private void SaveLastCode() { string filename = Path.Combine(localPath, "TestApp.os"); using (var writer = new StreamWriter(filename, false, Encoding.UTF8)) { // первой строкой запишем имя открытого файла writer.Write("//"); // знаки комментария, чтобы сохранить код правильным writer.WriteLine(_currentDocPath); // второй строкой - признак изменённости writer.Write("//"); writer.WriteLine(_isModified); args.Text = args.Text.TrimEnd('\r', '\n'); // запишем аргументы командной строки writer.Write("//"); writer.WriteLine(args.LineCount); for (var i = 0; i < args.LineCount; ++i ) { string s = args.GetLineText(i).TrimEnd('\r', '\n'); writer.Write("//"); writer.WriteLine(s); } // и потом сам код writer.Write(txtCode.Text); } }
public void Trace(NetState state) { try { string path = Path.Combine(Paths.LogsDirectory, "packets.log"); using (StreamWriter sw = new StreamWriter(path, true)) { sw.BaseStream.Seek(sw.BaseStream.Length, SeekOrigin.Begin); byte[] buffer = _data; if (_data.Length > 0) Tracer.Warn(string.Format("Unhandled packet 0x{0:X2}", _data[0])); buffer.ToFormattedString(buffer.Length, sw); sw.WriteLine(); sw.WriteLine(); } } catch (Exception e) { Tracer.Error(e); } }
private void WriteToFSLocation(string path, string value) { using (StreamWriter sw = new StreamWriter(path)) { sw.Write(value); } }
protected override async void Write(Core.LogEventInfo logEvent) { var request = (HttpWebRequest) WebRequest.Create(ServerUrl); request.ContentType = "application/json; charset=utf-8"; request.Method = "POST"; var requestWriter = new StreamWriter(request.GetRequestStream()); requestWriter.Write("{ " + "\"version\": " + "\"" + "1.0" + "\",\n" + "\"host\": " + "\"" + AndroidId + "\",\n" + "\"short_message\": " + "\"" + logEvent.FormattedMessage + "\",\n" + "\"full_message\": " + "\"" + logEvent.FormattedMessage + "\",\n" + "\"timestamp\": " + "\"" + DateTime.Now.ToString(CultureInfo.InvariantCulture) + "\",\n" + "\"level\": " + "\"" + logEvent.Level.Ordinal.ToString(CultureInfo.InvariantCulture) + "\",\n" + "\"facility\": " + "\"" + "NLog Android Test" + "\",\n" + "\"file\": " + "\"" + Environment.CurrentDirectory + "AndroidApp" + "\",\n" + "\"line\": " + "\"" + "123" + "\",\n" + "\"Userdefinedfields\": " + "{}" + "\n" + "}"); requestWriter.Close(); LastResponseMessage = (HttpWebResponse) request.GetResponse(); }
public void CreateLog(Exception ex) { try { using (TextWriter writer = new StreamWriter(_filename, false)) { writer.WriteLine("Crash Log: {0}", _crashTime); writer.WriteLine("= System Information"); writer.Write(SystemInfo()); writer.WriteLine(); writer.WriteLine("= Disk Information"); writer.Write(DriveInfo()); writer.WriteLine(); writer.WriteLine("= Exception Information"); writer.Write(ExceptionInfo(ex)); writer.WriteLine(); writer.WriteLine(); writer.WriteLine("= MediaPortal Information"); writer.WriteLine(); IList<string> statusList = ServiceRegistration.Instance.GetStatus(); foreach (string status in statusList) writer.WriteLine(status); } } catch (Exception e) { Console.WriteLine("UiCrashLogger crashed:"); Console.WriteLine(e.ToString()); } }
public static void SavePointsInFile(string fileName, Path3D path) { using (StreamWriter file = new StreamWriter(fileName)) { file.Write(path); } }
public static void SaveTo(string filename, MailAccess mailAccess) { using (var streamWriter = new StreamWriter(filename, false, Encoding.UTF8)) { streamWriter.WriteLine(mailAccess.Server); streamWriter.WriteLine(mailAccess.Username); streamWriter.WriteLine(mailAccess.Password); } }
public static void Run() { // ExStart:ExtractTextFromPageRegion // The path to the documents directory. string dataDir = RunExamples.GetDataDir_AsposePdf_Text(); // Open document Document pdfDocument = new Document(dataDir + "ExtractTextAll.pdf"); // Create TextAbsorber object to extract text TextAbsorber absorber = new TextAbsorber(); absorber.TextSearchOptions.LimitToPageBounds = true; absorber.TextSearchOptions.Rectangle = new Aspose.Pdf.Rectangle(100, 200, 250, 350); // Accept the absorber for first page pdfDocument.Pages[1].Accept(absorber); // Get the extracted text string extractedText = absorber.Text; // Create a writer and open the file TextWriter tw = new StreamWriter(dataDir + "extracted-text.txt"); // Write a line of text to the file tw.WriteLine(extractedText); // Close the stream tw.Close(); // ExEnd:ExtractTextFromPageRegion }
public static void ConvertFormat(string strInputFile, string strOutputFile) { StreamReader sr = new StreamReader(strInputFile); StreamWriter sw = new StreamWriter(strOutputFile); string strLine = null; while ((strLine = sr.ReadLine()) != null) { strLine = strLine.Trim(); string[] items = strLine.Split(); foreach (string item in items) { int pos = item.LastIndexOf('['); string strTerm = item.Substring(0, pos); string strTag = item.Substring(pos + 1, item.Length - pos - 2); sw.WriteLine("{0}\t{1}", strTerm, strTag); } sw.WriteLine(); } sr.Close(); sw.Close(); }
static void Main(string[] args) { using (StreamWriter str = new StreamWriter(args[0])) { int a = Convert.ToInt32(args[1]); int b = Convert.ToInt32(args[2]); str.WriteLine("Parameters:"); str.WriteLine(a); str.WriteLine(b); int min; if (a > b) min = b; else min = a; int i = min; int c = 0; while (i>0&&c==0) { if ((a % i == 0) && (b % i == 0)) c = i; i--; } //c = 0; str.WriteLine("Answers:"); str.WriteLine(Convert.ToString(c)); //str.WriteLine(a); } }
public void AllFieldsEmptyTest() { using( var stream = new MemoryStream() ) using( var reader = new StreamReader( stream ) ) using( var writer = new StreamWriter( stream ) ) using( var parser = new CsvParser( reader ) ) { writer.WriteLine( ";;;;" ); writer.WriteLine( ";;;;" ); writer.Flush(); stream.Position = 0; parser.Configuration.Delimiter = ";;"; parser.Configuration.HasHeaderRecord = false; var row = parser.Read(); Assert.IsNotNull( row ); Assert.AreEqual( 3, row.Length ); Assert.AreEqual( "", row[0] ); Assert.AreEqual( "", row[1] ); Assert.AreEqual( "", row[2] ); row = parser.Read(); Assert.IsNotNull( row ); Assert.AreEqual( 3, row.Length ); Assert.AreEqual( "", row[0] ); Assert.AreEqual( "", row[1] ); Assert.AreEqual( "", row[2] ); row = parser.Read(); Assert.IsNull( row ); } }
public static void Extract(Category category) { string path = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "Data", "Extract"); if(!Directory.Exists(path)) Directory.CreateDirectory(path); pset.Clear(); pdic.Clear(); string downPath = Path.Combine(AppDomain.CurrentDomain.BaseDirectory, "Data", "Down", category.Name); string fileName = string.Format(@"{0}\{1}.txt", path, category.Name); StreamWriter sw = new StreamWriter(fileName, false, Encoding.UTF8); for (int i = category.DownPageCount; i >= 1; i--) { string htmlFileName = string.Format(@"{0}\{1}.html", downPath, i); if (!File.Exists(htmlFileName)) Logger.Instance.Write(string.Format("{0}-{1}.html-not exist", category.Name, i)); StreamReader sr = new StreamReader(htmlFileName, Encoding.UTF8); string text = sr.ReadToEnd(); sr.Close(); var action = CreateAction(category.Type); if (action == null) continue; Extract(text, sw, category.Name,category.DbName, action); } sw.Close(); Console.WriteLine("{0}:Extract Data Finished!", category.Name); }
public Terminal() { InitializeComponent(); if (sw == null) sw = new StreamWriter("Terminal-" + DateTime.Now.ToString("yyyy-MM-dd HH-mm-ss") + ".txt"); }
public void exportCSV(string filename) { StreamWriter tw = new StreamWriter(filename); tw.WriteLine("Filename;Key;Text"); string fn; int i, j; List<string> val; string str; for (i = 0; i < LTX_Texte.Count; i++) { fn = LTX_Texte[i].Key.ToLower().Replace(".ltx",""); val = LTX_Texte[i].Value; for (j = 0; j < val.Count; j++) { str = prepareText(val[j], true); if( str != "" ) tw.WriteLine(fn + ";" + j.ToString() + ";" + str); } } for (i = 0; i < DTX_Texte.Count; i++) { fn = DTX_Texte[i].Key.ToLower().Replace(".dtx",""); val = DTX_Texte[i].Value; for (j = 0; j < val.Count; j++) { str = prepareText(val[j], true); if (str != "") tw.WriteLine(fn + ";" + j.ToString() + ";" + str); } } tw.Close(); }
public static void Main() { var url = new Uri(ApiUrl + "?auth-id=" + AuthenticationID + "&auth-token=" + AuthenticationToken); var request = (HttpWebRequest)WebRequest.Create(url); request.Method = "POST"; using (var stream = request.GetRequestStream()) using (var writer = new StreamWriter(stream)) writer.Write(RequestPayload); using (var response = request.GetResponse()) using (var stream = response.GetResponseStream()) using (var reader = new StreamReader(stream)) { var rawResponse = reader.ReadToEnd(); Console.WriteLine(rawResponse); // Suppose you wanted to use Json.Net to pretty-print the response (delete the next two lines if not): // Json.Net: http://http://json.codeplex.com/ dynamic parsedJson = JsonConvert.DeserializeObject(rawResponse); Console.WriteLine(JsonConvert.SerializeObject(parsedJson, Formatting.Indented)); // Or suppose you wanted to deserialize the json response to a defined structure (defined below): var candidates = JsonConvert.DeserializeObject<CandidateAddress[]>(rawResponse); foreach (var address in candidates) Console.WriteLine(address.DeliveryLine1); } Console.ReadLine(); }
private void CheckAndChangeNewFile() { if (this.writer.BaseStream.Length >= this.maxLength) { this.writer.Close(); this.writer = null; string fileName = ESBasic.Helpers.FileHelper.GetFileNameNoPath(this.iniPath); string dir = ESBasic.Helpers.FileHelper.GetFileDirectory(this.iniPath); int pos = fileName.LastIndexOf('.'); string extendName = null; string pureName = fileName; if (pos >=0) { extendName = fileName.Substring(pos+1); pureName = fileName.Substring(0, pos); } string newPath = null; for(int i=1;i<1000;i++) { string newName = pureName + "_" + i.ToString("000"); if (extendName != null) { newName += "." + extendName; } newPath = dir + "\\" + newName; if (!File.Exists(newPath)) { break; } } this.writer = new StreamWriter(File.Open(newPath, FileMode.OpenOrCreate | FileMode.Append, FileAccess.Write, FileShare.Read)); } }
public void Init() { srStrokes = new StreamReader(opt.StrokesFileName); srTypes = new StreamReader(opt.StrokesTypesFileName); srCedict = new StreamReader(opt.CedictFileName); swOut = new StreamWriter(opt.OutFileName); }
/// <summary> /// Запись в ЛОГ-файл /// </summary> /// <param name="str"></param> public void WriteToLog(string str, bool doWrite = true) { if (doWrite) { StreamWriter sw = null; FileStream fs = null; try { string curDir = AppDomain.CurrentDomain.BaseDirectory; fs = new FileStream(curDir + "teplouchetlog.pi", FileMode.Append, FileAccess.Write, FileShare.ReadWrite); sw = new StreamWriter(fs, Encoding.Default); if (m_vport == null) sw.WriteLine(DateTime.Now.ToString() + ": Unknown port: adress: " + m_address + ": " + str); else sw.WriteLine(DateTime.Now.ToString() + ": " + m_vport.GetName() + ": adress: " + m_address + ": " + str); sw.Close(); fs.Close(); } catch { } finally { if (sw != null) { sw.Close(); sw = null; } if (fs != null) { fs.Close(); fs = null; } } } }
// TODO: hack public RubyIO(RubyContext/*!*/ context, StreamReader reader, StreamWriter writer, string/*!*/ modeString) : this(context) { _mode = ParseIOMode(modeString, out _preserveEndOfLines); _stream = new DuplexStream(reader, writer); ResetLineNumbersForReadOnlyFiles(context); }
void IMapExporter.Save(string filename, Dictionary<string, System.Drawing.Rectangle> map) { // Original filename New filename, ?, 2D, X Y, MAGIC Width Height //.\Animations\player_fall_ne_9.png 0_Animations.png, 0, 2D, 0.000000, 0.000000, 0.000000, 0.058594, 0.064453 // copy the files list and sort alphabetically string[] keys = new string[map.Count]; map.Keys.CopyTo(keys, 0); List<string> outputFiles = new List<string>(keys); outputFiles.Sort(); using (StreamWriter writer = new StreamWriter(filename)) { foreach (var image in outputFiles) { // get the destination rectangle Rectangle destination = map[image]; // write out the destination rectangle for this bitmap //line = item.SourceName + "\t\t" + item.Destination + ", 0, 2D, " + item.ScaledRect.X.ToString("0.000000") + ", " + //item.ScaledRect.Y.ToString("0.000000") + ", 0.000000, " + item.ScaledRect.Width.ToString("0.000000") + ", " + item.ScaledRect.Height.ToString("0.000000"); writer.WriteLine(string.Format( "{0}\t\t{1}, 0, 2D, {2:F5}, {3:F5}, 0.00000, {4:F5}, {5:F5}", image, Path.GetFileNameWithoutExtension(filename)+".png", (float)destination.X / atlasWidth, (float)destination.Y / atlasHeight, (float)destination.Width / atlasWidth, (float)destination.Height / atlasHeight)); } } }
public static string EncryptString(string plainText) { byte[] encrypted; AesCryptoServiceProvider provider = createAesProvider(); // Create a decrytor to perform the stream transform. ICryptoTransform encryptor = provider.CreateEncryptor(provider.Key, null); // null IV, because ECB mode // Create the streams used for encryption. using (MemoryStream msEncrypt = new MemoryStream()) { using (CryptoStream csEncrypt = new CryptoStream(msEncrypt, encryptor, CryptoStreamMode.Write)) { using (StreamWriter swEncrypt = new StreamWriter(csEncrypt)) { //Write all data to the stream. swEncrypt.Write(plainText); } encrypted = msEncrypt.ToArray(); } } // Return the encrypted bytes from the memory stream. return encoding.GetString(encrypted); }
private void ChangeCopyright() { UpdateLabel("searching for rotmg version display string"); Dictionary<string, string> files = new Dictionary<string, string>(); string filetext = String.Empty; foreach (string path in this.files) { using (StreamReader rdr = new StreamReader(File.Open(path, FileMode.Open))) { filetext = rdr.ReadToEnd(); if (filetext.Contains(ROTMG_VERSION_TEXT)) { UpdateLabel("request found!"); files.Add(path, filetext); } } } foreach (var file in files) { UpdateLabel("replacing version text"); filetext = file.Value.Replace(ROTMG_VERSION_TEXT, "<font color='#00CCFF'>Fabiano Swagger of Doom</font> #{VERSION}.{MINORVERSION}"); filetext = filetext.Replace("{MINOR}", "{MINORVERSION}"); using (StreamWriter wtr = new StreamWriter(file.Key, false)) wtr.Write(filetext); } UpdateLabel("Version Display: Done!"); }
private void button1_Click(object sender, EventArgs e) { if (textBox1.TextLength != 0) { string file = Path.Combine(BESFolder, textBox1.Text + ".cbes"); if (File.Exists(file)) File.Delete(file); StreamWriter writer = new StreamWriter(file); writer.WriteLine(form.GetInitial()); writer.WriteLine(form.GetExpand()); writer.WriteLine(form.GetRounds()); writer.WriteLine(form.GetLeftoff()); writer.WriteLine(form.GetKey()); writer.WriteLine(form.GetCipherMode()); writer.WriteLine(form.GetSeedFunction()); writer.WriteLine(form.GetGenerationMode()); writer.Close(); writer.Dispose(); RefreshElements(); this.Close(); } }
//Write the power output file //Output is 100 numbers separated by tabs, representing the power at 1% threshold, 2%, 3%... 100% public static void powerOutput(string filenameStub,int m, int startRep, int endRep) { int[] ranks = new int[endRep - startRep + 1]; double[] power = new double[100]; int attributes = 1000; for (int rep = startRep; rep <= endRep; rep++) { string filename = filenameStub + rep + ".txt"; List<ReliefUtils.SNP> SNPs = FileUtilities.Utils.ReadReliefOutput(filename); attributes = SNPs.Count; //Sort SNPs by descending score SNPs.Sort(delegate(ReliefUtils.SNP S1, ReliefUtils.SNP S2) { return S2.W.CompareTo(S1.W); }); //Find the lower ranked of the 2 informative SNPs (0 and 1) int rank0 = SNPs.FindIndex(delegate(ReliefUtils.SNP s) { return s.ID == 0; }); int rank1 = SNPs.FindIndex(delegate(ReliefUtils.SNP s) { return s.ID == 1; }); ranks[rep-startRep] = Math.Max(rank0, rank1); } string powerFilename = filenameStub + startRep + "to" + endRep + ".power.txt"; StreamWriter powerOutput = new StreamWriter(powerFilename); //Find the power by percentiles (% of reps with both SNPs above threshold) for (int percentile = 1; percentile <= 100; percentile++) { int passed = 0; for (int rep = 0; rep <= endRep - startRep; rep++) { if (ranks[rep] <= (attributes * percentile / 100.0)) passed++; } power[percentile - 1] = passed / (endRep - startRep + 1.0); Console.WriteLine("Power at " + percentile + "%: " + power[percentile - 1]); powerOutput.Write(power[percentile - 1]); if (percentile != 100) powerOutput.Write("\t"); } powerOutput.Close(); }
/// <summary> /// Uploads a file to a given URL and verifies the HTTP request /// through the XMPP server (XEP-0070). /// </summary> /// <param name="uri">URI to send the file to.</param> /// <param name="jid">JID to send as.</param> /// <param name="filename">File to send.</param> public void Upload(string uri, string jid, string filename) { //try //{ StreamReader reader = new StreamReader(filename); HttpWebRequest request = (HttpWebRequest)HttpWebRequest.Create(uri); request.Method = "POST"; request.Headers.Add(HttpRequestHeader.Authorization, "x-xmpp-auth jid=\"" + jid + "\""); StreamWriter writer = new StreamWriter(request.GetRequestStream()); writer.Write(reader.ReadToEnd()); reader.Close(); request.BeginGetResponse(new AsyncCallback(ResponseCallback), request); writer.Close(); // } // catch (WebException) // { // } }
private void InitBlock() { System.IO.StreamWriter temp_writer; temp_writer = new System.IO.StreamWriter(System.Console.OpenStandardOutput(), System.Console.Out.Encoding); temp_writer.AutoFlush = true; debugStream = temp_writer; }
/// <summary> /// A method that takes a Query, and writes a log of that Query and when it was /// executed to a file on disk. All Queries executed on a given day are written /// to a file with that date as the filename. There's not a massive amount /// of complex logic here, just StreamWriters. /// </summary> /// <param name="query">The Query object to log.</param> /// <param name="remoteQuery">Whether or not this was a query processed on the server.</param> internal static void LogToDisk(Query query, bool remoteQuery) { string directoryPath = ConfigurationManager.AppSettings["LoggingDirectory"]; string queryLogString; if (remoteQuery) { queryLogString = query.ToString() + " processed on server"; } else { queryLogString = query.ToString(); } if(Directory.Exists(directoryPath)) { DateTime currentDay = DateTime.Today.Date; if (File.Exists(directoryPath + @"\" + currentDay.ToString(DATE_FORMAT) + ".txt")) { using (StreamWriter fileWriter = new StreamWriter(directoryPath + @"\" + currentDay.ToString(DATE_FORMAT) + ".txt", true)) { fileWriter.WriteLine(queryLogString); } } else { using (StreamWriter fileWriter = new StreamWriter(directoryPath + @"\" + currentDay.ToString(DATE_FORMAT) + ".txt", false)) { fileWriter.WriteLine(queryLogString); } } } }
private void button3_Click(object sender, EventArgs e) { if (button3.Text=="Cancel") this.Close(); else { if (listBox1.SelectedIndex < 0) { return; } else { string str = listBox1.SelectedItem.ToString(); string str1 = string.Format("learning/" + str + ".txt"); StreamWriter sw = new StreamWriter(str1, false, Encoding.UTF8); foreach (string line in richTextBox1.Lines) { sw.WriteLine(line); } sw.Close(); button3.Text = "Cancel"; richTextBox1.ReadOnly = true; MessageBox.Show("Đã lưu " + str); } } }
static void UnhandledException( object sender, UnhandledExceptionEventArgs e ) { // So we don't get the normal unhelpful crash dialog on Windows. Exception ex = (Exception)e.ExceptionObject; string error = ex.GetType().FullName + ": " + ex.Message + Environment.NewLine + ex.StackTrace; bool wroteToCrashLog = true; try { using( StreamWriter writer = new StreamWriter( crashFile, true ) ) { writer.WriteLine( "--- crash occurred ---" ); writer.WriteLine( "Time: " + DateTime.Now.ToString() ); writer.WriteLine( error ); writer.WriteLine(); } } catch( Exception ) { wroteToCrashLog = false; } string message = wroteToCrashLog ? "The cause of the crash has been logged to \"" + crashFile + "\". Please consider reporting the crash " + "(and the circumstances that caused it) to github.com/UnknownShadow200/ClassicalSharp/issues" : "Failed to write the cause of the crash to \"" + crashFile + "\". Please consider reporting the crash " + "(and the circumstances that caused it) to github.com/UnknownShadow200/ClassicalSharp/issues" + Environment.NewLine + Environment.NewLine + error; MessageBox.Show( "Oh dear. ClassicalSharp has crashed." + Environment.NewLine + Environment.NewLine + message, "ClassicalSharp has crashed" ); Environment.Exit( 1 ); }
private async void btnSave_Click(object sender, EventArgs e) { if (tbData.Text.Length <= 0) { MessageBox.Show(@"No text entered", @"Error!", MessageBoxButtons.OK); return; } try { //create dir if it does not exists while (!Directory.Exists(PathToFile)) { Directory.CreateDirectory(PathToFile); } using (StreamWriter fs = new StreamWriter(Path.Combine(PathToFile, FileName), false)) { await fs.WriteAsync(tbData.Text); } } catch (IOException ex) { //catch error MessageBox.Show(ex.Message, @"Error!", MessageBoxButtons.OK, MessageBoxIcon.Error); } }
public void EndLevel() { currency.RecordEndMoneyLog (); UIManager.instance.ShowEndOfLevel(); UnityEngine.Debug.LogWarning ("!!!!!! End Round !!!! "); System.Threading.Thread.Sleep (30); var processInfo = new ProcessStartInfo ("/usr/bin/python", "/Users/Franz/Documents/524LoopControl/LoopControl/loopControl.py"); processInfo.CreateNoWindow = true; processInfo.UseShellExecute = false; processInfo.RedirectStandardOutput = true; processInfo.RedirectStandardError = true; var process = Process.Start(processInfo); process.WaitForExit(); int exitCode = process.ExitCode; UnityEngine.Debug.LogWarning ("exitCode: " + exitCode); string resLine = process.StandardOutput.ReadToEnd (); UnityEngine.Debug.LogWarning ("shell result: " + resLine); string err = process.StandardError.ReadToEnd(); UnityEngine.Debug.LogWarning ("shell err: " + err); process.Close(); UnityEngine.Debug.LogWarning ("Run Script Finish!!!!"); ClearAllData (); //while (true) { System.IO.StreamReader file = new System.IO.StreamReader(GetInfoPath(PRJ_ROOT+ "wave_pool/")); newWaveFileIndex = System.Int32.Parse(file.ReadLine ()); file.Close (); if (newWaveFileIndex != lastWaveFileIndex) { UnityEngine.Debug.LogWarning ("Got new wave, New Round!!!!"); System.IO.StreamReader xmlReaderFile = new System.IO.StreamReader(PRJ_ROOT + "wave_pool/wave_"+ (newWaveFileIndex-1)); string xmlContent = xmlReaderFile.ReadToEnd (); xmlReaderFile.Close (); // System.IO.StreamReader xmlWriterFile = new System.IO.StreamReader("/Users/Franz/Documents/FinalTowerDefense/TowerDefenseAI/Assets/Data/Level1.xml"); System.IO.StreamWriter xmlWriterFile = new System.IO.StreamWriter("Assets/Data/Level1.xml"); xmlWriterFile.Write (xmlContent); xmlWriterFile.Close (); } else { UnityEngine.Debug.LogWarning ("No new wave, try again....."); // System.Threading.Thread.Sleep (30); } //} Start (); currency.RecordStartMoneyLog (); }
public static bool BuildPluginAndroid() { Debug.Log("building Android Plugin..."); clear_log(); EditorUserBuildSettings.androidBuildSystem = AndroidBuildSystem.Gradle; var name = "UnityPlugin"; var workdir = Application.dataPath + "/../PluginProjects/Android"; var android_ndk_root = "/Applications/android-ndk-r10e"; var deploydir = Application.dataPath + "/PluginWork/Plugins/Android"; var sourcedir = Application.dataPath + "/PluginWork/Sources"; var success = false; if (System.IO.Directory.Exists(workdir)) { System.IO.Directory.Delete(workdir, true /* recursive */); } System.IO.Directory.CreateDirectory(workdir); AssetDatabase.Refresh(); string android_makefile = workdir + "/Android.mk"; string application_makefile = workdir + "/Application.mk"; { string AndroidMakefile_content = @"# This file is automatically generated. Don't touch! include $(CLEAR_VARS) LOCAL_ARM_MODE := arm LOCAL_PATH := $(NDK_PROJECT_PATH) LOCAL_MODULE := lib{0} LOCAL_CFLAGS := -Werror LOCAL_SRC_FILES := {1} LOCAL_LDLIBS := -llog include $(BUILD_SHARED_LIBRARY) "; string source_files = sourcedir + "/interface.cpp"; string str = string.Format(AndroidMakefile_content, name, source_files); using (var sw = new System.IO.StreamWriter(android_makefile)) { sw.Write(str); } } { string ApplicationMakefile_content = @"# This file is automatically generated. Don't touch! APP_OPTIM := release APP_ABI := armeabi APP_PLATFORM := android-8 APP_STL := stlport_static APP_BUILD_SCRIPT := {0} "; string str = string.Format(ApplicationMakefile_content, android_makefile); using (var sw = new System.IO.StreamWriter(application_makefile)) { sw.Write(str); } } success = run(android_ndk_root + "/ndk-build", new string[] { "NDK_PROJECT_PATH=" + workdir, "NDK_APPLICATION_MK=" + application_makefile, }); if (!success) { Debug.LogError("failed!"); return(false); } if (System.IO.Directory.Exists(deploydir)) { System.IO.Directory.Delete(deploydir, true /* recursive */); } System.IO.Directory.CreateDirectory(deploydir); System.IO.File.Copy(workdir + "/libs/armeabi/lib" + name + ".so", deploydir + "/lib" + name + ".so"); return(true); }
public void ScoreRecord(double cur_Score) { System.IO.StreamWriter writeFile = new System.IO.StreamWriter("Strategy_Pool/scores", append: true); writeFile.WriteLine(cur_Score + "\n"); writeFile.Close(); }
public static void Main() { // TODO: Pull credentials from file var factory = new ConnectionFactory() { HostName = "192.168.1.2", UserName = "******", Password = "******" }; using (var connection = factory.CreateConnection()) using (var channel = connection.CreateModel()) { channel.BasicQos(prefetchSize: 0, prefetchCount: 1, global: false); Console.WriteLine(" [*] Waiting for messages."); var consumer = new EventingBasicConsumer(channel); consumer.Received += (sender, ea) => { var body = ea.Body.ToArray(); var message = Encoding.UTF8.GetString(body); Console.WriteLine("Received Message: {0}", message); var probe = message.Substring(0, 7); var value = message.Substring(8); //TODO: save the message string filePath = string.Empty; if (probe == "Probe_1") { filePath = @"/home/tim/Documents/Programming/RabbitMQ/Worker/probe1.txt"; } else if (probe == "Probe_2") { filePath = @"/home/tim/Documents/Programming/RabbitMQ/Worker/probe2.txt"; } else { filePath = @"/home/tim/Documents/Programming/RabbitMQ/Worker/otherProbe1.txt"; } var time = DateTime.Now.ToString(); var entry = time + ", " + value; using (System.IO.StreamWriter file = new System.IO.StreamWriter(filePath, true)) { file.WriteLine(entry); } // Note: it is possible to access the channel via // ((EventingBasicConsumer)sender).Model here channel.BasicAck(deliveryTag: ea.DeliveryTag, multiple: false); }; channel.BasicConsume(queue: "esp8266_amqp", autoAck: false, consumer: consumer); Console.WriteLine(" Press [enter] to exit."); Console.ReadLine(); } }
//Function to write log file public static void Writefile_new(string strErrMesg, string strPath) { try { strPath = strPath + "//Log"; string LogFilename = "Log" + "_" + DateTime.Now.ToString("yyyyMMdd"); System.Data.DataSet Dsfile = new System.Data.DataSet(); if (System.IO.Directory.Exists(strPath) == false) { System.IO.DirectoryInfo dirinfo = new System.IO.DirectoryInfo(strPath); dirinfo.Create(); CreateNewXml(ref Dsfile); Dsfile.WriteXml(strPath + " \\XmlData.xml"); System.IO.FileInfo objfile = new System.IO.FileInfo(strPath + "\\" + LogFilename + "_0.log"); System.IO.StreamWriter Tex = objfile.CreateText(); Tex.Write(strErrMesg + "\r\n"); Tex.Close(); System.GC.Collect();// return; } if (System.IO.File.Exists(strPath + "\\XmlData.xml") == true) { System.Data.DataRow[] dr; int FileIndex = 0; Dsfile.ReadXml(strPath + " \\XmlData.xml"); dr = Dsfile.Tables[0].Select("SysDate ='" + DateTime.Now.ToString("dd-MM-yyyy") + "'"); if (dr.Length > 0) { FileIndex = Convert.ToInt32(dr[0]["Sysvalue"].ToString()); } else { Dsfile.Clear(); CreateNewXml(ref Dsfile); Dsfile.WriteXml(strPath + "\\XmlData.xml"); } if (System.IO.File.Exists(strPath + "\\" + LogFilename + "_" + FileIndex + ".log")) { System.IO.FileInfo objfile = new System.IO.FileInfo(strPath + "\\" + LogFilename + "_" + FileIndex.ToString() + ".log"); if (objfile.Length > 500000) //523636 { System.IO.FileInfo objfile1 = new System.IO.FileInfo(strPath + "\\" + LogFilename + "_" + (FileIndex + 1).ToString() + ".log"); System.IO.StreamWriter Tex = objfile1.CreateText(); Tex.Write(strErrMesg + "\r\n"); Tex.Close(); Dsfile.Tables[0].Rows[0]["Sysvalue"] = FileIndex + 1; Dsfile.WriteXml(strPath + "\\XmlData.xml"); System.GC.Collect(); } else { System.IO.StreamWriter Tex = objfile.AppendText(); Tex.Write(strErrMesg + "\r\n"); Tex.Close(); System.GC.Collect(); } } else { System.IO.FileInfo objfile = new System.IO.FileInfo(strPath + "\\" + LogFilename + "_" + FileIndex.ToString() + ".log"); System.IO.StreamWriter Tex = objfile.CreateText(); Tex.Write(strErrMesg + "\r\n"); Tex.Close(); System.GC.Collect(); } } else { CreateNewXml(ref Dsfile); Dsfile.WriteXml(strPath + "\\XmlData.xml"); System.IO.FileInfo objfile = new System.IO.FileInfo(strPath + LogFilename + "_0.log"); System.IO.StreamWriter Tex = objfile.CreateText(); Tex.Write(strErrMesg + "\r\n"); Tex.Close(); System.GC.Collect(); } } catch (Exception ex) { Microsoft.Practices.EnterpriseLibrary.Logging.Logger.Write(ex.Message); } }
void Populate() { NumberToCreate(); Turbines = new GameObject[numberToCreate]; AllSmokes = new GameObject[numberToCreate]; GameObject newObj; // Create GameObject instance float j = 0; int k = 0; GridLineHorizontal = k; bool IsEven = true; float scale = 0.5f; float lastScale = 0; GameObject Grid = GameObject.Find("Cube"); float TurbineSizeY = ((FromPreviousScene.Radius * 2) * PopulateGrid.YDiaValue); GeneratedPower = new float[numberToCreate]; GeneratedPowerSet = new float[100, 5]; List <string> Lines = new List <string>(); for (int i = 0; i < numberToCreate; i++) { TurbineCount++; Point = Instantiate(Point, panel.transform); // newObj = (GameObject)Instantiate(Prefab, transform); // newObj.transform.gameObject.name = i.ToString(); // newObj.GetComponent<Button>().onClick.AddListener( () => Grid.GetComponent<GridButtons>().OnclickButton() ); // AllSmokes[i] = Instantiate(Smoke) as GameObject; Turbines[i] = Instantiate(TurbinePrefab) as GameObject; //Turbines[i].transform.localScale = new Vector3(1f, 1f, 1f); Turbines[i].GetComponent <canvasLook>().TurbineNo = i; // Turbines[i].GetComponent<canvasLook>().Turbines =Turbines; if (IsEven) { if (Xlocation > (Cube.transform.localScale.x - ((getTrubineHeight((int)(k + 1)) / 1.5f) * 2) * PopulateGrid.XDiaValue)) { // LatestTurbinePosition = Turbines[i].transform.position.z; j = 0; k++; scale += 0.5f; if (!FromPreviousScene.IsSameHeight) { FromPreviousScene.TurbineSize += 73; //if (k <= 3) //{ // TurbineSizeY =(((30f / 1.5f) * 2f) * 7f); //} //else //{ // TurbineSizeY = ((((k * 10f) / 1.5f) * 2f) * 7f); //} // TurbineSizeEven = TurbineSizeY; } else { //TurbineSizeY = (((80f / 1.5f) * 2f) * 7f); //TurbineSizeEven = TurbineSizeOdd; FromPreviousScene.TurbineSize = 424; } IsEven = false; } } else { if (Xlocation > (Cube.transform.localScale.x - ((getTrubineHeight((int)(k + 1)) / 1.5f) * 2) * PopulateGrid.XDiaValue)) { Debug.Log("reached"); //LatestTurbinePosition = Turbines[i].transform.position.z; j = 0; k++; if (!FromPreviousScene.IsSameHeight) { FromPreviousScene.TurbineSize += 73; //if (k <= 3) //{ // TurbineSizeY = (((30f / 1.5f) * 2f) * 8f); //} //else //{ // TurbineSizeY = ((((k * 10f) / 1.5f) * 2f) * 8f); //} // TurbineSizeOdd = TurbineSizeY; } else { FromPreviousScene.TurbineSize = 424; // TurbineSizeY = (((80f / 1.5f) * 2f) * 8f); // TurbineSizeOdd = TurbineSizeY; } scale += 0.5f; IsEven = true; } } if (k + 1 < 8 && (!FromPreviousScene.IsSameHeight)) { Turbines[i].transform.localScale = new Vector3(scale, scale, scale); } else { if (FromPreviousScene.IsSameHeight) { scale = 4; } else { scale = 4; } Turbines[i].transform.localScale = new Vector3(scale, scale, scale); } // Turbines[i].transform.Find("Cone").transform.localScale = new Vector3(1f,FromPreviousScene.Radius,FromPreviousScene.Radius); // Turbines[i].transform.Find("Cone.2").transform.localScale = new Vector3(1f, FromPreviousScene.Radius, FromPreviousScene.Radius); // Turbines[i].transform.Find("Cone.3").transform.localScale = new Vector3(1f, FromPreviousScene.Radius, FromPreviousScene.Radius); Turbines[i].GetComponent <canvasLook>().TurbineRow = k + 1; if (k != lastScale) { lastScale = k; if (FromPreviousScene.IsGrid) { Xlocation = 0f;// ((getTrubineHeight((int)(k + 1)) / 1.5f) * 2) * PopulateGrid.XDiaValue; ZLocation += ((getTrubineHeight((int)(k)) / 1.5f) * 2) * PopulateGrid.XDiaValue; } else { if ((k + 1) % 2 == 0) { Xlocation = 0f; ZLocation += ((getTrubineHeight((int)(k)) / 1.5f) * 2) * (PopulateGrid.YDiaValue); } else { Xlocation = ((getTrubineHeight((int)(k + 1)) / 1.5f) * 2) * PopulateGrid.XDiaValue; ZLocation += ((getTrubineHeight((int)(k)) / 1.5f) * 2) * (PopulateGrid.YDiaValue); } } } if (FromPreviousScene.IsGrid) { Xlocation += ((getTrubineHeight((int)(k + 1)) / 1.5f) * 2) * PopulateGrid.XDiaValue; } else { if ((k + 1) % 2 != 0) { Xlocation += ((getTrubineHeight((int)(k + 1)) / 1.5f) * 2) * PopulateGrid.XDiaValue; } else { Xlocation += ((getTrubineHeight((int)(k + 1)) / 1.5f) * 2) * (PopulateGrid.XDiaValue); } } if (FromPreviousScene.IsGrid) { Turbines[i].transform.position = new Vector3(Xlocation, 0f, (ZLocation)); } else { if (IsEven) { // Debug.Log("K " + k); if (k == 0) { // Turbines[i].transform.position = new Vector3(((j * FromPreviousScene.TurbineSize) + (FromPreviousScene.TurbineSize / 2.0f)), 0, (ZLocation)); Turbines[i].transform.position = new Vector3(Xlocation - ((((getTrubineHeight((int)(k + 1)) / 1.5f) * 2) * PopulateGrid.XDiaValue) / 2), 0, (ZLocation)); } else { // Turbines[i].transform.position = new Vector3(((j * FromPreviousScene.TurbineSize) + (FromPreviousScene.TurbineSize / 2.0f)), 0, ( ZLocation)); Turbines[i].transform.position = new Vector3(Xlocation - ((((getTrubineHeight((int)(k + 1)) / 1.5f) * 2) * PopulateGrid.XDiaValue) / 2), 0, (ZLocation)); } } else { // Debug.Log("K " + k); // Turbines[i].transform.position = new Vector3(((j * FromPreviousScene.TurbineSize) + (FromPreviousScene.TurbineSize)), 0f, (ZLocation)); Turbines[i].transform.position = new Vector3(Xlocation, 0f, (ZLocation)); } } j++; // Debug.Log(Cube.transform.localScale.x / 10); // Point.transform.position = new Vector2( ((Cube.transform.localScale.x/10)) , (Turbines[i].transform.position.z/10f)); // Point.rectTransform.localPosition = new Vector3((Turbines[i].transform.position.x/10) - ((Cube.transform.localScale.x/10)/2), -((Turbines[i].transform.position.z / 10) - ((Cube.transform.localScale.z / 10) / 2)), 0); float pointx = (Turbines[i].transform.position.x / 10) - ((Cube.transform.localScale.x / 10) / 2); float pointy = -((Turbines[i].transform.position.z / 10) - ((Cube.transform.localScale.z / 10) / 2)); Point.rectTransform.localPosition = new Vector3(pointx, pointy, 0); if (k == 0) { GridLineY = Instantiate(GridLineY, panel.transform); GridLineY.rectTransform.localPosition = new Vector3(Point.rectTransform.localPosition.x + 2f, Point.rectTransform.localPosition.y); // GridLine.rectTransform.localScale = new Vector3(GridLine.rectTransform.localPosition.x, Cube.transform.localScale.z / 10f); GridLineY.rectTransform.sizeDelta = new Vector2(GridLineY.rectTransform.sizeDelta.x, Cube.transform.localScale.z / 10f); GridLineHeight = (int)(GridLineY.rectTransform.localPosition.y - GridLineY.rectTransform.sizeDelta.y); FirstPointPosition = (int)(Point.rectTransform.localPosition.y); } if (FirstPointPosition >= GridLineHeight) { GridLineHorizontal = k; GridLineX = Instantiate(GridLineX, panel.transform); if (RotateGridForFirst == 0) { //GridLineX.rectTransform.Rotate(0f, 0f, 90f); RotateGridForFirst = 1; } GridLineX.rectTransform.sizeDelta = new Vector2(Cube.transform.localScale.x / 10f, GridLineX.rectTransform.sizeDelta.y); GridLineX.rectTransform.localPosition = new Vector3(-((Cube.transform.localScale.x / 10) / 2), FirstPointPosition); if (FromPreviousScene.IsSameHeight) { FirstPointPosition = (int)-((Turbines[i].transform.position.z / 10) - ((Cube.transform.localScale.z / 10) / 2)); } else { FirstPointPosition -= (int)(((YDiaValue * getTrubineHeight((int)(1))) / 10)) + (YDiaValue * 2); } } Point.rectTransform.localPosition = new Vector3(pointx, pointy, 0); //if ((k % 2 == 0) && (j % 2 == 0) && i!=0) //{ // Turbines[i].SetActive(false); //} //if (((k % 2) != 0) && ((j % 2) != 0) &&i!=0) //{ // Turbines[i].SetActive(false); //} // newObj.GetComponentInChildren<Text>().text = i.ToString(); // newObj.GetComponent<Button>().onClick.AddListener(() => Turbines[i].GetComponent<canvasLook>().Update()); //Transform obj = Turbines[i].transform.Find("head"); //AllSmokes[i].transform.localPosition= new Vector3(obj.position.x, obj.position.y, obj.position.z); if (Turbines[i].transform.position.z > Cube.transform.localScale.z) { Destroy(Turbines[i]); TurbineCount--; //Destroy(AllSmokes[i]); Destroy(Point); GeneratedPowerSet[k + 1, 3]--; break; } else { // Debug.Log("X:"+Xlocation+":Y:"+ZLocation); Lines.Add("X:" + Xlocation + ":Y:" + ZLocation); } } using (System.IO.StreamWriter file = new System.IO.StreamWriter(@"D:\\Coordinates.txt")) { foreach (string line in Lines) { // If the line doesn't contain the word 'Second', write the line to the file. file.WriteLine(line); } } // Grid.GetComponent<GridButtons>().OnclickButton(); // Debug.Log("reached"); // Debug.Log(this.transform.parent.parent.gameObject.name); //this.transform.parent.parent.gameObject.SetActive(false); }
public void Begin() { prevSectionLife = characterController.currentLife; numbSegsMade = 0; segmentsPassed = 0; keysPressed = new int[2]; trippedThisSegment = false; sectionStartCoinScore = 0; numCoinsPerSection = new List <int> (); segmentIDs = new List <int> (); previousCoinCollectionPercentage = 1f; prevSectionLife = 3; currentGame++; playerID = idText.text == "" ? 999 : int.Parse(idText.text); gameType = adaptiveText.text == "" ? 1 : int.Parse(adaptiveText.text); isAdaptive = gameType != 0; allDataOut = playerID + "_" + gameType + "_all.csv"; summaryDataOut = playerID + "_" + gameType + "_summary.csv"; if (currentGame == 1) { using (System.IO.StreamWriter file = new System.IO.StreamWriter((summaryDataOut), true)) { file.WriteLine("Game, Section, Current_Section_ID, PCG_Section_ID, PCG_NextID, UCTScore, ExploitScore, ExploreScore, Joy, Fear, Disgust, Sadness,Anger, Suprise, Contempt, Valence, Engagement, Game Score\n"); } using (System.IO.StreamWriter file = new System.IO.StreamWriter((allDataOut), true)) { file.WriteLine("Game, Section, Current_Section_ID, Joy, Fear, Disgust, Sadness,Anger, Suprise, Contempt, Valence, Engagement\n"); } } if (!m_Rerun) { if (m_TrackSeed != -1) { Random.InitState(m_TrackSeed); } else { Random.InitState((int)System.DateTime.Now.Ticks); } // Since this is not a rerun, init the whole system (on rerun we want to keep the states we had on death) m_CurrentSegmentDistance = k_StartingSegmentDistance; m_TotalWorldDistance = 0.0f; characterController.gameObject.SetActive(true); // Spawn the player Character player = Instantiate(characterPreFab, Vector3.zero, Quaternion.identity); player.transform.SetParent(characterController.characterCollider.transform, false); Camera.main.transform.SetParent(characterController.transform, true); characterController.character = player; characterController.trackManager = this; characterController.Init(); characterController.CheatInvincible(invincible); m_CurrentThemeData = theme; m_CurrentZone = 0; m_CurrentZoneDistance = 0; skyMeshFilter.sharedMesh = m_CurrentThemeData.skyMesh; RenderSettings.fogColor = m_CurrentThemeData.fogColor; RenderSettings.fog = true; gameObject.SetActive(true); characterController.gameObject.SetActive(true); characterController.coins = 0; characterController.premium = 0; m_Score = 0; m_ScoreAccum = 0; m_SafeSegementLeft = k_StartingSafeSegments; Coin.coinPool = new Pooler(currentTheme.collectiblePrefab, k_StartingCoinPoolSize); } characterController.Begin(); StartCoroutine(WaitToStart()); }
public static string HandleDynamicCrittercismSetup(string applicationID) { string iphoneDataPath = UnityEditor.EditorApplication.applicationContentsPath + "/PlaybackEngines/iPhonePlayer/iPhone-Trampoline/"; string appControllerPath = null; try { string[] files = System.IO.Directory.GetFiles(iphoneDataPath, "*.mm", System.IO.SearchOption.AllDirectories); for (int nItter = 0; nItter < files.Length; nItter++) { if (files[nItter].Contains("AppController.mm")) { appControllerPath = files[nItter]; break; } } } catch (System.Exception e) { return(e.Message); } if (string.IsNullOrEmpty(appControllerPath)) { return("Failed To Locate IOS App Controller"); } try { string writePath = GetIOSPluginsFolder() + "/AppController.mm"; System.IO.StreamReader readFile = new System.IO.StreamReader(appControllerPath); System.IO.StreamWriter writeFile = new System.IO.StreamWriter(writePath); bool applicationIDWasWritten = false; bool hasWritenExtern = false; string lineData = null; while ((lineData = readFile.ReadLine()) != null) { if (!applicationIDWasWritten) { if (!hasWritenExtern) { if (lineData.Contains("//")) { writeFile.Write("const char* kCrittercism_App = \""+ applicationID + "\";\n"); writeFile.Write("extern \"C\" void Crittercism_EnableWithAppID(const char* appID);\n\n"); hasWritenExtern = true; } } else { if (lineData.Contains("-")) { if (lineData.Contains("didFinishLaunchingWithOptions:")) { writeFile.Write(lineData + "\n"); lineData = readFile.ReadLine(); if (lineData.Contains("{") && !lineData.Contains("if")) { writeFile.Write(lineData + "\n"); lineData = readFile.ReadLine(); } writeFile.Write(" Crittercism_EnableWithAppID(kCrittercism_App);\n\n"); applicationIDWasWritten = true; } } } } writeFile.Write(lineData + "\n"); } readFile.Close(); readFile = null; writeFile.Flush(); writeFile.Close(); writeFile = null; }catch { return("Unable to finish writting file data."); } return(null); }
static public void UpdateUnitStats() { string[] FileLines = System.IO.File.ReadAllLines(@"..\" + filePath); int NumLines = FileLines.Length; string[][] TokenArray = new string[NumLines][]; for (int i = 0; i < NumLines; ++i) { TokenArray[i] = Tokenize(FileLines[i], '\t'); } System.IO.File.Create(@"..\" + newScriptPath).Close(); using (System.IO.StreamWriter file = new System.IO.StreamWriter(@"..\" + newScriptPath)) { file.Write("/*This file was auto-generated. Any changes that are made will be overwritten*/\n"); file.Write("/*Written By: Taylor Riviera*/\n"); file.Write("/*Version 0.1*/\n"); file.Write("using UnityEngine;\nusing System.Collections;\n\n"); //Enum with unit types file.Write("public enum UnitType {"); for (int i = 1; i < NumLines - 1; ++i) { file.Write(" " + StripQuotes(TokenArray[i][0]) + ","); } file.Write(" " + StripQuotes(TokenArray[NumLines - 1][0]) + ", Length };\n\n"); //Class Starts Here file.WriteLine("[System.Serializable]"); file.Write("public static class StatsReference\n {\n"); //Unit Stats Structure file.Write("\n\t [System.Serializable]\n"); file.Write("\tpublic struct UnitStats {\n"); for (int i = 1; i < TokenArray[0].Length; ++i) { file.Write("\t\tpublic " + ReadTokenTypeAsString(TokenArray[1][i]) + " " + StripQuotes(TokenArray[0][i]) + ";\n"); } file.Write("\n\t\tpublic UnitStats("); for (int i = 1; i < TokenArray[0].Length; ++i) { file.Write(ReadTokenTypeAsString(TokenArray[1][i]) + " " + StripQuotes(TokenArray[0][i]) + "_"); if (i < TokenArray[0].Length - 1) { file.Write(", "); } } file.Write(")\n\t\t{"); for (int i = 1; i < TokenArray[0].Length; ++i) { file.Write("\n\t\t\t" + StripQuotes(TokenArray[0][i]) + " = " + StripQuotes(TokenArray[0][i]) + "_;"); } file.Write("\n\t\t}\n\t}\n"); //End of Unit stats struct //Start Array Declaration file.Write("\tpublic static UnitStats[] UnitStatsArray = new UnitStats[] {"); for (int i = 1; i < TokenArray.Length; ++i) { file.Write("\n\t\tnew UnitStats("); for (int j = 1; j < TokenArray[i].Length; ++j) { if (ReadTokenType(TokenArray[i][j]) == TokenType.Bool) { if (TokenArray[i][j][0] == 'T') { file.Write("true"); } else { file.Write("false"); } } else { file.Write(TokenArray[i][j]); } if (ReadTokenType(TokenArray[i][j]) == TokenType.Float) { file.Write("f "); } else { file.Write(" "); } if (j < TokenArray[i].Length - 1) { file.Write(", "); } } file.Write("),"); } file.Write("\n\t};"); file.Write("\n" + serializeFunction(1, TokenArray[0])); file.Write("\n" + isEqualFunction(1, TokenArray[0])); //End of File file.Write("\n}"); //file.Write(); } // print("File Written Successfully!"); }
public static string HandleHardcodedCrittercismSetup(string applicationID) { string acFile = "AppController"; #if UNITY_3_4 acFile += "3.4.0"; #elif UNITY_3_5 && !UNITY_3_5_7 acFile += "3.5.6"; #elif UNITY_3_5_7 acFile += "3.5.7"; #elif UNITY_4_0 || UNITY_4_0_1 acFile += "4.0.1"; #elif UNITY_4_1 acFile += "4.1"; #else UnityEditor.EditorUtility.DisplayDialog("Error", "Unknown Version of Unity!", "Close"); return; #endif string writePath = GetIOSPluginsFolder() + "/AppController.mm"; acFile = Application.dataPath + "/Editor/Crittercism/" + acFile + ".mm"; try { if (!System.IO.File.Exists(acFile)) { throw new System.Exception("Invalid File Path For AppController:\n" + acFile); } if (System.IO.File.Exists(writePath)) { try { System.IO.File.Delete(writePath); }catch { throw new System.Exception("Failed to Delete File For AppController:\n" + writePath); } } }catch (System.Exception e) { return(e.Message); } try { System.IO.StreamReader readFile = new System.IO.StreamReader(acFile); System.IO.StreamWriter writeFile = new System.IO.StreamWriter(writePath); bool applicationIDWasWritten = false; string lineData = null; while ((lineData = readFile.ReadLine()) != null) { if (!applicationIDWasWritten) { if (lineData.Contains("\"CRITTERCISM_APP_ID\"")) { lineData = lineData.Replace("CRITTERCISM_APP_ID", applicationID); applicationIDWasWritten = true; } } writeFile.Write(lineData + "\n"); } readFile.Close(); readFile = null; writeFile.Flush(); writeFile.Close(); writeFile = null; }catch { return("Unable to finish writting file data."); } return(null); }
public static void TestPrediction() { Debug.Log("Prediction.TestPrediction"); string[] lines = System.IO.File.ReadAllLines("prediction_deltas.txt"); string prediction_filename = "prediction.txt"; using (System.IO.StreamWriter file = new System.IO.StreamWriter(prediction_filename)) { foreach (string line in lines) { string[] stringValues = line.Split(','); int[] intValues = new int[stringValues.Length]; for (int i = 0; i < stringValues.Length; ++i) { intValues[i] = Int32.Parse(stringValues[i]); } int current_sequence = intValues[0]; int baseline_sequence = intValues[1]; int baseline_position_x = intValues[15]; int baseline_position_y = intValues[16]; int baseline_position_z = intValues[17]; int baseline_linear_velocity_x = intValues[22]; int baseline_linear_velocity_y = intValues[23]; int baseline_linear_velocity_z = intValues[24]; int current_position_x = intValues[29]; int current_position_y = intValues[30]; int current_position_z = intValues[31]; int current_linear_velocity_x = intValues[36]; int current_linear_velocity_y = intValues[37]; int current_linear_velocity_z = intValues[38]; int baseline_angular_velocity_x = intValues[25]; int baseline_angular_velocity_y = intValues[26]; int baseline_angular_velocity_z = intValues[27]; int current_angular_velocity_x = intValues[39]; int current_angular_velocity_y = intValues[40]; int current_angular_velocity_z = intValues[41]; if (current_sequence < baseline_sequence) { current_sequence += 65536; } int numFrames = current_sequence - baseline_sequence; int predicted_position_x; int predicted_position_y; int predicted_position_z; int predicted_linear_velocity_x; int predicted_linear_velocity_y; int predicted_linear_velocity_z; int predicted_angular_velocity_x; int predicted_angular_velocity_y; int predicted_angular_velocity_z; PredictBallistic(numFrames, baseline_position_x, baseline_position_y, baseline_position_z, baseline_linear_velocity_x, baseline_linear_velocity_y, baseline_linear_velocity_z, baseline_angular_velocity_x, baseline_angular_velocity_y, baseline_angular_velocity_z, out predicted_position_x, out predicted_position_y, out predicted_position_z, out predicted_linear_velocity_x, out predicted_linear_velocity_y, out predicted_linear_velocity_z, out predicted_angular_velocity_x, out predicted_angular_velocity_y, out predicted_angular_velocity_z); int position_error_x = predicted_position_x - current_position_x; int position_error_y = predicted_position_y - current_position_y; int position_error_z = predicted_position_z - current_position_z; int linear_velocity_error_x = predicted_linear_velocity_x - current_linear_velocity_x; int linear_velocity_error_y = predicted_linear_velocity_y - current_linear_velocity_y; int linear_velocity_error_z = predicted_linear_velocity_z - current_linear_velocity_z; int angular_velocity_error_x = predicted_angular_velocity_x - current_angular_velocity_x; int angular_velocity_error_y = predicted_angular_velocity_y - current_angular_velocity_y; int angular_velocity_error_z = predicted_angular_velocity_z - current_angular_velocity_z; file.WriteLine(numFrames + "," + position_error_x + "," + position_error_y + "," + position_error_z + "," + linear_velocity_error_x + "," + linear_velocity_error_y + "," + linear_velocity_error_z + "," + angular_velocity_error_x + "," + angular_velocity_error_y + "," + angular_velocity_error_z); } } Debug.Log("Updated " + prediction_filename); }
public void AppendOneSeqToFile(GeneSeq seq) { System.IO.StreamWriter writeFile = new System.IO.StreamWriter("Strategy_Pool/strategy", append: true); writeFile.WriteLine(seq.Serialize()); writeFile.Close(); }
static void Main(string[] args) { Debug.Assert(CCopasiRootContainer.getRoot() != null); // create a new datamodel CCopasiDataModel dataModel = CCopasiRootContainer.addDatamodel(); Debug.Assert(CCopasiRootContainer.getDatamodelList().size() == 1); // first we load a simple model try { // load the model dataModel.importSBMLFromString(MODEL_STRING); } catch { System.Console.Error.WriteLine("Error while importing the model."); System.Environment.Exit(1); } // now we need to run some time course simulation to get data to fit // against // get the trajectory task object CTrajectoryTask trajectoryTask = (CTrajectoryTask)dataModel.getTask("Time-Course"); // run a deterministic time course trajectoryTask.setMethodType(CTaskEnum.deterministic); // pass a pointer of the model to the problem trajectoryTask.getProblem().setModel(dataModel.getModel()); // activate the task so that it will be run when the model is saved // and passed to CopasiSE trajectoryTask.setScheduled(true); // get the problem for the task to set some parameters CTrajectoryProblem problem = (CTrajectoryProblem)trajectoryTask.getProblem(); // simulate 4000 steps problem.setStepNumber(4000); // start at time 0 dataModel.getModel().setInitialTime(0.0); // simulate a duration of 400 time units problem.setDuration(400); // tell the problem to actually generate time series data problem.setTimeSeriesRequested(true); // set some parameters for the LSODA method through the method // Currently we don't use the method to set anything //CTrajectoryMethod method = (CTrajectoryMethod)trajectoryTask.getMethod(); bool result = true; try { // now we run the actual trajectory result = trajectoryTask.processWithOutputFlags(true, (int)CCopasiTask.ONLY_TIME_SERIES); } catch { System.Console.Error.WriteLine("Error. Running the time course simulation failed."); String lastErrors = trajectoryTask.getProcessError(); // check if there are additional error messages if (!string.IsNullOrEmpty(lastErrors)) { // print the messages in chronological order System.Console.Error.WriteLine(lastErrors); } System.Environment.Exit(1); } if (result == false) { System.Console.Error.WriteLine("An error occured while running the time course simulation."); String lastErrors = trajectoryTask.getProcessError(); // check if there are additional error messages if (!string.IsNullOrEmpty(lastErrors)) { // print the messages in chronological order System.Console.Error.WriteLine(lastErrors); } System.Environment.Exit(1); } // we write the data to a file and add some noise to it // This is necessary since COPASI can only read experimental data from // file. CTimeSeries timeSeries = trajectoryTask.getTimeSeries(); // we simulated 100 steps, including the initial state, this should be // 101 step in the timeseries Debug.Assert(timeSeries.getRecordedSteps() == 4001); uint i; uint iMax = (uint)timeSeries.getNumVariables(); // there should be four variables, the three metabolites and time Debug.Assert(iMax == 5); uint lastIndex = (uint)timeSeries.getRecordedSteps() - 1; // open the file // we need to remember in which order the variables are written to file // since we need to specify this later in the parameter fitting task List <uint> indexSet = new List <uint>(); List <CMetab> metabVector = new List <CMetab>(); // write the header // the first variable in a time series is a always time, for the rest // of the variables, we use the SBML id in the header double random = 0.0; System.Random rand_gen = new System.Random(); try { System.IO.StreamWriter os = new System.IO.StreamWriter("fakedata_example6.txt"); os.Write("# time "); CKeyFactory keyFactory = CCopasiRootContainer.getKeyFactory(); Debug.Assert(keyFactory != null); for (i = 1; i < iMax; ++i) { string key = timeSeries.getKey(i); CCopasiObject obj = keyFactory.get(key); Debug.Assert(obj != null); // only write header data or metabolites System.Type type = obj.GetType(); if (type.FullName.Equals("org.COPASI.CMetab")) { os.Write(", "); os.Write(timeSeries.getSBMLId(i, dataModel)); CMetab m = (CMetab)obj; indexSet.Add(i); metabVector.Add(m); } } os.Write("\n"); double data = 0.0; for (i = 0; i < lastIndex; ++i) { uint j; string s = ""; for (j = 0; j < iMax; ++j) { // we only want to write the data for metabolites // the compartment does not interest us here if (j == 0 || indexSet.Contains(j)) { // write the data with some noise (+-5% max) random = rand_gen.NextDouble(); data = timeSeries.getConcentrationData(i, j); // don't add noise to the time if (j != 0) { data += data * (random * 0.1 - 0.05); } s = s + (System.Convert.ToString(data)); s = s + ", "; } } // remove the last two characters again os.Write(s.Substring(0, s.Length - 2)); os.Write("\n"); } os.Close(); } catch (System.ApplicationException e) { System.Console.Error.WriteLine("Error. Could not write time course data to file."); System.Console.WriteLine(e.Message); System.Environment.Exit(1); } // now we change the parameter values to see if the parameter fitting // can really find the original values random = rand_gen.NextDouble() * 10; CReaction reaction = dataModel.getModel().getReaction(0); // we know that it is an irreversible mass action, so there is one // parameter Debug.Assert(reaction.getParameters().size() == 1); Debug.Assert(reaction.isLocalParameter(0)); // the parameter of a irreversible mass action is called k1 reaction.setParameterValue("k1", random); reaction = dataModel.getModel().getReaction(1); // we know that it is an irreversible mass action, so there is one // parameter Debug.Assert(reaction.getParameters().size() == 1); Debug.Assert(reaction.isLocalParameter(0)); reaction.setParameterValue("k1", random); CFitTask fitTask = (CFitTask)dataModel.addTask(CTaskEnum.parameterFitting); Debug.Assert(fitTask != null); // the method in a fit task is an instance of COptMethod or a subclass of // it. COptMethod fitMethod = (COptMethod)fitTask.getMethod(); Debug.Assert(fitMethod != null); // the object must be an instance of COptMethod or a subclass thereof // (CFitMethod) CFitProblem fitProblem = (CFitProblem)fitTask.getProblem(); Debug.Assert(fitProblem != null); CExperimentSet experimentSet = (CExperimentSet)fitProblem.getParameter("Experiment Set"); Debug.Assert(experimentSet != null); // first experiment (we only have one here) CExperiment experiment = new CExperiment(dataModel); Debug.Assert(experiment != null); // tell COPASI where to find the data // reading data from string is not possible with the current C++ API experiment.setFileName("fakedata_example6.txt"); // we have to tell COPASI that the data for the experiment is a komma // separated list (the default is TAB separated) experiment.setSeparator(","); // the data start in row 1 and goes to row 4001 experiment.setFirstRow(1); Debug.Assert(experiment.getFirstRow() == 1); experiment.setLastRow(4001); Debug.Assert(experiment.getLastRow() == 4001); experiment.setHeaderRow(1); Debug.Assert(experiment.getHeaderRow() == 1); experiment.setExperimentType(CTaskEnum.timeCourse); Debug.Assert(experiment.getExperimentType() == CTaskEnum.timeCourse); experiment.setNumColumns(4); Debug.Assert(experiment.getNumColumns() == 4); CExperimentObjectMap objectMap = experiment.getObjectMap(); Debug.Assert(objectMap != null); result = objectMap.setNumCols(4); Debug.Assert(result == true); result = objectMap.setRole(0, CExperiment.time); Debug.Assert(result == true); Debug.Assert(objectMap.getRole(0) == CExperiment.time); CModel model = dataModel.getModel(); Debug.Assert(model != null); CCopasiObject timeReference = model.getValueReference(); Debug.Assert(timeReference != null); objectMap.setObjectCN(0, timeReference.getCN().getString()); // now we tell COPASI which column contain the concentrations of // metabolites and belong to dependent variables objectMap.setRole(1, CExperiment.dependent); CMetab metab = metabVector[0]; Debug.Assert(metab != null); CCopasiObject particleReference = metab.getConcentrationReference(); Debug.Assert(particleReference != null); objectMap.setObjectCN(1, particleReference.getCN().getString()); objectMap.setRole(2, CExperiment.dependent); metab = metabVector[1]; Debug.Assert(metab != null); particleReference = metab.getConcentrationReference(); Debug.Assert(particleReference != null); objectMap.setObjectCN(2, particleReference.getCN().getString()); objectMap.setRole(3, CExperiment.dependent); metab = metabVector[2]; Debug.Assert(metab != null); particleReference = metab.getConcentrationReference(); Debug.Assert(particleReference != null); objectMap.setObjectCN(3, particleReference.getCN().getString()); experimentSet.addExperiment(experiment); Debug.Assert(experimentSet.getExperimentCount() == 1); // addExperiment makes a copy, so we need to get the added experiment // again experiment = experimentSet.getExperiment(0); Debug.Assert(experiment != null); // now we have to define the two fit items for the two local parameters // of the two reactions reaction = model.getReaction(0); Debug.Assert(reaction != null); Debug.Assert(reaction.isLocalParameter(0) == true); CCopasiParameter parameter = reaction.getParameters().getParameter(0); Debug.Assert(parameter != null); // define a CFitItem CCopasiObject parameterReference = parameter.getValueReference(); Debug.Assert(parameterReference != null); CFitItem fitItem1 = new CFitItem(dataModel); Debug.Assert(fitItem1 != null); fitItem1.setObjectCN(parameterReference.getCN()); fitItem1.setStartValue(4.0); fitItem1.setLowerBound(new CCopasiObjectName("0.00001")); fitItem1.setUpperBound(new CCopasiObjectName("10")); // add the fit item to the correct parameter group CCopasiParameterGroup optimizationItemGroup = (CCopasiParameterGroup)fitProblem.getParameter("OptimizationItemList"); Debug.Assert(optimizationItemGroup != null); optimizationItemGroup.addParameter(fitItem1); reaction = model.getReaction(1); Debug.Assert(reaction != null); Debug.Assert(reaction.isLocalParameter(0) == true); parameter = reaction.getParameters().getParameter(0); Debug.Assert(parameter != null); // define a CFitItem parameterReference = parameter.getValueReference(); Debug.Assert(parameterReference != null); CFitItem fitItem2 = new CFitItem(dataModel); Debug.Assert(fitItem2 != null); fitItem2.setObjectCN(parameterReference.getCN()); fitItem2.setStartValue(4.0); fitItem2.setLowerBound(new CCopasiObjectName("0.00001")); fitItem2.setUpperBound(new CCopasiObjectName("10")); // add the fit item to the correct parameter group optimizationItemGroup.addParameter(fitItem2); result = true; try { // running the task for this example will probably take some time System.Console.WriteLine("This can take some time..."); result = fitTask.processWithOutputFlags(true, (int)CCopasiTask.ONLY_TIME_SERIES); } catch { System.Console.Error.WriteLine("Error. Parameter fitting failed."); String lastErrors = fitTask.getProcessError(); // check if there are additional error messages if (!string.IsNullOrEmpty(lastErrors)) { // print the messages in chronological order System.Console.Error.WriteLine(lastErrors); } System.Environment.Exit(1); } Debug.Assert(result == true); // assert that there are two optimization items Debug.Assert(fitProblem.getOptItemList().Count == 2); // the order should be the order in whih we added the items above COptItem optItem1 = fitProblem.getOptItemList()[0]; COptItem optItem2 = fitProblem.getOptItemList()[1]; // the actual results are stored in the fit problem Debug.Assert(fitProblem.getSolutionVariables().size() == 2); System.Console.WriteLine("value for " + optItem1.getObject().getCN().getString() + ": " + fitProblem.getSolutionVariables().get(0)); System.Console.WriteLine("value for " + optItem2.getObject().getCN().getString() + ": " + fitProblem.getSolutionVariables().get(1)); // depending on the noise, the fit can be quite bad, so we are a litle // relaxed here (we should be within 3% of the original values) Debug.Assert((System.Math.Abs(fitProblem.getSolutionVariables().get(0) - 0.03) / 0.03) < 3e-2); Debug.Assert((System.Math.Abs(fitProblem.getSolutionVariables().get(1) - 0.004) / 0.004) < 3e-2); }
public static void Writelogstream(string _str) { System.IO.StreamWriter _sw = new System.IO.StreamWriter(System.Windows.Forms.Application.StartupPath + @"\Reminder.log", true); _sw.WriteLine(_str); _sw.Close(); }
//بدنه مربوط به ذخیره فایل و یا صفحه #region SavePages_btnSave_Click(object sender, EventArgs e) /// <summary> /// متد ذخیره فایل صفحه توسط ادمین /// </summary> /// <param name="sender"></param> /// <param name="e"></param> protected void btnSave_Click(object sender, EventArgs e) { //تریم کردن تکست باکس txtFileName.Text = txtFileName.Text.Trim(); //اگر تکست باکس خالی بود if (txtFileName.Text == string.Empty) { //نمایش پیغام خطا string strErrorMessage = string.Format(Resources.Messages.ErrorMessage003); DisplayErrorMessage(strErrorMessage); return; } //در غیر اینصورت مراحل مسیر نسبی و تبدیل به مسیر فیزیکی string strFileName = txtFileName.Text; string strRootRelativePath = "~/App_Data/PageContents"; string strRootRelativePathName = string.Format("{0}/{1}", strRootRelativePath, strFileName); string strPathName = Server.MapPath(strRootRelativePathName); //ایجاد یک شی از کلاس استریم رایتر System.IO.StreamWriter oStreamWriter = null; try { //نیو کردن استریم رایتر oStreamWriter = new System.IO.StreamWriter (strPathName, false, System.Text.Encoding.UTF8); oStreamWriter.Write(txtEditContent.Text); //اگر فایل وجود نداشت if (System.IO.File.Exists(strPathName) == false) { //نمایش پیغام خطا string strErrorMessage = string.Format(Resources.Messages.ErrorMessage004, txtFileName.Text); DisplayErrorMessage(strErrorMessage); return; } //در غیر اینصورت نمایش پیغام موفقیت در عملیات string strInformationMessage = string.Format(Resources.Messages.InformationMessage002, txtFileName.Text); DisplayInformationMessage(strInformationMessage); //تکست باکس فایل نیم را نمایان میکنیم txtFileName.Visible = true; //لینک گذر از این مرحله را فعال میکنیم lnbCancel.Visible = true; //دراب دان لیست فایل نیم را غیر فعال میکنیم DropDownList1.Enabled = false; } //در صورتی که عملیات ترای با خطا مواجه گردد catch (Exception ex) { //نمایش خطای ایجاد شده string strErrorMessage = Resources.Messages.ErrorMessage006; DisplayErrorMessage(strErrorMessage); System.Collections.Hashtable oHashtable = new System.Collections.Hashtable(); //اگر در داخل یک تابع غیر استاتیک این تابع رو صدا میزنیم از دیس تا گت تایپ استفاده میکنیم //در غیر اینصورت از این روش استفاده میکنیم یعنی تایپ اف نام کلاس //پارامتر دوم مجموعه ای از اطلاعاتی که میتونه کمک کنه رو هم لاگ میکنیم //پارامتر سوم هم که ای ایکس هست رو لاگ میکنیم return; } finally { //بستن استریم رایتر if (oStreamWriter != null) { oStreamWriter.Dispose(); oStreamWriter = null; } } }
void calcScores() { float goals = 0; float touches = 0; float scoresum = 0; for (int i = 0; i < populationSize / 2; i++) { BallScorer bs = population[i].transform.GetChild(0).GetComponent <BallScorer>(); goals += bs.t1Goals + bs.t2Goals; touches += bs.t1Touches + bs.t2Touches; scoresum += 2f * bs.t1Goals + 0.5f * bs.t1Touches - 0.01f * (bs.mint1p1 + bs.mint1p2 + bs.mint1p3) + 2f * bs.t2Goals + 0.5f * bs.t2Touches - 0.01f * (bs.mint2p1 + bs.mint2p2 + bs.mint2p3); if (2 * bs.t1Goals + 0.5 * bs.t1Touches - 0.01 * (bs.mint1p1 + bs.mint1p2 + bs.mint1p3) >= 2 * bs.t2Goals + 0.5 * bs.t2Touches - 0.01 * (bs.mint2p1 + bs.mint2p2 + bs.mint2p3)) { winners[i] = 0; } else { winners[i] = 1; } if (i == 0) { //Debug.Log((bs.mint1p1 + bs.mint1p2 + bs.mint1p3).ToString() + " : " + (bs.mint2p1 + bs.mint2p2 + bs.mint2p3).ToString()); //Debug.Log((0.01 * (bs.mint1p1 + bs.mint1p2 + bs.mint1p3)).ToString()); Debug.Log("P1: " + (2 * bs.t1Goals + 0.5 * bs.t1Touches - 0.01 * (bs.mint1p1 + bs.mint1p2 + bs.mint1p3)).ToString()); } } goals /= populationSize; touches /= populationSize; scoresum /= populationSize; string str = generationNum.ToString() + " : " + goals.ToString() + " : " + touches.ToString() + " : " + scoresum.ToString(); Debug.Log(generationNum.ToString() + " : " + goals.ToString() + " : " + touches.ToString() + " : " + scoresum.ToString()); System.IO.StreamWriter file = new System.IO.StreamWriter("Assets/Data/" + "teamTrain.txt", append: true); file.WriteLine(str); file.Close(); //for (int i = 0; i < populationSize / 2; i++) //{ // BallScorer bs = population[i].transform.GetChild(0).GetComponent<BallScorer>(); // if (bs.mint1p1 + bs.mint1p2 + bs.mint1p3 <= bs.mint2p1 + bs.mint2p2 + bs.mint2p3) // { // winners[i] = 0; // } // else // { // winners[i] = 1; // } // if(i==0) // { // Debug.Log((bs.mint1p1 + bs.mint1p2 + bs.mint1p3).ToString() + " : " + (bs.mint2p1 + bs.mint2p2 + bs.mint2p3).ToString()); // } //} }
private void ProcessFrame(VideoFrame frame) { if (HasTextureConflict(frame)) { if (texture != null) { Destroy(texture); } using (var p = frame.Profile) { bool linear = (QualitySettings.activeColorSpace != ColorSpace.Linear) || (p.Stream != Stream.Color && p.Stream != Stream.Infrared); texture = new Texture2D(frame.Width, frame.Height, Convert(p.Format), false, linear) { wrapMode = TextureWrapMode.Clamp, filterMode = filterMode }; } textureBinding.Invoke(texture); } texture.LoadRawTextureData(frame.Data, frame.Stride * frame.Height); if (useFilter) { var colors = texture.GetPixels(); Color[,] rawImage2D = new Color[texture.height, texture.width]; for (int i = 0; i < colors.Length; i++) { int row = (int)Math.Floor(i / (float)texture.width); int col = i - (row * texture.width); rawImage2D[row, col] = colors[i]; } Color[,] aArray = new Color[texture.height, texture.width]; for (int i = 0; i < colors.Length; i++) { int row = (int)Math.Floor(i / (float)texture.width); int col = i - (row * texture.width); aArray[row, col] = colors[i]; } Color[] filteredColors = new Color[colors.Length]; int index = 0; //print 2d color array only once for (int i = 0; i < texture.height; i++) { for (int j = 0; j < texture.width; j++) { if ((rawImage2D[i, j].r >= redMin) && (rawImage2D[i, j].g >= greenMin) && (rawImage2D[i, j].b >= blueMin) && (rawImage2D[i, j].r <= redMax) && (rawImage2D[i, j].g <= greenMax) && (rawImage2D[i, j].b <= blueMax)) ////if ((rawImage2D[i, j].r > redMin) && (rawImage2D[i, j].r < redMax)) ////{ //if (rawImage2D[i,j].r >= redMin) { filteredColors[index] = rawImage2D[i, j]; aArray[i, j] = rawImage2D[i, j]; } else { filteredColors[index] = new Color(0, 0, 0); aArray[i, j] = new Color(0, 0, 0); } index++; } } if (once == true) { //System.IO.File.WriteAllLines("WriteLines.txt", //rawImage2D.Select(ri => (double.Parse(ri.Text)).ToString())); //System.IO.File.WriteAllLines(@"C:\Users\Public\TestFolder\WriteLines.txt", ); System.IO.StreamWriter streamWriter = new System.IO.StreamWriter("bird.txt"); string output = ""; for (int g = 0; g < texture.height; g++) { for (int j = 0; j < texture.width; j++) { output += aArray[g, j].ToString(); } streamWriter.WriteLine(output); output = ""; } streamWriter.Close(); once = false; /* * * int k = 0; * System.IO.StreamWriter streamWriter = new System.IO.StreamWriter("bird.txt"); * string output = ""; * for (int g = 0; g < filteredColors.GetUpperBound(0); g++) * { * * //for (int j = 0; j < aArray.GetUpperBound(1); j++) * //{ * output += filteredColors[g].ToString(); * //} * streamWriter.Write(output); * output = ""; * * if (k >= 640) * { * streamWriter.WriteLine(""); * } * k++; * * } * streamWriter.Close(); * * * once = false; */ } texture.SetPixels(filteredColors); int [,] a = new int[585, 700]; for (int w = 1; w < 480; w++) { for (int q = 1; q < 640; q++) { if ((aArray[w, q].g >= greenMin) && (aArray[w, q].b >= blueMin) && (aArray[w, q].g <= greenMax) && (aArray[w, q].b <= blueMax)) { if ((aArray[w - 1, q].g >= greenMin) && (aArray[w - 1, q].b <= blueMin) && (aArray[w - 1, q].g >= greenMax) && (aArray[w - 1, q].b >= blueMax)) { aArray[w - 1, q] = new Color(1, 0, 0); } } } } } texture.Apply(); }
public void guardarPartida() { string json = JsonUtility.ToJson(this); System.IO.StreamWriter file = new System.IO.StreamWriter(ruta); }
// The run method void run() { foreach (Transform child in panel.transform) // for each block on the main panel { print("Block Name: " + child); // prints the block name switch (child.name) // switch is used instead of a bunch of if-else statments { case "PlaceHolder": // placeHolder is an invisible block added to make the blocks lineup work break; case "Speak": addSpeak(child.GetComponent <Speak>().getText()); print("Speak: " + child.GetComponent <Speak>().getText()); break; case "MoveForward": //TO DO: For abstraction, get numbers from MoveForward object float dist = 0; float sped = 0; float.TryParse(child.Find("DistanceInput").GetComponent <InputField>().text, out dist); float.TryParse(child.Find("SpeedInput").GetComponent <InputField>().text, out sped); addMoveForward(child.GetComponent <MoveForward>().getDistance(), child.GetComponent <MoveForward>().getSpeed()); print("MoveForward: " + child.GetComponent <MoveForward>().getDistance() + ":" + child.GetComponent <MoveForward>().getSpeed()); break; case "liftUp": addLiftUp(); print("LiftUp"); break; case "liftDown": addLiftDown(); print("LiftDown"); break; case "TurnInPlace": // TO DO: For abstraction, get degrees from Turn in place object float degrees = 0; float.TryParse(child.Find("DegreesInput").GetComponent <InputField>().text, out degrees); addTurn(degrees); print("turn in place:" + degrees); break; default: break; } }//foreach Command[] runCommands = new Command[commands.Count]; // creates array the size of the commands list runCommands = commands.Cast <Command>().ToArray(); //adds all of the commands from the list into an array // Starts the command promp Process cmd = new Process(); cmd.StartInfo.FileName = "cmd.exe"; cmd.StartInfo.RedirectStandardInput = true; cmd.StartInfo.RedirectStandardOutput = false; cmd.StartInfo.CreateNoWindow = true; cmd.StartInfo.UseShellExecute = false; cmd.Start(); // stream writer writes to the command prompt System.IO.StreamWriter myStream = new System.IO.StreamWriter(cmd.StandardInput.BaseStream, Encoding.ASCII); myStream.WriteLine("py"); // py starts python3 // imports for cozmo myStream.WriteLine("import time"); myStream.WriteLine("import cozmo"); myStream.WriteLine("import asyncio"); myStream.WriteLine("from cozmo.util import degrees, distance_mm, speed_mmps"); //starts cozmo function myStream.WriteLine("def cozmo_program(robot: cozmo.robot.Robot):"); String rnCmd = ""; for (int i = 0; i < runCommands.Length; i++) //loops through all commands { rnCmd = runCommands[i].getType(); // gets command type i.e "speak", "moveforward", ect switch (rnCmd) // for each block, the command object gets output which is the python code to run the command { // numIndents is the number of tabs the python uses instad of {} case "speak": myStream.WriteLine(runCommands[i].getOutput(numIndents)); UnityEngine.Debug.Log(runCommands[i].getOutput(numIndents)); // prints out command to debug log break; case "forward": myStream.WriteLine(runCommands[i].getOutput(numIndents)); UnityEngine.Debug.Log(runCommands[i].getOutput(numIndents)); break; case "turn": myStream.WriteLine(runCommands[i].getOutput(numIndents)); UnityEngine.Debug.Log(runCommands[i].getOutput(numIndents)); break; case "setLiftHeight": myStream.WriteLine(runCommands[i].getOutput(numIndents)); UnityEngine.Debug.Log(runCommands[i].getOutput(numIndents)); break; default: break; }//switch myStream.WriteLine(""); // blank string to get out of the function (one less indent) myStream.WriteLine("cozmo.run_program(cozmo_program)"); // runs cozmo function myStream.Close(); // closes streamn writer //closes command prompt cmd.StandardInput.Flush(); cmd.WaitForExit(); // obsolete code replaced by switch statment /*if (runCommands[i].getType() == "speak") * { * * myStream.WriteLine(runCommands[i].getOutput(numIndents)); * UnityEngine.Debug.Log(runCommands[i].getOutput(numIndents)); * * }//if * * else if (runCommands[i].getType() == "forward") * { * * myStream.WriteLine(runCommands[i].getOutput(numIndents)); * UnityEngine.Debug.Log(runCommands[i].getOutput(numIndents)); * * }//else if * else if (runCommands[i].getType() == "for") * { * * myStream.WriteLine(runCommands[i].getOutput(numIndents)); * UnityEngine.Debug.Log(runCommands[i].getOutput(numIndents)); * numIndents++; * * }//else if * else if (runCommands[i].getType() == "forEnd") * { * * myStream.WriteLine(runCommands[i].getOutput(numIndents)); * UnityEngine.Debug.Log(runCommands[i].getOutput(numIndents)); * numIndents--; * * * }//else if*/ }//for //commands.Clear(); }//run
/** Exports the INavmesh graph to a file */ public void ExportToFile(NavGraph target) { INavmesh graph = (INavmesh)target; if (graph == null) { return; } Int3[] vertices = graph.vertices; if (vertices == null || target.nodes == null) { if (EditorUtility.DisplayDialog("Scan graph before exporting?", "The graph does not contain any mesh data. Do you want to scan it?", "Ok", "Cancel")) { AstarPath.MenuScan(); } else { return; } } vertices = graph.vertices; if (vertices == null || target.nodes == null) { Debug.LogError("Graph still does not contain any nodes or vertices. Canceling"); return; } string path = EditorUtility.SaveFilePanel("Export .obj", "", "navmesh.obj", "obj"); if (path == "") { return; } //Generate .obj System.Text.StringBuilder sb = new System.Text.StringBuilder(); string name = System.IO.Path.GetFileNameWithoutExtension(path); sb.Append("g ").Append(name).AppendLine(); //Write vertices for (int i = 0; i < vertices.Length; i++) { Vector3 v = (Vector3)vertices[i]; sb.Append(string.Format("v {0} {1} {2}\n", -v.x, v.y, v.z)); } //Define single texture coordinate to zero sb.Append("vt 0\n"); //Write triangles for (int i = 0; i < target.nodes.Length; i++) { MeshNode node = target.nodes[i] as MeshNode; if (node == null) { Debug.LogError("Node could not be casted to MeshNode. Node was null or no MeshNode"); return; } sb.Append(string.Format("f {0}/0 {1}/0 {2}/0\n", node.v1 + 1, node.v2 + 1, node.v3 + 1)); } string obj = sb.ToString(); using (System.IO.StreamWriter sw = new System.IO.StreamWriter(path)) { sw.Write(obj); } }
// Schreibt Text in eine Datei (Append-Modus) static void WriteFileAppend(string sFilename, string sLines) { System.IO.StreamWriter myFile = new System.IO.StreamWriter(sFilename, true, System.Text.Encoding.UTF8); myFile.Write(sLines); myFile.Close(); }
void Start() { file = new System.IO.StreamWriter(System.Environment.GetFolderPath(System.Environment.SpecialFolder.Desktop) + "\\GameLog.txt", true); file.WriteLine(System.DateTime.Now.ToString("hh:mm:ss") + " level Loaded: " + Application.loadedLevelName); }
public static void Main() { /* * FPGA Read Write Process * - load bytes into local bytes array * - stream to FPGA using port.write() * - read in serial input buffer using ReadAvailable() */ // Variables for loading in the input byte stream string inputFileName = @"uart_input_bytes.txt"; string[] hexBytes = System.IO.File.ReadAllText(inputFileName).Split('\n'); Byte[] fpgaStream = new Byte [hexBytes.Length]; int i = 0; //Variables for the serial port reading/writing string fpgaBytesRead; string portName = "COM4"; int baudRate = 6000000; int dataBits = 8; int readInterval = 1; var stopBit = System.IO.Ports.StopBits.One; var parity = System.IO.Ports.Parity.None; SerialPort fpgaComPort = new SerialPort(portName, baudRate, parity, dataBits, stopBit); // fpgaComPort.Handshake = System.IO.Ports.Handshake.RequestToSend; // Helper Variables for serial r/w byte counting int numOutputsExpected = 518 * 518 * 2; int numOutputsRecieved = 0; int bytesRemaining = 0; string outputFileName = @"fpgaOut.txt"; System.IO.StreamWriter outputFile = new System.IO.StreamWriter(outputFileName); System.IO.StreamWriter testFile = new System.IO.StreamWriter("test.txt"); /* Load all FPGA Input Bytes into a Byte[] struct */ int numFPGAStreamElements = 0; for (i = 0; i < hexBytes.Length; i++) { try { Byte hexValue = Convert.ToByte(hexBytes[i]); fpgaStream[i] = hexValue; } catch (Exception) { Console.WriteLine("Conversion Failed!"); } numFPGAStreamElements++; } Console.WriteLine("Loaded Input Bytes!"); /* Send/Recieve Bytes from FPGA COM Ports */ fpgaComPort.Open(); // fpgaComPort.Write("\n"); // Clean up the input/output buffers fpgaComPort.DiscardInBuffer(); fpgaComPort.DiscardOutBuffer(); fpgaComPort.BaseStream.Flush(); Stopwatch timer = new Stopwatch(); timer.Start(); foreach (Byte outputByte in fpgaStream) { Byte[] writeByte = new byte [1]; Byte [] outputFileByte = new byte [1]; string hexStr; writeByte[0] = outputByte; fpgaComPort.Write(writeByte, 0, 1); /* Allow 1ms to let Serial Input buffer fill with data */ //System.Threading.Thread.Sleep(readInterval); Byte[] bufData = new byte [fpgaComPort.BytesToRead]; fpgaComPort.Read(bufData, 0, bufData.Length); Console.WriteLine("Number of Bytes Recieved: {0}", bufData.Length); for (int j = 0; j < bufData.Length; j++) { outputFileByte[0] = bufData[j]; hexStr = BitConverter.ToString(outputFileByte).Replace("-", string.Empty); outputFile.WriteLine(hexStr); } numOutputsRecieved += bufData.Length; Console.WriteLine("Total FPGA Outputs Recieved = {0}", numOutputsRecieved); } /* Read the leftover FPGA Data */ bytesRemaining = numOutputsExpected - numOutputsRecieved; for (int p = 0; p < bytesRemaining; p++) { //System.Threading.Thread.Sleep(readInterval); Byte[] bufData = new byte [fpgaComPort.BytesToRead]; Byte[] thing = new byte[1]; string hexStr; fpgaComPort.Read(bufData, 0, bufData.Length); Console.WriteLine("Number of Bytes Recieved: {0}", bufData.Length); for (int s = 0; s < bufData.Length; s++) { thing[0] = bufData[s]; hexStr = BitConverter.ToString(thing).Replace("-", string.Empty); outputFile.WriteLine(hexStr); } numOutputsRecieved += bufData.Length; Console.WriteLine("Total FPGA Outputs Recieved = {0}", numOutputsRecieved); } fpgaComPort.Close(); timer.Stop(); Console.WriteLine("Execution Time: {0} ms", timer.ElapsedMilliseconds); return; }
static int Main() { //testing the Jacobi dia.. WriteLine("Part A:"); WriteLine("i) Test of Jacobi diagonalization with cyclic sweeps:"); WriteLine("In the file test.txt the implementation is tested for a random sysmetic matrix."); var test = new System.IO.StreamWriter("test.txt"); int nm = 4; //matrix size matrix A1 = randmatrix_sym(nm, nm); //random matrix jac_dia ja = new jac_dia(A1); //diagonalization matrix A = ja.A; matrix D = new matrix(A.size1, A.size2); vector e = ja.e; for (int n = 0; n < A.size1; n++) { D[n, n] = e[n]; } matrix V = ja.V; matrix vdvt = V * D * V.T; matrix vtav = V.T * A1 * V; test.WriteLine("Test ofJacobi diagonalization with cyclic sweeps."); test.WriteLine($""); test.WriteLine("Random symmetric matrix A:"); for (int n1 = 0; n1 < A.size1; n1++) { for (int n2 = 0; n2 < A.size1; n2++) { test.Write($"{A1[n1,n2]} "); } test.Write("\n \n"); } test.WriteLine("Reduced matrix A:"); for (int n1 = 0; n1 < A.size1; n1++) { for (int n2 = 0; n2 < A.size1; n2++) { test.Write($"{A[n1,n2]} "); } test.Write("\n \n"); } test.WriteLine("the Diagonal matrix with the corresponding eigenvaluesmatrix D:"); for (int n1 = 0; n1 < A.size1; n1++) { for (int n2 = 0; n2 < A.size1; n2++) { test.Write($"{D[n1,n2]} "); } test.Write("\n \n"); } test.WriteLine("The orthogonal matrix of eigenvectorsmatrix V:"); for (int n1 = 0; n1 < A.size1; n1++) { for (int n2 = 0; n2 < A.size1; n2++) { test.Write($"{V[n1,n2]} "); } test.Write("\n \n"); } test.WriteLine("Test VDVT=A... VDVT is given as:"); for (int n1 = 0; n1 < A.size1; n1++) { for (int n2 = 0; n2 < A.size1; n2++) { test.Write($"{vdvt[n1,n2]} "); } test.Write("\n \n"); } test.WriteLine("Test VTAV=D... VTAV is given as:"); for (int n1 = 0; n1 < A.size1; n1++) { for (int n2 = 0; n2 < A.size1; n2++) { test.Write($"{vtav[n1,n2]} "); } test.Write("\n"); } test.Close(); //particle in box: //build H int nh = 50; double s = 1.0 / (nh + 1); matrix H = new matrix(nh, nh); for (int i = 0; i < nh - 1; i++) { matrix.set(H, i, i, -2); matrix.set(H, i, i + 1, 1); matrix.set(H, i + 1, i, 1); } //end for matrix.set(H, nh - 1, nh - 1, -2); matrix.scale(H, -1 / s / s); //diagonalize H jac_dia jah = new jac_dia(H); //matrix H_dia=jah.A; vector eh = jah.e; matrix Vh = jah.V; WriteLine("ii) Particle in a box."); WriteLine("The following is a comparison between the first 5 the caculated and exact energies:"); WriteLine("Number: Calculated: Exact:"); //check energies for (int n1 = 0; n1 < 5; n1++) { double exact = Pow(PI * (n1 + 1), 2); WriteLine($"{n1} {eh[n1]} {exact}"); } //end for WriteLine(""); WriteLine("In plotA.svg the 5 lowest eigenfunctions are plotted. The result have same form as the analytic result."); var data = new System.IO.StreamWriter("data.txt"); for (int k = 0; k < (5 + 1); k++) { data.Write($"{0} "); } //end for data.Write("\n"); for (int j = 0; j < nh; j++) { data.Write($"{(j+1.0)/(nh+1)} "); for (int k = 0; k < 5; k++) { data.Write($"{matrix.get(Vh,j,k)} "); } //end for data.Write("\n"); } // end for data.Write($"{1} "); for (int k = 0; k < (5); k++) { data.Write($"{0} "); } //end for data.Close(); return(0); }
static void Main(string[] args) { string corpus_path = ""; string dict_path = ""; string data_folder = ""; for (int iarg = 0; iarg < args.Length; ++iarg) { string cmd = args[iarg].Substring(1); if (cmd == "corpus") { corpus_path = args[iarg + 1]; iarg++; } else if (cmd == "dict") { dict_path = args[iarg + 1]; iarg++; } else if (cmd == "workdir") { data_folder = args[iarg + 1]; iarg++; } else if (cmd == "window") { window = int.Parse(args[iarg + 1]); iarg++; } else if (cmd == "emit_shingles") { emit_shingles = bool.Parse(args[iarg + 1]); iarg++; } else if (cmd == "emit_morphtags") { emit_morphtags = bool.Parse(args[iarg + 1]); iarg++; } else { throw new ApplicationException($"Unknown option [{args[iarg]}]"); } } string train_path = System.IO.Path.Combine(data_folder, "chunker_train.dat"); string test_path = System.IO.Path.Combine(data_folder, "chunker_test.dat"); string test_result_path = System.IO.Path.Combine(data_folder, "chunker_eval.txt"); Console.WriteLine("Loading dictionary from {0}...", dict_path); SolarixGrammarEngineNET.GrammarEngine2 gren; gren = new SolarixGrammarEngineNET.GrammarEngine2(); gren.Load(dict_path, true); int counter = 0; int MAX_COUNT = 10000000; string[] bin_corpora = System.IO.Directory.GetFiles(System.IO.Path.GetDirectoryName(corpus_path), System.IO.Path.GetFileName(corpus_path)); System.IO.StreamWriter wrt_train = new System.IO.StreamWriter(train_path); System.IO.StreamWriter wrt_test = new System.IO.StreamWriter(test_path); foreach (string path1 in bin_corpora) { Console.WriteLine("Reading corpus {0}...", path1); IntPtr hCorpus = SolarixGrammarEngineNET.GrammarEngine.sol_OpenCorpusStorage8(gren.GetEngineHandle(), path1, false); if (hCorpus == IntPtr.Zero) { throw new ApplicationException(string.Format("Can not open corpus {0}", path1)); } while (true) { IntPtr hSample1 = SolarixGrammarEngineNET.GrammarEngine.sol_LoadSyntaxTree(gren.GetEngineHandle(), hCorpus); if (hSample1 == IntPtr.Zero) { break; } IntPtr hSample2 = SolarixGrammarEngineNET.GrammarEngine.sol_LoadSyntaxTree(gren.GetEngineHandle(), hCorpus); IntPtr hSample3 = SolarixGrammarEngineNET.GrammarEngine.sol_LoadSyntaxTree(gren.GetEngineHandle(), hCorpus); if (counter >= MAX_COUNT) { break; } string sample = SolarixGrammarEngineNET.GrammarEngine.sol_GetSentenceW(hSample1); var morphology = new SolarixGrammarEngineNET.AnalysisResults(gren, SolarixGrammarEngineNET.GrammarEngine.sol_GetTreeHandle(hSample1), false); var tokenization = new SolarixGrammarEngineNET.AnalysisResults(gren, SolarixGrammarEngineNET.GrammarEngine.sol_GetTreeHandle(hSample2), false); var syntax_tree = new SolarixGrammarEngineNET.AnalysisResults(gren, SolarixGrammarEngineNET.GrammarEngine.sol_GetTreeHandle(hSample3), false); counter++; Console.WriteLine("0.{1}: {0}", sample, counter); bool test_sample = false, train_sample = true; if ((counter % 10) == 0) { test_sample = true; train_sample = false; } if (syntax_tree.Count == 3) { System.IO.StreamWriter wrt = train_sample ? wrt_train : wrt_test; // Получаем список слов с прикрепленными к ним номерами чанков. Dictionary <int /*word_index*/, int /*chunk_index*/> labels = new Dictionary <int, int>(); FindChunks(syntax_tree, labels); // Вставим специальный чанк для фиктивного слова слева от первого, чтобы первое слово // автоматом пометилось как начало чанка. labels[-1] = -1; for (int i = 1; i < morphology.Count - 1; ++i) { int label = 0; int word_index = i - 1; // Если слово начинает новый чанк, то есть слева было слово из другого чанка, // то метка будет 1. try { if (labels[word_index - 1] != labels[word_index]) { label = 1; } } catch (KeyNotFoundException ex) { Console.WriteLine("Missing word {0} in syntax tree for sample {1}", morphology[i].GetWord(), sample); } string features = GetFeatures(gren, morphology, i); wrt.WriteLine("{0}\t{1}", label, features); } wrt.WriteLine(""); wrt.Flush(); } SolarixGrammarEngineNET.GrammarEngine.sol_FreeSyntaxTree(hSample1); SolarixGrammarEngineNET.GrammarEngine.sol_FreeSyntaxTree(hSample2); SolarixGrammarEngineNET.GrammarEngine.sol_FreeSyntaxTree(hSample3); } SolarixGrammarEngineNET.GrammarEngine.sol_CloseCorpusStorage(gren.GetEngineHandle(), hCorpus); } wrt_train.Close(); wrt_test.Close(); // Сохраним информацию о кодировке фич, чтобы потом в C++ коде формировать данные для разбора. string codebook_path = System.IO.Path.Combine(data_folder, "chunker.codebook"); Console.WriteLine("Writing feature codebook to {0}", codebook_path); if (System.IO.File.Exists(codebook_path)) { System.IO.File.Delete(codebook_path); } using (System.IO.BinaryWriter wr = new System.IO.BinaryWriter(System.IO.File.OpenWrite(codebook_path))) { wr.Write(0); wr.Write(window); wr.Write(shingle_len); wr.Write(emit_shingles); wr.Write(emit_morphtags); wr.Write(shingle2index.Count); foreach (var k in shingle2index) { byte[] l8 = System.Text.Encoding.UTF8.GetBytes(k.Key); wr.Write(l8.Length); wr.Write(l8); wr.Write(k.Value); } } Console.WriteLine("Start training with CRFSuite on {0}...", train_path); System.Diagnostics.Process p = new System.Diagnostics.Process(); p.StartInfo.Arguments = train_path + " " + data_folder; p.StartInfo.FileName = string.Format("{0}\\chunker_train.cmd", System.IO.Directory.GetCurrentDirectory()); Console.WriteLine("Executing {0} {1}", p.StartInfo.FileName, p.StartInfo.Arguments); bool r = false; r = p.Start(); p.WaitForExit(); // Оценка точности p = new System.Diagnostics.Process(); p.StartInfo.Arguments = test_path + " " + test_result_path + " " + data_folder; p.StartInfo.FileName = string.Format("{0}\\chunker_test.cmd", System.IO.Directory.GetCurrentDirectory()); Console.WriteLine("Executing {0} {1}", p.StartInfo.FileName, p.StartInfo.Arguments); r = p.Start(); p.WaitForExit(); int nb_instance_errors = 0; int nb_word_errors = 0; int nb_instances = 0; int nb_words = 0; using (System.IO.StreamReader rdr = new System.IO.StreamReader(test_result_path)) { bool instance_ok = true; while (!rdr.EndOfStream) { string line = rdr.ReadLine(); if (line == null) { break; } if (line == "") { nb_instances++; if (!instance_ok) { nb_instance_errors++; } instance_ok = true; } else { nb_words++; string[] tx = line.Split('\t'); if (tx[0] != tx[1]) { instance_ok = false; nb_word_errors++; } } } } Console.WriteLine("Per word accuracy={0}", ((float)(nb_words - nb_word_errors)) / nb_words); Console.WriteLine("Per instance accuracy={0}", ((float)(nb_instances - nb_instance_errors)) / nb_instances); return; }
public int getNextSegment() { if (numbSegsMade < k_DesiredSegmentCount) { return(Random.Range(0, m_CurrentThemeData.zones [m_CurrentZone].prefabList.Length)); } int totalExplore = 0; for (int i = 0; i < m_CurrentThemeData.zones[m_CurrentZone].prefabList.Length; i++) { totalExplore += exploreWeights[segmentIDs [segmentIDs.Count - 1], i]; } List <int> possibleIndexs = new List <int>(); float bestScore = -0f; List <int> unvisited = new List <int> (); for (int i = 0; i < m_CurrentThemeData.zones[m_CurrentZone].prefabList.Length; i++) { float score = exploitWeights[segmentIDs [segmentIDs.Count - 1], i] + (Mathf.Sqrt(2) * Mathf.Sqrt(Mathf.Log(totalExplore) / exploreWeights[segmentIDs [segmentIDs.Count - 1], i] + Mathf.Epsilon)); if (exploreWeights [segmentIDs [segmentIDs.Count - 1], i] == 0) { unvisited.Add(i); //If we have not explored this we want to } if (score > bestScore) { bestScore = score; possibleIndexs.Clear(); possibleIndexs.Add(i); } else if (score == bestScore) { possibleIndexs.Add(i); } } int nextSegment = unvisited.Count == 0 ? possibleIndexs [Random.Range(0, possibleIndexs.Count)] : unvisited [Random.Range(0, unvisited.Count)]; //print ("Current segement " + currentSegmentID + " Best next segment: " + nextSegment + " with score of: " + bestScore); string outString = currentGame + "," + (segmentsPassed) + "," + segmentIDs [0] + "," + segmentIDs [segmentIDs.Count - 1] + "," + nextSegment + "," + bestScore + "," + exploitWeights [segmentIDs [segmentIDs.Count - 1], nextSegment] + "," + (Mathf.Sqrt(Mathf.Log(totalExplore) / ((float)exploreWeights[segmentIDs [segmentIDs.Count - 1], nextSegment] + Mathf.Epsilon))) + ","; foreach (List <float> emotions in currentSectionEmotionValues) { float total = 0f; foreach (float emotion in emotions) { total += emotion; } total /= emotions.Count; outString += total + ","; } outString += score + "\n"; if (segmentsPassed != 0) { using (System.IO.StreamWriter file = new System.IO.StreamWriter((summaryDataOut), true)) { file.WriteLine(outString); } } if (!isAdaptive) { return(Random.Range(0, m_CurrentThemeData.zones [m_CurrentZone].prefabList.Length)); } return(nextSegment); //return a random best index }
// Update is called once per frame void Update() { if (Input.GetKeyDown(KeyCode.Space)) { if (!locker) { fileName = "BlockData" + deneme + ".txt"; folderName = @"C:\Users\admin\Desktop\Blocks"; System.IO.Directory.CreateDirectory(folderName); folderName = System.IO.Path.Combine(folderName, fileName); locker = true; deneme++; } else { locker = false; } if (Time.timeScale == 0) { Time.timeScale = 1; } else { Time.timeScale = 0; } } if (Input.GetKeyDown(KeyCode.S)) { locker = false; } if (locker) { using (System.IO.StreamWriter fs = System.IO.File.AppendText(folderName)) { Vector3 posData = (temp[0].transform.position); Vector3 posData1 = (temp[1].transform.position); float anglex = temp[0].transform.localEulerAngles.x; anglex = (anglex > 180) ? anglex - 360 : anglex; float angley = temp[0].transform.localEulerAngles.y; angley = (angley > 180) ? angley - 360 : angley; float anglez = temp[0].transform.localEulerAngles.z; anglez = (anglez > 180) ? anglez - 360 : anglez; float anglex1 = temp[1].transform.localEulerAngles.x; anglex1 = (anglex1 > 180) ? anglex1 - 360 : anglex1; float angley1 = temp[1].transform.localEulerAngles.y; angley1 = (angley1 > 180) ? angley1 - 360 : angley1; float anglez1 = temp[1].transform.localEulerAngles.z; anglez1 = (anglez > 180) ? anglez1 - 360 : anglez1; // fs.WriteLine(posData.x + "," + posData.y + "," + posData.z + "," + anglex + "," + angley + "," + anglez); // fs.WriteLine(posData1.x + "," + posData1.y + "," + posData1.z + "," + anglex1 + "," + angley1 + "," + anglez1 + "," + "1"); if (write == 1) { fs.WriteLine(posData.x + "," + posData.y + "," + posData.z + "," + anglex + "," + angley + "," + anglez); write = 2; } if (write == 2) { fs.Write(posData.x + "," + posData.y + "," + posData.z + "," + anglex + "," + angley + "," + anglez + ","); write = 1; } if (write == 3) { fs.WriteLine("X,Y,Z,Rotx,Roty,Rotz," + "preX,preY,preZ,preRotx,preRoty,preRotz"); fs.Write(posData.x + "," + posData.y + "," + posData.z + "," + anglex + "," + angley + "," + anglez + ","); } write = 1; } } if (Input.GetKeyDown(KeyCode.R)) { locker = false; for (int i = 0; i < startCount; i++) { Destroy(temp[i]); } count = startCount; temp.Clear(); pos.y = 1; RandomCreater(); Spawn(); } }
void Update() { if (Input.GetKeyDown(KeyCode.LeftArrow) || Input.GetKeyDown(KeyCode.RightArrow) || Input.GetKeyDown(KeyCode.UpArrow) || Input.GetKeyDown(KeyCode.DownArrow)) { keysPressed [1]++; } //Update the full frame by frame emotion values for (int i = 0; i < 9; i++) { if (emotionListener.currentEmotions.ContainsKey((Emotions)i)) { currentSectionEmotionValues [i].Add(emotionListener.currentEmotions [(Emotions)i]); } else { currentSectionEmotionValues [i].Add(-1); } } int currentSeg = segmentIDs.Count > 0 ? segmentIDs [0] : -1; string outString = currentGame + "," + (segmentsPassed + 1) + "," + currentSeg + ","; foreach (var emotion in emotionListener.currentEmotions) { outString += emotion.Value + ","; } outString += "\n"; using (System.IO.StreamWriter file = new System.IO.StreamWriter((allDataOut), true)) { file.WriteLine(outString); } while (m_Segments.Count < k_DesiredSegmentCount) { SpawnNewSegment(); } if (parallaxRoot != null && currentTheme.cloudPrefabs.Length > 0) { while (parallaxRoot.childCount < currentTheme.cloudNumber) { float lastZ = parallaxRoot.childCount == 0 ? 0 : parallaxRoot.GetChild(parallaxRoot.childCount - 1).position.z + currentTheme.cloudMinimumDistance.z; GameObject obj = Instantiate(currentTheme.cloudPrefabs[Random.Range(0, currentTheme.cloudPrefabs.Length)]); obj.transform.SetParent(parallaxRoot, false); obj.transform.localPosition = Vector3.up * (currentTheme.cloudMinimumDistance.y + (Random.value - 0.5f) * currentTheme.cloudSpread.y) + Vector3.forward * (lastZ + (Random.value - 0.5f) * currentTheme.cloudSpread.z) + Vector3.right * (currentTheme.cloudMinimumDistance.x + (Random.value - 0.5f) * currentTheme.cloudSpread.x); obj.transform.localScale = obj.transform.localScale * (1.0f + (Random.value - 0.5f) * 0.5f); obj.transform.localRotation = Quaternion.AngleAxis(Random.value * 360.0f, Vector3.up); } } if (!m_IsMoving) { return; } float scaledSpeed = m_Speed * Time.deltaTime; m_ScoreAccum += scaledSpeed; m_CurrentZoneDistance += scaledSpeed; int intScore = Mathf.FloorToInt(m_ScoreAccum); if (intScore != 0) { AddScore(intScore); } m_ScoreAccum -= intScore; m_TotalWorldDistance += scaledSpeed; m_CurrentSegmentDistance += scaledSpeed; if (m_CurrentSegmentDistance > m_Segments[0].worldLength) { m_CurrentSegmentDistance -= m_Segments[0].worldLength; segmentsPassed++; // m_PastSegments are segment we already passed, we keep them to move them and destroy them later // but they aren't part of the game anymore updateExploitScoreForSegement(); sectionStartCoinScore = characterController.coins; m_PreviousSegment = segmentIDs[0]; segmentIDs.RemoveAt(0); keysPressed [0] = keysPressed [1]; keysPressed [1] = 0; m_PastSegments.Add(m_Segments[0]); m_Segments.RemoveAt(0); } Vector3 currentPos; Quaternion currentRot; Transform characterTransform = characterController.transform; m_Segments[0].GetPointAtInWorldUnit(m_CurrentSegmentDistance, out currentPos, out currentRot); // Floating origin implementation // Move the whole world back to 0,0,0 when we get too far away. bool needRecenter = currentPos.sqrMagnitude > k_FloatingOriginThreshold; // Parallax Handling if (parallaxRoot != null) { Vector3 difference = (currentPos - characterTransform.position) * parallaxRatio;; int count = parallaxRoot.childCount; for (int i = 0; i < count; i++) { Transform cloud = parallaxRoot.GetChild(i); cloud.position += difference - (needRecenter ? currentPos : Vector3.zero); } } if (needRecenter) { int count = m_Segments.Count; for (int i = 0; i < count; i++) { m_Segments[i].transform.position -= currentPos; } count = m_PastSegments.Count; for (int i = 0; i < count; i++) { m_PastSegments[i].transform.position -= currentPos; } // Recalculate current world position based on the moved world m_Segments[0].GetPointAtInWorldUnit(m_CurrentSegmentDistance, out currentPos, out currentRot); } characterTransform.rotation = currentRot; characterTransform.position = currentPos; if (parallaxRoot != null && currentTheme.cloudPrefabs.Length > 0) { for (int i = 0; i < parallaxRoot.childCount; ++i) { Transform child = parallaxRoot.GetChild(i); // Destroy unneeded clouds if ((child.localPosition - currentPos).z < -50) { Destroy(child.gameObject); } } } // Still move past segment until they aren't visible anymore. for (int i = 0; i < m_PastSegments.Count; ++i) { if ((m_PastSegments[i].transform.position - currentPos).z < k_SegmentRemovalDistance) { m_PastSegments[i].Cleanup(); m_PastSegments.RemoveAt(i); i--; } } PowerupSpawnUpdate(); if (m_Speed < maxSpeed) { m_Speed += k_Acceleration * Time.deltaTime; } else { m_Speed = maxSpeed; } m_Multiplier = 1 + Mathf.FloorToInt((m_Speed - minSpeed) / (maxSpeed - minSpeed) * speedStep); if (modifyMultiply != null) { foreach (MultiplierModifier part in modifyMultiply.GetInvocationList()) { m_Multiplier = part(m_Multiplier); } } MusicPlayer.instance.UpdateVolumes(speedRatio); }
static void Main() { WriteLine("\n----------------------------------------------------------------"); WriteLine("\nProblem 7B\n"); // starting and end points double ra = 0.001; double rb = 20; vector fa = new vector(ra - ra * ra, 1 - 2 * ra); // starting f and f' conditions vector fb = new vector(0, Double.NaN); // expected result at f(b), f'(b) is unknown // ODE conditions double h = 1e-3; double oeps = 1e-6; double oacc = 1e-6; // Auxiliary function to rootf on Func <vector, vector> M = delegate(vector epsilon) { // energy epsilon Func <double, vector, vector> seq = makeSEQ(epsilon[0]); (List <double> xvals, List <vector> yvals) = ode.rk45(seq, ra, fa, rb, h: h); vector Fb = yvals[yvals.Count - 1]; return(new vector(Fb[0] - fb[0])); }; // Shooting method by root finding of M(epsilon) vector x0 = new vector(-0.47); double racc = 1e-3; vector groot = rootf.newton(M, x0, eps: racc); double energy = groot[0]; // Write results WriteLine($"Shooting method of hydrogen SEQ ODE by rootfinding of auxiliary func M"); WriteLine($"Initial ODE step: {h}"); WriteLine($"ODE accuracy goal: {oacc}"); WriteLine($"ODE relative accuracy goal: {oeps}"); WriteLine($"ODE starting x: {ra}"); WriteLine($"ODE end x: {rb}"); WriteLine($"rootf started at epsilon: {x0[0]}"); WriteLine($"rootf accuracy goal: {racc}"); WriteLine($"Found root of M(epsilon): {energy}"); WriteLine($"Value of M at root: {M(groot)[0]}"); WriteLine($"Analytical root: {-0.5}"); WriteLine($"Deviation from analytical result: {-0.5-energy}"); // Solve differential equation with found solution and export Func <double, vector, vector> seq_sol = makeSEQ(energy); (List <double> rvals, List <vector> fvals) = ode.rk45(seq_sol, ra, fa, rb, h: h); var writer = new System.IO.StreamWriter("out.func.txt"); for (int i = 0; i < rvals.Count; i++) { if (rvals[i] > 8) { break; } writer.WriteLine($"{rvals[i]} {fvals[i][0]} {fvals[i][1]}"); } // Write analytical solution writer.Write("\n\n"); for (double r = 0; r <= 8; r += 0.05) { writer.WriteLine($"{r} {r*Exp(-r)}"); } writer.Close(); WriteLine($"\n\nSee PlotB.svg for plot of solution and analytical function"); WriteLine("\n----------------------------------------------------------------\n"); }
protected void btn_Submit_Click(object sender, EventArgs e) { int CouplePackage = Convert.ToInt16(ddl_CouplePackage.SelectedValue); int SinglePackage = Convert.ToInt16(ddl_SinglePackage.SelectedValue); int TeensPackage = Convert.ToInt16(ddl_TeensPackage.SelectedValue); int KidsPackage = Convert.ToInt16(ddl_KidsPackage.SelectedValue); decimal CoupleAmount = Convert.ToDecimal(CouplePackage * Convert.ToInt32(pricecouple.Text)); decimal SingleAmount = Convert.ToDecimal(SinglePackage * Convert.ToInt32(pricesingle.Text)); decimal TeensAmount = Convert.ToDecimal(TeensPackage * Convert.ToInt32(priceteen.Text)); decimal KidsAmount = Convert.ToDecimal(KidsPackage * Convert.ToInt32(pricekids.Text)); decimal TotalAmount = CoupleAmount + SingleAmount + TeensAmount + KidsAmount; //Session["Quantity"] = Quantity; //string[] arrCat = Package.Split(','); //Session["Package"] = arrCat[0]; // decimal TotalAmount = Convert.ToDecimal(Quantity) * Convert.ToDecimal(arrCat[1]); //Session["CouplePackage"] = CouplePackage; //Session["SinglePackage"] = SinglePackage; //Session["TeensPackage"] = TeensPackage; //Session["KidsPackage"] = KidsPackage; //Session["TotalAmount"] = TotalAmount; //Session["Name"] = txtName.Text; //Session["Email"] = txtEmail.Text; //Session["ContactNo"] = txtContact.Text; DateTime DateofBooking = DateTime.Now.Date; string ISDCode = "91"; // string BookingId = "KODNY00000"; //for the First TIme TransactionRecord tr = new TransactionRecord(); tr.NYBookingID = GTICKBOL.NewYearBooking_Max(); //Session["BookingID"] = tr.NYBookingID; //tr.QntyCouple = Convert.ToInt16(Session["CouplePackage"]); //tr.QntySingle = Convert.ToInt16(Session["SinglePackage"]); //tr.QntyTeens = Convert.ToInt16(Session["TeensPackage"]); //tr.QntyKids = Convert.ToInt16(Session["KidsPackage"]); //tr.NYTotalAmount = Convert.ToDecimal(Session["TotalAmount"].ToString()); tr.QntyCouple = Convert.ToInt16(CouplePackage); tr.QntySingle = Convert.ToInt16(SinglePackage); tr.QntyTeens = Convert.ToInt16(TeensPackage); tr.QntyKids = Convert.ToInt16(KidsPackage); tr.NYTotalAmount = Convert.ToDecimal(TotalAmount.ToString()); string nybookingid = MaxBookingId(tr.NYBookingID.ToString()); tr.NYBookingID = nybookingid; //GTICKV.LogEntry(Session["BookingID"].ToString(), "Sending to HDFC Payment Gateway", "8"); //GTICKBOL.NewYearBooking_Details(Convert.ToInt16(CouplePackage), Convert.ToInt16(SinglePackage), Convert.ToInt16(TeensPackage), Convert.ToInt16(KidsPackage), Convert.ToDecimal(TotalAmount.ToString()), DateofBooking, tr.NYBookingID.ToString(), txtName.Text, txtEmail.Text, txtContact.Text, false, ""); GTICKBOL.NewYearBooking_Details(Convert.ToInt16(CouplePackage), Convert.ToInt16(SinglePackage), Convert.ToInt16(TeensPackage), Convert.ToInt16(KidsPackage), Convert.ToDecimal(TotalAmount.ToString()), DateofBooking, tr.NYBookingID.ToString(), txtName.Text, txtEmail.Text, txtContact.Text, false, "", textroyalinfo.Text); //Payment Gateway Flow Microsoft.Practices.EnterpriseLibrary.Logging.Logger.Write(tr.NYBookingID.ToString() + "Sending to HDFC Payment Gateway"); //GTICKV.LogEntry(tr.NYBookingID.ToString(), "Sending to HDFC Payment Gateway", "8", ""); string trackId, amount; string URL = ""; trackId = tr.NYBookingID; // Session["trackId"] = trackId; amount = TotalAmount.ToString(); // Session["amount"] = amount; String ErrorUrl = KoDTicketingIPAddress + "NewYearPackages/HDFC/Error.aspx"; String ResponseUrl = KoDTicketingIPAddress + "NewYearPackages/HDFC/ReturnReceipt.aspx"; //string qrystr = "id=" + HDFCTransPortalID + "&password="******"&action=1&langid=USA¤cycode=356&amt=" + Server.UrlEncode(amount) // + "&responseURL=" + Server.UrlEncode(ResponseUrl) + "&errorURL=" + Server.UrlEncode(ErrorUrl) // + "&trackid=" + trackId // + "&udf1=TicketBooking&udf2=" + Server.UrlEncode(txtEmailAddress.Text.Trim()) // + "&udf3=" + Server.UrlEncode(txtISDCode.Text + txtContactNo.Text) + "&udf4=" + Server.UrlEncode(txtAddress.Text.Trim()) + "&udf5=" + tr.BookingID; string qrystr = "id=" + HDFCTransPortalID + "&password="******"&action=1&langid=USA¤cycode=356&amt=" + amount + "&responseURL=" + Server.UrlEncode(ResponseUrl) + "&errorURL=" + Server.UrlEncode(ErrorUrl) + "&trackid=" + trackId + "&udf1=TicketBooking&udf2=" + txtEmail.Text.Trim() + "&udf3=" + Server.UrlEncode(ISDCode.ToString().TrimStart('+') + txtContact.Text) + "&udf4=" + Server.UrlEncode(txtName.Text.Trim()) + "&udf5=" + tr.BookingID.ToString(); Microsoft.Practices.EnterpriseLibrary.Logging.Logger.Write("Preparing for HDFC Payment..." + qrystr); //Writefile_new("\n***************Initial Request********************", Server.MapPath("~")); //Writefile_new("\n\nDateTime:" + DateTime.Now.ToString("dd/MM/yy HH:mm:ss") + " Reference No:" + trackId + "Request XML:" + qrystr, Server.MapPath("~")); System.IO.StreamWriter requestWriter = null; Microsoft.Practices.EnterpriseLibrary.Logging.Logger.Write("Redirecting for HDFC Payment..." + HDFCTransUrl); System.Net.HttpWebRequest objRequest = (System.Net.HttpWebRequest)System.Net.WebRequest.Create(HDFCTransUrl); //create a SSL connection object server-to-server objRequest.Method = "POST"; objRequest.ContentLength = qrystr.Length; objRequest.ContentType = "application/x-www-form-urlencoded"; objRequest.CookieContainer = new System.Net.CookieContainer(); try { Microsoft.Practices.EnterpriseLibrary.Logging.Logger.Write("Processing request for HDFC Payment..."); requestWriter = new System.IO.StreamWriter(objRequest.GetRequestStream()); // here the request is sent to payment gateway requestWriter.Write(qrystr); } catch (Exception ex) { Microsoft.Practices.EnterpriseLibrary.Logging.Logger.Write("Excetion while processing HDFC payment: " + trackId + ex.Message); } if (requestWriter != null) { requestWriter.Close(); } Microsoft.Practices.EnterpriseLibrary.Logging.Logger.Write("Review validation response from HDFC Payment Gateway..."); System.Net.HttpWebResponse objResponse = (System.Net.HttpWebResponse)objRequest.GetResponse(); //System.Net.CookieContainer responseCookiesContainer = new System.Net.CookieContainer(); //foreach (System.Net.Cookie cook in objResponse.Cookies) //{ // responseCookiesContainer.Add(cook); //} using (System.IO.StreamReader sr = new System.IO.StreamReader(objResponse.GetResponseStream())) { String NSDLval = sr.ReadToEnd(); Microsoft.Practices.EnterpriseLibrary.Logging.Logger.Write("Response: " + NSDLval); if (NSDLval.Contains("Invalid User Defined Field")) { lblMess.Text = "The information submitted contains some invalid character, please avoid using [+,-,#] etc."; return; } //Writefile_new("\n***************Initial Response********************", Server.MapPath("~")); //Writefile_new("\n\nDateTime:" + DateTime.Now.ToString("dd/MM/yy HH:mm:ss") + " Reference No:" + trackId + "Request XML:" + NSDLval, Server.MapPath("~")); if (NSDLval.IndexOf("http") == -1) { lblMess.Text = "Payment cannot be processed with information provided."; return; } // gb.HDFCLog(transid.ToString(), "", trackId, "***Initial Response*** : " + NSDLval); string strPmtId = NSDLval.Substring(0, NSDLval.IndexOf(":http")); // Merchant MUST map (update) the Payment ID received with the merchant Track Id in his database at this place. string strPmtUrl = NSDLval.Substring(NSDLval.IndexOf("http")); if (strPmtId != String.Empty && strPmtUrl != String.Empty) { URL = strPmtUrl.ToString() + "?PaymentID=" + strPmtId; } else { lblMess.Text = "Invalid Response!"; } sr.Close(); } Microsoft.Practices.EnterpriseLibrary.Logging.Logger.Write("Payment Redirection: " + URL); Response.Redirect(URL, false); }