// Should be called after each move, to collect all of the errors // caused by players and write them into the match description. private void appendErrorsToMatchDescription() { List<String> theErrors = new ArrayList<String>(); for (int i = 0; i < stateMachine.getRoles().size(); i++) { Role r = stateMachine.getRoles().get(i); if (mostRecentErrors.containsKey(r)) { theErrors.add(mostRecentErrors.get(r)); } else { theErrors.add(""); } } match.appendErrors(theErrors); mostRecentErrors.clear(); }
public List<Integer> getGoals() throws GoalDefinitionException { List<Integer> goals = new ArrayList<Integer>(); for (Role role : stateMachine.getRoles()) { goals.add(stateMachine.getGoal(currentState, role)); } return goals; }
private synchronized List<Move> sendPlayRequests() throws InterruptedException, MoveDefinitionException { List<PlayRequestThread> threads = new ArrayList<PlayRequestThread>(hosts.size()); for (int i = 0; i < hosts.size(); i++) { List<Move> legalMoves = stateMachine.getLegalMoves(currentState, stateMachine.getRoles().get(i)); if (playerPlaysRandomly[i]) { threads.add(new RandomPlayRequestThread(match, legalMoves)); } else { threads.add( new PlayRequestThread( this, match, previousMoves, legalMoves, stateMachine.getRoles().get(i), hosts.get(i), ports.get(i), getPlayerNameFromMatchForRequest(i), playerGetsUnlimitedTime[i])); } } for (PlayRequestThread thread : threads) { thread.start(); } if (forceUsingEntireClock) { Thread.sleep(match.getPlayClock() * 1000); } List<Move> moves = new ArrayList<Move>(); for (PlayRequestThread thread : threads) { thread.join(); moves.add(thread.getMove()); } return moves; }
@Override public void run() { try { if (match.getAnalysisClock() >= 0) { sendAnalyzeRequests(); } notifyObservers(new ServerNewMatchEvent(stateMachine.getRoles(), currentState)); notifyObservers(new ServerTimeEvent(match.getStartClock() * 1000)); sendStartRequests(); appendErrorsToMatchDescription(); while (!stateMachine.isTerminal(currentState)) { publishWhenNecessary(); saveWhenNecessary(); notifyObservers(new ServerNewGameStateEvent(currentState)); notifyObservers(new ServerTimeEvent(match.getPlayClock() * 1000)); notifyObservers(new ServerMatchUpdatedEvent(match, spectatorServerKey, saveToFilename)); previousMoves = sendPlayRequests(); notifyObservers(new ServerNewMovesEvent(previousMoves)); currentState = stateMachine.getNextState(currentState, previousMoves); match.appendMoves2(previousMoves); match.appendState(currentState.getContents()); appendErrorsToMatchDescription(); } match.markCompleted(stateMachine.getGoals(currentState)); publishWhenNecessary(); saveWhenNecessary(); notifyObservers(new ServerNewGameStateEvent(currentState)); notifyObservers(new ServerCompletedMatchEvent(getGoals())); notifyObservers(new ServerMatchUpdatedEvent(match, spectatorServerKey, saveToFilename)); sendStopRequests(previousMoves); } catch (InterruptedException ie) { if (match.isAborted()) { return; } else { ie.printStackTrace(); } } catch (Exception e) { e.printStackTrace(); } }
private void sendAbortRequests() throws InterruptedException { List<AbortRequestThread> threads = new ArrayList<AbortRequestThread>(hosts.size()); for (int i = 0; i < hosts.size(); i++) { if (!playerPlaysRandomly[i]) { threads.add( new AbortRequestThread( this, match, stateMachine.getRoles().get(i), hosts.get(i), ports.get(i), getPlayerNameFromMatchForRequest(i))); } } for (AbortRequestThread thread : threads) { thread.start(); } for (AbortRequestThread thread : threads) { thread.join(); } interrupt(); }
private synchronized void sendStopRequests(List<Move> previousMoves) throws InterruptedException { List<StopRequestThread> threads = new ArrayList<StopRequestThread>(hosts.size()); for (int i = 0; i < hosts.size(); i++) { if (!playerPlaysRandomly[i]) { threads.add( new StopRequestThread( this, match, previousMoves, stateMachine.getRoles().get(i), hosts.get(i), ports.get(i), getPlayerNameFromMatchForRequest(i))); } } for (StopRequestThread thread : threads) { thread.start(); } for (StopRequestThread thread : threads) { thread.join(); } }
private synchronized void sendStartRequests() throws InterruptedException { List<StartRequestThread> threads = new ArrayList<StartRequestThread>(hosts.size()); for (int i = 0; i < hosts.size(); i++) { if (!playerPlaysRandomly[i]) { threads.add( new StartRequestThread( this, match, stateMachine.getRoles().get(i), hosts.get(i), ports.get(i), getPlayerNameFromMatchForRequest(i))); } } for (StartRequestThread thread : threads) { thread.start(); } if (forceUsingEntireClock) { Thread.sleep(match.getStartClock() * 1000); } for (StartRequestThread thread : threads) { thread.join(); } }
/** * Performs one MCTS step. * * @param timeout Time limit * @return Index of the move performed by the player in the root state * @throws TimeoutException Time limit reached */ private int mctsStep(long timeout) { List<NonTerminalNode> path = new ArrayList<NonTerminalNode>(); int[] scores = null; Node current = root; NonTerminalNode c = (NonTerminalNode) root; // int rootMove = -1; // Selection List<List<Integer>> select = new ArrayList<List<Integer>>(); List<Move> selectM = new ArrayList<Move>(); while (current != null) { if (System.currentTimeMillis() > timeout) { return -1; } if (current instanceof TerminalNode) { scores = ((TerminalNode) current).goal; break; } c = (NonTerminalNode) current; path.add(c); List<Integer> selectEntry = new ArrayList<Integer>(); selectM = new ArrayList<Move>(); for (int p = 0; p < theMachine.getRoles().size(); p++) { List<Move> moves = c.legal.get(p); double bestval = Double.NEGATIVE_INFINITY; Move bestmove; int bestindex; if (c.n == 0) { bestmove = moves.get(0); bestindex = 0; } else { bestmove = null; bestindex = -1; for (int i = 0; i < moves.size(); i++) { Move m = moves.get(i); double value = c.q_action[p][i] + uct(c.n, c.n_action[p][i]); // System.out.println("Found a move with score " + value); if (value > bestval) { bestval = value; bestmove = m; bestindex = i; } } } selectEntry.add(bestindex); selectM.add(bestmove); } select.add(selectEntry); /* if(current == root){ rootMove = select.get(select.size() - 1)[role]; } */ current = c.successors.get(selectEntry); } // Expansion & Playout if (!(current instanceof TerminalNode)) { MachineState next; try { next = theMachine.getNextState(c.state, selectM); } catch (TransitionDefinitionException e) { System.err.println("Could not perform state update."); return -1; } if (theMachine.isTerminal(next)) { current = new TerminalNode(next); } else { current = new NonTerminalNode(next); } c.successors.put(select.get(select.size() - 1), current); scores = playout(current, timeout); } if (scores == null) { return -1; } // Backpropagation for (int i = 0; i < path.size(); i++) { NonTerminalNode node = path.get(i); node.n++; for (int j = 0; j < theMachine.getRoles().size(); j++) { node.n_action[j][select.get(i).get(j)]++; node.q_action[j][select.get(i).get(j)] = (node.q_action[j][select.get(i).get(j)] * node.n_action[j][select.get(i).get(j)] + scores[j]) / (node.n_action[j][select.get(i).get(j)] + 1); } } counter++; return select.get(0).get(role); }
@Override public void actionPerformed(ActionEvent e) { if (e.getSource() == gameSelector.getGameList()) { theGame = gameSelector.getSelectedGame(); for (int i = 0; i < roleLabels.size(); i++) { gamePanel.remove(roleLabels.get(i)); gamePanel.remove(playerFields.get(i)); } roleLabels.clear(); playerFields.clear(); validate(); runButton.setEnabled(false); if (theGame == null) return; StateMachine stateMachine = new ProverStateMachine(); stateMachine.initialize(theGame.getRules()); List<Role> roles = stateMachine.getRoles(); int newRowCount = 11; for (int i = 0; i < roles.size(); i++) { roleLabels.add(new JLabel(roles.get(i).getName().toString() + ":")); playerFields.add(playerSelector.getPlayerSelectorBox()); playerFields.get(i).setSelectedIndex(i % playerFields.get(i).getModel().getSize()); gamePanel.add( roleLabels.get(i), new GridBagConstraints( 0, newRowCount, 1, 1, 1.0, 0.0, GridBagConstraints.EAST, GridBagConstraints.NONE, new Insets(1, 5, 1, 5), 5, 5)); gamePanel.add( playerFields.get(i), new GridBagConstraints( 1, newRowCount++, 1, 1, 0.0, 0.0, GridBagConstraints.WEST, GridBagConstraints.HORIZONTAL, new Insets(1, 5, 1, 5), 5, 5)); } gamePanel.add( runButton, new GridBagConstraints( 1, newRowCount, 1, 1, 0.0, 1.0, GridBagConstraints.SOUTH, GridBagConstraints.HORIZONTAL, new Insets(5, 5, 5, 5), 0, 0)); validate(); runButton.setEnabled(true); } }
@Override public void stateMachineMetaGame(long timeout) throws TransitionDefinitionException, MoveDefinitionException, GoalDefinitionException { System.out.println("Metagame. Preparing to test the state machine"); StateMachine stateMachine = getStateMachine(); ProverStateMachine psm = (ProverStateMachine) stateMachine; List gdlDescription = psm.gdlDescription; // The only line you have to adapt in this file StateMachine stateMachineX = new CachedStateMachine(new PropNetStateMachine()); stateMachineX.initialize(gdlDescription); MachineState rootState = stateMachine.getInitialState(); MachineState rootStateX = stateMachineX.getInitialState(); if (!compare(rootState, rootStateX)) { System.out.println("Initial states are different"); System.out.println(rootState); System.out.println(rootStateX); return; } long finishBy = timeout - 1000; int nbExpansion = 0; boolean abort = false; while (System.currentTimeMillis() < finishBy && !abort) { MachineState state = rootState; while (true) { boolean isTerminal = stateMachine.isTerminal(state); boolean isTerminalX = stateMachineX.isTerminal(state); if (!compare(isTerminal, isTerminalX)) { System.out.println("DISCREPANCY between isTerminal values"); System.out.println("State : " + state); abort = true; break; } if (isTerminal) { List goal = stateMachine.getGoals(state); List goalX = stateMachineX.getGoals(state); if (!compare(goal, goalX)) { System.out.println("DISCREPANCY between goal values"); System.out.println(goal); System.out.println(goalX); abort = true; break; } break; } for (Role role : stateMachine.getRoles()) { List moves = stateMachine.getLegalMoves(state, role); List movesX = stateMachineX.getLegalMoves(state, role); if (!compare(moves, movesX, role)) { System.out.println("DISCREPANCY between legal moves for role " + role); System.out.println(moves); System.out.println(movesX); abort = true; break; } } List jointMove = stateMachine.getRandomJointMove(state); MachineState nextState = stateMachine.getNextState(state, jointMove); MachineState nextStateX = stateMachineX.getNextState(state, jointMove); if (!compare(nextState, nextStateX)) { System.out.println("DISCREPANCY between next states"); System.out.println("Previous state : " + state); System.out.println("Joint move : " + jointMove); System.out.println("New state : " + nextState); System.out.println("New stateX : " + nextStateX); abort = true; break; } state = nextState; nbExpansion++; } } System.out.println("Metagaming finished"); System.out.println("Nb expansion : " + nbExpansion); }