public void endTurn() {
for (Building building : buildings) building.endTurn();
for (Army army : armies) army.endTurn();
if (king.getHitPoints() <= 0) {
kingDead = true;
if (lives-- <= 0) lose();
}
}
public void newTurn() {
if (kingDead) newKing();
for (Building building : buildings) building.newTurn();
for (Army army : armies) army.newTurn();
finished = false;
try {
player.newTurn();
} catch (Exception ex) {
ex.printStackTrace();
System.out.println(name + " loses because he threw an exception.");
lose();
}
}
/**
* Defines the characteristics of a <i>TranslateTransition</i>. Each call results in ONE segment
* of motion. When that segment is finished, it "chains" another call to <i>startMotion()</i>
* (which is NOT recursion)! The initial call is made by the managing <i>Army</i> object;
* subsequent calls are made through the "chaining" process described here.
*
* @param engageInCombat TODO
*/
public void startMotion(boolean engageInCombat) {
Army opposingArmy = armyAllegiance.getOpposingArmy();
Actor opponent =
opposingArmy.findNearestOpponent(
this); // could legitimately return a null: 1) no one is visible 2) no Actors in
// opposing army
Point2D newLocation;
if (opponent != null) {
System.out.printf(
"ToMove:[%.1f:%.1f] Opponent:[%.1f:%.1f]\n",
getAvatar().getTranslateX(),
getAvatar().getTranslateY(),
opponent.getAvatar().getTranslateX(),
opponent.getAvatar().getTranslateX());
double DISTANCE_FOR_BATTLE = 50.0;
if (engageInCombat && distanceTo(opponent) < DISTANCE_FOR_BATTLE) {
double h1, h2, h3, h4; // debug code
h1 = this.getHealth();
h2 = opponent.getHealth();
combatRound(opponent);
h3 = this.getHealth();
h4 = opponent.getHealth();
h4 = h4;
if (this.getHealth() <= 0.0) {
armyAllegiance.removeNowDeadActor(this);
}
if (opponent.getHealth() <= 0.0) {
opponent.armyAllegiance.removeNowDeadActor(opponent);
}
} // end if (combat)
newLocation = findNewLocation(opponent);
} else // end if (test for null opponent)
newLocation = meander(); // null opponent means we wander around close to our current location
if (tt.getStatus()
!= Animation.Status.RUNNING) { // if NOT yet RUNNING, start . . . otherwise, do nothing.
// tt.setToX(Math.random()*getAvatar().getScene().getWidth());
// tt.setToY(Math.random()*getAvatar().getScene().getHeight());
tt.setToX(validateCoordinate(newLocation).getX());
tt.setToY(validateCoordinate(newLocation).getY());
tt.setDuration(
Duration.seconds(MAX_SPEED / (getSpeed() * (armyAllegiance.getSpeedControllerValue()))));
tt.setOnFinished(event -> startMotion(true)); // NOT RECURSION!!!!
tt
.play(); // give assembled object to the render engine (of course, play() is an
// object-oriented method which has access to "this" inside, and it can use
// "this" to give to the render engine.
}
} // end startMotion()
public void newKing() {
king = new Hero(people.getKing(), 2, name);
Vector<Troop> heroTroops = new Vector<Troop>();
UnitType worker = game.getWorker(people);
heroTroops.add(new Troop(worker, 0, king));
Army.buildArmy(heroTroops, start, this);
}
@Test
public void test() {
Army forcesOfLight = new Army("Forces of Light", null, Color.RED);
final int NUM_ELF = 5;
forcesOfLight.populate(ActorFactory.Type.ELF, NUM_ELF);
final int NUM_HOBBIT = 6;
forcesOfLight.populate(ActorFactory.Type.HOBBIT, NUM_HOBBIT);
final int NUM_ORC = 7;
forcesOfLight.populate(ActorFactory.Type.ORC, NUM_ORC);
final int NUM_WIZARD = 8;
forcesOfLight.populate(ActorFactory.Type.WIZARD, NUM_WIZARD);
forcesOfLight.display();
assertTrue(
"Number Actors created mismatches number stored",
forcesOfLight.getSize() == NUM_ELF + NUM_HOBBIT + NUM_ORC + NUM_WIZARD);
}
private Point2D validateCoordinate(Point2D possibleNewLocation) {
double maxY = armyAllegiance.getScene().getHeight();
double maxX = armyAllegiance.getScene().getWidth();
double myX = possibleNewLocation.getX();
double myY = possibleNewLocation.getY();
double newX = 0.0;
double newY = 0.0;
if ((myX < 0) && (myY < 0)) {
newX = SingletonRandom.instance.getNormalDistribution(0.0, (0.25 * maxX), 2.0);
newY = SingletonRandom.instance.getNormalDistribution(0.0, (0.25 * maxY), 2.0);
return new Point2D(newX, newY);
} else if ((0 < myX) && (myX < maxX) && (myY < 0)) {
newY = SingletonRandom.instance.getNormalDistribution(0.0, (0.25 * maxY), 2.0);
return new Point2D(myX, newY);
} else if ((myX > maxX) && (myY < 0)) {
newX = SingletonRandom.instance.getNormalDistribution(0.0, (0.75 * maxX), 2.0);
newY = SingletonRandom.instance.getNormalDistribution(0.0, (0.75 * maxY), 2.0);
return new Point2D(newX, newY);
} else if ((0 < myX) && (myY < maxY) && (myY > 0)) {
newX = SingletonRandom.instance.getNormalDistribution(0.0, (0.25 * maxX), 2.0);
return new Point2D(newX, myY);
} else if ((myX > maxX) && (myY < maxY) && (myY > 0)) {
newX = SingletonRandom.instance.getNormalDistribution(0.0, (0.75 * maxX), 2.0);
return new Point2D(newX, myY);
}
if ((myX < 0) && (myY > maxY)) {
newX = SingletonRandom.instance.getNormalDistribution(0.0, (0.25 * maxX), 2.0);
newY = SingletonRandom.instance.getNormalDistribution(0.0, (0.75 * maxY), 2.0);
return new Point2D(newX, newY);
} else if ((0 < myX) && (myX < maxX) && (myY > maxY)) {
newY = SingletonRandom.instance.getNormalDistribution(0.0, (0.75 * maxY), 2.0);
return new Point2D(myX, newY);
} else if ((myX > maxX) && (myY > maxY)) {
newX = SingletonRandom.instance.getNormalDistribution(0.0, (0.75 * maxX), 2.0);
newY = SingletonRandom.instance.getNormalDistribution(0.0, (0.75 * maxY), 2.0);
return new Point2D(newX, newY);
} else {
return new Point2D(myX, myY);
}
}
public Side(String name, boolean human, People people, Player player, Position start) {
this.name = name;
this.human = human;
this.people = people;
map = new ForestMap(this);
messages = new Vector<String>();
this.player = player;
// Get the default start stuff for the given people.
ressources = new Ressources(this.people.getStartingRessources());
System.out.println(
"Ressourcenlaenge: " + ressources.getRessources().size() + " Ressourcen: " + ressources);
armies = new Vector<Army>();
UnitType[] startingUnits = people.getStartingUnits();
int[] numbers = people.getNumbers();
Vector<Troop> startingTroops = new Vector<Troop>();
int i;
kingType = people.getKing();
king = new Hero(kingType, 2, name);
startingTroops.add(new Troop(startingUnits[0], numbers[0], king));
for (i = 1; i < numbers.length; i++) {
startingTroops.add(new Troop(startingUnits[i], numbers[i]));
}
Army.buildArmy(startingTroops, start, this);
ResearchType[] startingResearchs = people.getStartingResearchs();
int[] levels = people.getLevels();
researchs = new Vector<Research>();
for (i = 0; i < levels.length; i++) {
researchs.add(new Research(startingResearchs[i], levels[i]));
}
buildings = new Vector<Building>();
try {
addBuilding(new Building(people.getHeadQuader(), start, this));
} catch (IsAlreadyBuildException ex) {
ex.printStackTrace();
System.exit(1);
}
}
public void addArmy(Army army) {
armies.add(army);
map.addArmy(army.getPosition(), army.getSightRange());
}
public void removeArmy(Army army) {
armies.remove(army);
Position position = army.getPosition();
map.removeArmy(position, army.getSightRange());
}
