public static void main(String args[]) throws IOException, Exception {
PhysicalGameState pgs = MapGenerator.basesWorkers8x8Obstacle();
GameState gs = new GameState(pgs, UnitTypeTable.utt);
int MAXCYCLES = 5000;
boolean gameover = false;
AI ai1 = new RandomBiasedAI();
AI ai2 = new WorkerRush(UnitTypeTable.utt, new BFSPathFinding());
Trace trace = new Trace();
TraceEntry te = new TraceEntry(gs.getPhysicalGameState().clone(), gs.getTime());
trace.addEntry(te);
do {
PlayerAction pa1 = ai1.getAction(0, gs);
PlayerAction pa2 = ai2.getAction(1, gs);
gs.issueSafe(pa1);
gs.issueSafe(pa2);
if (!pa1.isEmpty() || !pa2.isEmpty()) {
te = new TraceEntry(gs.getPhysicalGameState().clone(), gs.getTime());
te.addPlayerAction(pa1);
te.addPlayerAction(pa2);
trace.addEntry(te);
}
// simulate:
gameover = gs.cycle();
} while (!gameover && gs.getTime() < MAXCYCLES);
te = new TraceEntry(gs.getPhysicalGameState().clone(), gs.getTime());
trace.addEntry(te);
XMLWriter xml = new XMLWriter(new FileWriter("trace.xml"));
trace.toxml(xml);
xml.flush();
}
public static void runExperiments(
List<AI> bots,
List<PhysicalGameState> maps,
int iterations,
int max_cycles,
int max_inactive_cycles,
boolean visualize,
PrintStream out,
int run_only_those_involving_this_AI,
boolean skip_self_play,
boolean partiallyObservable)
throws Exception {
int wins[][] = new int[bots.size()][bots.size()];
int ties[][] = new int[bots.size()][bots.size()];
int loses[][] = new int[bots.size()][bots.size()];
double win_time[][] = new double[bots.size()][bots.size()];
double tie_time[][] = new double[bots.size()][bots.size()];
double lose_time[][] = new double[bots.size()][bots.size()];
List<AI> bots2 = new LinkedList<>();
for (AI bot : bots) bots2.add(bot.clone());
for (int ai1_idx = 0; ai1_idx < bots.size(); ai1_idx++) {
for (int ai2_idx = 0; ai2_idx < bots.size(); ai2_idx++) {
if (run_only_those_involving_this_AI != -1
&& ai1_idx != run_only_those_involving_this_AI
&& ai2_idx != run_only_those_involving_this_AI) continue;
// if (ai1_idx==0 && ai2_idx==0) continue;
if (skip_self_play && ai1_idx == ai2_idx) continue;
for (PhysicalGameState pgs : maps) {
for (int i = 0; i < iterations; i++) {
AI ai1 = bots.get(ai1_idx);
AI ai2 = bots2.get(ai2_idx);
long lastTimeActionIssued = 0;
ai1.reset();
ai2.reset();
GameState gs = new GameState(pgs.clone(), UnitTypeTable.utt);
PhysicalGameStateJFrame w = null;
if (visualize)
w = PhysicalGameStatePanel.newVisualizer(gs, 600, 600, partiallyObservable);
out.println("MATCH UP: " + ai1 + " vs " + ai2);
boolean gameover = false;
do {
System.gc();
PlayerAction pa1 = null, pa2 = null;
if (partiallyObservable) {
pa1 = ai1.getAction(0, new PartiallyObservableGameState(gs, 0));
// if (DEBUG>=1) {System.out.println("AI1
// done.");out.flush();}
pa2 = ai2.getAction(1, new PartiallyObservableGameState(gs, 1));
// if (DEBUG>=1) {System.out.println("AI2
// done.");out.flush();}
} else {
pa1 = ai1.getAction(0, gs);
if (DEBUG >= 1) {
System.out.println("AI1 done.");
out.flush();
}
pa2 = ai2.getAction(1, gs);
if (DEBUG >= 1) {
System.out.println("AI2 done.");
out.flush();
}
}
if (gs.issueSafe(pa1)) lastTimeActionIssued = gs.getTime();
// if (DEBUG>=1) {System.out.println("issue action AI1
// done: " + pa1);out.flush();}
if (gs.issueSafe(pa2)) lastTimeActionIssued = gs.getTime();
// if (DEBUG>=1) {System.out.println("issue action AI2
// done:" + pa2);out.flush();}
gameover = gs.cycle();
if (DEBUG >= 1) {
System.out.println("cycle done.");
out.flush();
}
if (w != null) {
w.setState(gs.clone());
w.repaint();
try {
Thread.sleep(1); // give time to the window to repaint
} catch (Exception e) {
e.printStackTrace();
}
// if (DEBUG>=1) {System.out.println("repaint
// done.");out.flush();}
}
} while (!gameover
&& (gs.getTime() < max_cycles)
&& (gs.getTime() - lastTimeActionIssued < max_inactive_cycles));
if (w != null) w.dispose();
int winner = gs.winner();
out.println("Winner: " + winner + " in " + gs.getTime() + " cycles");
out.println(ai1 + " : " + ai1.statisticsString());
out.println(ai2 + " : " + ai2.statisticsString());
out.flush();
if (winner == -1) {
ties[ai1_idx][ai2_idx]++;
tie_time[ai1_idx][ai2_idx] += gs.getTime();
ties[ai2_idx][ai1_idx]++;
tie_time[ai2_idx][ai1_idx] += gs.getTime();
} else if (winner == 0) {
wins[ai1_idx][ai2_idx]++;
win_time[ai1_idx][ai2_idx] += gs.getTime();
loses[ai2_idx][ai1_idx]++;
lose_time[ai2_idx][ai1_idx] += gs.getTime();
} else if (winner == 1) {
loses[ai1_idx][ai2_idx]++;
lose_time[ai1_idx][ai2_idx] += gs.getTime();
wins[ai2_idx][ai1_idx]++;
win_time[ai2_idx][ai1_idx] += gs.getTime();
}
}
}
}
}
out.println("Wins: ");
for (int ai1_idx = 0; ai1_idx < bots.size(); ai1_idx++) {
for (int ai2_idx = 0; ai2_idx < bots.size(); ai2_idx++) {
out.print(wins[ai1_idx][ai2_idx] + ", ");
}
out.println("");
}
out.println("Ties: ");
for (int ai1_idx = 0; ai1_idx < bots.size(); ai1_idx++) {
for (int ai2_idx = 0; ai2_idx < bots.size(); ai2_idx++) {
out.print(ties[ai1_idx][ai2_idx] + ", ");
}
out.println("");
}
out.println("Loses: ");
for (int ai1_idx = 0; ai1_idx < bots.size(); ai1_idx++) {
for (int ai2_idx = 0; ai2_idx < bots.size(); ai2_idx++) {
out.print(loses[ai1_idx][ai2_idx] + ", ");
}
out.println("");
}
out.println("Win average time: ");
for (int ai1_idx = 0; ai1_idx < bots.size(); ai1_idx++) {
for (int ai2_idx = 0; ai2_idx < bots.size(); ai2_idx++) {
if (wins[ai1_idx][ai2_idx] > 0) {
out.print((win_time[ai1_idx][ai2_idx] / wins[ai1_idx][ai2_idx]) + ", ");
} else {
out.print("-, ");
}
}
out.println("");
}
out.println("Tie average time: ");
for (int ai1_idx = 0; ai1_idx < bots.size(); ai1_idx++) {
for (int ai2_idx = 0; ai2_idx < bots.size(); ai2_idx++) {
if (ties[ai1_idx][ai2_idx] > 0) {
out.print((tie_time[ai1_idx][ai2_idx] / ties[ai1_idx][ai2_idx]) + ", ");
} else {
out.print("-, ");
}
}
out.println("");
}
out.println("Lose average time: ");
for (int ai1_idx = 0; ai1_idx < bots.size(); ai1_idx++) {
for (int ai2_idx = 0; ai2_idx < bots.size(); ai2_idx++) {
if (loses[ai1_idx][ai2_idx] > 0) {
out.print((lose_time[ai1_idx][ai2_idx] / loses[ai1_idx][ai2_idx]) + ", ");
} else {
out.print("-, ");
}
}
out.println("");
}
out.flush();
}
