public Action choose(LightsOut.Player actor, Set<Action> options) {
if (presses == null) {
presses = new HashSet<Location>();
// linear algebra solution
boolean[][] state = actor.state();
boolean[] s = stateVector(state);
boolean[][] M = stateMatrix(state[0].length, state.length);
gauss(M, s);
// translate to locations
Location[][] locations = actor.locations();
for (int x = 0; x < s.length; x++) {
if (s[x]) {
presses.add(locations[x / state.length][x % state[0].length]);
}
}
}
Location next = Groups.first(presses);
presses.remove(next);
for (Action action : Groups.ofType(LightsOut.Move.class, options)) {
if (((LightsOut.Move) action).target.location().equals(next)) {
return action;
}
}
return null;
}
@Test
public void testContainsType() {
Collection<A> collection = new HashSet<A>();
collection.add(new B());
collection.add(new B());
assertTrue(Groups.containsType(A.class, collection));
assertTrue(Groups.containsType(B.class, collection));
assertFalse(Groups.containsType(C.class, collection));
}
@Test
public void testFirstOfType() {
Collection<A> collection = new HashSet<A>();
collection.add(new B());
collection.add(new B());
assertTrue(Groups.firstOfType(C.class, collection) == null);
assertTrue(collection.contains(Groups.firstOfType(A.class, collection)));
assertTrue(collection.contains(Groups.firstOfType(B.class, collection)));
}
@Test
public void testFirstEmpty() {
Collection<String> collection = new HashSet<String>();
assertTrue(Groups.first(collection) == null);
collection.add("Hello World");
assertTrue(Groups.first(collection).equals("Hello World"));
collection.add("Goodbye World");
assertTrue(collection.contains(Groups.first(collection)));
}
@Test
public void testOfType() {
Collection<A> collection = new HashSet<A>();
collection.add(new A());
collection.add(new B());
collection.add(new B());
collection.add(new A());
collection.add(new B());
collection.add(new A());
collection.add(new A());
collection.add(new C());
assertTrue(Groups.ofType(A.class, collection).size() == 8);
assertTrue(Groups.ofType(B.class, collection).size() == 3);
assertTrue(Groups.ofType(C.class, collection).size() == 1);
}
public Action choose(WumpusWorld.Hunter hunter, Set<Action> options) {
System.out.format("%n%n");
updateInternal(hunter);
Room here = worldToPrivate.get(hunter.location());
// check to see if we need to make a new decision
if (decision != null && !decision.done(options)) {
return decision.step(options);
}
// kill any adjacent, known wumpuses
for (Room wumpus : here.adjacent) {
if (wumpusKB.known(wumpus) && wumpusKB.evaluate(wumpus)) {
System.out.println("DIE!");
decision = new KillDecision(hunter, wumpus);
return decision.step(options);
}
}
// find any known wumpuses to kill
for (Room wumpus : privateToWorld.keySet()) {
if (wumpusKB.known(wumpus) && wumpusKB.evaluate(wumpus)) {
Set<Room> safeRooms = safeRooms();
safeRooms.add(wumpus);
List<Room> path = path(here, wumpus, safeRooms);
path.remove(wumpus);
System.out.println("I've got it!");
decision = new PathDecision(hunter, path);
return decision.step(options);
}
}
// find safe rooms to explore
{
System.out.println(safeRooms());
List<Room> path = path(here, safeRooms());
if (path != null) {
System.out.println("Walking!");
decision = new PathDecision(hunter, path);
return decision.step(options);
}
}
// find bats to exploit
for (Room bat : privateToWorld.keySet()) {
if (batKB.known(bat) && batKB.evaluate(bat)) {
Set<Room> safeRooms = safeRooms();
safeRooms.add(bat);
System.out.println("Find a Bat!");
List<Room> path = path(here, bat, safeRooms);
return decision.step(options);
}
}
// otherwise, take your 3 chances... they're only arrows!
decision = new KillDecision(hunter, Groups.any(here.adjacent));
return decision.step(options);
}
