public async ValueTask DisposeAsync() { if (Hermes is HubConnection) { await Hermes.DisposeAsync(); } }
private void LoadNationFromPath(string name, string path) { data.nationNames.Add(name); nations.Add(new Nation(path, name)); Hermes.getInstance().log(this, "Loading Nation with Name " + name, 0); }
public void OnReceiveStrategy(object sender, Hermes e) { if (Sort["rateCumulative"].ContainsKey(e.Strategy)) { string temp = e.Strategy.Replace('^', '.'); foreach (string name in Enum.GetNames(typeof(Recall.ComboBoxYield))) { var article = name.FindByName <ComboBox>(this); if (temp.Equals(Temp)) { name.Replace("rate", "button").FindByName <Button>(this).PerformClick(); } else if (article.Items.Contains(temp) == false) { article.Items.Add(temp); } BeginInvoke(new Action(() => article.SelectedItem = temp)); } Temp = temp; } else { TimerBox.Show(new Message().Exists, "Notice", MessageBoxButtons.OK, MessageBoxIcon.Information, 3519); SendHermes?.Invoke(sender, new Hermes(false)); } }
/// <summary> /// Allows the game to run logic such as updating the world, /// checking for collisions, gathering input, and playing audio. /// </summary> /// <param name="gameTime">Provides a snapshot of timing values.</param> protected override void Update(GameTime gameTime) { if (GamePad.GetState(PlayerIndex.One).Buttons.Back == ButtonState.Pressed || Keyboard.GetState().IsKeyDown(Keys.Escape)) { Hermes.getInstance().shutdownHermes(); Exit(); } base.Update(gameTime); }
public void OnReceiveHermes(object sender, Hermes e) { checkBox.CheckState = CheckState.Unchecked; if (sender is int && e.Check == false) { return; } if (e.Param != null && e.Param.Length > 0) { for (int i = 0; i < e.Param.Length; i++) { ((IRecall.NumericRecall)i).ToString().FindByName <NumericUpDown>(this).Value = int.Parse(e.Param[i]); } } }
public static Aspect GetAspect(string name) { if (!Instances.ContainsKey(name)) { try { XmlSerializer serializer = new XmlSerializer(typeof(Aspect)); using (Stream file = File.OpenRead(AppDomain.CurrentDomain.BaseDirectory + PATH + "\\" + name + ".xml")) { Instances[name] = (Aspect)serializer.Deserialize(file); Hermes.getInstance().log("Loaded aspect: " + Instances[name].ToString(), "AspectLoader", 4); } } catch (Exception e) { Hermes.getInstance().log(e.Message, "AspectLoader", 0); AddAspect(new Aspect(name)); } } return(Instances[name]); }
public static void AddAspect(Aspect aspect) { Instances[aspect.Name] = aspect; Hermes.getInstance().log("Added aspect: " + aspect.ToString(), "Aspects", 3); }
public Hades() { _randomizer = new Random(); _messenger = new Hermes <InvoiceMessage>("hades"); }
private void LoadAssets(ContentManager content) { LoadMap(content); TiledMap.Initialize(); EnemyManager.Initialize(); var objects = CurrentMap.GetLayer("Objects") as MapObjectLayer; if (objects == null) return; // if(GameplayScreen.CurrentGameToPlay != GameToPlay.LoadGame){ for (int i = 0; i < objects.Objects.Count; i++) { MapObject mo = objects.Objects[i]; switch (mo.Type) { case "Enemy": EnemyManager.AddEnemy(gameplayScreen, mo.Name, new Vector2(mo.Bounds.X, mo.Bounds.Y)); break; case "Nathaniel": _nathaniel = new Nathaniel(gameplayScreen) { Center = new Vector2(mo.Bounds.X, mo.Bounds.Y), Name = mo.Name }; StartPosition = _nathaniel.Center; break; case "Hermes": _hermes = new Hermes(gameplayScreen) { Center = new Vector2(mo.Bounds.X, mo.Bounds.Y), Name = mo.Name }; break; case "TriggerA": TriggerA = new Vector2(mo.Bounds.X, mo.Bounds.Y); break; case "TriggerB": TriggerB = new Vector2(mo.Bounds.X, mo.Bounds.Y); break; case "TriggerC": TriggerC = new Vector2(mo.Bounds.X, mo.Bounds.Y); break; } // } } }
public Ares() { _randomizer = new Random(); _messenger = new Hermes <PledgeRun>("ares_template", GetIndexTemplate()); }
private void Form1_FormClosing(object sender, FormClosingEventArgs e) { Hermes.getInstance().shutdownHermes(); }
public Athena() { _randomizer = new Random(); _messenger = new Hermes <Message>("athena"); }
private void beendenToolStripMenuItem_Click(object sender, EventArgs e) { //GIDM.saveIDDatabank(); Hermes.getInstance().shutdownHermes(); this.Close(); }
public Zeus() { _randomizer = new Random(); _messenger = new Hermes <IncidenceMessage>("zeus"); }
public async ValueTask DisposeAsync() { await Balance.DisposeAsync(); await Hermes.DisposeAsync(); }
private void WriteKKCSV(string KKCSVName) { // save the current settings to KK.csv List <string> lines = new List <string>(); // create a List<string> to hold all the output lines // each line of the output file, in output order lines.Add("Users Call," + Your_call); lines.Add("KKDevice," + ((int)KKDevice).ToString()); lines.Add("Band," + BandSelect.Text); lines.Add("Sample Rate," + SampleRate); lines.Add("Step Size," + stepSize.Text); lines.Add("Mode," + Mode.Text); lines.Add("Volume," + VolumeTrackBar.Value); lines.Add("Bandwidth," + BandwidthTrackBar.Value); lines.Add("Last Freq 160m," + set_frequency_160); lines.Add("Last Freq 80m," + set_frequency_80); lines.Add("Last Freq 40m," + set_frequency_40); lines.Add("Last Freq 30m," + set_frequency_30); lines.Add("Last Freq 20m," + set_frequency_20); lines.Add("Last Freq 17m," + set_frequency_17); lines.Add("Last Freq 15m," + set_frequency_15); lines.Add("Last Freq 12m," + set_frequency_12); lines.Add("Last Freq 10m," + set_frequency_10); lines.Add("Last Freq 6m," + set_frequency_6); lines.Add("Last Freq GC," + set_frequency_GC); lines.Add("Last frequency," + trackBarSetFrequency.Value); // we need to store the following controls as true or false, first we convert from bool to a string lines.Add("ANF," + (ANF.Checked).ToString()); lines.Add("NR," + (NR.Checked).ToString()); lines.Add("NB1," + (NB1.Checked).ToString()); lines.Add("NB2," + (NB2.Checked).ToString()); lines.Add("NB1 Threshold," + rcvr.BlockNBThreshold.ToString(nfi)); // use nfi to make floats region independent lines.Add("NB2 Threshold," + rcvr.AveNBThreshold.ToString(nfi)); lines.Add("Bandscope Average," + rcvr.PowerSpectrumAveragingOn.ToString()); lines.Add("Bandscope Smooth," + rcvr.PowerSpectrumSmoothingFactor.ToString(nfi)); lines.Add("Rate," + Rate.ToString()); // save the preamp setting for each band lines.Add("Preamp 160," + Preamp_160.ToString()); lines.Add("Preamp 80," + Preamp_80.ToString()); lines.Add("Preamp 40," + Preamp_40.ToString()); lines.Add("Preamp 30," + Preamp_30.ToString()); lines.Add("Preamp 20," + Preamp_20.ToString()); lines.Add("Preamp 17," + Preamp_17.ToString()); lines.Add("Preamp 15," + Preamp_15.ToString()); lines.Add("Preamp 12," + Preamp_12.ToString()); lines.Add("Preamp 10," + Preamp_10.ToString()); lines.Add("Preamp 6," + Preamp_6.ToString()); lines.Add("Preamp GC," + Preamp_GC.ToString()); // end of original kk.csv file. beginning of values that LookupKKCSVValue should be used on lines.Add("ANFAdaptiveFilterSize," + ANFAdaptiveFilterSize.ToString(nfi)); lines.Add("ANFDelay," + ANFDelay.ToString(nfi)); lines.Add("ANFAdaptationRate," + ANFAdaptationRate.ToString(nfi)); lines.Add("ANFLeakage," + ANFLeakage.ToString(nfi)); lines.Add("NRAdaptiveFilterSize," + NRAdaptiveFilterSize.ToString(nfi)); lines.Add("NRDelay," + NRDelay.ToString(nfi)); lines.Add("NRAdaptationRate," + NRAdaptationRate.ToString(nfi)); lines.Add("NRLeakage," + NRLeakage.ToString(nfi)); lines.Add("Bandscope Grid Max," + GridMax.ToString(nfi)); lines.Add("Bandscope Grid Min," + GridMin.ToString(nfi)); lines.Add("Bandscope Grid Step," + GridStep.ToString(nfi)); lines.Add("AGC Speed," + AGCSpeed.Text); lines.Add("AGC Fixed Gain," + AGCFixedGainDB.ToString(nfi)); lines.Add("AGC Hang Threshold," + AGCHangThreshold.ToString(nfi)); lines.Add("AGC Max Gain," + AGCMaximumGainDB.ToString(nfi)); lines.Add("AGC Slope," + AGCSlope.ToString(nfi)); lines.Add("AGC Attack Time," + UserAGCAttackTime.ToString(nfi)); // only variable for 'user' AGC lines.Add("AGC Decay Time," + UserAGCDecayTime.ToString(nfi)); // only variable for 'user' AGC lines.Add("AGC Hang Time," + UserAGCHangTime.ToString(nfi)); // only variable for 'user' AGC lines.Add("WaterfallHigh," + WaterfallHighThreshold.ToString(nfi)); lines.Add("WaterfallLow," + WaterfallLowThreshold.ToString(nfi)); lines.Add("WaterFall AGC," + WaterfallAGC.ToString(nfi)); lines.Add("Squelch level," + Squelch_level.Value.ToString(nfi)); lines.Add("Hermes," + Hermes.ToString(nfi)); lines.Add("PennyLane," + PennyLane.ToString(nfi)); lines.Add("Penny Present," + PenneyPresent.ToString(nfi)); lines.Add("Mic Gain 20dB," + MicGain20dB.ToString(nfi)); lines.Add("Atlas 10MHz," + Atlas10MHz.ToString(nfi)); lines.Add("Mercury 10MHz," + Mercury10MHz.ToString(nfi)); lines.Add("Penelope 10MHz," + Penelope10MHz.ToString(nfi)); lines.Add("Excalibur Present," + Excalibur.ToString(nfi)); lines.Add("Tx Filter High," + TxFilterHigh.ToString(nfi)); lines.Add("Tx Filter Low," + TxFilterLow.ToString(nfi)); lines.Add("Drive Level," + DriveLevel.Value.ToString(nfi)); lines.Add("Band Gain 160m," + Gain160m.ToString(nfi)); lines.Add("Band Gain 80m," + Gain80m.ToString(nfi)); lines.Add("Band Gain 60m," + Gain60m.ToString(nfi)); lines.Add("Band Gain 40m," + Gain40m.ToString(nfi)); lines.Add("Band Gain 30m," + Gain30m.ToString(nfi)); lines.Add("Band Gain 20m," + Gain20m.ToString(nfi)); lines.Add("Band Gain 17m," + Gain17m.ToString(nfi)); lines.Add("Band Gain 15m," + Gain15m.ToString(nfi)); lines.Add("Band Gain 12m," + Gain12m.ToString(nfi)); lines.Add("Band Gain 10m," + Gain10m.ToString(nfi)); lines.Add("Band Gain 6m," + Gain6m.ToString(nfi)); lines.Add("Full Duplex," + Duplex.ToString(nfi)); lines.Add("Only Tx on PTT," + OnlyTxOnPTT.ToString(nfi)); lines.Add("Tune Level," + TuneLevel.ToString(nfi)); lines.Add("CWPitch," + CWPitch.ToString(nfi)); lines.Add("Penny OC Enable," + PennyOC.ToString(nfi)); lines.Add("Penny OC 160mTx," + Penny160mTxOC.ToString(nfi)); lines.Add("Penny OC 80mTx," + Penny80mTxOC.ToString(nfi)); lines.Add("Penny OC 60mTx," + Penny60mTxOC.ToString(nfi)); lines.Add("Penny OC 40mTx," + Penny40mTxOC.ToString(nfi)); lines.Add("Penny OC 30mTx," + Penny30mTxOC.ToString(nfi)); lines.Add("Penny OC 20mTx," + Penny20mTxOC.ToString(nfi)); lines.Add("Penny OC 17mTx," + Penny17mTxOC.ToString(nfi)); lines.Add("Penny OC 15mTx," + Penny15mTxOC.ToString(nfi)); lines.Add("Penny OC 12mTx," + Penny12mTxOC.ToString(nfi)); lines.Add("Penny OC 10mTx," + Penny10mTxOC.ToString(nfi)); lines.Add("Penny OC 6mTx," + Penny6mTxOC.ToString(nfi)); lines.Add("Penny OC 160mRx," + Penny160mRxOC.ToString(nfi)); lines.Add("Penny OC 80mRx," + Penny80mRxOC.ToString(nfi)); lines.Add("Penny OC 60mRx," + Penny60mRxOC.ToString(nfi)); lines.Add("Penny OC 40mRx," + Penny40mRxOC.ToString(nfi)); lines.Add("Penny OC 30mRx," + Penny30mRxOC.ToString(nfi)); lines.Add("Penny OC 20mRx," + Penny12mRxOC.ToString(nfi)); lines.Add("Penny OC 17mRx," + Penny17mRxOC.ToString(nfi)); lines.Add("Penny OC 15mRx," + Penny15mRxOC.ToString(nfi)); lines.Add("Penny OC 12mRx," + Penny12mRxOC.ToString(nfi)); lines.Add("Penny OC 10mRx," + Penny10mRxOC.ToString(nfi)); lines.Add("Penny OC 6mRx," + Penny6mRxOC.ToString(nfi)); lines.Add("DelayRF," + DelayRF.ToString(nfi)); lines.Add("DelayPTT," + DelayPTT.ToString(nfi)); lines.Add("FM deviation," + FM_deviation.ToString(nfi)); lines.Add("Speech Processor," + chkClipper.Checked.ToString(nfi)); lines.Add("Processor Gain," + ProcessorGain.Value.ToString(nfi)); lines.Add("Bass Cut," + chkBassCut.Checked.ToString(nfi)); lines.Add("VOX On," + chkVOX.Checked.ToString(nfi)); lines.Add("VOX Level," + VOXLevel.Value.ToString(nfi)); VOXHang = (int)VOXHangTime.Value; lines.Add("VOX Hang," + VOXHang.ToString(nfi)); lines.Add("Mic Gain," + MicrophoneGain.Value.ToString(nfi)); lines.Add("Processor Gain," + ProcessorGain.Value.ToString(nfi)); lines.Add("Line In," + LineIn.ToString(nfi)); lines.Add("Last MAC," + MetisMAC); lines.Add("Mic AGC," + chkMicAGC.Checked.ToString(nfi)); lines.Add("Noise Gate," + chkNoiseGate.Checked.ToString(nfi)); lines.Add("Noise Gate Level," + NoiseGateLevel.Value.ToString(nfi)); lines.Add("Alex," + Alex.ToString(nfi)); lines.Add("Apollo," + Apollo.ToString(nfi)); lines.Add("Alex160mState," + Alex160mState.ToString(nfi)); lines.Add("Alex80mState," + Alex80mState.ToString(nfi)); lines.Add("Alex60mState," + Alex60mState.ToString(nfi)); lines.Add("Alex40mState," + Alex40mState.ToString(nfi)); lines.Add("Alex30mState," + Alex30mState.ToString(nfi)); lines.Add("Alex20mState," + Alex20mState.ToString(nfi)); lines.Add("Alex17mState," + Alex17mState.ToString(nfi)); lines.Add("Alex15mState," + Alex15mState.ToString(nfi)); lines.Add("Alex12mState," + Alex12mState.ToString(nfi)); lines.Add("Alex10mState," + Alex10mState.ToString(nfi)); lines.Add("Alex6mState," + Alex6mState.ToString(nfi)); lines.Add("AlexGCState," + AlexGCState.ToString(nfi)); lines.Add("SkipVersionCheck," + SkipVersionCheck.ToString(nfi)); // convert bool to 'true'/'false' lines.Add("Allow16kWidebandSamples," + Allow16kWidebandSamples.ToString(nfi)); // convert bool to 'true'/'false' lines.Add("DoFastEthernetConnect," + DoFastEthernetConnect.ToString(nfi)); // convert bool to 'true'/'false' lines.Add("EthernetHostIPAddress," + EthernetHostIPAddress.ToString(nfi)); // string lines.Add("Metis_IP_address," + Metis_IP_address.ToString(nfi)); // string // write all the lines File.WriteAllLines(KKCSVName, lines.ToArray()); }
public async ValueTask DisposeAsync() { await Hub.DisposeAsync(); await Hermes.DisposeAsync(); }
public Poseidon() { _randomizer = new Random(); _messenger = new Hermes <TraceMessage>("poseidon"); }