private void ButtonNetTrain_Click(object sender, RoutedEventArgs e) { switch (comboBoxNetDataset.Text) { case "1 Item": getHistoryInterval = 3; break; case "2 Items": getHistoryInterval = 3; break; case "0.2 Percent": getHistoryInterval = 3; break; case "2.0 Percent": getHistoryInterval = 5; break; case "10.0 Percent": getHistoryInterval = 8; break; } string command = "trainnet"; string args = '"' + comboBoxNetDataset.Text + "\" \"" + textBoxNetIterationSize.Text + '"'; command = command + " " + args; string response = TcpConnection.SendMessage(command); if (response == "training started") { labelNetTrainingProgress.Visibility = Visibility.Visible; ProgressBarTraining.IsIndeterminate = true; // Start animation. buttonNetStop.IsEnabled = true; OpenTraining(); } }
private void CreateNet() { string response = TcpConnection.SendMessage("addnet"); if (response != "") { if (IsCommandError(response)) { MessageBox.Show("Server response: \r\n" + response); } else { LoadNetsView(); ViewNet(response); // Response is new net name. } } else { MessageBox.Show("Error: could not create net.\r\n"); } }
private void ButtonNetSave_Click(object sender, RoutedEventArgs e) { // Replace this with field validation on text change. if (comboBoxNetType.Text == "Convolutional" && Convert.ToInt32(textBoxNetConvLayers.Text) < 1) { textBoxNetConvLayers.Text = "1"; } string descriptionArguments = "\"" + Nets[currentNet].Name + "\" \"" + textBoxNetName.Text + "\" \"" + comboBoxNetType.Text + "\" \"" + comboBoxNetActivationFunction.Text + "\" \"" + Convert.ToString(checkBoxNetIsGrayscale.IsChecked) + "\""; string layerArguments = textBoxNetInputs.Text + " " + textBoxNetOutputs.Text + " " + textBoxNetFCLayers.Text + " " + textBoxNetConvLayers.Text; string command; if (comboBoxNetType.Text != Nets[currentNet].Type || textBoxNetInputs.Text != Convert.ToString(Nets[currentNet].NumInputs) || textBoxNetOutputs.Text != Convert.ToString(Nets[currentNet].NumOutputs) || textBoxNetFCLayers.Text != Convert.ToString(Nets[currentNet].NumFCLayers) || textBoxNetConvLayers.Text != Convert.ToString(Nets[currentNet].NumConvLayers)) { // Net structure needs to be changed for the save. command = "updatewholenet " + descriptionArguments + " " + layerArguments; } else { command = "updatenet " + descriptionArguments; } string response = TcpConnection.SendMessage(command); LoadNetsView(); ViewNet(textBoxNetName.Text); MessageBox.Show("Server response: \r\n" + response); }
private void ButtonTrainBump_Click(object sender, RoutedEventArgs e) { string command = "bump"; _ = TcpConnection.SendMessage(command); }
private void ButtonNetReinitialize_Click(object sender, RoutedEventArgs e) { string command = "reinitialize"; _ = TcpConnection.SendMessage(command); }
private void DeleteNet(string name) { char quote = '"'; TcpConnection.SendMessage("deletenet " + quote + name + quote); }
private void MenuItemTestSQLStatement_Click(object sender, RoutedEventArgs e) { _ = TcpConnection.SendMessage("runsql"); //MessageBox.Show("Server response: " + response); }
private int OpenNet(string netName) { bool nameFound = false; int netIdx = 0; string command = "opennet \"" + netName + "\""; string response = TcpConnection.SendMessage(command); if (response != "error") { bool isGrayscale; if (response == "True") { isGrayscale = true; } else { isGrayscale = false; } textBoxNetIterationSize.Text = "1"; checkBoxNetIsGrayscale.IsChecked = isGrayscale; while (!nameFound && netIdx < Nets.Count) { if (Nets[netIdx].Name == netName) { nameFound = true; textBoxNetName.Text = Nets[netIdx].Name; comboBoxNetType.Text = Nets[netIdx].Type.ToString(); comboBoxNetActivationFunction.Text = Nets[netIdx].ActivationFunction; textBoxNetInputs.Text = Nets[netIdx].NumInputs.ToString(); textBoxNetOutputs.Text = Nets[netIdx].NumOutputs.ToString(); textBoxNetFCLayers.Text = Nets[netIdx].NumFCLayers.ToString(); textBoxNetConvLayers.Text = Nets[netIdx].NumConvLayers.ToString(); } netIdx++; } if (!nameFound) { netIdx = -1; } else { netIdx -= 1; } } else { netIdx = -1; } currentNet = netIdx; if (netIdx == -1) { MessageBox.Show("Error: Could not open net."); } return(netIdx); }
private void MenuClearLog_Click(object sender, RoutedEventArgs e) { _ = TcpConnection.SendMessage("clearlog"); }
private void MenuItemWriteToLog_Click(object sender, RoutedEventArgs e) { _ = TcpConnection.SendMessage("writetolog"); }
private void MenuItemTestTcpMessage_Click(object sender, RoutedEventArgs e) { string response = TcpConnection.SendMessage("test message"); MessageBox.Show("Server response: " + response); }
private void MenuItemFileOpenKB_Click(object sender, RoutedEventArgs e) { _ = TcpConnection.SendMessage("openkb"); //MessageBox.Show("Server response: " + response); }
public void ProcessStatements(string statements) { statements = statements.Trim(); if (statements.StartsWith("speak")) { statements = statements.Substring(6, statements.Length - 6); Speech.Speak(Speech.AddPronunciation(statements)); textBoxCommands.CaretIndex = textBoxCommands.Text.Length; textBoxCommands.AppendText("\r\n\r\n" + commandPrompt); commandsText = textBoxCommands.Text; promptIndex = textBoxCommands.Text.Length; textBoxCommands.CaretIndex = textBoxCommands.Text.Length; lastCaretIndex = textBoxCommands.Text.Length; } else if (statements.StartsWith("getvoices")) { string installedVoices = Speech.GetInstalledVoices(); textBoxCommands.CaretIndex = textBoxCommands.Text.Length; textBoxCommands.AppendText("\r\n\r\n" + installedVoices + "\r\n" + commandPrompt); commandsText = textBoxCommands.Text; promptIndex = textBoxCommands.Text.Length; textBoxCommands.CaretIndex = textBoxCommands.Text.Length; lastCaretIndex = textBoxCommands.Text.Length; } else if (statements.ToLower() == "python") { string response = TcpConnection.SendMessage("python"); commandPrompt = pythonCommandPrompt; textBoxCommands.CaretIndex = textBoxCommands.Text.Length; textBoxCommands.AppendText("\r\n" + response.TrimEnd() + "\r\n\r\n" + commandPrompt); commandsText = textBoxCommands.Text; promptIndex = textBoxCommands.Text.Length; textBoxCommands.CaretIndex = textBoxCommands.Text.Length; lastCaretIndex = textBoxCommands.Text.Length; } else if (commandPrompt == pythonCommandPrompt) { string response = TcpConnection.SendMessage("[py]" + statements); if (response == "[python closed]") { commandPrompt = ">"; // Switch back to normal command prompt. StopOutput(); } else { lastPythonOutputTime = DateTime.UtcNow; timerPythonOutput = new DispatcherTimer(); timerPythonOutput.Tick += new EventHandler(TimerPythonOutput_Tick); timerPythonOutput.Interval = new TimeSpan(0, 0, 0, 0, 200); timerPythonOutput.Start(); } } else { string response = TcpConnection.SendMessage("processstatements " + statements); if (response == "RefreshUDWords") { // Maybe split pronunciations out of AddRecRulesFromLexRules, since they are // for spokenSynth and can be added separately just for voice synth. LangBnf.LoadLexRules(); LoadUDWords(); if (checkBoxVoiceRecogition.IsChecked == true) { Speech.LoadSpeechRecognizer(); } if (checkBoxVoiceSynth.IsChecked == true) { Speech.AddSynthRulesFromLexRules(); } response = "okay;"; } textBoxCommands.CaretIndex = textBoxCommands.Text.Length; textBoxCommands.AppendText("\r\n" + response.TrimEnd() + "\r\n\r\n" + commandPrompt); commandsText = textBoxCommands.Text; promptIndex = textBoxCommands.Text.Length; textBoxCommands.CaretIndex = textBoxCommands.Text.Length; lastCaretIndex = textBoxCommands.Text.Length; if (Speech.Synth != null && checkBoxVoiceSynth.IsChecked == true && response.Length < 200) { Speech.Speak(response); } } }