public void Restart() { SignalMachine.Call(new RestartSignal()); }
private void OnDestroy() { SignalMachine.RemoveListener <DeathSignal>(OnDeath); SignalMachine.RemoveListener <NewScoreSignal>(OnScoreChange); SignalMachine.RemoveListener <NewLeaderboardScoreSignal>(OnHighScore); }
private void Start() { SignalMachine.AddListener <DeathSignal>(OnDeath); SignalMachine.AddListener <NewScoreSignal>(OnScoreChange); SignalMachine.AddListener <NewLeaderboardScoreSignal>(OnHighScore); }
public void updateIndicators(long timeframeToLookBack, long timeframeToLookBackForIndicatorInit, IndicatorSelector indicatorSelector) { List <double[]> selectedPriceData = new List <double[]>(); for (int i = priceData.Count - 1; i > 0; i--) { if (Convert.ToInt64(priceData[i][(int)PriceDataIndeces.Date]) > timestampNow - timeframeToLookBack) { selectedPriceData.Insert(0, priceData[i]); //Todo: List direction correct? } else { break; } } double[][] selectedPriceDataArray = selectedPriceData.ToArray(); double s; double[][] outcomeData = OutcomeGenerator.getOutcome(selectedPriceDataArray, outcomeTimeframe, out s); if (s < 0.6) { throw new Exception("s < o.6: " + s); } //bool[][] outcomeCodeData = OutcomeGenerator.getOutcomeCode(selectedPriceDataArray, outcomeData, outcomeCodePercent, out s); bool[][] outcomeCodeFirstData = OutcomeGenerator.getOutcomeCodeFirst(selectedPriceDataArray, outcomeTimeframe, outcomeCodePercent, out s); if (s < 0.6) { throw new Exception("s < o.6: " + s); } string[] indicatorIds; //This part can be skipped by caching todo: get from outside double hash = outcomeTimeframe + selectedPriceData[0].Sum() + selectedPriceData[selectedPriceData.Count - 1].Sum() + selectedPriceData[selectedPriceData.Count / 2].Sum(); string optimalIndicatorsFileName = cachePath + "/" + "optimalIndicatorsIn_" + hash + "_" + selectedPriceData[selectedPriceData.Count - 1][(int)PriceDataIndeces.Date] + "_" + timeframeToLookBack + "_" + outcomeCodePercent + ".txt"; if (cachePath != null && File.Exists(optimalIndicatorsFileName)) { indicatorIds = File.ReadAllText(optimalIndicatorsFileName).Split(Environment.NewLine.ToCharArray(), StringSplitOptions.RemoveEmptyEntries); Logger.log("Loaded optimal indicators from file: " + optimalIndicatorsFileName); } else { //Shuffle okay indicators? todo: Logger.log("Generated optimal indicators"); IndicatorOptimizer optimizer = new IndicatorOptimizer(selectedPriceDataArray, outcomeData, outcomeCodeFirstData, outcomeTimeframe, outcomeCodePercent, minPercentThreshold, learningIndicatorSteps); indicatorIds = optimizer.getOptimizedIndicators(okayIndicators, indicatorSelector, 8); File.WriteAllLines(optimalIndicatorsFileName, indicatorIds); } Logger.log("Selected indicators: "); List <LearningIndicator> lis = new List <LearningIndicator>(); foreach (string str in indicatorIds) { Logger.log(str); WalkerIndicator ind = IndicatorGenerator.getIndicatorByString(str); if (ind.getName() != str) { throw new Exception(str + "!=" + ind.getName()); } lis.Add(new LearningIndicator(ind, selectedPriceDataArray, outcomeCodeFirstData, outcomeData, outcomeTimeframe, outcomeCodePercent, minPercentThreshold, learningIndicatorSteps, false)); } SignalMachine sm = new AlternativeSignalMachine(lis.ToArray()); //Todo: make accessable copy? Logger.log("SM STATE: ##################" + Environment.NewLine + sm.getStateMessage()); //Make them up to date List <double[]> selectedPriceDataForIndicatorInit = new List <double[]>(); for (int i = priceData.Count - 1; i > 0; i--) { if (Convert.ToInt64(priceData[i][(int)PriceDataIndeces.Date]) > timestampNow - timeframeToLookBackForIndicatorInit) { selectedPriceDataForIndicatorInit.Insert(0, priceData[i]); //Todo: List direction correct? } else { break; } } foreach (double[] row in selectedPriceDataForIndicatorInit) { sm.pushPrice(row); } this.signalMachine = sm; }
private void OnDestroy() { SignalMachine.RemoveListener <NewBombCountSignal>(OnBombCount); SignalMachine.RemoveListener <NewScoreSignal>(OnScore); }
private void Awake() { content.SetActive(false); SignalMachine.AddListener <NewBombCountSignal>(OnBombCount); SignalMachine.AddListener <NewScoreSignal>(OnScore); }