}
break;
case FINISH_LEFT:
if (start.getX() > finish.getX()) {
track.getCar(carIndex).increaseWinPoints();
} else if (start.getX() < finish.getX()) {
track.getCar(carIndex).increaseWinPoints();
}
break;
}
}
}
}
/**
* Does indicate if a car would have a crash with a WALL space or another car at the given position.
*
* @param carIndex The zero-based carIndex number
* @param position A PositionVector of the possible crash position
* @return A boolean indicator if the car would crash with a WALL or another car.
*/
@Override
public boolean willCarCrash(int carIndex, PositionVector position) {
public boolean willCarCrash(int carIndex, PositionVector position) throws PositionVectorNotValid {
return track.willCrashAtPosition(carIndex, position);
}
public boolean onlyOneCarLeft() {
int carsLeft = 0;
for (int carIndex = 0; carIndex < track.getCarCount(); carIndex++) {
if (!track.getCar(carIndex).isCrashed()) {
carsLeft++;
}
}
return !(carsLeft > 1);
}
return true;
public boolean carsMoving() {
for (int carIndex = 0; carIndex < track.getCarCount(); carIndex++) {
if (!(track.getCar(carIndex).isCrashed() || track.getCar(carIndex).getMoveStrategy().getClass() == DoNotMoveStrategy.class)) {
return true;
}
}
return false;
}
}

40
src/main/java/ch/zhaw/pm2/racetrack/Main.java Normal file
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@ -0,0 +1,40 @@
package ch.zhaw.pm2.racetrack;
import java.io.FileNotFoundException;
import java.util.ArrayList;
import java.util.List;
public class Main {
public static void main(String[] args) throws InvalidTrackFormatException, PositionVectorNotValid {
UserInterface userInterface = new UserInterface("Hello and Welcome to Racetrack by Team02-\"AngryNerds\"");
while (true) {
Game game = new Game(userInterface);
String winner;
if (game.initPhase()) {
winner = game.gamePhase();
List<String> optionsNewGame = new ArrayList<>();
optionsNewGame.add("exit");
optionsNewGame.add("new game");
String winnerText;
if(winner == null){
winnerText = "There was no winner.";
}
else {
winnerText = "The Winner was Car " + winner;
}
int selectedOption = userInterface.selectOption(winnerText + "\nStart new Game?", optionsNewGame);
if(selectedOption == 0) {
userInterface.quit("Thank you and goodbye\npress enter to close the application.");
break;
}
}
else {
userInterface.quit("The initialisation of the game failed. Press enter to close the application.");
break;
}
}
}
}

44
src/main/java/ch/zhaw/pm2/racetrack/Track.java
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@ -3,8 +3,7 @@ package ch.zhaw.pm2.racetrack;
import ch.zhaw.pm2.racetrack.given.ConfigSpecification;
import ch.zhaw.pm2.racetrack.given.TrackSpecification;
import java.io.File;
import java.io.FileNotFoundException;
import java.io.*;
import java.util.ArrayList;
import java.util.List;
import java.util.Scanner;
@ -61,6 +60,7 @@ public class Track implements TrackSpecification {
private List<String> track;
private List<Car> cars;
private final List<PositionVector> finishLine;
private ConfigSpecification.SpaceType finishTyp;
/**
* Initialize a Track from the given track file.
@ -85,7 +85,7 @@ public class Track implements TrackSpecification {
* @throws FileNotFoundException if the FilePath is invalid.
*/
private void readFile(File trackFile) throws FileNotFoundException {
Scanner scanner = new Scanner(trackFile);
Scanner scanner = new Scanner(new FileInputStream(trackFile),"UTF-8");
while (scanner.hasNextLine()) {
track.add(scanner.nextLine());
}
@ -133,7 +133,7 @@ public class Track implements TrackSpecification {
if (finishLine.size() == 0) {
throw new InvalidTrackFormatException();
}
ConfigSpecification.SpaceType finishTyp = getSpaceType(finishLine.get(0));
finishTyp = getSpaceType(finishLine.get(0));
for (PositionVector positionVector : finishLine) {
if (getSpaceType(positionVector) != finishTyp) {
throw new InvalidTrackFormatException();
@ -208,12 +208,20 @@ public class Track implements TrackSpecification {
* @param carIndex of the current car
*/
private void makeCarMoveInTrack(int carIndex) {
PositionVector positionVector = findChar(getCarId(carIndex));
PositionVector carPositionVector = findChar(getCarId(carIndex));
//Removes the Car at Current Pos
drawCharOnTrackIndicator(positionVector, ConfigSpecification.SpaceType.TRACK.getValue());
drawCharOnTrackIndicator(carPositionVector, ConfigSpecification.SpaceType.TRACK.getValue());
//Redraw finishline if Car was on finish-line Position
for(PositionVector finishLinePositionVector : finishLine){
if(finishLinePositionVector.equals(carPositionVector)){
drawCharOnTrackIndicator(carPositionVector, finishTyp.getValue());
}
}
//Adds Car at new Position
positionVector = cars.get(carIndex).nextPosition();
drawCharOnTrackIndicator(positionVector, cars.get(carIndex).getID());
carPositionVector = cars.get(carIndex).nextPosition();
drawCharOnTrackIndicator(carPositionVector, cars.get(carIndex).getID());
}
/**
@ -223,24 +231,30 @@ public class Track implements TrackSpecification {
* @return true if car would crash. Else false.
*/
public boolean willCrashAtPosition(int carIndex, PositionVector positionVector) throws PositionVectorNotValid {
isPositionVectorOnTrack(positionVector);
isPositionVectorOnTrack(positionVector); //TODO: remove this line? Or Method?
char charAtPosition = track.get(positionVector.getY()).charAt(positionVector.getX());
if (getCarId(carIndex) == charAtPosition) return false;
return (charAtPosition == ConfigSpecification.SpaceType.WALL.value);
return !(charAtPosition == ConfigSpecification.SpaceType.TRACK.value ||
charAtPosition == ConfigSpecification.SpaceType.FINISH_RIGHT.value ||
charAtPosition == ConfigSpecification.SpaceType.FINISH_LEFT.value ||
charAtPosition == ConfigSpecification.SpaceType.FINISH_UP.value ||
charAtPosition == ConfigSpecification.SpaceType.FINISH_DOWN.value);
}
/**
* This Method will make the Car Crash. In Track and in the Car Object
*
* @param carIndex representing current Car
* @param positionVector where the Crash did happen
* @param crashPositionVector where the Crash did happen
*/
public void carDoesCrash(int carIndex, PositionVector positionVector) throws PositionVectorNotValid{
isPositionVectorOnTrack(positionVector);
public void carDoesCrash(int carIndex, PositionVector crashPositionVector) throws PositionVectorNotValid{
isPositionVectorOnTrack(crashPositionVector); //TODO: remove this line? and Method?
PositionVector currentCarPosition = getCarPos(carIndex);
drawCharOnTrackIndicator(new PositionVector(currentCarPosition.getX(), currentCarPosition.getY()), ConfigSpecification.SpaceType.TRACK.getValue());
Car car = cars.get(carIndex);
car.crash();
car.setPosition(positionVector);
drawCharOnTrackIndicator(new PositionVector(positionVector.getX(), positionVector.getY()), CRASH_INDICATOR);
car.setPosition(crashPositionVector);
drawCharOnTrackIndicator(new PositionVector(crashPositionVector.getX(), crashPositionVector.getY()), CRASH_INDICATOR);
}
/**

21
src/main/java/ch/zhaw/pm2/racetrack/UserInterface.java
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@ -22,6 +22,14 @@ public class UserInterface {
textTerminal.println(welcomeText + "\n");
}
/**
* Prints the given Text in textTerminal
* @param text The Text which should be printed.
*/
public void printInformation(String text) {
textTerminal.println(text);
}
/**
* asks the user to choose one of the options given.
* @param text Text which is printed befor the options are printed. Example: "Select Track file:"
@ -29,7 +37,7 @@ public class UserInterface {
* @return the list index of the selected option
*/
public int selectOption(String text, List<String> options) {
textTerminal.println(text + ":\n");
textTerminal.println(text + ":");
for(int option = 0; option < options.size(); option ++) {
textTerminal.println(" " + (option + 1) + ": " + options.get(option));
}
@ -44,7 +52,7 @@ public class UserInterface {
*/
public PositionVector.Direction selectDirection(int playingCarIndex, char playingCarID) {
PositionVector.Direction direction = null;
textTerminal.println("Playing Car " + playingCarIndex + ": " + playingCarIndex);
textTerminal.println("Playing Car " + playingCarIndex + ": " + playingCarID);
textTerminal.println("Directions are based on the number pad:");
textTerminal.println("7 8 9 7=up-left, 8=up, 9=up-right");
textTerminal.println("4 5 6 4=left, 5=no acceleration, 6=right");
@ -89,6 +97,15 @@ public class UserInterface {
textTerminal.println(track.toString());
}
/**
* Method to dispose the Textterminal
* @param text OUtput Text
*/
public void quit(String text){
textIO.newStringInputReader().withMinLength(0).read(text);
textTerminal.dispose();
}
}

5
src/main/java/ch/zhaw/pm2/racetrack/given/GameSpecification.java
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@ -1,6 +1,7 @@
package ch.zhaw.pm2.racetrack.given;
import ch.zhaw.pm2.racetrack.PositionVector;
import ch.zhaw.pm2.racetrack.PositionVectorNotValid;
import java.util.List;
@ -18,11 +19,11 @@ public interface GameSpecification {
int getWinner();
void doCarTurn(PositionVector.Direction acceleration);
void doCarTurn(PositionVector.Direction acceleration) throws PositionVectorNotValid;
void switchToNextActiveCar();
List<PositionVector> calculatePath(PositionVector startPosition, PositionVector endPosition);
boolean willCarCrash(int carIndex, PositionVector position);
boolean willCarCrash(int carIndex, PositionVector position) throws PositionVectorNotValid;
}

5
src/main/java/ch/zhaw/pm2/racetrack/strategy/DoNotMoveStrategy.java
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@ -1,5 +1,7 @@
package ch.zhaw.pm2.racetrack.strategy;
import ch.zhaw.pm2.racetrack.PositionVector;
import static ch.zhaw.pm2.racetrack.PositionVector.Direction;
/**
@ -9,7 +11,6 @@ public class DoNotMoveStrategy implements MoveStrategy {
@Override
public Direction nextMove() {
// TODO: implementation
throw new UnsupportedOperationException();
return PositionVector.Direction.NONE;
}
}

37
src/main/java/ch/zhaw/pm2/racetrack/strategy/MoveListStrategy.java
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@ -2,11 +2,44 @@ package ch.zhaw.pm2.racetrack.strategy;
import ch.zhaw.pm2.racetrack.PositionVector.Direction;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileNotFoundException;
import java.util.ArrayList;
import java.util.List;
import java.util.Scanner;
public class MoveListStrategy implements MoveStrategy {
private List<Direction> moveList;
private int pointer;
public MoveListStrategy(String path) throws FileNotFoundException{
moveList = new ArrayList<>();
pointer = -1;
readFile(new File(path));
}
private void readFile(File trackFile) throws FileNotFoundException {
Scanner scanner = new Scanner(new FileInputStream(trackFile), "UTF-8");
Direction[] directions = Direction.values();
while (scanner.hasNextLine()) {
String line = scanner.nextLine();
for (Direction dir : directions) {
if (dir.toString().equals(line)) {
moveList.add(dir);
break;
}
}
}
}
@Override
public Direction nextMove() {
// TODO: implementation
throw new UnsupportedOperationException();
pointer += 1;
if (pointer < moveList.size()) {
return moveList.get(pointer);
}
return null;
}
}

13
src/main/java/ch/zhaw/pm2/racetrack/strategy/UserMoveStrategy.java
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@ -1,15 +1,24 @@
package ch.zhaw.pm2.racetrack.strategy;
import ch.zhaw.pm2.racetrack.PositionVector.Direction;
import ch.zhaw.pm2.racetrack.UserInterface;
/**
* Let the user decide the next move.
*/
public class UserMoveStrategy implements MoveStrategy {
private UserInterface userInterface;
private int carIndex;
private char carID;
public UserMoveStrategy(UserInterface userInterface, int carIndex, char carID) {
this.userInterface = userInterface;
this.carIndex = carIndex;
this.carID = carID;
}
@Override
public Direction nextMove() {
// TODO: implementation
throw new UnsupportedOperationException();
return userInterface.selectDirection(carIndex, carID);
}
}

104
src/test/java/ch/zhaw/pm2/racetrack/GameTest.java Normal file
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@ -0,0 +1,104 @@
package ch.zhaw.pm2.racetrack;
import ch.zhaw.pm2.racetrack.strategy.UserMoveStrategy;
import org.junit.jupiter.api.*;
import java.io.File;
import static ch.zhaw.pm2.racetrack.Game.NO_WINNER;
class GameTest {
private UserInterface userInterface;
private Game game;
private Track track;
@Nested
@DisplayName("Test correct Setup")
class Setup {
@BeforeEach
void setup() {
userInterface = new UserInterface("Test");
game = new Game(userInterface);
track = game.selectTrack(new File(".\\tracks\\challenge.txt"));
game.selectMoveStrategy(track.getCar(0),new UserMoveStrategy(new UserInterface("Testing"),0, track.getCarId(0)));
game.selectMoveStrategy(track.getCar(1),new UserMoveStrategy(new UserInterface("Testing"),1, track.getCarId(1)));
}
@Test
void getCurrentCarIndex() {
Assertions.assertEquals(0,game.getCurrentCarIndex());
game.switchToNextActiveCar();
Assertions.assertEquals(1,game.getCurrentCarIndex());
}
@Test
void getCarId() {
Assertions.assertEquals('a',game.getCarId(0));
Assertions.assertEquals('b',game.getCarId(1));
}
@Test
void getCarPosition() {
Assertions.assertEquals(new PositionVector(24,22),game.getCarPosition(0));
Assertions.assertEquals(new PositionVector(24,24),game.getCarPosition(1));
}
@Test
void getCarVelocity() {
Assertions.assertEquals(new PositionVector(0,0),game.getCarVelocity(0));
Assertions.assertEquals(new PositionVector(0,0),game.getCarVelocity(1));
}
@Test
void getWinner() {
Assertions.assertEquals(NO_WINNER,game.getWinner());
}
@Test
void onlyOneCarLeft() {
Assertions.assertFalse(game.onlyOneCarLeft());
}
@Test
void carsMoving() {
Assertions.assertTrue(game.carsMoving());
}
}
@Nested
@DisplayName("Basic manipulation")
class manipulation {
@BeforeEach
void setup() {
userInterface = new UserInterface("Test");
game = new Game(userInterface);
track = game.selectTrack(new File(".\\tracks\\challenge.txt"));
game.selectMoveStrategy(track.getCar(0),new UserMoveStrategy(new UserInterface("Testing"),0, track.getCarId(0)));
game.selectMoveStrategy(track.getCar(1),new UserMoveStrategy(new UserInterface("Testing"),1, track.getCarId(1)));
}
@Test
void carTurnCorrect() {
try {
game.doCarTurn(PositionVector.Direction.RIGHT);
Assertions.assertEquals(new PositionVector(1,0),game.getCarVelocity(0));
} catch (PositionVectorNotValid positionVectorNotValid) {
positionVectorNotValid.printStackTrace();
}
}
@Test
void carCrash() {
try {
game.doCarTurn(PositionVector.Direction.UP);
Assertions.assertTrue(game.onlyOneCarLeft());
} catch (PositionVectorNotValid positionVectorNotValid) {
positionVectorNotValid.printStackTrace();
}
}
}
}

40
src/test/java/ch/zhaw/pm2/racetrack/MoveStrategyTest.java Normal file
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@ -0,0 +1,40 @@
package ch.zhaw.pm2.racetrack;
import ch.zhaw.pm2.racetrack.strategy.MoveListStrategy;
import ch.zhaw.pm2.racetrack.strategy.MoveStrategy;
import org.junit.jupiter.api.*;
import java.io.FileNotFoundException;
public class MoveStrategyTest {
private MoveStrategy moveList;
@Nested
@DisplayName("MoveListStrategy")
class MoveList {
@BeforeEach
void setup() {
try {
moveList = new MoveListStrategy(".\\moves\\challenge-car-a.txt");
}catch (FileNotFoundException e) {
e.printStackTrace();
}
}
@Test
void checkMove() {
Assertions.assertEquals(PositionVector.Direction.RIGHT,moveList.nextMove());
for (int i = 0; i < 3; i++) {
moveList.nextMove();
}
Assertions.assertEquals(PositionVector.Direction.NONE,moveList.nextMove());
for (int i = 0; i < 40; i++) {
moveList.nextMove();
}
Assertions.assertNull(moveList.nextMove());
}
}
}

1
tracks/.gitignore vendored
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@ -1 +0,0 @@
challenge_points.txt